KR102248429B1 - welding tool with integrated cooling hole slide cap - Google Patents

Abstract

A welding tool is provided with a cooling hole-integrated slide cap. The fusion tool with the integrated cooling hole slide cap according to the embodiment of the present invention is provided to fuse the workpiece using hot air, but has a structure in which a through hole for cooling is not provided on the side to minimize the loss of hot air. A fusion portion formed; And a body portion provided at the lower end of the fusion portion and coupled to be movable in the vertical direction. Thereby, the structure of the fusion tool is formed in a structure in which the through hole for cooling is not provided on the side surface, so that heat loss in the fusion tool can be prevented. In addition, a one-touch nipple can be fastened to the slide cap coupled to the bottom of the fusing tool, so even if the fusing tool is formed in a structure in which a through hole for cooling is not provided, the fusing operation is performed through a one-touch nipple allowing smooth flow of cooling air The necessary cooling effect can be secured.

Description

Welding tool with integrated cooling hole slide cap

The present invention relates to a fusion tool, and more particularly, to a fusion tool combined with a cooling hole-integrated slide cap.

Automotive parts made of synthetic resins such as plastics are often combined by overlapping and fusion-processing parts of a predetermined shape. This is a boss (protrusion) of the other part protruding through a hole formed in one part, and a fusion tool. By using heating and pressing, the upper end of the boss is machined into a rivet head, and the two parts are joined.

However, in the conventional hot air fusion tool, at least one through hole is formed for the cooling pipe on the side of the sleeve (SLEEVE) through which the hot air passes for the cooling pipe, and through this through hole, there is a problem that hot air is lost, For this reason, it is difficult to evenly apply heat to the fusion boss, so that the quality of fusion is deteriorated.

Therefore, there is a need to find a way to prevent heat loss in the fusion tool and secure high fusion quality.

The present invention was conceived to solve the above problems, and an object of the present invention is that the structure of the fusion tool is formed in a structure in which a through hole for cooling is not provided on the side, thereby preventing heat loss in the fusion tool. It is to provide a fusion tool in which a slide cap integrated with a cooling hole can be combined.

In addition, another object of the present invention is that a one-touch nipple can be fastened to the slide cap coupled to the lower end of the fusion tool, so that even if the fusion tool is formed in a structure in which a through hole for cooling is not provided, smooth inflow of cooling air is possible. It is to provide a fusion tool with a slide cap integrated with a cooling hole that can secure the cooling effect required during fusion work through a one-touch nipple.

According to an embodiment of the present invention for achieving the above object, the fusion tool combined with the slide cap integrated with the cooling hole is provided to fuse the workpiece using hot air, but for cooling on the side to minimize the loss of hot air. A fusion portion formed in a structure in which a through hole is not provided; And a body portion provided at the lower end of the fusion portion and coupled to be movable in the vertical direction.

At this time, the body portion is formed in a'L' shape, and the upper side may be coupled to the lower end of the fusion portion.

In addition, the body portion may be provided with a plurality of slot holes (SLOT HOLE) formed in the longitudinal direction on the upper side coupled to the lower end of the fusion unit so that the lower end of the fusion unit to be coupled is exposed to the outside for cooling.

In addition, the body portion may be made of a Teflon material, which is a polytetrafluoroethylene fiber.

On the other hand, the fusion tool with the integrated cooling hole slide cap according to an embodiment of the present invention is provided with an inlet path pipe extending from the inlet port and the inlet port for the inflow of cooling air, and is coupled to one side of the body part. It further includes, in this case, the body portion, so as to be coupled to the cooling portion, the insertion hole may be formed in a vertical direction in the longitudinal direction at one side of the lower end.

In addition, the body portion may be formed with a curved portion provided with an edge fillet so that the cooling portion is smoothly inserted into the edge of the front end of the insertion hole where the cooling portion starts to be inserted.

In addition, the inlet path pipe may be formed in a shape in which the diameter of the inner periphery increases along the inflow path of the cooling air from a point connected to the inlet port so that the inflow of cooling air is effectively performed.

In addition, the cooling unit may further include an opening/closing member for adjusting an opening/closing degree of the inlet of the cooling air so that the inflow amount of cooling air is adjusted.

In addition, the opening and closing member is mounted on the inlet, is formed in a fan shape or a triangular shape, is connected to each other, and is provided on the outermost side of a plurality of bodies and a plurality of bodies implemented in a structure capable of overlapping, serving as a handle. When the holder is provided and the holder and the plurality of bodies rotate with respect to the center of the inlet by an external force, the area overlapping with each other is adjusted according to the degree of rotation, so that the degree of opening and closing of the inlet port can be adjusted.

