FILLING DEVICE

Abstract

To provide a filling device that realizes simplification of device configuration, improvement of design freedom, and redaction of production loads, and that prevents formation of a pointed peak on the upper surface of packed contents, or uneven filling of the container. Provided is a filling device (10) including a filling nozzle (20), a contents supplier (30), a plunger (40), and a gas supplier (50). A gas inlet (25) connected to the gas supplier (50), a gas outlet (26) opened to the nozzle hole (23), and a gas flow passage (27) are formed in the filling nozzle (20). The gas (A) supplied from the gas supplier (50) is ejected from a gap between an inner circumferential surface of the nozzle hole (23) and an outer circumferential surface of the plunger (40) at a lower end of the filling nozzle (20).

Claims

1. A filling device comprising: a filling nozzle having a nozzle hole formed along an up and down direction and opened downward; a contents supplier that supplies contents to the nozzle hole; a plunger that is disposed inside the nozzle hole such as to be movable up and down and pushes out the contents supplied in the nozzle hole downward; and a gas supplier that supplies a gas, the filling nozzle being formed with a gas inlet connected to the gas supplier, a gas outlet opened to the nozzle hole, and a gas flow passage connecting the gas inlet and the gas outlet, a gas supplied by the gas supplier being ejected from a gap between an inner circumferential surface of the nozzle hole and an outer circumferential surface of the plunger at a lower end of the filling nozzle.

2. The filling device according to claim 1, wherein the filling nozzle includes a nozzle body, and a nozzle tip tool attached below the nozzle body, and a gap between opposite surfaces of the nozzle body and the nozzle tip tool serves as part of the gas flow passage and the gas outlet.

3. The filling device according to claim 2, wherein the nozzle body is formed with the gas inlet, an opposite surface side opening that opens in the opposite surface of the nozzle body, and a body flow passage that connects the gas inlet and the opposite surface side opening, at least one of the opposite surfaces of the nozzle body and the nozzle tip tool is provided with an annular recess formed annularly around the nozzle hole and communicating with the opposite surface side opening, and a first packing in an annular form is provided between the opposite surfaces of the nozzle body and the nozzle tip tool on an outer side of the opposite surface side opening.

4. The filling device according to claim 1, wherein the filling nozzle is formed with a contents supply hole to which the contents supplier is connected, the contents supply hole extends sideways from the nozzle hole and reaches an outer surface of the filling nozzle, and a second packing in an annular form is disposed between the inner circumferential surface of the nozzle hole and the outer circumferential surface of the plunger above the contents supply hole.

5. The filling device according to claim 1, further comprising a nozzle cover placed around the filling nozzle, wherein the nozzle cover is provided such as the movable up and down relative to the filling nozzle, and the gas inlet is formed above the nozzle cover when the nozzle cover is moved to an upper most position thereof.

6. The filling device according to claim 1, wherein the filling nozzle includes, on a lower surface thereof, a tip protrusion formed by protruding a central part of the lower surface downward.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0022] FIG. 1 is an illustrative diagram showing a filling device according to one embodiment of the present invention.

[0023] FIG. 2 is an illustrative diagram showing the flow of a gas during injection of contents.

[0024] FIG. 3 is a bottom view illustrating a filling nozzle.

[0025] FIG. 4 is a cross-sectional view illustrating a conventional filling device.

REFERENCE SIGNS LIST

[0026] 10 Filling device

[0027] 20 Filling nozzle

[0028] 21 Nozzle body

[0029] 21a Annular recess

[0030] 22 Nozzle tip tool

[0031] 22a Tip protrusion

[0032] 23 Nozzle hole

[0033] 24 Contents supply hole

[0034] 25 Gas inlet

[0035] 26 Gas outlet

[0036] 27 Gas flow passage

[0037] 28 Opposite surface side opening

[0038] 29 Body flow passage

[0039] 30 Contents supplier

[0040] 31 Contents supply tube

[0041] 40 Plunger

[0042] 41 Plunger driver

[0043] 50 Gas supplier

[0044] 60 Nozzle cover

[0045] 70 First packing

[0046] 71 Second packing

[0047] 80 Container lifter

[0048] A Gas

[0049] B Contents

[0050] C Container

[0051] C1 Container flange part

[0052] C2 Container stacked part

DESCRIPTION OF EMBODIMENTS

[0053] Below, the filling device 10 according to one embodiment of the present invention will be described with reference to the drawings.

[0054] The filling device 10 fills a container C with viscous contents B such as a meat product. As shown in FIG. 1, the device includes a filling nozzle 20 having a nozzle hole 23, a contents supplier 30 that supplies the contents B to the nozzle hole 23, a plunger 40 that is disposed inside the nozzle hole 23 such as to be movable up and down and pushes out the contents B supplied to the nozzle hole 23 downward, a gas supplier 50 that supplies a gas A, a nozzle cover 60 placed around the filling nozzle 20, first and second packings 70 and 71 in an annular form that seal respective parts, and a container lifter 80 that moves the container C up and down.

[0055] The constituent elements of the filling device 10 will each be described below with reference to FIG. 1 to FIG. 3.

