WET BLANK FLIPPING METHOD FOR MANUFACTURING MOLDED PULP PRODUCTS AND PULP MOLDING MACHINE

Abstract

A wet blank flipping method for manufacturing pulp molded products, which follows these steps: after the wet blank is formed in the suction filtration forming mold, it is transferred to the hot-pressing shaping device for hot-press drying and shaping to create pulp molded products, characterized in that: said transfer is done using a first wet blank transfer device and a second wet blank transfer device to move the wet blank from the suction filtration forming mold to the hot-pressing shaping device; wherein, the first wet blank transfer device extracts the wet blank from the suction filtration forming mold and transfers it to the second wet blank transfer device, which then moves the wet blank to the hot-pressing shaping device.

Claims

1. A wet blank flipping method for manufacturing pulp molded products, comprising following steps: after the wet blank is formed in a suction filtration forming mold, it is transferred to a hot-pressing shaping device for hot-press drying and shaping to create pulp molded products, characterized in that: said transfer is done using a first wet blank transfer device (7) and a second wet blank transfer device (5) to move the wet blank from the suction filtration forming mold (2a) to the hot-pressing shaping device; wherein, the first wet blank transfer device extracts the wet blank from the suction filtration forming mold (2a) and transfers it to the second wet blank transfer device, which then moves the wet blank to the hot-pressing shaping device; there can be one or multiple hot-pressing shaping devices, where multiple devices include a left hot-pressing shaping device (3L) and a right hot-pressing shaping device (3R).

2. The wet blank flipping method for manufacturing pulp molded products according to claim 1, characterized in that: the first wet blank transfer mold (7a) of the first wet blank transfer device (7) transfers the wet blank extracted from the suction filtration forming mold (2a) to the second wet blank transfer mold (5a) of the second wet blank transfer device, the second wet blank transfer mold (5a) then flips the wet blank 180 degrees vertically before transferring it to the hot-pressing shaping device; or, the first wet blank transfer mold (7a) extracts the wet blank from the suction filtration forming mold (2a), flips it 180 degrees vertically first, then transfers the flipped wet blank to the second wet blank transfer mold (5a), which then transfers the received wet blank to the hot-pressing shaping device.

3. The wet blank flipping method for manufacturing pulp molded products according to claim 2, characterized in that: the second wet blank transfer mold (5a) can move horizontally along the left-right translation rail (8) to transfer the wet blank above the lower hot-press mold, the vertically movable lower hot-press mold then extracts the wet blank from the second wet blank transfer mold; there can be one or multiple lower hot-press molds, where multiple molds include a left lower hot-press mold (3Lc) and a right lower hot-press mold (3Rc).

4. The wet blank flipping method for manufacturing pulp molded products according to claim 2, characterized in that: the transfer of the wet blank from the first wet blank transfer mold (7a) to the second wet blank transfer mold (5a), and the transfer of the flipped wet blank from the second wet blank transfer mold (5a) to the lower hot-press mold (3c), are both completed directly below the first wet blank transfer mold (7a); the lower hot-press mold of the hot-pressing shaping device can move along the left-right translation rail (8) to a position directly below the first wet blank transfer mold (7a) to receive the flipped wet blank from the second wet blank transfer mold (5a); the second wet blank transfer mold (5a) moves below the first wet blank transfer mold (7a) to receive the wet blank transferred from the first wet blank transfer mold (7a), then either moves out from under the first wet blank transfer mold (7a) with the wet blank or directly flips 180 degrees vertically while under the first wet blank transfer mold (7a); it then transfers the flipped wet blank into the lower hot-press mold, which has moved along the left-right translation rail (8) to a position directly below the first wet blank transfer mold (7a); the lower hot-press mold, now containing the flipped wet blank, moves back along the left-right translation rail (8) to a position directly below the upper hot-press mold, thus achieving the flipping of the wet blank and its transfer to the hot-pressing shaping device; there can be one or multiple lower hot-press molds, where multiple molds include a left lower hot-press mold (3Lc) and a right lower hot-press mold (3Rc); there can also be one or multiple upper hot-press molds, where multiple molds include a left upper hot-press mold (3La) and a right upper hot-press mold (3Ra).

5. The wet blank flipping method for manufacturing pulp molded products according to claim 2, characterized in that: in the hot-pressing shaping device, the lower hot-press mold is fixed while the upper hot-press mold can move vertically; the first wet blank transfer mold (7a) of the first wet blank transfer device (7) can move vertically to extract the wet blank from the suction filtration forming mold (2a); alternatively, the first wet blank transfer mold (7a) can be fixed while the suction filtration forming mold (2a) moves vertically, transferring the wet blank to the first wet blank transfer mold (7a) as it moves upward; the second wet blank transfer mold 5a, driven by a multi-degree-of-freedom robotic arm or mechanical arm, can flip vertically, move in three dimensions, or rotate to directly transfer the wet blank received from the first wet blank transfer mold 7a to the lower hot-press mold, which always remains below the upper hot-press mold, after flipping it vertically; there can be one or multiple lower hot-press molds, where multiple molds include a left lower hot-press mold (3Lc) and a right lower hot-press mold (3Rc); there can also be one or multiple upper hot-press molds, where multiple molds include a left upper hot-press mold (3La) and a right upper hot-press mold (3Ra).

6. The wet blank flipping method for manufacturing pulp molded products according to claim 3, characterized in that: the 180-degree vertical flip of the first wet blank transfer mold (7a) or second wet blank transfer mold (5a) is performed around an axis.

7. A wet blank flipping pulp molding machine, including a frame, a suction filtration forming device (2), at least one hot-pressing shaping device (3), characterized in that: it also includes a first wet blank transfer device (7) and a second wet blank transfer device (5); the first wet blank transfer device (7) contains a first wet blank transfer mold (7a) that extracts the wet blank from the suction filtration forming mold (2a), the second wet blank transfer device contains a second wet blank transfer mold (5a) that receives the wet blank from the first wet blank transfer mold and transfers it to the hot-pressing shaping device.

8. The wet blank flipping pulp molding machine according to claim 7, characterized in that: the first wet blank transfer device contains a first wet blank transfer mold (7a) that can move vertically and extract the wet blank from the suction filtration forming mold (2a); the second wet blank transfer device (5) contains a second wet blank transfer mold (5a) that can perform a 180-degree vertical flip and move horizontally along the left-right translation rail (8) to receive the wet blank transferred from the first wet blank transfer mold, then flip the wet blank 180 degrees vertically before transferring it above the lower hot-press mold; the vertically movable lower hot-press mold extracts the flipped wet blank from the second wet blank transfer mold.

9. The wet blank flipping pulp molding machine according to claim 7, characterized in that: the first wet blank transfer device contains a first wet blank transfer mold (7a) that can both move vertically and flip 180 degrees vertically to extract the wet blank from the suction filtration forming mold (2a), flip it 180 degrees vertically, and then transfer it to the second wet blank transfer mold (5a); the second wet blank transfer device (5) contains a second wet blank transfer mold (5a) that can move horizontally along the left-right translation rail (8) fixed to the underside of the upper frame, to receive the flipped wet blank from the first wet blank transfer mold (7a) and transfer it above the lower hot-press mold; the vertically movable lower hot-press mold receives the flipped wet blank from the first wet blank transfer mold (7a).

10. The wet blank flipping pulp molding machine according to claim 7, characterized in that: the second wet blank transfer device (5) contains a second wet blank transfer mold (5a) that can receive the wet blank from below the first wet blank transfer mold (7a), flip it 180 degrees vertically, and transfer the flipped wet blank to the lower hot-press mold (3c) while still directly below the first wet blank transfer mold (7a); this achieves the goal of receiving the wet blank from the first wet blank transfer mold, flipping it, and transferring it to the hot-pressing shaping device; the 180-degree vertical flip of the wet blank can be performed either directly below the first wet blank transfer mold (7a) or after moving out from under it; the hot-pressing shaping device contains a lower hot-press mold that can move along the left-right translation rail (8) between positions directly below the upper hot-press mold and directly below the first wet blank transfer mold (7a); it receives the 180-degree flipped wet blank transferred from the second wet blank transfer mold (5a), then returns along the left-right translation rail (8) to a position directly below the upper hot-press mold to perform hot-press clamping with the upper hot-press mold, drying and shaping the wet blank; there can be one or multiple lower hot-press molds, where multiple molds include a left lower hot-press mold (3Lc) and a right lower hot-press mold (3Rc); there can also be one or multiple upper hot-press molds, where multiple molds include a left upper hot-press mold (3La) and a right upper hot-press mold (3Ra).

11. The wet blank flipping pulp molding machine according to claim 7, characterized in that: In the hot-pressing shaping device, the lower hot-press mold is fixed while the upper hot-press mold can move vertically; the first wet blank transfer device (7) contains a first wet blank transfer mold (7a) that can move vertically to extract the wet blank from the suction filtration forming mold (2a); alternatively, the first wet blank transfer device (7) contains a fixed first wet blank transfer mold (7a), while the suction filtration forming device (2) contains a vertically movable suction filtration forming mold (2a) that moves upward to transfer the wet blank to the first wet blank transfer mold (7a); the second wet blank transfer device (5) contains a second wet blank transfer mold (5a) driven by a multi-degree-of-freedom robotic arm or mechanical arm; the second wet blank transfer mold (5a) can flip vertically, move in three dimensions, or rotate; driven by the multi-degree-of-freedom robotic arm or mechanical arm, the second wet blank transfer mold (5a) extracts the wet blank from the first wet blank transfer mold (7a), flips it, and directly transfers it to the lower hot-press mold.

12. The wet blank flipping pulp molding machine according to claim 8, characterized in that: The horizontal movement of the second wet blank transfer device along the left-right translation rail (8) is driven by the horizontal driver of second wet blank transfer device (6); The horizontal driver of second wet blank transfer device uses a gear and rack drive structure, consisting of a rack (6b) fixed to the frame and a gear power head (6a) fixed to the second wet blank transfer device; the gear power head contains a gear and a servo motor that drives the gear's rotation; the gear of the gear power head meshes with the rack, and the servo motor drives the gear's rotation, thus moving the second wet blank transfer device horizontally left and right; alternatively, the horizontal movement of the second wet blank transfer device can be driven by a linear motor, with its moving part fixed to the second wet blank transfer device and its stationary part fixed to the frame; another alternative is to use a ball screw mechanism to drive the horizontal movement of the second wet blank transfer device.

13. The wet blank flipping pulp molding machine according to claim 10, characterized in that: the second wet blank transfer mold (5a) can flip 180 degrees vertically around the second wet blank flipping shaft (5.1), move horizontally along the longitudinal rail (4), and move up and down along the vertical rail 4.1; this allows it to go under the first wet blank transfer mold to receive the wet blank, then flip it 180 degrees vertically before transferring it to the lower hot-press mold, which has moved horizontally along the left-right translation rail (8) to a position below the first wet blank transfer mold (7a); alternatively, the second wet blank transfer mold (5a) can be driven by a multi-degree-of-freedom robotic arm or mechanical arm to move and flip 180 degrees vertically, allowing it to receive the wet blank from below the first wet blank transfer mold, flip it 180 degrees vertically, and then transfer it to the lower hot-press mold that has moved along the left-right translation rail (8) to a position below the first wet blank transfer mold (7a).

Description

BRIEF DESCRIPTION OF FIGURES

[0043] FIG. 1 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing up).

[0044] FIG. 1A is an A-A directional sectional view of FIG. 1.