As described above, according to the embodiments of the present invention, the structure of the fusion tool is formed in a structure in which a through hole for cooling is not provided on the side surface, so that heat loss in the fusion tool can be prevented.

In addition, according to embodiments of the present invention, a one-touch nipple can be fastened to the slide cap coupled to the lower end of the fusion tool, so that even if the fusion tool is formed in a structure in which a through hole for cooling is not provided, the cooling air flows smoothly. Through this one-touch nipple, it is possible to secure the necessary cooling effect during the fusing operation.

1 is a view provided in the description of the fusion tool combined with a cooling hole integrated slide cap according to an embodiment of the present invention;
2 is a view provided in the description of the body portion according to an embodiment of the present invention,
3 is a view provided in a more detailed description of the body portion according to an embodiment of the present invention,
4 is a view provided in the description of the cooling unit according to an embodiment of the present invention, and
5 is a view provided for a more detailed description of a cooling unit according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a view provided to explain a fusion tool to which a cooling hole-integrated slide cap is coupled according to an embodiment of the present invention.

The fusion tool to which the slide cap with an integrated cooling hole according to an embodiment of the present invention is coupled is formed in a structure in which a through hole for cooling is not provided on the side of the fusion tool, so that heat loss in the fusion tool is prevented. The one-touch nipple can be fastened to the body part that is coupled to the lower end of the fusion tool, so even if the fusion tool is formed in a structure that does not have a through hole for cooling, it is fused through a one-touch nipple that allows smooth inflow of cooling air. The cooling effect required during work can be secured.

To this end, the fusion tool to which the cooling hole-integrated slide cap is coupled includes a fusion unit 100, a body unit 200, and a cooling unit 300.

The fusion unit 100 refers to a fusion tool provided to fuse a workpiece using hot air.

Specifically, the fusion unit 100 according to the present embodiment may be formed in a structure in which a through hole for cooling is not provided on a side surface to minimize the loss of hot air.

The body portion 200 is formed in a'L' shape, and the upper side is coupled to the lower end of the fusion unit 100, and is implemented as a slide cap that is movably coupled in the vertical direction for height adjustment, and smoothly It is possible to allow the fusing operation to be performed.

In addition, the body portion 200 is made of a Teflon material, which is a polytetrafluoroethylene fiber, so that the manufacturing cost can be reduced compared to a conventional copper pipe.

In addition, the body part 200 may be fastened with the cooling part 300 to allow smooth cooling air to flow in.

The cooling part 300 may be formed in a structure coupled to one side of the body part 200 for inflow of cooling air.

For example, the cooling unit 300 may be implemented in a nipple type having a'b' shape, and may be coupled to one side of the body portion 200.

2 is a view provided in the description of the body portion 200 according to an embodiment of the present invention, Figure 3 is a view provided in a more detailed description of the body portion 200 according to an embodiment of the present invention,

2 to 3, the body part 200 is formed in a longitudinal direction on the upper side of the fusion unit 100 so that the lower end of the fusion unit 100 is exposed to the outside for cooling A plurality of slot holes 210 may be provided.

In addition, the body portion 200 may be additionally provided with a plurality of cooling grooves 220 at the lower end so that the hot air supplied through the fusion unit 100 is discharged after the fusing operation.

In addition, the body part 200 may have an insertion hole 230 further formed on one side of the lower end in a vertical direction in the longitudinal direction so as to be coupled with the cooling part 300.

Specifically, for example, in the insertion hole 230, a female thread may be provided along the inner circumference, and a male thread may be provided on an outer circumference of a portion of the cooling unit 300 inserted into the insertion hole 230.

For another example, the insertion hole 230 is formed with a curved portion 231 having an edge fillet at the edge of the front end where the cooling unit 300 starts to be inserted, as shown in FIG. Even when this is not formed, it is possible to smoothly insert the cooling unit 300.

FIG. 4 is a view provided to explain the cooling unit 300 according to an embodiment of the present invention, and FIG. 5 is a view provided for a more detailed description of the cooling unit 300 according to an embodiment of the present invention.

4 to 5, the cooling unit 300 is formed extending from the inlet 310 and the inlet 310 for the inflow of cooling air, the inlet path pipe 320 formed in a'b' shape. ) Can be provided.

At this time, the inflow path pipe 320 is formed in a shape in which the diameter of the inner periphery increases along the inflow path of the cooling air from the point connected to the inlet 310, so that the inflow of cooling air can be effectively performed.

