KR100886953B1 - A Heat-Staking tool - Google Patents

Abstract

The present invention relates to a tool for heat fusion, and more particularly, to a tool for heat fusion fixed to a heat fusion device for door trim of a vehicle.

The heat welding tool of the present invention is fixed to the fixed plate of the heat welding device for the door trim,

A heater, a heater housing installed on the outer circumferential surface of the heater, a fusion tip coupled to the lower portion of the heater to fusion material, and installed to surround the outer circumferential surface of the heater housing to insulate heat from the heat exchanger. It is configured to include a member.

Such a thermal welding tool can precisely control the temperature of the tip, thereby enabling the molding of the plastic without the air cooling device for cooling.

Description

Heat welding tool {A Heat-Staking tool}

1A to 1B are views illustrating a method of heat fusion for manufacturing a door trim of a vehicle, in which FIG. 1A is a cross-sectional view before heat fusion and FIG. 1B is a sectional view after heat fusion.

2 is a cross-sectional view showing an example of a heat welding tool attached to a heat welding device for a door trim of a conventional vehicle.

3 is a cross-sectional view showing a heat welding tool attached to a heat welding device for a door trim according to a preferred embodiment of the present invention.

* Description of Major Symbols in Drawings *

21: fixing plate 22: bolt

23: heater 24: heater housing

25: fusion tip 26: ceramic pipe

The present invention relates to a tool for heat welding, and more particularly, to a door trim for fixing to a door trim of a vehicle and precisely controlling the temperature during heat welding of plastic, thereby enabling molding without cooling of air. It relates to a heat welding tool.

In general, in manufacturing the door trim of a vehicle, the separated door trim is connected by heat fusion, which is inserted into the second plastic 2 by inserting the first plastic 1 into the second plastic 2, as shown in FIGS. After the upper part is melted by heat, a method of forming a rivet is used.

Attached FIG. 2 is a cross-sectional view showing an example of a portion in which a conventional thermal welding tool for door trim is mounted, and the conventional thermal welding tool for door trim is fixed to the fixing plate 11 with a bolt 12. The heat welding tool includes a heater 13, a heater housing 14 installed on an outer circumferential surface of the heater 13, and a welding tip 15 coupled to a lower portion of the heater 13 to fuse a material. do. An air pipe 16 is installed near the end of the melt tip 15 to cool the thermoformed rivets. The air pipe 16 is usually made of a copper pipe serves to blow air.

The fusion process using the heat fusion tool for door trim heats the fusion tip 15 connected to the heater 13 by heating the heater 13, and the hot fusion tip 15 is brought into close contact with a plastic protrusion to form a rivet shape. Then, after cooling by blowing air through the air pipe 16 is made of a process of separating the fusion tip (15).

 Conventional door trim thermal welding tools have a problem that a large amount of compressed air is consumed in the cooling process, the noise generated when the compressed air injection is severe, the working environment is extremely poor. Since the heat welding tool is fixed to the fixed plate, there has been a problem that the entire welding device needs to be replaced when the welding area is changed according to the model change of the vehicle.

SUMMARY OF THE INVENTION An object of the present invention is to provide a heat welding tool capable of thermoforming without a conventional cooling air injection device.

Another object of the present invention is to provide a tool for thermal fusion, which is attached to the fixed plate so as to be adjustable.

Still another object of the present invention is to provide a thermal fusion method for shortening the process time by eliminating the cooling process using air by fusion using the tool for thermal fusion according to the present invention.

The present invention for achieving the above object is a heater, a heater housing installed on the outer circumferential surface of the heater, a fusion tip coupled to the lower portion of the heater to fusion material, and installed to surround the outer peripheral surface of the heater housing and It provides a thermal welding tool for a door trim of a vehicle, characterized in that it comprises a heat insulating member for blocking heat exchange with the outside.

