KR200453618Y1 - Electrical wire connection member for transformer - Google Patents

Abstract

The present invention relates to a wire connecting member for a transformer, the purpose of which is to combine the plate coil 12 and the clip 22 to the copper wire 20 and then press-fixed with a press to make the transformer (2), the transformer ( In addition to reducing the production cost of 2), the aim is to drastically improve the production work speed.
The present invention for realizing this, the sheet coil 12 and the insulating paper 14 is wound around the core 10 to form a transformer 2, the copper wire of the wire 16 at both ends of the plate coil 12 In the wire connecting member for a transformer 20 is connected, the end of the plate coil 12 is in close contact with the copper wire 20 from which the covering 18 of the wire 16 is removed, and the plate coil 12 is attached. The clip 22 is wound and coupled to the copper wire 20, which is included, characterized in that the pressing is fixed by pressing.

Description

Electric wire connection member for transformer

The present invention relates to a wire connecting member for a transformer, and more particularly, by combining a plate coil and a clip on a copper wire and then pressing and fixing it with a press to make a transformer, thereby reducing the manufacturing cost of the transformer and dramatically improving the manufacturing work speed. In addition, the present invention relates to a wire connecting member for a transformer, in which the quality of the transformer is dramatically improved by making the connection state of the copper wire coupled to the plate coil robust even in the heat generated from the operation of the transformer and the vibration transmitted from the reactor.

In general, a transformer is installed in an inverter welder or an electric welder used to weld metal, which generates heat when the voltage is regulated and output, and a reactor connected to the transformer generates vibration.

The heat and vibration as described above acts as a factor to deteriorate the connection state of the transformer and the wire, and in recent years there is a trend to improve the structure so that the connection state of the transformer and the wire is made more robust.

Meanwhile, referring to the related art in FIG. 1, first, a transformer is formed by winding two or three plate coils 102 overlapped with insulating paper and wound on a core, and wires 104 at both ends of the plate coil 102. The copper wire 108 of the solder 110 is fixed.

When such a transformer is installed and used in an inverter welder or an electric welder used for welding metal, the transformer generates heat during operation, and at the same time, the reactor connected to the transformer generates vibration. .

Therefore, the heat and vibration generated as described above reaches the solder 110 portion of the plate coil 102 to which the copper wire 108 portion of the wire 104 is connected, and the solder 110 is gradually melted by heat. At the same time, vibration causes the solder 110 to fall off.

The prior art as described above has a structure in which the solder 110 is easily dropped due to the heat of the transformer and the vibration of the reactor, so that the quality of the transformer is significantly reduced.

Another problem is that due to the progress of the soldering 110 when manufacturing the transformer, there is a drawback that the manufacturing cost increases with a decrease in the manufacturing work speed.

The present invention has been made to solve the problems of the prior art as described above has the following object.

First, by combining the plate coil and the clip on the copper wire and press-fixed with a press to create a transformer, it is to reduce the manufacturing cost of the transformer and to significantly improve the production work speed.

Second, the quality of the transformer is significantly improved by making the coupling state of the copper wire coupled to the plate coil robust even in the heat generated from the operation of the transformer and the vibration transmitted from the reactor.]

Third, in the case of soldering, copper can only be used as the material of the plate coil, but if the improved method is used, it can be replaced with aluminum, thereby bringing light and cost saving effects.

In the present invention, the coil coil 12 and the insulating paper 14 are wound around the core 10 to form a transformer 2, and the copper wire 20 of the electric wire 16 is formed at both ends of the sheet coil 12. In the wire connecting member for a transformer to be connected, the end of the plate coil 12 is in close contact with the copper wire 20 from which the covering 18 of the wire 16 is removed, and the copper wire 20 including the plate coil 12. In the clip 22 is wound and coupled is characterized in that the pressing is fixed by pressing.

In addition, the plate coil 12 and the clip 22 is characterized in that the aluminum or copper.

The effect of the present invention is as follows.

First, while winding the plate coil 12 in close contact with the copper wire 20 in which the sheath 18 of the wire 16 is removed, the clip 22 of the thin plate is wound together and then press-fixed with a press to make a transformer 2. In this way, the production cost of the transformer 2 is reduced and the manufacturing work speed is significantly improved.

Second, since the copper wire 20 is press-fixed to the plate coil 12 by the clip 22, the copper wire 20 is coupled to the heat generated while the transformer 2 is operating and vibration transmitted from the reactor 8. Since the state is firm, there is an effect that the quality of the transformer 2 is significantly improved.

1 is a perspective view showing a conventional technology.
2 is a perspective view of a transformer constituting an embodiment of the present invention.
3 is an exploded perspective view of a transformer constituting an embodiment of the present invention.
Figure 4 is a perspective view separated from the transformer of the plate coil which is an embodiment of the present invention.
5 is a perspective view of a plate coil which is an embodiment of the present invention.

2 to 5, an embodiment of the present invention will be described. First, the transformer 2 adjusts the voltage and outputs the voltage, and is mainly used for an inverter welder or an electric welder used for welding metal.