[0056] First, the filling nozzle 20 includes a cylindrical nozzle hole 23 that extends along an up and down direction and opened downward, and a contents supply hole 24 that extends sideways from the nozzle hole 23 as far as to the outer surface of the filling nozzle 20, as shown in FIG. 1 and FIG. 2. This contents supply hole 24 is connected to the contents supplier 30 to deliver the contents B into the nozzle hole 23.

[0057] Inside the filling nozzle 20 is formed a flow passage for a gas A supplied from the gas supplier 50 to be ejected from the nozzle tip (lower end) of the filling nozzle 20. More specifically, as shown in FIG. 1 and FIG. 2, a gas inlet 25 opened in the outer surface of the filling nozzle 20 and connected to the gas supplier 50, a gas outlet 26 opened to the nozzle hole 23, and a gas flow passage 27 that connects the gas inlet 25 and gas outlet 26, are formed inside the filling nozzle 20.

[0058] As shown in FIG. 2, the gas A supplied from the gas supplier 50 is forced into the nozzle hole 23 through the gas inlet 25, gas flow passage 27, an annular recess 21a, and gas outlet 26, and then, at the nozzle tip of the filling nozzle 20, blown out from an annular gap between an outer circumferential surface of the plunger 40 that has come down and an inner circumferential surface of the nozzle hole 23.

[0059] The filling nozzle 20 will be described in more detail: As shown in FIG. 1 and FIG. 2, the filling nozzle 20 is made up of a nozzle body 21 and a nozzle tip tool 22 fixedly attached below the nozzle body 21.

[0060] In the nozzle body 21 are formed, as shown in FIG. 2, the gas inlet 25 mentioned above, an opposite surface side opening 28 that opens in the opposing surface (lower surface) of the nozzle body 21 facing the upper surface of the nozzle tip tool 22, and a body flow passage 29 that connects the gas inlet 25 and the opposite surface side opening 28.

[0061] In this embodiment, the gas flow passage 27 is configured by the body flow passage 29, opposite surface side opening 28, and a gap between the opposite surfaces of the nozzle body 21 and the nozzle tip tool 22.

[0062] The gas outlet 26 mentioned above is configured by the gap between the opposite surfaces of the nozzle body 21 and the nozzle tip tool 22.

[0063] The nozzle hole 23 mentioned above is formed to extend over both of the upper nozzle body 21 and the lower nozzle tip tool 22, and opens in the lower surface of the nozzle tip tool 22.

[0064] An annular recess 21a that communicates with the opposite surface side opening 28 is formed in the opposing surface (lower surface) of the nozzle body 21. An annular recess that communicates with the opposite surface side opening 28 may also be formed likewise in the opposing surface (upper surface) of the nozzle tip tool 22.

[0065] With the annular recess 21a being formed at least in one of the opposing surface (lower surface) of the nozzle body 21 and the opposing surface (upper surface) of the nozzle tip tool 22, the gas A can be distributed annularly between the opposite surfaces of the nozzle body 21 and the nozzle tip tool 22, so that the gas A can be ejected uniformly from the annular gap between the outer circumferential surface of the plunger 40 and the inner circumferential surface of the nozzle hole 23 at the nozzle tip of the filling nozzle 20.

[0066] The nozzle tip tool 22 is formed in a substantially quadrate shape, which is similar to the shape of the container C when viewed from below as shown in FIG. 3. The nozzle tip tool 22 may be designed in a suitable shape in accordance with the shape and opening part of the container C. With the nozzle tip tool 22 having a similar shape as that of the container C like this, the contents B can be distributed to all corners of the container C, using the nozzle tip tool 22 as a pressing plate, so that the container C can be filled with the viscous contents B without leaving gaps particularly in corners at the bottom of the container C.

[0067] The nozzle tip tool 22 (filling nozzle 20) has, on the lower surface thereof, a tip protrusion 22a formed by protruding a central part of the lower surface downward, as shown in FIG. 1 to FIG. 3. With this tip protrusion 22a, the surface of the contents B is intentionally dented as it is being packed, so that the surface of the contents B can be made flat even when the viscous contents B expand later inside the retort container.

[0068] The contents supplier 30 supplies a constant amount of contents B to the nozzle hole 23, and is configured by a measuring device, cylinder, and the like. The contents supplier 30 is connected to the contents supply hole 24 of the filling nozzle 20 via a contents supply tube 31 attached to the filling nozzle 20, as shown in FIG. 1.

[0069] The plunger 40 is a substantially columnar member that moves up and down by a plunger driver 41 made up of an air cylinder and the like as shown in FIG. 1. When moved down, at the lowermost position, the lower surface of the plunger 40 becomes substantially flush with the lower surface of the tip protrusion 22a of the nozzle tip tool 22 as shown in FIG. 2.

[0070] The gas supplier 50 supplies the gas A. In this embodiment, it is made up of an air compressor that includes a regulator for regulating the amount of compressed air to be supplied, a filter that purifies the air supplied from the air compressor, and the like. The gas supplier 50 may be embodied in any specific form as long as a gas A such as air can be supplied.