In the present invention, the outer circumferential surface of the heater housing is formed a heat insulating member to block heat dissipation to the outside to effectively transfer the heat of the heater to the welding tip, the heat insulating member is a ceramic pipe that can withstand high temperatures It is characterized by.

In the present invention, it is preferable that the heater housing is made of a material having high thermal conductivity so that effective heat transfer is achieved with a fusion tip installed at a lower portion thereof, and more preferably, a chromium copper material may be used.

In the present invention, the heat fusion tip further comprises a fixing part movably installed on a fixed plate on which the heat fusion tip is installed, preferably x-axis fine adjustment means for fine-adjusting the fusion tip in the x-axis direction And y-axis fine adjustment means for fine-adjusting the fusion tip in the y-axis direction, and z-axis fine adjustment means for fine-adjusting the fusion tip in the z-axis direction.

Here, the x-axis fine adjustment means, the x-axis fine adjustment plate coupled to the lower portion of the fixing plate, and the x-axis fine adjustment bolt is fastened to the x-axis fine adjustment plate for moving the fusion tip in the x-axis direction The y-axis fine adjustment means may include a y-axis fine adjustment plate coupled to a lower portion of the x-axis fine adjustment plate, and a y-axis fine adjustment bolt fastened to the y-axis fine adjustment plate to move the fusion tip in the y-axis direction. And the z-axis fine adjustment means comprises a z-axis fine adjustment nut for moving the welding tip in the z-axis direction.

In addition, the upper portion of the heater may be further provided with a connection pipe made of stainless steel for reducing heat transfer. In this case, a fixing bolt for fixing the heater housing is installed in the connection pipe.

In one aspect, the present invention provides a method of heating a plastic protrusion to a temperature between a high temperature Tg and a melting point by using a tool for thermal welding, and forming a fusion rivet by pressing with a welding tip.

In the present invention, the heat fusion tool is a heater; A heater housing installed on an outer circumferential surface of the heater; A welding tip coupled to the lower portion of the heater to weld the material; It is installed to surround the outer circumferential surface of the heater housing and includes a heat insulating member for blocking heat exchange between the heater and the outside, the heat difference through the heater housing is less, characterized in that the temperature difference between the fusion tip and the heater is about 20 ℃ It is done.

Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.

Hereinafter, a thermal welding tool for a door trim of a vehicle according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a cross-sectional view showing a heat fusion unit in which a heat fusion tool is installed in a heat fusion device for a door trim of a vehicle according to a preferred embodiment of the present invention. It is configured to be fixed to the fixing plate 21, the heat fusion tool is coupled to the heater 23, the heater housing 24 is installed on the outer circumferential surface of the heater 23, the lower portion of the heater 23 It is configured to include a welding tip 25 to fusion.

Here, the heat fusion welding tool for the door trim of the vehicle of the present invention to precisely maintain the temperature by blocking the heater 23 and the surrounding atmosphere, which is a heat-generating part, and quickly transfers heat to the fusion tip 25, and focuses on the desired part Insulating member 26 is installed on the outer circumferential surface of the heater housing 24 to apply heat of a desired temperature.

That is, the heat insulating member 26 for heat shielding is installed on the outer circumferential surface of the heater housing 24 to block the heater 23 and the ambient atmosphere so as to precisely maintain the temperature.

The heat insulating member 26 is a pipe installed to surround the outer circumferential surface of the heater housing 24, and preferably, the heat insulating member 26 is a ceramic pipe 26 that is a material capable of blocking heat exchange with the outside.

In addition, the heater housing 24 is preferably made of chromium copper so that heat transfer to the welding tip 25 is made quickly.

However, the heat insulating member 26 and the heater housing 24 may be made of a material other than the illustrated ceramic or chromium copper material, and the present invention is not limited thereto.

Thus, the heat-sealing tool for the door trim of the vehicle of the present invention manufactured the heater housing 24 made of chromium copper quickly transfers the heat of the heater 23 to the fusion tip 25 to accelerate heat transfer, and to the chromium copper. By applying the ceramic pipe 26 to the outer side of the heater housing 24, it is possible to block heat exchange with the ambient atmosphere to precisely maintain the temperature and apply heat of a desired temperature.