The transformer 2 is connected to an input terminal 4 to which current is supplied and an output terminal 6 to supply a regulated voltage, respectively, and reduces harmonics between the transformer 2 and the output terminal 6. The reactor 8 is connected to stabilize the operation.

Two thin plate coils 12 formed of aluminum or copper are wound around the core 10 constituting the transformer 2, and the insulating paper 14 is the same between the plate coils 12 and the inner and outer surfaces thereof. Cut to size and placed close together, wound and joined.

Wires 16 connected to the input terminal 4 and wires 16 connected to the reactor 8 and the output terminal 6 are disposed at both ends of the plate coil 12, respectively. ) The copper wire 20 is exposed by removing a portion of the coating 18 at the end, and the end of the plate coil 12 is located in close contact with the exposed copper wire 20, and the plate coil 12 The copper wire 20 including the clip 22 made of a thin plate is wound and bonded while being pressed and fixed with a press.

At this time, the clip 22 is a pressing groove 24 is formed in a relation that is pressed and fixed by the press, the copper wire 20 of the pressing groove 24 formed as described above is pressed in the inner direction, Therefore, the clip 22 is caught while the pressing groove 24 presses the copper wire 20, the clip 22 is firmly coupled to the end of the wire 16, the sheath 18 is removed. At the same time, the inner surface of the clip 22 is in electrical contact with the copper wire 20.

Referring to the binding sequence and operation of the present invention is configured as described above are as follows.

First, the thin plate coil 12 is cut by a predetermined length, and then a portion of the sheath 18 at both ends of the electric wire 16 is removed to expose the copper wire 20, and the clip 22 is a copper wire. Cut to size enough to be wound around (20).

After the above, the end of the plate coil 12 is in close contact with the copper wire 20, and then by pressing the clip 22 to the copper wire 20 including the plate coil 12 to be bonded by a commonly used press When fixed, the clip 22 is firmly coupled to the copper wire 20 due to the pressing groove 24 formed by being processed by the press.

As described above, the copper wire 20 is fixed to the both ends of the plate coil 12 by a clip 22, and then two sheets of the plate coil 12 as described above are insulated from the paper 14, the plate coil 12, and the insulating paper ( 14), the coil coil 12, the insulating paper 12, and arranged in a superimposed on the core 10 while arranging the transformer 2 is configured.

The wire 16 located at one end of the plate coil 12 of the transformer 2 made as described above is connected to the input terminal 4, and the wire 16 located at the other end of the plate coil 12 is a reactor 8 ), The output terminal (6) in this order, wherein the copper wire 20 of the wire (16) connected to the input terminal (4) and the output terminal (6) is fixed by soldering or fixed by coupling the connection terminal. Can be.

The input terminal 4 is connected to the control unit of the welding machine (not shown) to receive a current, and the output terminal 6 is connected to the electrode tip of the welding machine.

When the transformer 2 made as described above is mounted and used in an inverter welding machine or an electric welding machine, the current supplied through the input terminal 4 passes through the plate coil 12 wound on the core 10 and the voltage is adjusted. And then, the current is passed through the reactor 8, the harmonics are reduced to pass through the output terminal 6, the current reaching the output terminal 6 is supplied to the electrode tip to substantially solder.

As described above, the heat generated during the operation of the transformer 2 is transferred to the clip 22 and the copper wire 20 in the order of the plate coil 12, wherein the copper wire 20 is plated by the clip 22. Since it is firmly fixed to the coil 12, it is fixed without being influenced by heat, and at the same time, the vibration generated from the reactor 8 is transferred to the copper wire 20, the clip 22, and the plate through the electric wire 16. The coil 12 is transmitted in this order, in which the copper wire 20 is fixed to the plate coil 12 by the clip 22 so that it is fixed without being affected by vibration.

As a result, even if there is heat and vibration generated while the transformer 2 operates, the copper wire 20 is firmly fixed to the plate coil 12 by the clip 22.

Although the preferred embodiments of the present invention as described above have been described in detail by the accompanying drawings, the present invention is not limited to the embodiments described herein, those skilled in the art having ordinary knowledge in the technical idea and It will be understood that various modifications and variations can be made without departing from the scope thereof.

2: transformer 4: input terminal
6: Output Terminal 8: Reactor
10: Core 12: Edition coil
14: Insulation paper 16: Wire
18: Cloth 20: Copper wire
22: Clip 24: Crimp groove

Claims (2)

The transformer 10 is formed by winding the sheet coil 12 and the insulating paper 14 on the core 10 so that the copper wire 20 of the wire 16 is connected to both ends of the plate coil 12. In the electric wire connection member,
The end of the plate coil 12 is in close contact with the copper wire 20 from which the covering 18 of the wire 16 is removed, and the clip 22 is wound around the copper wire 20 including the plate coil 12 to be coupled. Fixed by pressing,
The plate coil (12) and the clip (22) is a wire connection member for a transformer, characterized in that made of aluminum or copper.




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