[0045] FIG. 1B is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing up).

[0046] FIG. 1C is a B-B directional sectional view of FIG. 1B.

[0047] FIG. 1D is a partial enlarged view of the second wet blank transfer device 5 and the horizontal driver 6 of the second wet blank transfer device in Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame.

[0048] FIG. 2 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, and the second wet blank transfer mold 5a is flipping).

[0049] FIG. 2A is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, and the second wet blank transfer mold 5a is flipping).

[0050] FIG. 3 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing down).

[0051] FIG. 3A is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing down).

[0052] FIG. 4 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame (showing the state when the second wet blank transfer device 5, with its working surface 5M facing down, has moved above the left lower hot-press mold 3Lc).

[0053] FIG. 4A is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame (showing the state when the second wet blank transfer device 5, with its working surface 5M facing down, has moved above the left lower hot-press mold 3Lc).

[0054] FIG. 5 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame. The figure shows the horizontal movement driving method of the second wet blank transfer device 5, where a servo motor drives the gear and rack to move the second wet blank transfer device 5 horizontally.

[0055] FIG. 6 is a front view structural diagram of Embodiment 1 of the Wet Blank Flipping Pulp Molding Machine. The structure of the upper frame 1b varies according to the height changes of the hot-pressing shaping device and the first wet blank transfer device.

[0056] FIG. 7 is a front view structural diagram of Embodiment 2 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the lower frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, and the second wet blank transfer mold 5a is flipping).

[0057] FIG. 7A is a front view structural diagram of Embodiment 2 of the Wet Blank Flipping Pulp Molding Machine with the left-right translation rail 8 fixed to the upper frame (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, and the second wet blank transfer mold 5a is flipping).

[0058] FIG. 8 is a front view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing up).

[0059] FIG. 9A is a C-C directional sectional view of FIG. 8, with the flipping mold 5a in the T position.

[0060] FIG. 9B is a C-C directional sectional view of FIG. 8, with the flipping mold 5a in the D position.

[0061] FIG. 10 is a side view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine.

[0062] FIG. 10A is a side view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine (where the second wet blank transfer device 5 is a combination of a multi-degree-of-freedom robotic arm or mechanical arm with the second wet blank transfer mold 5a).

[0063] FIG. 11 is a front view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, and the second wet blank transfer mold 5a is flipping).

[0064] FIG. 12 is a front view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 has moved under the first wet blank transfer mold 7a, with the working surface 5M of the second wet blank transfer mold facing down).

[0065] FIG. 13 is a front view structural diagram of Embodiment 3 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the working surface 5M of the second wet blank transfer mold is facing down, and the left lower hot-press mold 3Lc has moved under the second wet blank transfer mold 5a).

[0066] FIG. 14 is a front view structural diagram of Embodiment 4 of the Wet Blank Flipping Pulp Molding Machine.

[0067] FIG. 15 is a front view structural diagram of Embodiment 5 of the Wet Blank Flipping Pulp Molding Machine, and also a D-D directional sectional view of FIG. 16.

[0068] FIG. 16 is a side view structural diagram of Embodiment 5 of the Wet Blank Flipping Pulp Molding Machine.

[0069] FIG. 17 is a front view structural diagram of Embodiment 6 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 is above the first wet blank transfer mold 7a, with the working surface 7M of the first wet blank transfer mold facing down).

[0070] FIG. 18 is a front view structural diagram of Embodiment 6 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 is above the first wet blank transfer mold 7a, and the first wet blank transfer mold 7a is flipping).

[0071] FIG. 19 is a front view structural diagram of Embodiment 6 of the Wet Blank Flipping Pulp Molding Machine (showing the state when the second wet blank transfer device 5 is above the first wet blank transfer mold 7a, with the working surface 7M of the first wet blank transfer mold facing up).

[0072] FIG. 20 is an E-E directional sectional view of FIG. 19, which shows the flipping drive method of the first wet blank transfer mold 7a and the horizontal movement drive method of the second wet blank transfer device 5.

[0073] FIG. 21 is a front view structural diagram of Embodiment 8 of the Wet Blank Flipping Pulp Molding Machine.

[0074] FIG. 22 is a front view structural diagram of Embodiment 8 of the Wet Blank Flipping Pulp Molding Machine (the second wet blank transfer device 5 has moved above the lower hot-press mold, and the upper hot-press mold has moved above the material receiving platform 13).

REFERENCE NUMERALS

[0075] 1frame; 1alower frame; 1bupper frame; 1ctie rod; 2suction filtration forming device; 2asuction filtration forming mold; 2bsuction filtration forming pulp tank; 3hot-pressing shaping device (hot-press clamping device); 3Lleft hot-pressing shaping device (left hot-press clamping device); 3Rright hot-pressing shaping device (right hot-press clamping device); 3.1hot-pressing station; 3L.1left hot-pressing station; 3R.1right hot-pressing station; 3aupper hot-press mold; 3Laleft upper hot-press mold; 3Raright upper hot-press mold; 3bupper hot-press mold driving device; 3Lbleft upper hot-press mold driving device; 3Rbright upper hot-press mold driving device; 3flower hot-press mold driving device; 3Lfleft lower hot-press mold driving device; 3Rfright lower hot-press mold driving device; 3clower hot-press mold; 3Lcleft lower hot-press mold; 3Rcright lower hot-press mold; 5second wet blank transfer device; 5.1second wet blank flipping shaft; 5asecond wet blank transfer mold; 5bwet blank flipping driver; 5csecond wet blank transfer device moving frame; 4longitudinal rail; 4alongitudinal rail slider; 4.1vertical rail; 5Msecond wet blank transfer mold working surface; 6horizontal driver of second wet blank transfer device; 6agear power head; 6brack; 7first wet blank transfer device; 7.1first wet blank flipping shaft; 7.1afirst flipping shaft driver; 7afirst wet blank transfer mold; 7bpower transmission mechanism of first wet blank transfer mold; 7cfirst wet blank moving frame; 7Mfirst wet blank transfer mold working surface; 8left-right translation rail; 9left-right translation rail slider; 10horizontal driving mechanism of lower hot-press mold; 10Lleft horizontal driving mechanism of lower hot-press mold; 10Rright horizontal driving mechanism of lower hot-press mold; Ttransfer station of flipping mold 5a (T position); Davoidance station of flipping mold 5a (D position); 11dried and shaped product; 12connector. 13material receiving platform;

DETAILED DESCRIPTION OF EMBODIMENTS

[0076] This disclosure first provides a completely new paper pulp molding process, allowing the smooth surface of the hot-press mold to press against the mesh surface of the wet blank, while the mesh surface of the hot-press mold, which has some flexibility and can easily press against the entire surface of the wet blank, presses against the fuzzy surface of the wet blank. This can easily achieve a smooth surface on the product. First, the wet blank is removed from the suction filtration forming mold. After the wet blank leaves the suction filtration forming mold and before it enters the hot-pressing shaping mold, a second wet blank transfer device flips the wet blank 180 degrees, then sends it into the hot-press mold for hot-press drying and shaping.

[0077] Secondly, due to the very compact structure of the fully automatic pulp molding machine, achieving such a 180-degree flip is extremely difficult. After years of research and effort by the inventor, a wet blank flipping method for manufacturing pulp molded products and a wet blank flipping pulp molding machine have been successfully realized.

[0078] The wet blank flipping pulp molding machine includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3, a first wet blank transfer device 7, a second wet blank transfer device 5, a control system (which can use existing technology), and other components. The wet blank is completed in the suction filtration forming device, then the first wet blank transfer device 7 extracts the wet blank from the suction filtration forming device 2 and transfers it to the second wet blank transfer mold of the second wet blank transfer device 5. The second wet blank transfer mold can adhere to the wet blank and perform a 180-degree vertical flip. After flipping the wet blank 180 degrees vertically, the second wet blank transfer mold inverts the wet blank, making the mesh surface of the wet blank face upwards. The wet blank with its mesh surface facing up is then transferred to the hot-pressing shaping device for hot-press drying and shaping. The smooth upper hot-press mold (the smooth surface of the hot-press mold) presses against the upward-facing mesh surface of the wet blank (mesh surface of the wet blank), creating a dried and shaped pulp molded product with excellent processing effects on both sides.

[0079] The aforementioned hot-pressing shaping device 3 can be one or multiple (including a left hot-pressing shaping device 3L and a right hot-pressing shaping device 3R); the lower hot-press mold 3c can be one or multiple (including a left lower hot-press mold 3Lc and a right lower hot-press mold 3Rc), the upper hot-press mold 3a can be one or multiple (including a left upper hot-press mold 3La and a right upper hot-press mold 3Ra);

[0080] The 180-degree vertical flip mentioned in this disclosure refers to the working surface 5M of the second wet blank transfer mold changing from facing upwards to facing downwards, or from facing downwards to facing upwards.

[0081] The term extract used here all refer to the method of transferring the wet blank or semi-finished product from one component to another using negative pressure adsorption; this is existing technology.

[0082] Based on the different number of hot-pressing shaping devices and the different methods of transferring the flipped wet blank to the hot-pressing shaping device, the wet blank flipping method for manufacturing pulp molded products and the wet blank flipping pulp molding machine can have multiple implementation methods, specifically described as follows:

Embodiment 1

[0083] As shown in FIGS. 1B, 1C, 1, and 1A, in this embodiment, the wet blank flipping pulp molding machine includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3 (left hot-pressing shaping device 3L, right hot-pressing shaping device 3R), a second wet blank transfer device 5, a first wet blank transfer device 7, a left-right translation rail 8, a control system, and other components. The hot-pressing shaping device 3 includes two hot-pressing shaping devices, namely the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R.

[0084] The frame 1 consists of a lower frame 1a and an upper frame 1b, with tie rods 1c fixing the lower frame 1a and upper frame 1b together. As shown in FIG. 6, the structure of the upper frame 1b can vary according to the height changes of the hot-pressing shaping device and the first wet blank transfer device.

[0085] The suction filtration forming device 2 is set in the middle of the lower frame 1a. The first wet blank transfer device 7 is set in the middle of the upper frame, above the suction filtration forming device 2. On the left and right sides of the frame, there is one hot-pressing shaping device 3 each, namely the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R. The left hot-pressing shaping device 3L and right hot-pressing shaping device 3R are also located on the left and right sides of the suction filtration forming device 2 and the first wet blank transfer device 7.

[0086] The suction filtration forming device 2 includes a suction filtration forming mold 2a and a suction filtration forming pulp tank 2b.

[0087] The first wet blank transfer device 7 includes a first wet blank transfer mold 7a and a power transmission mechanism of first wet blank transfer mold 7b.

[0088] The suction filtration forming mold 2a in the suction filtration forming device 2 forms the wet blank from the pulp slurry. The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position.

[0089] A mixture of plant fibers and water of appropriate concentration (referred to as pulp slurry) is intermittently or continuously injected into the suction filtration forming pulp tank 2b. The suction filtration forming mold 2a forms the wet blank from the pulp slurry. Various methods can be used to achieve the production of the wet blank.

[0090] As shown in FIGS. 1B and 1, the left hot-pressing shaping device 3L contains a vertically movable left lower hot-press mold 3Lc, a left lower hot-press mold driving device 3Lf, and a left upper hot-press mold 3La fixed to the upper frame. The left upper hot-press mold 3La and left lower hot-press mold 3Lc are a matching pair of hot-press molds, called the left hot-pressing shaping mold (left hot-press mold). The left lower hot-press mold 3Lc can move up and down driven by the left lower hot-press mold driving device 3Lf.