[0071] The nozzle cover 60 is provided such as to be movable in the up and down direction relative to the filling nozzle 20 and to make contact with a container stacked part C2 for pressing the outer peripheral edge on the upper surface of the contents B on the outer side of the filling nozzle 20 during the injection of the contents B, to prevent the packed contents B from adhering to the container flange part, and to even out the upper surface of the contents. The nozzle cover 60 is biased downward with a spring (not shown). When the nozzle cover 60 is at the lowermost position, the lower surface of the nozzle cover 60 becomes substantially flush with the lower surface in the outer peripheral part of the tip protrusion 22a of the nozzle tip tool 22 as shown in FIG. 2.

[0072] The first packing 70 is disposed between the opposite surfaces of the nozzle body 21 and the nozzle tip tool 22 on the outer side of the opposite surface side opening 28 as shown in FIG. 1 and FIG. 2. More specifically, the first packing 70 is disposed inside the annular recess formed in the opposing surface (upper surface) of the nozzle tip tool 22. This way, the gas A is prevented from leaking outward of the filling nozzle 20 and controlled to flow only in the direction toward the gas outlet 26.

[0073] The second packing 71 is disposed between an inner circumferential surface of the nozzle hole 23 and an outer circumferential surface of the plunger 40 above the contents supply hole 24 as shown in FIG. 1 and FIG. 2. More specifically, the second packing 71 is disposed inside an annular recess formed in the outer circumferential surface of the plunger 40. This way, the gas A is prevented from leaking upward of the plunger 40 and controlled to flow only in the direction toward the filling nozzle 20.

[0074] The container lifter 80 moves up and down to move the container C below the filling nozzle 20 in accordance with the process of injecting the contents B. While the filling nozzle 20 is installed stationary in this embodiment, the filling nozzle 20 may be provided with a mechanism that moves the nozzle up and down. Alternatively, a mechanism may be provided that moves both the filling nozzle 20 and the container C up and down. The moving speed of the container lifter 80 or the filling nozzle 20 is synchronized with the injection speed of the contents B this way, so that the contents B can reach every corner of the container C, as well as that, even when the contents B have thick viscous properties or contain flake-like solids, formation of gaps in the contents can be prevented.

[0075] Next, a method of filling the container C with the contents B using the filling device 10 will be described below.

[0076] First, the container C is moved up by the container lifter 80, to bring the nozzle cover 60 around the filling nozzle 20 into contact with the container stacked part C2 of the container C, and to insert the nozzle tip tool 22 of the filling nozzle 20 into the container C as far as near the lower end.

[0077] At this time, the nozzle cover 60 is pushed up by the container stacked part C2 and moves up.

[0078] Next, with the container lifter 80 being stopped, the contents B start to be supplied from the contents supplier 30 into the nozzle hole 23 via the contents supply hole 24. After every corner in the bottom of the container C is filled with the contents B without gaps (after about 10 seconds), the container lifter 80 starts to move down the container C, while the supply of the contents B is continued. The time during which the container lifter 80 is at halt and the lowering distance of the container lifter 80 may be adjusted suitably in accordance with the speed of filling the container C with the contents B. When the outer peripheral edge of the nozzle tip tool 22 is substantially flush with the nozzle cover 60, the supply of the contents B is stopped. After the container lifter 80 is lowered further several mm (about 3 mm in this embodiment), the plunger 40 is moved down, to push the contents B inside the nozzle hole 23 into the container C, whereupon the filling is complete. The timing of lowering the container lifter 80 is divided into several stages and adjusted in this way, so that uneven filling of the container C or formation of gaps in the contents B can be prevented more reliably.

[0079] When the filling is complete, the contents B in the container C are in tight contact with the lower surface of the filling nozzle 20 (nozzle tip tool 22) as shown in FIG. 2, which means a vacuum is produced between the upper surface of the contents B and the lower surface of the filling nozzle 20.

[0080] Accordingly, the gas A is then supplied from the gas supplier 50. The gas A is supplied through the gas inlet 25, gas flow passage 27, gas outlet 26, annular recess 21a, and an annular gap between the outer circumferential surface of the plunger 40 and the inner circumferential surface of the nozzle hole 23 as shown in FIG. 2, and delivered to between the upper surface of the contents B and the lower surface of the filling nozzle 20. This way, the vacuum between the upper surface of the contents B and the lower surface of the filling nozzle 20 is removed, so that the upper surface of the contents B and the lower surface of the filling nozzle 20 no longer make tight contact with each other. Therefore, when the filling nozzle 20 is separated from the container C after the injection of the contents B, formation of a pointed peak, which is created by the pulling up of the upper surface of the contents B by the filling nozzle 20, can be prevented.

[0081] Lastly, the container C filled with the contents B is moved down.

[0082] While one embodiment of the present invention has been described in detail above, the present invention is not limited to the embodiment described above, and various design changes can be made without departing from the scope of the present invention set forth in the claims.

[0083] For example, while the filling nozzle is made up of a nozzle body and a nozzle tip tool in the embodiment described above, the filling nozzle may be configured as a single component.