In addition, a connection pipe 27 made of stainless steel (SUS) is further provided on the heater 23 to reduce heat transfer.

The connection pipe 27 is coupled to the heater housing 24, and a fixing bolt 28 for fixing the heater housing 24 is installed.

Thus, by further connecting the connection pipe 27 made of stainless steel (SUS) material on the upper portion of the heater 23, the heat transfer to the upper portion is reduced, the fusion tip 25 is faster heat transfer using brass. In this case, the fusion tip 25 is preferably surface-treated.

The thermal welding device for a door trim of the vehicle of the present invention as described above is quickly transmitted to the welding tip 25 without heat from the heater 23 being discharged to the outside, so that the temperature difference between the heater 23 and the welding tip 25 ends. It can be seen from the experiment that only the difference of about 20 ℃ appears.

In the case of a thermal welding device for a door trim of a conventional vehicle, the temperature difference between the temperature of the heater and the end of the welding tip shows a difference of less than 60 ° C. or more.

In other words, the thermal welding device for the door trim of the vehicle of the present invention can maintain a stable temperature because the temperature change during the welding is very small, so that the temperature between the Tg and the melting point, preferably in a soft state before the plastic is melted in the heat. By precisely controlling the temperature, it is possible to mold the plastic for connecting the door trim.

As described above, the thermal welding apparatus for the door trim of the vehicle of the present invention can be fused without completely dissolving the plastic, and thus it is possible to prevent the phenomenon of breaking without changing the material after molding.

In addition, since the temperature of the plastic is not excessively raised, it does not use much air for cooling the plastic, thereby reducing the energy loss.

In addition, the thermal welding device for a door trim of the vehicle of the present invention, the x-axis fine adjustment means for fine-tuning the fusion tip 25 in the x-axis direction, the y-axis fine adjustment means for fine-tuning in the y-axis direction and and z-axis fine adjustment means for fine-tuning in the z-axis direction.

The x-axis fine adjustment means, the y-axis fine adjustment means, the z-axis fine adjustment means to finely adjust the position of the fusion tip 25, the present invention used a bolt adjustment method.

Specifically, the x-axis fine adjustment means, the x-axis fine adjustment plate 32 coupled to the lower portion of the fixing plate 21 and the x-axis fine adjustment plate 32 is fastened to the x-axis fusion tip 25 And an x-axis fine adjustment bolt 33 for moving in the direction.

Here, the x-axis fine adjustment plate 32 is coupled to the fixed plate 21 by a bolt 22, the x-axis fine adjustment plate 32 is moved in the x-axis direction by the x-axis fine adjustment bolt 33. As such, the fusion tip 25 can be finely adjusted.

The x-axis fine adjustment plate 32 has a hole formed in the center portion to insert the connection pipe 27 coupled to the heater housing 24, the y-axis fine adjustment plate 37 to be described later is coupled, the y-axis fine Since the connecting pipe 27 is fixed to the adjustment plate 37, the x-axis fine adjustment plate 32 is moved so that the fusion tip 25 can be finely adjusted in the x-axis direction.

In addition, the y-axis fine adjustment means is coupled to the y-axis fine adjustment plate 37 coupled to the lower portion of the x-axis fine adjustment plate 32, the y-axis fine adjustment plate 37 is fastened to the fusion tip 25 y And y-axis fine adjustment bolt 35 for moving in the axial direction.

Here, the y-axis fine adjustment plate 37 is coupled to the x-axis fine adjustment plate 32 by a bolt 34, the y-axis fine adjustment plate 37 in the y-axis direction by the y-axis fine adjustment bolt 35. By moving, the fusion tip 25 can be finely adjusted.