[0091] The right hot-pressing shaping device 3R contains a vertically movable right lower hot-press mold 3Rc, a right lower hot-press mold driving device 3Rf, and a right upper hot-press mold 3Ra fixed to the upper frame. The right upper hot-press mold 3Ra and right lower hot-press mold 3Rc are a matching pair of hot-press molds, called the right hot-pressing shaping mold (right hot-press mold). The right lower hot-press mold 3Rc can move up and down driven by the right lower hot-press mold driving device 3Rf.

[0092] The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc are collectively referred to as the lower hot-press mold 3c, while the left upper hot-press mold 3La and right upper hot-press mold 3Ra are collectively referred to as the upper hot-press mold 3a.

[0093] As shown in FIGS. 1B, IC, and ID, two (or two sets of) left-right translation rails 8 are fixed to the underside of the upper frame, extending from the left end to the right end. Left-right translation rail sliders 9 that can slide horizontally along the rails are set on the left-right translation rails 8. The second wet blank transfer device 5 is fixed to the left-right translation rail sliders 9, suspended from the underside of the upper frame through the left-right translation rail sliders 9, and can move horizontally left and right along the left-right translation rails 8.

[0094] As shown in FIGS. 1 and 1A, the left-right translation rails 8 can also be fixed to the lower frame. Two (or two sets of) left-right translation rails 8 are fixed on the lower frame, extending from the left end to the right end. Left-right translation rail sliders 9 that can slide horizontally along the rails are set on the left-right translation rails 8. The second wet blank transfer device 5 is fixed to the left-right translation rail sliders 9 and can move left and right along the left-right translation rails 8 through the left-right translation rail sliders 9.

[0095] As shown in FIGS. 1, 1A, 1B, IC, and ID, the second wet blank transfer device 5 contains a second wet blank transfer mold 5a, a wet blank flipping driver 5b, a second wet blank transfer device moving frame 5c, and a horizontal driver of second wet blank transfer device 6. The mold face of the second wet blank transfer mold 5a used to adhere to the wet blank is called the second wet blank transfer mold working surface 5M. The second wet blank transfer mold 5a can perform a 180-degree vertical flip driven by the wet blank flipping driver 5b. As can be seen from the figures: The second wet blank flipping shaft 5.1 is rotatably positioned on the second wet blank transfer device moving frame 5c through bearings. The base of the wet blank flipping driver 5b (such as a motor with a reducer) is fixed to one side of the second wet blank transfer device moving frame 5c. The drive shaft of the wet blank flipping driver 5b (such as the motor output shaft or reducer output shaft) is coaxially connected with the second wet blank flipping shaft 5.1. Obviously, when the wet blank flipping driver starts, it can drive the second wet blank transfer mold to perform a 180-degree flip around the second wet blank flipping shaft 5.1.

[0096] As shown in FIGS. 1B, 2A, 3A, 1, 2, and 3, the second wet blank transfer mold 5a can perform a 180-degree vertical flip with the wet blank transferred from the first wet blank transfer mold 7a. After flipping, the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards (with the mesh surface of the wet blank facing up). The wet blank, after the 180-degree vertical flip, is alternately sent to the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R for hot-press drying and shaping. There are multiple ways for the second wet blank transfer mold 5a to perform the 180-degree vertical flip. As a preferred solution, the 180-degree vertical flip of the second wet blank transfer mold 5a can be performed around an axis parallel to the horizontal plane, i.e., it can flip 180 degrees up and down around the axis, achieving the purpose of flipping the second wet blank transfer mold working surface 5M from facing up to facing down.

[0097] The horizontal movement of the second wet blank transfer device 5 is driven by the horizontal driver of second wet blank transfer device 6. As shown in FIGS. 1C, 1D, 4A, 1A, and 5, the horizontal driver of second wet blank transfer device 6 uses a gear and rack drive method. The horizontal driver of second wet blank transfer device 6 contains a gear power head 6a fixed to the second wet blank transfer device 5, and a rack 6b fixed to the lower frame or upper frame. The gear power head 6a contains a gear and a servo motor that drives the gear's rotation. The gear meshes with the rack 6b, and the servo motor drives the gear's rotation, thus moving the second wet blank transfer device 5 horizontally left and right. Alternatively, the horizontal movement of the second wet blank transfer device 5 can be driven by a linear motor, with its moving part fixed to the second wet blank transfer device 5 and its stationary part fixed to the upper frame or lower frame. Another alternative is to use a ball screw mechanism to drive the horizontal movement of the second wet blank transfer device 5.

[0098] The left-right translation rail 8 horizontally spans across the left hot-pressing shaping device 3L, the first wet blank transfer device 7, and the right hot-pressing shaping device 3R. Driven by the horizontal driver of second wet blank transfer device 6, the second wet blank transfer device 5 can move along the left-right translation rail 8 between positions above the left lower hot-press mold 3Lc, below the first wet blank transfer device 7, and above the right lower hot-press mold 3Rc.

[0099] The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position. Driven by the horizontal driver of second wet blank transfer device 6, the second wet blank transfer device 5 carries the second wet blank transfer mold 5a along the left-right translation rail 8 to a position under the first wet blank transfer mold 7a. The second wet blank transfer mold 5a, which had its wet blank transferred away in the previous production cycle, now has its second wet blank transfer mold working surface 5M facing downwards. Therefore, the second wet blank transfer mold 5a needs to flip 180 degrees vertically to make the second wet blank transfer mold working surface 5M face upwards, i.e., towards the first wet blank transfer mold 7a, in order to receive the wet blank transferred from the first wet blank transfer mold 7a, as shown in FIGS. 1B and 1. After the first wet blank transfer mold 7a moves down to transfer the wet blank to the second wet blank transfer mold 5a, it moves back up to its original position. The second wet blank transfer mold 5a receives the wet blank, and at this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards.

[0100] As shown in FIGS. 1B, 2A, 3A, 1, 2, and 3, driven by the wet blank flipping driver 5b, the second wet blank transfer mold 5a with the received wet blank flips 180 degrees vertically. After completing the flip, the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards (with the mesh surface of the wet blank facing up).

[0101] As shown in FIGS. 4 and 4A, driven by the horizontal driver of second wet blank transfer device 6, the second wet blank transfer mold 5a with the flipped wet blank moves left along the left-right translation rail 8 to a position above the vertically movable left lower hot-press mold 3Lc. The left lower hot-press mold 3Lc moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position.

[0102] The second wet blank transfer mold 5a returns along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically again, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a (as shown in FIGS. 1 and 1B). The first wet blank transfer mold 7a moves down again to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives another wet blank, while simultaneously, the left lower hot-press mold 3Lc moves up to close with the left upper hot-press mold 3La for hot-press drying and shaping of the wet blank. After hot-press drying and shaping, the left hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0103] The second wet blank transfer mold 5a, now with a new wet blank, is driven by the wet blank flipping driver 5b to flip 180 degrees vertically again. After completing the flip, the second wet blank transfer mold 5a with the flipped wet blank moves right along the left-right translation rail 8 to a position above the vertically movable right lower hot-press mold 3Rc. The right lower hot-press mold 3Rc moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position.

[0104] The second wet blank transfer mold 5a returns along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically again, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down again to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives another wet blank. Simultaneously, the right lower hot-press mold 3Rc moves up to close with the right upper hot-press mold 3Ra for hot-press drying and shaping of the wet blank. After hot-press drying and shaping, the right hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0105] The complete implementation process of this embodiment is typically as follows: [0106] (1) The second wet blank transfer mold 5a, which has had its wet blank transferred away, moves along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a, now with the wet blank, flips 180 degrees vertically again. After completing the flip, the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards (with the mesh surface of the wet blank facing up). [0107] (2) The wet blank, along with the second wet blank transfer mold 5a, moves left along the left-right translation rail 8 to a position above the vertically movable left lower hot-press mold 3Lc (as shown in FIGS. 4A and 4). The left lower hot-press mold 3Lc moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position. [0108] (3) The second wet blank transfer mold 5a, which has had its wet blank transferred away, returns along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically again, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down again to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives another wet blank, then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards, with the mesh surface of the wet blank facing up.

[0109] Meanwhile, the left lower hot-press mold 3Lc moves up to close with the left upper hot-press mold 3La for hot-press drying and shaping of the wet blank. After hot-press drying and shaping, the left hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. [0110] (4) The wet blank, along with the second wet blank transfer mold 5a, moves right to a position above the vertically movable right lower hot-press mold 3Rc. The right lower hot-press mold 3Rc moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position. [0111] (5) The second wet blank transfer mold 5a, which has had its wet blank transferred away, returns to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically again, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down again to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives another wet blank, then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards, with the mesh surface of the wet blank facing up.

[0112] Meanwhile, the right lower hot-press mold 3Rc moves up to close with the right upper hot-press mold 3Ra for hot-press drying and shaping of the wet blank. After hot-press drying and shaping, the right hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. [0113] (6) The wet blank, along with the second wet blank transfer mold 5a, moves left along the left-right translation rail 8 to a position above the vertically movable left lower hot-press mold 3Lc. The left lower hot-press mold 3Lc moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position.

[0114] The wet blank flipping pulp molding machine operates in a cyclic manner according to the above steps, continuously producing pulp molded products, which are promptly removed from the pulp molding machine.

[0115] Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken by the first wet blank transfer mold 7a and sent to the second wet blank transfer mold 5a. It is then flipped 180 degrees vertically by the second wet blank transfer mold 5a (with the second wet blank transfer mold working surface 5M and the adhered wet blank facing down, and the mesh surface of the wet blank facing up) before being sent to either the left or right hot-pressing shaping device for hot-press drying and shaping. This achieves the effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold. It can also achieve the ideal processing effect of uniform product wall thickness and easy demolding, greatly improving the machine's operational stability, product quality, and pass rate, while significantly reducing production costs.

Embodiment 2

[0116] This embodiment is a simplified version of Embodiment 1. As shown in FIGS. 7A and 7, the wet blank flipping pulp molding machine in this embodiment contains only one hot-pressing shaping device. In this implementation, the wet blank flipping pulp molding machine includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3, a second wet blank transfer device 5, a first wet blank transfer device 7, a control system, and other components.

[0117] Because there is only one hot-pressing shaping device, there is no distinction between left and right hot-pressing shaping devices.

[0118] The first wet blank transfer device 7 transfers the wet blank made by the suction filtration forming device 2 to the second wet blank transfer device 5. After a 180-degree vertical flip by the second wet blank transfer device 5, the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards, with the mesh surface of the wet blank facing up. The flipped wet blank is then sent into the hot-pressing shaping device for hot-press drying and shaping. This achieves the beneficial effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold.

[0119] The suction filtration forming mold 2a in the suction filtration forming device 2 forms the wet blank from the pulp slurry. The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position.

[0120] The complete implementation process of this embodiment is typically as follows: [0121] (1) The second wet blank transfer mold 5a, which has had its wet blank transferred away, returns along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically, with the second wet blank transfer mold working surface 5M facing towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives the wet blank, then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards, with the mesh surface of the wet blank facing up.

