Fast hot melt adhesive gun

Abstract

A fast hot melt adhesive gun includes an adhesive gun housing, wherein an end part of one end of the adhesive gun housing is provided with an adhesive inlet, a heating cavity used for heating an adhesive rod is formed in the adhesive gun housing, an inner wall of the adhesive gun housing is fixedly connected with a chute for the adhesive rod to slide, the heating cavity comprises a funnel-shaped heating head, a rear end of the funnel-shaped heating head is in communication with a connecting pipe, an outside of the funnel-shaped heating head is wrapped with a PTC heating layer, an inner diameter of the funnel-shaped heating head is gradually reduced from a first end at the connecting pipe to a second end at the funnel-shaped heating head, a front end of the funnel-shaped heating head is in communication with a copper sleeve.

Claims

1. A fast hot melt adhesive gun, comprising an adhesive gun housing, wherein an end part of one end of the adhesive gun housing is provided with an adhesive inlet, a heating cavity configured for heating an adhesive rod is formed in the adhesive gun housing, an inner wall of the adhesive gun housing is fixedly connected with a chute for the adhesive rod to slide, the heating cavity comprises a funnel-shaped heating head having an exterior with a surface area located at a front end of the hot melt adhesive gun, a rear end of the funnel-shaped heating head is in communication with a connecting pipe, the exterior surface area of the funnel-shaped heating head is covered completely with a PTC heating layer, an inner diameter of the funnel-shaped heating head is gradually reduced from a first end at the connecting pipe to a second end at the funnel-shaped heating head, a copper sleeve having an adhesive outlet extends from the second end of the heating head, wherein a melted adhesive rod flows out through the adhesive outlet, and a center line of the adhesive rod is aligned with a center line of the funnel-shaped heating head.

2. The fast hot melt adhesive gun according to claim 1, wherein the inner wall of the adhesive gun housing is rotationally connected with a trigger, a part of the trigger extends to an outside of the adhesive gun housing, the trigger is located on an inner side of the adhesive gun housing and the trigger is fixedly connected with a first connecting piece, and the first connecting piece is hinged with a second connecting piece; the inner wall of the adhesive gun housing is slidably connected with a sliding block, the second connecting piece is hinged on the sliding block, and the first connecting piece and the second connecting piece have openings for the adhesive rod to pass through.

3. The fast hot melt adhesive gun according to claim 1, wherein a printed circuit board (PCB) assembly is arranged in the adhesive gun housing, the PCB assembly is connected with a light button, and an indicator light is arranged on a surface of the housing.

4. The fast hot melt adhesive gun according to claim 1, wherein a battery jar configured for holding dry batteries is formed in a bottom of the housing.

5. The fast hot melt adhesive gun according to claim 1, wherein the adhesive rod is sheathed with an anti-slide member at a position against the adhesive inlet to prevent the adhesive rod from shifting.

6. The fast hot melt adhesive gun according to claim 1, wherein the adhesive rod is sheathed with a spring at a position against a joint of the heating cavity and the connecting pipe.

7. The fast hot melt adhesive gun according to claim 1, wherein a surface of the housing has a plurality of viewing windows configured for observing a remaining amount of the adhesive rod, and a number of the viewing windows is two.

8. The fast hot melt adhesive gun according to claim 1, wherein a surface of the housing has a jack configured for charging.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic diagram of a fast hot melt adhesive gun of the present invention;

(2) FIG. 2 is an internal structural schematic diagram of a fast hot melt adhesive gun of the present invention;

(3) FIG. 3 is a schematic diagram of a heating head in the present invention;

(4) FIG. 4 is a schematic diagram of a second connecting piece in the present invention;

(5) FIG. 5 is a schematic diagram of a sliding block and a sleeve in the present invention.

(6) Reference signs: adhesive gun housing 1, adhesive inlet 2, chute 3, heating head 4, connecting pipe 5, copper sleeve 6, adhesive outlet 7, trigger 8, first connecting piece 9, second connecting piece 10, sliding block 11, sleeve 12, PCB assembly 13, light button 14, anti-slide member 15, spring 16, viewing window 17, and jack 18.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(7) The following description is used to disclose the present invention so as to enable those skilled in the art to realize the present invention. The preferred embodiment in the following description is only an example, and those skilled in the art can think of other obvious variations.