The y-axis fine adjustment plate 37 has a hole formed at the center thereof so that the connection pipe 27 coupled to the heater housing 24 is inserted and fixed, and the vertical direction (z-axis) so that the connection pipe 27 is firmly coupled. Has an extended portion extending.

In addition, the z-axis fine adjustment means is composed of a z-axis fine adjustment nut 36 for moving the fusion tip 25 in the z-axis direction, the z-axis fine adjustment nut 36 is the y-axis fine adjustment plate ( It is located at the end of the extension portion 37, it is fastened to the outer peripheral surface of the connecting pipe 27, it is possible to raise and lower the connecting pipe 27 in the z-axis direction by rotating the z-axis fine adjustment nut 36. Thus, the fusion tip 25 can be finely adjusted in the z-axis direction.

As described above, the thermal welding device for the door trim of the vehicle of the present invention is capable of accurately adjusting the movement to a desired portion, so that the welding can be accurately performed, unlike the thermal welding device for the door trim of the vehicle, which was only movable in the conventional vertical direction. Fusion tip 25 is to be finely adjusted in the x-axis, y-axis, z-axis direction.

The present invention is not limited to the above-described embodiments, and of course, modifications may be made by those skilled in the art without departing from the spirit of the present invention.

Therefore, the scope of the claims in the present invention will not be defined within the scope of the detailed description, but will be defined by the following claims and the technical spirit thereof.

As described above, when the thermal welding tool for the door trim of the vehicle of the present invention is used, since the temperature change during the welding is very small, the stable temperature can be maintained, thereby enabling precise temperature control.

In addition, since the fusion can be performed without completely melting the plastic of the present invention, there is no change in material after molding can be prevented from breaking.

In addition, by precisely controlling the temperature during thermal fusion of the plastic, it is possible to form without cooling the air, there is an advantage to reduce the work time and energy loss.

Claims (9)

With heater, A heater housing installed on an outer circumferential surface of the heater; A fusion tip coupled to the lower portion of the heater to fuse the material; Is installed to surround the outer peripheral surface of the heater housing is configured to include a heat insulating member for blocking heat exchange between the heater and the outside, The heat insulating tool is a thermal welding tool for a door trim of a vehicle, characterized in that the ceramic pipe. delete The method of claim 1, The heater housing is a thermal welding tool for a door trim of a vehicle, characterized in that the heat transfer is made of chromium copper material. The method according to claim 1 or 3, The upper portion of the heater is a heat welding tool for the door trim of the vehicle, characterized in that further provided with a connection pipe made of stainless steel to reduce heat transfer. The method of claim 4, wherein And a fixing bolt for fixing the heater housing to the connection pipe. The method of claim 1, X-axis fine adjustment means for fine-adjusting the fusion tip in the x-axis direction; Y-axis fine adjustment means for fine-adjusting the fusion tip in the y-axis direction; Z-axis fine adjustment means for fine-adjusting the fusion tip in the z-axis direction is a tool for heat fusion for the door trim of the vehicle. The method of claim 6, The x-axis fine adjustment means is composed of an x-axis fine adjustment plate coupled to the lower portion of the fixed plate, and an x-axis fine adjustment bolt for fastening to the x-axis fine adjustment plate to move the fusion tip in the x-axis direction, The y-axis fine adjustment means includes a y-axis fine adjustment plate coupled to a lower portion of the x-axis fine adjustment plate, and a y-axis fine adjustment bolt fastened to the y-axis fine adjustment plate to move the fusion tip in the y-axis direction. , And the z-axis fine adjustment means comprises a z-axis fine adjustment nut for moving the welding tip in the z-axis direction. A heater; A heater housing installed on an outer circumferential surface of the heater; A welding tip coupled to the lower portion of the heater to weld the material; A method of welding a door trim by heating and molding a plastic protrusion by using a heat welding tool formed to surround an outer circumferential surface of the heater housing and including a heat insulating member for blocking heat exchange between the heater and the outside. 9. The method of claim 8, wherein the plastic protrusion is heated to a temperature between Tg and the melting point.

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