[0122] Meanwhile, the lower hot-press mold 3c moves up to close with the upper hot-press mold 3a for hot-press drying and shaping of the previously received wet blank. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. [0123] (2) The second wet blank transfer mold 5a, with the wet blank facing down, moves again to a position above the vertically movable lower hot-press mold 3c. The lower hot-press mold 3c moves up to extract the wet blank from the second wet blank transfer mold 5a, then moves down into position. Simultaneously, the first wet blank transfer mold 7a moves down to the suction filtration forming device 2 to extract the wet blank from the suction filtration forming mold 2a and rises back into position. [0124] (3) The second wet blank transfer mold 5a, which has had its wet blank transferred away, returns to a position below the first wet blank transfer mold 7a. The second wet blank transfer mold 5a flips 180 degrees vertically again, with the second wet blank transfer mold working surface 5M facing upwards towards the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves down again to transfer the wet blank to the second wet blank transfer mold 5a, then moves back up to its original position. The second wet blank transfer mold 5a receives another wet blank, then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards, with the mesh surface of the wet blank facing up.

[0125] Meanwhile, the lower hot-press mold 3c moves up to close with the upper hot-press mold 3a for hot-press drying and shaping of the wet blank. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0126] The wet blank flipping pulp molding machine operates in a cyclic manner according to the above steps, continuously producing pulp molded products. Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken by the first wet blank transfer mold 7a and sent to the second wet blank transfer mold 5a. It is then flipped 180 degrees vertically by the second wet blank transfer mold 5a before being sent to the hot-pressing shaping device for hot-press drying and shaping. This achieves the beneficial effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold. It also achieves the ideal processing effect of uniform product wall thickness and easy demolding, greatly improving the machine's operational stability and product quality. The pass rate is also significantly increased, and production costs can be substantially reduced.

Embodiment 3

[0127] In this embodiment, the hot-pressing shaping device 3 includes two hot-pressing shaping devices, namely the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R. The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc can move horizontally. As shown in FIGS. 8, 9A, 9B, 10, 10A, 11, 12, and 13, the wet blank flipping pulp molding machine in this embodiment includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3 (left hot-pressing shaping device 3L, right hot-pressing shaping device 3R), a second wet blank transfer device 5, a first wet blank transfer device 7, a control system, and other components.

[0128] The frame 1 consists of a lower frame 1a, an upper frame 1b, tie rods 1c, and other components.

[0129] The suction filtration forming device 2 includes a suction filtration forming mold 2a and a suction filtration forming pulp tank 2b. The first wet blank transfer device 7 includes a first wet blank transfer mold 7a and a power transmission mechanism of first wet blank transfer mold 7b. The first wet blank transfer device 7 is positioned above the suction filtration forming device 2.

[0130] A mixture of plant fibers and water of appropriate concentration (referred to as pulp slurry) is intermittently or continuously injected into the suction filtration forming pulp tank 2b. The suction filtration forming mold 2a forms the wet blank from the pulp slurry. Various methods can be used to achieve the production of the wet blank.

[0131] The suction filtration forming mold 2a in the suction filtration forming device 2 forms the wet blank from the fibers in the pulp slurry. The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position, removing the wet blank from the suction filtration forming mold 2a. The wet blank is then hot-press dried and shaped in the hot-pressing shaping device 3.

[0132] The lower hot-press mold 3c includes the left lower hot-press mold 3Lc and the right lower hot-press mold 3Rc, while the upper hot-press mold 3a includes the left upper hot-press mold 3La and the right upper hot-press mold 3Ra.

[0133] As shown in FIGS. 8, 9A, 9B, 10, and 10A, two (or two sets of) left-right translation rails 8 are fixed to the lower frame, extending from the left end to the right end. Left-right translation rail sliders 9 that can slide along the rails are set on the left-right translation rails 8. From left to right, the left-right translation rails 8 span across the left hot-pressing shaping device 3L, the first wet blank transfer device 7, and the right hot-pressing shaping device 3R.

[0134] The left hot-pressing shaping device 3L contains a vertically movable left upper hot-press mold 3La and a horizontally movable left lower hot-press mold 3Lc. The left upper hot-press mold 3La and left lower hot-press mold 3Lc are a matching pair of left hot-press molds (left hot-pressing shaping molds). When the left lower hot-press mold 3Lc is below the left upper hot-press mold 3La, the left hot-pressing shaping molds can close vertically, and the wet blank of the product is hot-press dried and shaped in the left hot-pressing shaping device 3L. This position is called the left hot-pressing station 3L.1.

[0135] As shown in FIGS. 8 and 13, the left lower hot-press mold 3Lc is fixed to the left-right translation rail sliders 9, which can move horizontally on the left-right translation rails 8. Driven by the left horizontal driving mechanism of lower hot-press mold 10L, the left lower hot-press mold 3Lc can move horizontally along the left-right translation rails 8 between positions below the left upper hot-press mold 3La and below the first wet blank transfer mold 7a.

[0136] The right hot-pressing shaping device 3R contains a vertically movable right upper hot-press mold 3Ra and a horizontally movable right lower hot-press mold 3Rc. The right upper hot-press mold 3Ra and right lower hot-press mold 3Rc are a matching pair of right hot-press molds (right hot-pressing shaping molds). When the right lower hot-press mold 3Rc is below the right upper hot-press mold 3Ra, the right hot-pressing shaping molds can close vertically, and the wet blank of the product is hot-press dried and shaped in the right hot-pressing shaping device 3R. This position is called the right hot-pressing station 3R.1.

[0137] As shown in FIG. 8, the right lower hot-press mold 3Rc is fixed to the left-right translation rail sliders 9, which can move horizontally on the left-right translation rails 8. Driven by the right horizontal driving mechanism of lower hot-press mold 10R, the right lower hot-press mold 3Rc can move horizontally along the left-right translation rails 8 between positions below the right upper hot-press mold 3Ra and below the first wet blank transfer mold 7a.

[0138] As shown in FIG. 8, there is a first wet blank transfer device 7 above the suction filtration forming device 2. The first wet blank transfer device 7 is fixed to the upper frame 1b and contains a vertically movable first wet blank transfer mold 7a and a power transmission mechanism of first wet blank transfer mold 7b that drives the vertical movement of the first wet blank transfer mold 7a. There are multiple structural options for the power transmission mechanism of first wet blank transfer mold 7b, with servo motor drive being preferred, though hydraulic cylinder drive or other drive methods are also possible.

[0139] The second wet blank transfer device 5 contains a second wet blank transfer mold 5a and a wet blank flipping driver 5b. As shown in FIGS. 8, 9A, 9B, 11, and 12, the second wet blank transfer mold 5a can perform a 180-degree vertical flip driven by the wet blank flipping driver 5b. There are multiple ways for the second wet blank transfer mold 5a to perform the 180-degree flip, it can rotate around an axis or flip without an axis. As a preferred solution, the 180-degree vertical flip of the second wet blank transfer mold 5a can be performed around an axis parallel to the horizontal plane, i.e., it can flip 180 degrees up and down around the axis, achieving the purpose of flipping the second wet blank transfer mold working surface 5M from facing up to facing down.

[0140] As shown in FIGS. 8, 9A, and 9B, below the first wet blank transfer device 7, the second wet blank transfer device 5 receives the wet blank from the first wet blank transfer mold 7a. After flipping, the wet blank is also transferred to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc below the first wet blank transfer device 7. This position is called the transfer station T of the flipping mold 5a (also known as the T position). When the first wet blank transfer mold 7a needs to move down to extract the wet blank from the suction filtration forming mold 2a, the second wet blank transfer device 5 must clear the way by moving forward, leaving the T position to reach the avoidance station D of the flipping mold 5a (also known as the D position) located in front of the first wet blank transfer device 7.

[0141] As shown in FIGS. 8, 9A, 9B, 10, and 10A, to the left of the first wet blank transfer device 7 is the left hot-pressing shaping device 3L, to the right is the right hot-pressing shaping device 3R, and in front of the first wet blank transfer device 7 is the avoidance station D of the flipping mold 5a.

[0142] As shown in FIGS. 8, 9A, 9B, and 10, as a preferred solution, two (or two sets of) longitudinal rails 4 are set in front of the first wet blank transfer device 7. The longitudinal rails 4 are horizontally arranged higher than the left-right translation rails 8 and perpendicular to them. The two (or two sets of) longitudinal rails 4 are set horizontally and extend towards the first wet blank transfer device 7. The second wet blank transfer device 5 is fixed to the longitudinal rail sliders 4a, which can move back and forth along the longitudinal rails 4. This means the second wet blank transfer device 5 can move between the T position and D position along the longitudinal rails 4. As shown in FIGS. 8 and 9A, vertical rails 4.1 are set up and down in front of the first wet blank transfer device 7, and the longitudinal rails 4 can move up and down along the vertical rails 4.1. Therefore, the second wet blank transfer mold 5a can flip up and down, and also move up and down and back and forth with the second wet blank transfer device 5.

[0143] Alternatively, as shown in FIG. 10A, the second wet blank transfer device 5 can be a combination of a multi-degree-of-freedom robotic arm or mechanical arm with the second wet blank transfer mold 5a, capable of driving the second wet blank transfer mold 5a to flip up and down and move in three dimensions. The combination of a multi-degree-of-freedom robotic arm or mechanical arm with the second wet blank transfer mold 5a is also a structural form of the second wet blank transfer device 5, where the multi-degree-of-freedom robotic arm or mechanical arm drives the second wet blank transfer mold 5a to flip up and down and move in three dimensions. The multi-degree-of-freedom robotic arm or mechanical arm is a universal device that can rotate on multiple axes and move in three dimensions, such as a 6-axis robotic arm or mechanical arm.

[0144] The left lower hot-press mold 3Lc, right lower hot-press mold 3Rc, second wet blank transfer device 5, and first wet blank transfer device 7 work together to achieve the flipping and transfer of the wet blank.

[0145] To avoid action conflicts, after receiving the wet blank from the second wet blank transfer mold 5a, the left lower hot-press mold 3Lc and right lower hot-press mold 3Rc each return to their respective left hot-pressing station and right hot-pressing station. After receiving the wet blank from the first wet blank transfer mold 7a, the second wet blank transfer mold 5a must first move from the T position to the D position to avoid interference, and then flip the wet blank 180 degrees vertically at the D position. At this time, the first wet blank transfer mold 7a can extract the wet blank from the suction filtration forming mold 2a.

[0146] As shown in FIG. 13, after the first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position, the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc moves along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. Simultaneously, the second wet blank transfer mold 5a moves back from the D position to the T position, also coming below the first wet blank transfer mold 7a and positioning itself above the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc that has already moved below the first wet blank transfer mold 7a along the left-right translation rail 8. The second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. The second wet blank transfer mold 5a moves down with the wet blank, transferring it to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc. After the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc returns to the left hot-pressing station or right hot-pressing station with the wet blank, the second wet blank transfer mold 5a flips 180 degrees vertically at the T position, with its working surface 5M facing upwards. The second wet blank transfer mold 5a then moves up to receive the wet blank from the first wet blank transfer mold 7a. After receiving the wet blank from the first wet blank transfer mold 7a, the second wet blank transfer mold 5a moves from the T position to the D position to avoid interference, and then flips the wet blank 180 degrees vertically at the D position.

[0147] After receiving the wet blank from the second wet blank transfer mold 5a, the left lower hot-press mold 3Lc returns to the left hot-pressing station 3L.1, positioned below the left upper hot-press mold 3La. The left upper hot-press mold 3La moves down, driven by the left upper hot-press mold driving device 3Lb, to close with the left lower hot-press mold 3Lc. The left hot-press mold then performs hot-press drying and shaping on the wet blank.