(8) Embodiment 1 of the present invention 1 is shown in FIGS. 1-5: a fast hot melt adhesive gun, comprising an adhesive gun housing 1, wherein the end part of one end of the adhesive gun housing 1 is provided with an adhesive inlet 2, a heating cavity used for heating an adhesive rod is formed in the adhesive gun housing 1, the inner wall of the adhesive gun housing 1 is fixedly connected with a chute 3 for the adhesive rod to slide, the heating cavity comprises a funnel-shaped heating head 4, the rear end of the heating head 4 is in communication with a connecting pipe 5, the outside of the heating head 4 is wrapped with a PTC heating layer, the inner diameter of the heating head 4 is gradually reduced from the end at the connecting pipe to the end at the heating head 4, the front end of the heating head 4 is in communication with a copper sleeve 6, the copper sleeve 6 is provided with an adhesive outlet 7 through which melted adhesive rod flows out, and the center line of the adhesive rod is always aligned with the center line of the heating head 4. As the PTC heating layer is arranged outside the funnel-shaped heating head 4, i.e., the PTC can be seen as an infinite number of closely-fitted concentric circles with different diameters, and the distance from any position on the same concentric circle to the center of the adhesive rod is the same, the heat radiation distance is the same, which makes the heating more uniform and the heating time shorter. In addition, as the distance from any position on the concentric circle with the smallest diameter to the center of the adhesive rod is the smallest, i.e., the heat radiation distance is the smallest, the time required is also the shortest, which can be reduced from the original 2-3 minutes to 15 seconds.

(9) The inner wall of the adhesive gun housing 1 is rotationally connected with a trigger 8, part of the trigger 8 extends to the outside of the adhesive gun housing 1, the trigger 8 is located on the inner side of the adhesive gun housing 1 and is fixedly connected with a first connecting piece 9, and the first connecting piece 9 is hinged with a second connecting piece 10; the inner wall of the adhesive gun is slidably connected with a sliding block 11, the second connecting piece 10 is hinged on the sliding block 11, the sliding block 11 have an opening for the adhesive rod to pass through, and the sliding block 11 is fixedly connected with a sleeve 12 for the adhesive rod to pass through.

(10) A PCB assembly 13 is arranged in the adhesive gun housing 1, the PCB assembly 13 is connected with a light button 14, and an indicator light is arranged on the surface of the adhesive gun housing 1.

(11) A battery jar used for holding dry batteries is formed in the bottom of the adhesive gun housing 1.

(12) The adhesive rod is sheathed with an anti-slide member 15 at the position against the adhesive inlet 2 to prevent the adhesive rod from shifting. In order to prevent the adhesive rod from shifting, the anti-slide member 15 is provided.

(13) The adhesive rod is sheathed with a spring 16 at the position against the joint of the heating cavity and the connecting pipe 15.

(14) The surface of the adhesive gun housing 1 has a plurality of viewing windows 17 used for observing the remaining amount of the adhesive rod, and the number of the viewing windows 17 is two. The viewing windows 17 are used for observing the remaining amount of the adhesive rod in real time, and a new adhesive rod can be added in time when the remaining amount is insufficient.

(15) The surface of the adhesive gun housing 1 has a jack 18 used for charging.

(16) The specific operation steps of the present invention are as follows: the present invention can be powered by dry batteries or rechargeable batteries; when the adhesive gun is used, an adhesive rod is first inserted into the adhesive gun housing 1 along the adhesive inlet 2, and passes through the connecting pipe 5 to the heating head 4 (heating cavity) and the copper sleeve 6 at the same time. Then power is switched on to make the PTC heating layer start to work and transfer heat to surface of the heating head 4, and the heat is transferred to the heating cavity by the heating head 4 to heat and melt the adhesive rod in the heating cavity. As the heating head 4 is set in a funnel shape, the heat radiation distance from the PTC heating layer to the adhesive rod is reduced along the reducing direction of the inner diameter of the funnel, making the heat radiation distance the smallest at the front end of the heating head 4, i.e., at the part of the funnel with the smallest inner diameter; thus the heating time is shorter, and the heating is more uniform; this position is also the nearest position to the copper sleeve 6, and the adhesive rod melted after heating can flow into the copper sleeve 6 immediately. The heating time is reduced from the original 2-3 minutes to 15 seconds, and as the heating cavity has a good thermal conductivity, the adhesive rod in the heating cavity is quickly melted by the heating head 4, and heat is transferred to the copper sleeve 6; the copper sleeve 6 also has a good thermal conductivity, so adhesive can flow out from the adhesive outlet 7 in the copper sleeve 6, and the adhesive outlet 7 in the copper sleeve 6 only need to be aimed at a position that need to be bonded.

(17) When the trigger 8 is pulled by a user, the trigger 8 is rotated together with the first connecting piece 9, and the first connecting piece 9 moves together with the second connecting piece 10, thus the sliding block 11 is driven to move together with the adhesive rod, making the adhesive rod fed into the heating head 4 to be melted again, which is convenient for adhesive to flow out again. Pulling the trigger 8 can make the adhesive rod flow out continuously.

(18) The above shows and describes the basic principle, main features and advantages of the present invention. Those skilled in the art shall understand that the present invention is not limited by the above embodiment. The above embodiment and description merely illustrate the principle of the present invention. Various changes and improvements can also be made to the present invention without departing from the spirit and scope of the present invention, and shall fall into the scope of the present invention. The protection scope of the present invention is defined by the appended claims and equivalents.