Specifically, for example, the inlet path pipe 320 is formed in a shape (d1 <d2 <d3) that increases in diameter along the inflow path as shown in FIG. 4, and at this time, the diameter of the inlet port 310 (d1 ) The size may be formed to be 75 to 80% of the size of the diameter (d3) of the end of the inlet path pipe (320).

On the other hand, the cooling unit 300, in addition to the above-described inlet 310 and the inlet path pipe 320, the opening and closing degree of the inlet 310 of the cooling air is adjusted, so that the inflow amount of the cooling air is adjusted. ) May be further included.

The opening and closing member 330 is mounted on the inlet 310, as shown in FIG. 5, is formed in a fan shape or a triangular shape, is connected to each other, and is implemented in a structure capable of overlapping a plurality of bodies 331 And a holder 332 provided on the outermost side of the plurality of bodies 331 and serving as a handle may be provided.

Specifically, when the holder 332 and the plurality of bodies 331 rotate based on the center of the inlet 310 by an external force, the area overlapping with each other is adjusted according to the degree of rotation, so that the degree of opening and closing of the inlet 310 Can be adjusted.

For example, during the fusing operation, the inlet 310 is closed or opened only to a predetermined degree to minimize the loss of hot air, and when the fusing operation is completed, the inlet 310 is opened to the maximum value during cooling to generate a cooling effect. You can do it.

Through this, the structure of the fusion unit 100 is formed in a structure in which a through hole for cooling is not provided on the side surface, so that heat loss in the fusion unit 100 can be prevented, and the fusion unit 100 is cooled. Even if it is formed in a structure in which a through hole is not provided, cooling air can be smoothly introduced, so that a cooling effect required during the fusing operation can be secured.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and the present invention is generally in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Various modifications are possible by those skilled in the art of course, and these modifications should not be individually understood from the technical idea or perspective of the present invention.

100: fusion part 200: body part
210: slot hole 220: cooling groove
230: insertion hole 231: curved portion
300: cooling unit 310: inlet
320: inflow path pipe 330: opening and closing member
331: body 332: holder

Claims (9)

A fusing part provided to fuse the workpiece using hot air, and formed in a structure in which a through hole for cooling is not provided on the side to minimize loss of the hot air; And
Doedoe provided at the lower end of the fusion unit, a body portion coupled to be movable in the vertical direction; including,
The body part,
It is formed in an'L' shape, and the upper side is joined to the lower end of the fusion part,
The fusion tool with integrated cooling hole slide cap,
For inflow of cooling air, an inlet passage pipe extending from the inlet port and the inlet port is provided, and a cooling unit coupled to one side of the body portion; further includes,
The body part,
Insertion holes are formed in a vertical direction in the longitudinal direction on one side of the lower end so as to be coupled with the cooling unit,
The cooling part,
Further comprising an opening/closing member for adjusting the degree of opening and closing of the inlet of the cooling air so that the inflow amount of the cooling air is adjusted,
The opening and closing member,
Doedoe mounted on the inlet, formed in a fan-shaped or triangular shape, connected to each other, provided in the outermost of the plurality of bodies and the plurality of bodies implemented in a structure that can be overlapped, a holder serving as a handle is provided,
When the holder and the plurality of bodies rotate with respect to the center of the inlet by external force, the overlapping area is adjusted according to the degree of rotation, so that the degree of opening and closing of the inlet is adjusted. Fusion tool.
delete The method according to claim 1,
The body part,
A cooling hole-integrated slide cap is combined, characterized in that a plurality of slot holes formed in the longitudinal direction are provided on the upper side coupled to the lower end of the fusion unit so that the lower end of the combined fusion unit is exposed to the outside for cooling. Fusion tool.
The method of claim 3,
The body part,
A welding tool combined with a cooling hole-integrated slide cap, characterized in that it is made of Teflon material, which is a polytetrafluoroethylene fiber.
delete The method according to claim 1,
The body part,
A fusion tool combined with a cooling hole-integrated slide cap, characterized in that a curved portion provided with an edge fillet is formed so as to facilitate the insertion of the cooling portion at a front edge of the insertion hole where the cooling portion starts to be inserted.
The method according to claim 1,
The inflow path pipe,
A fusion tool combined with a cooling hole-integrated slide cap, characterized in that the diameter of the inner periphery increases along the inflow path of the cooling air from the point connected to the inlet so that the inflow of cooling air is effectively performed.
delete delete

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