[0148] After receiving the wet blank from the second wet blank transfer mold 5a, the right lower hot-press mold 3Rc returns to the right hot-pressing station 3R.1, positioned below the right upper hot-press mold 3Ra. The right upper hot-press mold 3Ra moves down, driven by the right upper hot-press mold driving device 3Rb, to close with the right lower hot-press mold 3Rc. The right hot-press mold then performs hot-press drying and shaping on the wet blank.

[0149] The pulp slurry of appropriate concentration in the suction filtration forming pulp tank forms a wet blank in the suction filtration forming mold 2a. When the wet blank formation is complete, the first wet blank transfer mold 7a moves down to the suction filtration forming mold 2a, extracts the wet blank from the suction filtration forming mold 2a, and rises into position (completing the wet blank extraction). After the formed wet blank is removed, the suction filtration forming mold continues to filter the pulp slurry to form a new wet blank and waits for the next extraction by the first wet blank transfer mold.

[0150] Above the left-right translation rail 8 and in front of the first wet blank transfer device 7, two (or two sets of) longitudinal rails 4 are set up. The longitudinal rails 4 are horizontally arranged higher than the left-right translation rails 8, extend horizontally towards the first wet blank transfer device 7, and are perpendicular to the left-right translation rails 8.

[0151] In summary, the complete implementation process of this embodiment is typically as follows: [0152] (1) The second wet blank transfer mold working surface 5M below the first wet blank transfer mold 7a faces upwards towards the first wet blank transfer mold 7a. The second wet blank transfer mold 5a moves up (or the first wet blank transfer mold 7a moves down), the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a and first wet blank transfer mold 7a then separate, the second wet blank transfer mold 5a moves down (or the first wet blank transfer mold 7a moves up), and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0153] (2) After receiving the wet blank, the second wet blank transfer mold 5a moves from the transfer station T of the flipping mold 5a to the avoidance station D of the flipping mold 5a. The second wet blank transfer mold 5a then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. Meanwhile, the first wet blank transfer mold 7a moves down to extract another wet blank from the suction filtration forming mold 2a and rises back into position. [0154] (3) The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc, each driven by their respective power sources, alternately move along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. Simultaneously, the second wet blank transfer mold 5a moves back from the avoidance station D of the flipping mold 5a to the transfer station T of the flipping mold 5a. At the T position, the second wet blank transfer mold 5a moves down with the wet blank to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc, transfers the wet blank to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc, and then moves back up to its original position. [0155] (4) After receiving the wet blank, the left lower hot-press mold or right lower hot-press mold returns to the left hot-pressing station 3L.1 or right hot-pressing station 3R.1 driven by the power transmission mechanism. The hot-press mold closes to perform hot-press drying and shaping on the wet blank. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. Meanwhile, the second wet blank transfer mold 5a, which has had its wet blank transferred away, flips 180 degrees vertically at the transfer station T of the flipping mold 5a, making the second wet blank transfer mold working surface 5M face upwards towards the first wet blank transfer mold 7a. [0156] (5) The second wet blank transfer mold working surface 5M below the first wet blank transfer mold 7a faces towards the first wet blank transfer mold 7a. The second wet blank transfer mold 5a moves up (or the first wet blank transfer mold 7a moves down), the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a and first wet blank transfer mold 7a then separate, the second wet blank transfer mold 5a moves down (or the first wet blank transfer mold 7a moves up), and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0157] (6) After receiving the wet blank, the second wet blank transfer mold 5a moves from the transfer station T of the flipping mold 5a to the avoidance station D of the flipping mold 5a. At the D position, the second wet blank transfer mold 5a flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. Meanwhile, the first wet blank transfer mold 7a moves down to extract another wet blank from the suction filtration forming mold 2a and rises back into position. [0158] (7) The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc, each driven by their respective power sources, alternately move along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. Simultaneously, the second wet blank transfer mold 5a moves back from the D position to the T position. At the T position, the second wet blank transfer mold 5a moves down with the wet blank to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc, transfers the wet blank to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc, and then moves back up to its original position. [0159] (8) After receiving the wet blank, the left lower hot-press mold or right lower hot-press mold returns to the left hot-pressing station 3L.1 or right hot-pressing station 3R.1 driven by the power transmission mechanism. The hot-press mold closes to perform hot-press drying and shaping on the wet blank. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. Meanwhile, the second wet blank transfer mold 5a, which has had its wet blank transferred away, flips 180 degrees vertically at the transfer station T of the flipping mold 5a, making the second wet blank transfer mold working surface 5M face upwards towards the first wet blank transfer mold 7a. [0160] (9) The second wet blank transfer mold working surface 5M below the first wet blank transfer mold 7a faces towards the first wet blank transfer mold 7a. The second wet blank transfer mold 5a moves up (or the first wet blank transfer mold 7a moves down), the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a and first wet blank transfer mold 7a then separate, the second wet blank transfer mold 5a moves down (or the first wet blank transfer mold 7a moves up), and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0161] (10) After receiving the wet blank, the second wet blank transfer mold 5a moves from the transfer station T of the flipping mold 5a to the avoidance station D of the flipping mold 5a. At the D position, the second wet blank transfer mold 5a flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. Meanwhile, the first wet blank transfer mold 7a moves down to extract another wet blank from the suction filtration forming mold 2a and rises back into position.

[0162] The production continues in a cyclic manner according to the above process. Pulp molded products are continuously produced and promptly removed from the pulp molding machine or moved to the next process. The key feature is that the transfer of the wet blank from the first wet blank transfer mold (7a) to the second wet blank transfer mold 5a, and the transfer of the flipped wet blank from the second wet blank transfer mold (5a) to the lower hot-press mold (3c) are both completed directly below the first wet blank transfer mold (7a).

[0163] Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is extracted when the first wet blank transfer mold 7a moves down to the suction filtration forming mold 2a, picks up the wet blank (extracts the wet blank) and rises back into position. The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc alternately move along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a to receive the wet blank. These are all existing technologies.

[0164] The key feature of this embodiment is: The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc alternately move along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a to receive the wet blank, but they do not receive the wet blank directly from the first wet blank transfer mold 7a. Instead, they receive the flipped wet blank from the second wet blank transfer mold 5a. After taking the wet blank from below the first wet blank transfer mold 7a, the second wet blank transfer mold 5a moves out from under the first wet blank transfer mold 7a to the D position, where it flips 180 degrees vertically with the wet blank. It then returns to the position below the first wet blank transfer mold 7a with the flipped wet blank. As shown in FIG. 13, when the second wet blank transfer mold 5a returns to the position below the first wet blank transfer mold 7a after flipping with the wet blank, it is also positioned above the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc. At this point, the first wet blank transfer mold 7a moves down, transfers the flipped wet blank to the left lower hot-press mold 3Lc or right lower hot-press mold 3Rc, and then moves back up into position. After receiving the wet blank, the left lower hot-press mold or right lower hot-press mold returns to the left hot-pressing station 3L.1 or right hot-pressing station 3R.1, where the left hot-pressing shaping device and right hot-pressing shaping device perform hot-press drying and shaping on the wet blank. This achieves the effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold.

[0165] During the hot-press drying and shaping of the wet blank in the hot-pressing shaping device, the smooth surface of the hot-press mold presses against the dense, smooth, and high-quality mesh surface of the wet blank, while the mesh surface of the hot-press mold, which has some flexibility and can easily press against all parts of the wet blank, presses against the fuzzy surface of the wet blank. The smooth surface of the hot-press mold can press the product very smooth, while the fuzzy surface of the wet blank is easily imprinted with a dense mesh pattern by the mesh surface of the hot-press mold. As a result, both sides of the product achieve excellent processing effects, reducing the production difficulty of pulp molded products, especially high-quality, delicate industrial packaging products. It also achieves the ideal processing effect of uniform product wall thickness and easy demolding. The machine's operational stability and product quality are greatly improved, the pass rate is significantly increased, and production costs can be substantially reduced.

Embodiment 4

[0166] As shown in FIG. 14, this embodiment is a simplified version of Embodiment 3. The hot-pressing shaping device 3 contains only one hot-pressing shaping device, and the lower hot-press mold moves horizontally. The wet blank flipping pulp molding machine in this embodiment includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3, a second wet blank transfer device 5, a first wet blank transfer device 7, and other components. Since this embodiment has only one hot-pressing shaping device, the avoidance station D of the flipping mold 5a can also be placed on the right side of the first wet blank transfer device 7.

[0167] Because there is only one hot-pressing shaping device, there is no distinction between left and right hot-pressing shaping devices. The lower hot-press mold 3c can move horizontally along the left-right translation rail 8 between positions directly below the upper hot-press mold 3a and directly below the first wet blank transfer mold 7a. Above the left-right translation rail 8 and in front of or to the right of the first wet blank transfer device 7, two (or two sets of) longitudinal rails 4 are set up. The longitudinal rails 4 are horizontally arranged higher than the left-right translation rails 8 and perpendicular to them. The two (or two sets of) longitudinal rails 4 are set horizontally and extend towards the first wet blank transfer device 7.

[0168] The complete implementation process of this embodiment is typically as follows: [0169] (1) The second wet blank transfer mold working surface 5M below the first wet blank transfer mold 7a faces upwards towards the first wet blank transfer mold 7a. The second wet blank transfer mold 5a moves up (or the first wet blank transfer mold 7a moves down), the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a and first wet blank transfer mold 7a then separate, the second wet blank transfer mold 5a moves down (or the first wet blank transfer mold 7a moves up), and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0170] (2) After receiving the wet blank, the second wet blank transfer mold 5a moves from the transfer station T of the flipping mold 5a to the avoidance station D of the flipping mold 5a. The second wet blank transfer mold 5a then flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. Meanwhile, the first wet blank transfer mold 7a moves down to extract another wet blank from the suction filtration forming mold 2a and rises back into position. [0171] (3) The lower hot-press mold 3c, driven by its power source, moves along the left-right translation rail 8 to a position below the first wet blank transfer mold 7a. Simultaneously, the second wet blank transfer mold 5a moves back from the avoidance station D of the flipping mold 5a to the transfer station T of the flipping mold 5a. At the T position, the second wet blank transfer mold 5a moves down with the wet blank to the lower hot-press mold 3c, transfers the wet blank to the lower hot-press mold 3c, and then moves back up to its original position. [0172] (4) After receiving the wet blank, the lower hot-press mold returns to the hot-pressing station 3.1 driven by the power transmission mechanism. The hot-press mold closes to perform hot-press drying and shaping on the wet blank. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time. Meanwhile, the second wet blank transfer mold 5a, which has had its wet blank transferred away, flips 180 degrees vertically at the transfer station T of the flipping mold 5a, making the second wet blank transfer mold working surface 5M face upwards towards the first wet blank transfer mold 7a. [0173] (5) The second wet blank transfer mold working surface 5M below the first wet blank transfer mold 7a faces towards the first wet blank transfer mold 7a. The second wet blank transfer mold 5a moves up (or the first wet blank transfer mold 7a moves down), the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a and first wet blank transfer mold 7a then separate, the second wet blank transfer mold 5a moves down (or the first wet blank transfer mold 7a moves up), and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0174] (6) After receiving the wet blank, the second wet blank transfer mold 5a moves from the transfer station T of the flipping mold 5a to the avoidance station D of the flipping mold 5a. At the D position, the second wet blank transfer mold 5a flips 180 degrees vertically with the wet blank, making the second wet blank transfer mold working surface 5M and the adhered wet blank face downwards. Meanwhile, the first wet blank transfer mold 7a moves down to extract another wet blank from the suction filtration forming mold 2a and rises back into position.

[0175] The production continues in a cyclic manner according to the above process. Pulp molded products are continuously produced and promptly removed from the pulp molding machine or moved to the next process. The key feature is that the transfer of the wet blank from the first wet blank transfer mold (7a) to the second wet blank transfer mold 5a, and the transfer of the flipped wet blank from the second wet blank transfer mold (5a) to the lower hot-press mold (3c) are both completed directly below the first wet blank transfer mold (7a).

[0176] Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken by the first wet blank transfer mold 7a and sent to the second wet blank transfer mold 5a. It is then flipped 180 degrees vertically by the second wet blank transfer mold 5a before being sent into the lower hot-press mold. After receiving the wet blank, the lower hot-press mold returns to the hot-pressing station 3.1 driven by the power transmission mechanism. The hot-pressing shaping device then performs hot-press drying and shaping on the wet blank. This achieves the effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold.

[0177] During the hot-press drying and shaping of the wet blank in the hot-pressing shaping device, the smooth surface of the hot-press mold presses against the dense, smooth, and high-quality mesh surface of the wet blank, while the mesh surface of the hot-press mold, which has some flexibility and can easily press against all parts of the wet blank, presses against the fuzzy surface of the wet blank. The smooth surface of the hot-press mold can press the product very smooth, while the fuzzy surface of the wet blank is easily imprinted with a dense mesh pattern by the mesh surface of the hot-press mold. As a result, both sides of the product achieve excellent processing effects, reducing the production difficulty of pulp molded products, especially high-quality, delicate industrial packaging products. It also achieves the ideal processing effect of uniform product wall thickness and easy demolding. The machine's operational stability and product quality are greatly improved, the pass rate is significantly increased, and production costs can be substantially reduced.

Embodiment 5

[0178] In this embodiment, the hot-pressing shaping device 3 includes two hot-pressing shaping devices, namely the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R. As shown in FIGS. 15 and 16, the wet blank flipping pulp molding machine includes a suction filtration forming device 2, a hot-pressing shaping device 3 (left hot-pressing shaping device 3L, right hot-pressing shaping device 3R), a second wet blank transfer device 5, a first wet blank transfer device 7, a control system, and other components.

[0179] The suction filtration forming device 2 and the first wet blank transfer device 7 share an independent frame, with the first wet blank transfer device 7 positioned above the suction filtration forming device 2. The suction filtration forming device 2 contains a suction filtration forming mold 2a and a suction filtration forming pulp tank 2b; the first wet blank transfer device 7 contains a first wet blank transfer mold 7a and a power transmission mechanism of first wet blank transfer mold 7b.

[0180] The suction filtration forming mold 2a in the suction filtration forming device 2 forms the wet blank from the fibers in the pulp slurry; the first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position, removing the wet blank from the suction filtration forming mold 2a.

[0181] The hot-pressing shaping device 3 includes a left hot-pressing shaping device 3L and a right hot-pressing shaping device 3R, where the wet blank of the product is hot-press dried and shaped. The left hot-pressing shaping device 3L and right hot-pressing shaping device 3R each have their own independent frames.

[0182] The lower hot-press mold 3c includes the left lower hot-press mold 3Lc and right lower hot-press mold 3Rc, while the upper hot-press mold 3a includes the left upper hot-press mold 3La and right upper hot-press mold 3Ra.

[0183] The left hot-pressing shaping device 3L contains a vertically movable left upper hot-press mold 3La and a fixed left lower hot-press mold 3Lc. The left upper hot-press mold 3La and left lower hot-press mold 3Lc are a matching pair of hot-press molds, called the left hot-pressing shaping mold (left hot-press mold). The left hot-pressing shaping mold can close vertically, and the wet blank of the product is hot-press dried and shaped in the left hot-pressing shaping device 3L.

[0184] The left lower hot-press mold 3Lc is fixed to the frame of the left hot-press clamping device.

[0185] The right hot-pressing shaping device 3R contains a vertically movable right upper hot-press mold 3Ra and a fixed right lower hot-press mold 3Rc. The right upper hot-press mold 3Ra and right lower hot-press mold 3Rc are a matching pair of right hot-press molds, called the right hot-pressing shaping mold. The right hot-pressing shaping mold can close vertically, and the wet blank of the product is hot-press dried and shaped in the right hot-pressing shaping device 3R.

[0186] The right lower hot-press mold 3Rc is fixed to the frame of the right hot-pressing shaping device.

[0187] Above the suction filtration forming device 2 is a first wet blank transfer device 7, which contains a vertically movable first wet blank transfer mold 7a and a power transmission mechanism of first wet blank transfer mold 7b that drives the vertical movement of the first wet blank transfer mold 7a. The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and rises into position.

[0188] The second wet blank transfer device 5 contains a second wet blank transfer mold 5a and a multi-degree-of-freedom robotic arm or mechanical arm that can drive the second wet blank transfer mold 5a to flip vertically and move in three dimensions, such as a 6-axis robotic arm or mechanical arm. Driven by the multi-degree-of-freedom robotic arm or mechanical arm, the second wet blank transfer mold 5a can perform a 180-degree vertical flip and can directly transfer the wet blank received from the first wet blank transfer mold 7a to either the left hot-pressing shaping device 3L or the right hot-pressing shaping device 3R.

[0189] The first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a and transfers it to the second wet blank transfer mold 5a. After receiving the wet blank, the flipping mold 5a moves out from under the first wet blank transfer mold 7a. The second wet blank transfer mold 5a then flips 180 degrees vertically with the wet blank and moves in three dimensions, alternately transferring the wet blank to the left hot-pressing shaping device 3L and right hot-pressing shaping device 3R for hot-press drying and shaping. The 180-degree vertical flip and three-dimensional movement of the second wet blank transfer mold 5a with the wet blank can be performed simultaneously.

[0190] In summary, the complete implementation process of this embodiment is typically as follows: [0191] (1) The second wet blank transfer mold 5a below the first wet blank transfer mold 7a moves up, the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a moves down, the second wet blank transfer mold 5a and first wet blank transfer mold 7a separate, and the second wet blank transfer mold 5a receives the wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0192] (2) After receiving the wet blank, the second wet blank transfer mold 5a moves out from under the first wet blank transfer mold 7a. Driven by the wet blank flipping driver 5b, it performs a 180-degree vertical flip and three-dimensional movement, transferring the wet blank to either the left hot-pressing shaping device 3L or right hot-pressing shaping device 3R for hot-press drying and shaping. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0193] Meanwhile, the first wet blank transfer mold 7a moves down to the suction filtration forming mold 2a, extracts the wet blank from the suction filtration forming mold 2a again, and rises back into position.

[0194] The 180-degree vertical flip and three-dimensional movement of the second wet blank transfer mold 5a can be performed simultaneously or separately. [0195] (3) After transferring the wet blank, the second wet blank transfer mold 5a performs another 180-degree vertical flip and three-dimensional movement to return to a position below the first wet blank transfer mold 7a. At this point, the second wet blank transfer mold working surface 5M is facing upwards towards the first wet blank transfer mold 7a. [0196] (4) The second wet blank transfer mold 5a moves up, the first wet blank transfer mold 7a and second wet blank transfer mold 5a close together, and the first wet blank transfer mold 7a transfers the wet blank to the second wet blank transfer mold 5a. The second wet blank transfer mold 5a moves down, the second wet blank transfer mold 5a and first wet blank transfer mold 7a separate, and the second wet blank transfer mold 5a receives another wet blank. At this point, the second wet blank transfer mold working surface 5M and the wet blank are facing upwards. [0197] (5) After receiving the wet blank again, the second wet blank transfer mold 5a moves out from under the first wet blank transfer mold 7a, performs a 180-degree vertical flip and three-dimensional movement, and transfers the wet blank to either the left hot-pressing shaping device 3L or right hot-pressing shaping device 3R for hot-press drying and shaping. After hot-press drying and shaping, the hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0198] Meanwhile, the first wet blank transfer mold 7a moves down to the suction filtration forming mold 2a, extracts the wet blank from the suction filtration forming mold 2a again, and rises back into position.

[0199] The 180-degree vertical flip and three-dimensional movement of the second wet blank transfer mold 5a can be performed simultaneously or separately.

[0200] The production continues in a cyclic manner according to the above process. Pulp molded products are continuously produced and promptly removed from the pulp molding machine or moved to the next process. Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken by the first wet blank transfer mold 7a and sent to the second wet blank transfer mold 5a. It is then flipped 180 degrees vertically by the second wet blank transfer mold 5a before being sent into the left lower hot-press mold or right lower hot-press mold. The left hot-pressing shaping device or right hot-pressing shaping device closes the mold and performs hot-press drying and shaping on the wet blank. This achieves the effect of matching the mesh surface of the wet blank with the smooth surface of the hot-press mold. It also achieves the ideal processing effect of uniform product wall thickness and easy demolding.

[0201] The left hot-pressing shaping device and right hot-pressing shaping device can be positioned on either side of the suction filtration forming device 2, or on the same side.

[0202] A simplified version of this embodiment is the Wet Blank Flipping Direct Transfer Single Hot-Press Pulp Molding Machine, where the hot-pressing shaping device 3 includes only one hot-pressing shaping device. The principle remains the same, with the only difference being the number of hot-pressing shaping devices.

[0203] In this embodiment, typically the first wet blank transfer mold 7a extracts the wet blank from the suction filtration forming mold 2a, but it's also possible for the first wet blank transfer mold 7a to remain stationary while the suction filtration forming mold 2a in the suction filtration forming device 2 moves up and down, delivering the wet blank to the stationary first wet blank transfer mold 7a. The second wet blank transfer mold 5a extracts the wet blank from the stationary first wet blank transfer mold 7a. After receiving the wet blank, the flipping mold 5a moves out from under the first wet blank transfer mold 7a. The second wet blank transfer mold 5a then performs a 180-degree vertical flip and three-dimensional movement with the wet blank, alternately transferring the wet blank to the left hot-pressing shaping device 3L and right hot-pressing shaping device 3R for hot-press drying and shaping. The 180-degree vertical flip and three-dimensional movement of the second wet blank transfer mold 5a with the wet blank can be performed simultaneously.

Embodiment 6

[0204] As shown in FIG. 17, in this embodiment, the wet blank flipping pulp molding machine includes a frame, a suction filtration forming device, a hot-pressing shaping device, a first wet blank transfer device, a second wet blank transfer device, a control system, and other components. The suction filtration forming device 2 is set in the middle of the lower frame 1a, with the first wet blank transfer device 7 positioned above it. On the left and right sides of the frame, there is one hot-pressing shaping device 3 each, namely the left hot-pressing shaping device 3L and the right hot-pressing shaping device 3R.

[0205] As shown in FIG. 17, the frame 1 consists of a lower frame 1a and an upper frame 1b, with tie rods 1c fixing the lower frame 1a and upper frame 1b together.

[0206] The suction filtration forming device 2 includes a suction filtration forming mold 2a and a suction filtration forming pulp tank 2b. A mixture of plant fibers and water of appropriate concentration (referred to as pulp slurry) is intermittently or continuously injected into the suction filtration forming pulp tank 2b. The suction filtration forming mold 2a forms the wet blank from the pulp slurry. Various methods can be used to achieve the production of the wet blank.

[0207] As shown in FIG. 17, the hot-pressing shaping device 3 includes a left hot-pressing shaping device 3L and a right hot-pressing shaping device 3R, and contains hot-pressing shaping molds. The left hot-pressing shaping device 3L contains a vertically movable left lower hot-press mold 3Lc, a left upper hot-press mold 3La fixed to the upper frame, and a left lower hot-press mold driving device 3Lf. The left lower hot-press mold 3Lc can move up and down driven by the left lower hot-press mold driving device 3Lf. The right hot-pressing shaping device 3R contains a vertically movable right lower hot-press mold 3Rc, a right upper hot-press mold 3Ra fixed to the upper frame, and a right lower hot-press mold driving device 3Rf. The right lower hot-press mold 3Rc can move up and down driven by the right lower hot-press mold driving device 3Rf.

[0208] The left lower hot-press mold 3Lc and right lower hot-press mold 3Rc are collectively referred to as the lower hot-press mold 3c, while the left upper hot-press mold 3La and right upper hot-press mold 3Ra are collectively referred to as the upper hot-press mold 3a. Furthermore, the left lower hot-press mold 3Lc only works in conjunction with the left upper hot-press mold 3La, and the right lower hot-press mold 3Rc only works in conjunction with the right upper hot-press mold 3Ra.

[0209] As shown in FIGS. 17 and 20, the first wet blank transfer device 7 contains a first wet blank transfer mold 7a, a first wet blank moving frame 7c, a first wet blank transfer device driver 7b, and a first flipping shaft driver 7.1a. The first wet blank transfer mold 7a is rotatably positioned on the first wet blank moving frame 7c. The first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to flip 180 degrees vertically, while the first wet blank transfer device driver 7b drives the first wet blank transfer device 7 to move up and down. The mold face of the first wet blank transfer mold 7a used to adhere to the wet blank is called the first wet blank transfer mold working surface 7M.

[0210] The suction filtration forming mold 2a in the suction filtration forming device 2 forms the wet blank from the fibers in the pulp slurry. The first wet blank transfer device, which can both move vertically and flip 180 degrees vertically, extracts the wet blank from the suction filtration forming mold 2a, rises to a specific position, and then flips 180 degrees vertically with the wet blank. After completing the 180-degree vertical flip, the first wet blank transfer device transfers the flipped wet blank to the horizontally movable second wet blank transfer device.

[0211] As shown in FIGS. 17 and 20, the second wet blank transfer device 5 contains a second wet blank transfer mold 5a, a second wet blank transfer device moving frame 5c, and a horizontal driver of second wet blank transfer device 6. The mold face of the second wet blank transfer mold 5a used to adhere to the wet blank is called the second wet blank transfer mold working surface 5M. In this embodiment, the second wet blank transfer mold working surface 5M always faces downwards.

[0212] As shown in FIGS. 17 and 20, two (or two sets of) left-right translation rails 8 are fixed to the underside of the upper frame, extending from the left end to the right end. Left-right translation rail sliders 9 that can slide along the rails are set on the left-right translation rails 8. The second wet blank transfer device 5 is fixed to the left-right translation rail sliders 9, suspended from the underside of the upper frame through the left-right translation rail sliders 9, and can move horizontally left and right along the left-right translation rails 8 driven by the horizontal driver of second wet blank transfer device 6.

[0213] As shown in FIGS. 19 and 20, the horizontal movement of the second wet blank transfer device 5 is driven by the horizontal driver of second wet blank transfer device 6. As a preferred solution, the horizontal driver of second wet blank transfer device 6 uses a gear and rack drive method. The horizontal driver of second wet blank transfer device 6 contains a gear power head 6a fixed to the second wet blank transfer device 5, and a rack 6b fixed to the upper frame. The gear power head 6a contains a gear and a servo motor that drives the gear's rotation. The gear of the gear power head 6a meshes with the rack 6b, and the servo motor drives the gear's rotation, thus moving the second wet blank transfer device 5 horizontally left and right. Alternatively, the horizontal movement of the second wet blank transfer device 5 can be driven by a linear motor, with its moving part fixed to the second wet blank transfer device 5 and its stationary part fixed to the upper frame. Another alternative is to use a ball screw mechanism to drive the horizontal movement of the second wet blank transfer device 5.

[0214] The left-right translation rail 8 horizontally spans across the left hot-pressing shaping device 3L, above the first wet blank transfer device 7, and the right hot-pressing shaping device 3R. Driven by the horizontal driver of second wet blank transfer device 6, the second wet blank transfer device 5 can move along the left-right translation rail 8 between positions above the left lower hot-press mold 3Lc, above the first wet blank transfer device 7, and above the right lower hot-press mold 3Rc.

[0215] Before the first wet blank transfer mold 7a moves down to extract the wet blank from the suction filtration forming mold 2a, the first wet blank transfer mold working surface 7M should be facing downwards. If the first wet blank transfer mold working surface 7M is not facing downwards, then the first wet blank transfer mold 7a should flip to achieve this orientation.

[0216] As shown in FIGS. 17, 18, and 19, after the wet blank is formed in the suction filtration forming device, the first wet blank transfer mold 7a, with its working surface 7M already facing downwards, moves down to extract the wet blank from the suction filtration forming mold 2a and rises to a specific position. Then, the first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to perform a 180-degree vertical flip with the wet blank, making the first wet blank transfer mold working surface 7M and the wet blank face upwards (with the mesh surface of the wet blank facing up).

[0217] The second wet blank transfer mold 5a, which can move horizontally left and right along the left-right translation rail 8, moves to a position above the first wet blank transfer mold 7a. The second wet blank transfer mold working surface 5M always faces downwards. The first wet blank transfer mold 7a moves up, closes with the second wet blank transfer mold 5a, transfers the wet blank to the second wet blank transfer mold 5a, and then moves back down. The second wet blank transfer mold 5a receives the wet blank. This process can also perform pre-shaping on the wet blank.

[0218] The second wet blank transfer mold, with the wet blank facing down, moves left to a position above the left lower hot-press mold in the left hot-pressing shaping device. Meanwhile, the first wet blank transfer mold 7a, which has had its wet blank transferred away, flips 180 degrees vertically, making the first wet blank transfer mold working surface 7M face downwards.

[0219] The first wet blank transfer mold 7a, with its working surface 7M facing downwards, moves down again to extract another wet blank from the suction filtration forming mold 2a and rises to a specific position. Then, the first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to perform a 180-degree vertical flip with the wet blank, making the first wet blank transfer mold working surface 7M and the wet blank face upwards (with the mesh surface of the wet blank facing up).

[0220] Meanwhile, the left lower hot-press mold 3Lc moves up to take the wet blank from the second wet blank transfer mold 5a and then moves down into position (this process can also perform pre-shaping on the wet blank). The second wet blank transfer mold 5a moves right along the left-right translation rail 8 back to a position above the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves up, transfers the wet blank to the second wet blank transfer mold 5a, and then moves back down to its original position. The second wet blank transfer mold 5a receives another wet blank. Simultaneously, the left hot-pressing shaping device closes to perform hot-press drying and shaping on the wet blank.

[0221] After the wet blank has been removed, the first wet blank transfer mold 7a flips 180 degrees vertically, with the first wet blank transfer mold working surface 7M facing downwards. The first wet blank transfer mold 7a moves down to extract the wet blank from the suction filtration forming mold 2a and rises to a specific position. Then, the first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to perform a 180-degree vertical flip with the wet blank, making the first wet blank transfer mold working surface 7M and the wet blank face upwards (with the mesh surface of the wet blank facing up).

[0222] The second wet blank transfer mold, with the wet blank, moves right to a position above the right lower hot-press mold in the hot-pressing shaping device. The right lower hot-press mold 3Rc moves up to take the wet blank from the second wet blank transfer mold 5a and then moves down into position. The second wet blank transfer mold 5a moves left along the left-right translation rail 8 back to a position above the first wet blank transfer mold 7a. The first wet blank transfer mold 7a moves up, transfers the wet blank to the second wet blank transfer mold 5a, and then moves back down. The second wet blank transfer mold 5a receives the wet blank. Simultaneously, the right hot-pressing shaping device closes to perform hot-press drying and shaping on the wet blank. The first wet blank transfer mold moves down and flips so that 7M faces downwards, continues to extract the wet blank from the suction filtration forming mold 2a, rises to a specific position, and flips the wet blank so that 7M faces upwards, waiting to transfer it to the second wet blank transfer mold 5a.

[0223] The smooth surface of the upper hot-press mold presses against the mesh surface of the wet blank, creating a dried and shaped pulp molded product. The product is then removed from the pulp molding machine, with both sides of the product achieving excellent processing effects.

[0224] As shown in FIGS. 19 and 20, the first wet blank transfer device 7 is equipped with a first wet blank transfer mold 7a. There are multiple ways for the first wet blank transfer mold 7a to perform a 180-degree flip. As a preferred solution, the 180-degree vertical flip of the first wet blank transfer mold 7a can be performed around an axis parallel to the horizontal plane, i.e., it can flip 180 degrees up and down around the first wet blank flipping shaft 7.1, achieving the purpose of flipping the first wet blank transfer mold working surface 7M from facing up to facing down or from facing down to facing up. As shown in FIGS. 17 and 20, the first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to perform the 180-degree flip. As can be seen from the figures: The first wet blank flipping shaft 7.1 is rotatably positioned on the first wet blank moving frame 7c through bearings. The base of the first flipping shaft driver 7.1a (such as a motor with a reducer) is fixed to one side of the first wet blank moving frame 7c. The drive shaft of the first flipping shaft driver 7.1a (such as the motor output shaft or reducer output shaft) is coaxially connected with the first wet blank flipping shaft 7.1. Obviously, when the wet blank flipping driver starts, it can drive the first wet blank flipping shaft 7.1 to rotate the first wet blank transfer mold 7a through a 180-degree flip.

[0225] The first wet blank transfer device 7 and the second wet blank transfer device 5 jointly achieve the function of transferring the wet blank from the suction filtration forming mold to the hot-pressing shaping mold. The coordinated actions between the first wet blank transfer device 7 and the second wet blank transfer device 5, and the left and right lower hot-press molds moving up to take the wet blank from the second wet blank transfer mold 5a and then moving down into position, can achieve two pre-shaping processes on the wet blank. The 180-degree flip of the wet blank achieves the purpose of having the smooth surface of the hot-press mold press against the dense, smooth, and high-quality mesh surface of the wet blank, while allowing the mesh surface of the hot-press mold, which has some flexibility and can easily press against the entire surface of the wet blank, to press against the fuzzy surface of the wet blank. Both sides of the product achieve excellent processing effects, realizing dual-side optimization.

[0226] The complete implementation process of this embodiment is typically as follows: [0227] (1) Above the suction filtration forming mold 2a, the first wet blank transfer mold 7a, whose 7M is not facing downwards, is flipped to its original position, making the first wet blank transfer mold working surface 7M face downwards. Then, the first wet blank transfer mold 7a moves down, extracts the wet blank from the suction filtration forming mold 2a, and rises to a specific position. After that, the first wet blank transfer mold 7a performs a 180-degree vertical flip with the wet blank, making the first wet blank transfer mold working surface 7M and the wet blank face upwards (with the mesh surface of the wet blank facing up); [0228] (2) The second wet blank transfer mold 5a, which has had its wet blank transferred away, moves along the left-right translation rail 8 to a position above the first wet blank transfer mold 7a; the first wet blank transfer mold 7a moves up to transfer the wet blank to the second wet blank transfer mold 5a, then moves down to continue the actions in step (1), while the second wet blank transfer mold 5a, now with the wet blank, moves left along the left-right translation rail 8 to a position above the vertically movable left lower hot-press mold 3Lc; the left lower hot-press mold 3Lc moves up to take the wet blank from the second wet blank transfer mold 5a and then moves down into position; [0229] (3) The second wet blank transfer mold 5a, which has had its wet blank transferred away, moves along the left-right translation rail 8 to a position above the first wet blank transfer mold 7a;

[0230] The first wet blank transfer mold 7a moves up again to transfer the wet blank to the second wet blank transfer mold 5a, then moves down to continue the actions in step (1),

[0231] Meanwhile, the left lower hot-press mold 3Lc moves up to close with the left upper hot-press mold 3La to perform hot-press drying and shaping on the wet blank. After hot-press drying and shaping, the left hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time; [0232] (4) The second wet blank transfer mold 5a, now with the wet blank, moves right to a position above the vertically movable right lower hot-press mold 3Rc; the right lower hot-press mold 3Rc moves up to take the wet blank from the second wet blank transfer mold 5a and then moves down into position; [0233] (5) The second wet blank transfer mold 5a, which has had its wet blank transferred away, returns to a position above the first wet blank transfer mold 7a;

[0234] The first wet blank transfer mold 7a moves up again to transfer the wet blank to the second wet blank transfer mold 5a, then moves down to continue the actions in step (1),

[0235] Meanwhile, the right lower hot-press mold 3Rc moves up to close with the right upper hot-press mold 3Ra to perform hot-press drying and shaping on the wet blank. After hot-press drying and shaping, the right hot-press mold opens, and the pulp molded product is promptly removed from the pulp molding machine at the appropriate time.

[0236] The wet blank flipping pulp molding machine operates in a cyclic manner according to the above steps (2)-(5), continuously producing pulp molded products, which are promptly removed from the pulp molding machine.

[0237] The above action sequence can be adjusted and varied. However, all sequences will include the following actions: The first wet blank transfer mold (7a) of the first wet blank transfer device first extracts the wet blank from the suction filtration forming mold 2a, then performs a 180-degree vertical flip, and then transfers the flipped wet blank to the second wet blank transfer mold (5a); The second wet blank transfer device (5) moves horizontally along the left-right translation rail (8) from above the first wet blank transfer device to above the hot-press lower mold (left or right lower hot-press mold), the vertically movable hot-press lower mold (left or right lower hot-press mold) moves up to extract the wet blank from the second wet blank transfer mold (5a), thus achieving the transfer of the flipped wet blank to the hot-pressing shaping device.

[0238] Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken and flipped by the first wet blank transfer mold 7a (with the first wet blank transfer mold working surface 7M and the adhered wet blank facing up, and the mesh surface of the wet blank facing up), then transferred to the second wet blank transfer mold 5a, which then sends it into the left or right hot-pressing shaping device for hot-press drying and shaping.

[0239] This achieves two pre-shaping processes on the wet blank; it also achieves the matching of the mesh surface of the wet blank with the smooth surface of the hot-press mold; and it realizes the ideal processing effect of uniform product wall thickness and easy demolding. The machine's operational stability, product quality, and pass rate are greatly improved, while production costs are substantially reduced.

Embodiment 7

[0240] This embodiment is a simplified version of Embodiment 1. The wet blank flipping pulp molding machine in this embodiment contains only one hot-pressing shaping device. In this implementation, the wet blank flipping pulp molding machine includes a frame 1, a suction filtration forming device 2, a hot-pressing shaping device 3, a second wet blank transfer device 5, a first wet blank transfer device 7, a control system, and other components.

[0241] Because there is only one hot-pressing shaping device, there is no distinction between left and right hot-pressing shaping devices. The implementation principle is the same as in Embodiment 1.

Embodiment 8

[0242] As shown in FIGS. 21 and 22, the wet blank flipping pulp molding machine includes a frame, a suction filtration forming device, a hot-pressing shaping device, a first wet blank transfer device, a second wet blank transfer device, a control system, and other components.

[0243] As shown in FIGS. 21 and 22, a material receiving platform 13 for dried and shaped products 11 is set up on the left side of the wet blank flipping pulp molding machine.

[0244] Two (or two sets of) left-right translation rails 8 are fixed to the underside of the upper frame, extending from the left end to the right end. The left-right translation rails 8 span across the top of the first wet blank transfer device 7, above the lower hot-press mold, and above the material receiving platform 13.

[0245] The suction filtration forming device and the first wet blank transfer device are the same as in Embodiments 1 and 2.

[0246] The hot-pressing shaping device and the second wet blank transfer device 5 in this embodiment are different from those in Embodiments 1 and 2. The lower hot-press mold can move up and down driven by the lower hot-press mold driving device 3f; the upper hot-press mold can move horizontally. The upper hot-press mold and the second wet blank transfer device 5 are movably positioned on the left-right translation rails 8 through left-right translation rail sliders 9, suspended from the underside of the upper frame. A connector 12 connects the upper hot-press mold with the second wet blank transfer device. Driven by the horizontal driver of second wet blank transfer device 6, the upper hot-press mold and the second wet blank transfer device can move left and right synchronously along the left-right translation rails 8. The second wet blank transfer mold 5a can move back and forth along the left-right translation rails 8 between positions above the first wet blank transfer device 7 and above the lower hot-press mold; the upper hot-press mold can move back and forth along the left-right translation rails 8 between positions above the lower hot-press mold and above the material receiving platform 13.

[0247] The frame 1 consists of a lower frame 1a, an upper frame 1b, and tie rods 1c.

[0248] The suction filtration forming device 2 contains a suction filtration forming mold 2a and a suction filtration forming pulp tank 2b.

[0249] The first wet blank transfer device 7 contains a first wet blank transfer mold 7a, a first wet blank moving frame 7c, a first wet blank transfer device driver 7b, and a first flipping shaft driver 7.1a. The first wet blank transfer mold 7a is rotatably positioned on the first wet blank moving frame 7c. The first flipping shaft driver 7.1a drives the first wet blank transfer mold 7a to perform a 180-degree vertical flip, while the first wet blank transfer device driver 7b drives the first wet blank transfer device 7 to move up and down. The mold face of the first wet blank transfer mold 7a used to adhere to the wet blank is called the first wet blank transfer mold working surface 7M.

[0250] The horizontal driver of second wet blank transfer device 6 that drives the second wet blank transfer device 5 and the upper hot-press mold to move horizontally together contains a gear power head 6a fixed to the second wet blank transfer device 5 or the upper hot-press mold, and a rack 6b fixed to the upper frame. The gear power head 6a contains a gear and a servo motor that drives the gear's rotation. The gear of the gear power head 6a meshes with the rack 6b, and the servo motor drives the gear's rotation, thus moving the second wet blank transfer device 5 and the upper hot-press mold horizontally left and right together. Alternatively, a linear motor can be used to drive the horizontal movement of the second wet blank transfer device 5 and the upper hot-press mold together, with the moving part of the linear motor fixed to the upper hot-press mold or the second wet blank transfer device 5, and the stationary part fixed to the upper frame. Another alternative is to use a ball screw mechanism to drive the horizontal movement of the second wet blank transfer device 5 and the upper hot-press mold together; or a horizontal cylinder can be used to drive the horizontal movement of the second wet blank transfer device 5 and the upper hot-press mold together.

[0251] The complete implementation process of this embodiment is typically as follows: [0252] (1) Above the suction filtration forming mold 2a, the first wet blank transfer mold 7a, whose 7M is not facing downwards, is flipped up and down to its original position, making the first wet blank transfer mold working surface 7M face downwards. Then, the first wet blank transfer mold 7a moves down, extracts the wet blank from the suction filtration forming mold 2a, and rises to a specific position. After that, the first wet blank transfer mold 7a performs a 180-degree vertical flip with the wet blank, making the first wet blank transfer mold working surface 7M and the wet blank face upwards (with the mesh surface of the wet blank facing up); [0253] (2) The upper hot-press mold and the second wet blank transfer mold 5a move synchronously along the left-right translation rail 8, with the upper hot-press mold moving to a position above the lower hot-press mold, and the second wet blank transfer mold 5a moving to a position above the first wet blank transfer mold 7a; The lower hot-press mold, already carrying the wet blank, moves up to close with the upper hot-press mold to perform hot-press drying and shaping on the wet blank, while the first wet blank transfer mold 7a moves up to transfer the wet blank to the second wet blank transfer mold 5a, then moves down to continue the actions in step (1); [0254] (3) After completing the hot-press drying and shaping, the lower hot-press mold moves down to open the mold, and the dried and shaped product is adhered to the upper hot-press mold;

[0255] The upper hot-press mold and the second wet blank transfer mold 5a that has already received the wet blank move synchronously along the left-right translation rail 8, with the upper hot-press mold moving to a position above the material receiving platform 13 and the second wet blank transfer mold 5a moving to a position above the lower hot-press mold 3c; The hot-press dried and shaped product in the upper hot-press mold is placed on the material receiving platform, while the lower hot-press mold 3c moves up to take the wet blank from the second wet blank transfer mold 5a and then moves down into position; [0256] (4) The upper hot-press mold and the second wet blank transfer mold 5a move together synchronously along the left-right translation rail 8, with the upper hot-press mold moving to a position above the lower hot-press mold, and the second wet blank transfer mold 5a moving to a position above the first wet blank transfer mold 7a; The lower hot-press mold, already carrying the wet blank, moves up to close with the upper hot-press mold to perform hot-press drying and shaping on the wet blank, while the first wet blank transfer mold 7a moves up to transfer the wet blank to the second wet blank transfer mold 5a, then moves down to continue the actions in step (1).

[0257] The wet blank flipping pulp molding machine operates in a cyclic manner according to the above steps (3)-(4), continuously producing pulp molded products, which are promptly removed from the pulp molding machine.

[0258] The above action sequence can be adjusted and varied. However, all sequences will include the following actions: The first wet blank transfer mold (7a) of the first wet blank transfer device first extracts the wet blank from the suction filtration forming mold 2a, then performs a 180-degree vertical flip, and then transfers the flipped wet blank to the second wet blank transfer mold (5a) of the second wet blank transfer device; The second wet blank transfer device (5) moves horizontally along the left-right translation rail (8) from above the first wet blank transfer device to above the lower hot-press mold, the vertically movable lower hot-press mold (3c) moves up to extract the wet blank from the second wet blank transfer mold (5a), thus achieving the transfer of the flipped wet blank to the hot-pressing shaping device.

[0259] Throughout the entire production process of pulp molded products, the wet blank made by the suction filtration forming mold 2a is taken and flipped by the first wet blank transfer mold 7a (with the first wet blank transfer mold working surface 7M and the adhered wet blank facing up, and the mesh surface of the wet blank facing up), then transferred to the second wet blank transfer mold 5a, which then sends it into the hot-pressing shaping device for hot-press drying and shaping.

[0260] This achieves two pre-shaping processes on the wet blank; it also achieves the matching of the mesh surface of the wet blank with the smooth surface of the hot-press mold; and it realizes the ideal processing effect of uniform product wall thickness and easy demolding. The machine's operational stability, product quality, and pass rate are greatly improved, while production costs are substantially reduced.