KR101361391B1 - The field coil assembly of electromagnetic clutch for compressor - Google Patents

Abstract

The present invention relates to a field coil assembly of an electromagnetic clutch for a compressor. Field coil assembly according to the present invention is installed in the core 100 and generates a magnetic flux by applying a power source and the lead wire (W) is drawn from the leading end, and provided on one side of the core 100, the terminal ( 140 is provided and includes a connector 130 electrically connected to one end of the lead wire (W). In this case, the solder layer 150 is provided on the core wire W ′ of the lead wire W. The lead wire W and the terminal 140 are connected by pressing and heating. According to the present invention having such a configuration, since the solder layer 150 coated on the core wire W ′ of the lead wire W is deformed and connected to the terminal 140, the lead wire W and the terminal 140 are connected to each other. Another material has the advantage that can be firmly combined.

Description

The field coil assembly of electromagnetic clutch for compressor

The present invention relates to a field coil assembly of an electromagnetic clutch for a compressor, and more particularly, to a field coil assembly having a configuration such that the electrical connection between the lead wire of the coil and the terminal of the connector is stably maintained.

FIG. 1 is a perspective view showing a configuration of a field coil assembly of an electromagnetic clutch for a compressor according to the prior art.

As shown in the figure, a bobbin is installed in the core 1 forming the skeleton of the field coil assembly, and the bobbin is provided with a coil formed of a material of aluminum series (Al). The coil is formed by repeatedly winding unit wires therein, and is formed in a substantially ring shape. On one side of the coil, two strands of wires are respectively drawn out to form lead wires (W). The lead wire W is electrically connected to the terminal 25.

The coil is wrapped by bobbins. A lead wire W of the coil penetrates through the bobbin. In the present embodiment, two lead wires W are provided in pairs.

A connector (20) is coupled to one side of the core (1). The connector 20 is coupled to the core 1 to transfer power supplied from the outside to the field coil assembly.

The skeleton of the connector 20 is formed by a holder 22. The holder 22 is made of an insulating material such as synthetic resin. One side of the holder 22 is formed with a connecting rib 23 for coupling with the counterpart, the other end is provided with a terminal 25 protrudes. The terminal 25 is electrically connected to the lead wire (W). The terminal 25 is formed of a copper (Cu) -based material. The terminal 25 and the lead wire W are connected by fusing.

Looking at the process of manufacturing the connector 20, first insert the injection molding so that the terminal 25 is provided integrally to the holder (22). That is, the holder 22 is ejected while the terminal 25 is inserted into the mold assembly, so that the terminal 25 is fixed to the holder 22.

Next, the connector 20 is connected to the lead wire (W). More precisely, in the state where the lead wire W is inserted into the connecting rib 25 'formed at the tip of the terminal 25, the connecting rib 25' is crimped so that the lead wire W is connected to the connecting rib 25 '. To be fixed). At this time, the lead wire W of the coil is in a state where the insulating coating is removed before being fitted into the connecting rib 25 ′ of the terminal 25. In the state where the lead wire W is fixed to the connection rib 25 ′, the fusing wire is connected to the core wire of the lead wire W and the terminal 25.

Meanwhile, a clip (not shown) is coupled to the holder 22. The clip is coupled to the holder 22 with the terminal 25 therebetween to serve to fix the terminal 25. That is, the clip allows the terminal 25 to be fixed to the holder 22 before the cover is coupled to the connector 20.

A cover C is provided at a connection portion between the lead wire W and the terminal 25. The cover C is to protect the connection portion between the lead wire W and the terminal 25 from the outside, and shields the connection portion between the lead wire W and the terminal 25.

However, the above-described conventional techniques have the following problems.

Since the core of the lead wire W of the coil is made of aluminum (Al), and the terminal 25 is made of copper (Cu), the melting point is different from each other. Accordingly, when fusing, the core wire of the lead wire W and the terminal 25 may not be connected to each other, and a contact resistance may be generated to cut off the current, resulting in a problem of deteriorating operation reliability of the electronic clutch for the compressor.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, to ensure that the lead wire and the terminal of the coil are firmly coupled to each other.

According to a feature of the present invention for achieving the above object, the present invention provides a core which generates a magnetic flux by applying a power source and is provided with a coil from which the lead wire is drawn out; In the field coil assembly of the electromagnetic clutch for the compressor is provided on one side of the core, the terminal is provided with a connector electrically connected to one end of the lead wire; The lead wire of the lead wire is provided with a solder layer, the lead wire and the terminal are connected by pressing and heating, the lead wire of the lead wire is formed of an aluminum-based material, the terminal is formed of a copper-based material.

The solder layer is preferably formed by dipping the core wire of the lead wire in a solder solution.

A method of manufacturing a field coil assembly supplied with power from the outside through a connector provided on one side, the method comprising: generating an aluminum-based core wire by peeling an insulation coating of a lead wire; Forming a solder layer on the core wire; Combining the core and the copper-based terminal provided inside the connector is configured to include the step of pressing and heating.

The step of forming the solder layer is preferably made by dipping in a solder solution bath having an ultrasonic generator for removing the acid lime coating of the core wire.

In the present invention, after peeling the insulation coating of the lead wire of the coil, a solder layer is applied to the core wire of the lead wire, and the connecting rib of the terminal coupled with the lead wire is heated and pressed while being pressed. Therefore, since the solder layer coated on the core wire of the lead wire is deformed and connected to the connection ribs of the terminal, even though the lead wire and the terminal are made of different materials, the lead wire and the terminal may be firmly coupled to each other, thereby making electrical connection smooth.

1 is a perspective view showing the configuration of a field coil assembly of an electronic clutch for a compressor according to the prior art.
Figure 2 is a perspective view showing the configuration of a preferred embodiment of the field coil assembly of the electromagnetic clutch for a compressor according to the present invention.
Figure 3 is a perspective view showing a part of the configuration of the lead wire and the terminal of the coil constituting an embodiment of the present invention.
Figure 4 is a flow chart showing a process of manufacturing a field coil assembly of the electronic clutch for the compressor in accordance with an embodiment of the present invention.

Hereinafter, a preferred embodiment of a field coil assembly of an electromagnetic clutch for a compressor according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing the configuration of a preferred embodiment of the field coil assembly of the electromagnetic clutch for a compressor according to the present invention, and FIG. 3 is a perspective view showing some configurations of the lead wire and the terminal of the coil constituting the embodiment of the present invention. have.

As shown in these figures, a bobbin (not shown) is installed on the core 100 forming the appearance and skeleton of the field coil assembly of the electronic clutch for the compressor, and a coil (not shown) is provided on the bobbin (not shown). It is provided. A fixing cover (not shown) is coupled to the bobbin to support the coil. At this time, the bobbin and the fixing cover is not composed of a separate object, it may be formed integrally with the core 100 or omitted.

The coil is formed by repeatedly winding unit wires therein, and is formed in a substantially ring shape. The coil is formed of an aluminum (Al) -based material. As shown in FIG. 2, two strands of wires are drawn out on one side of the coil to form a lead wire (W). The lead wire W is electrically connected to the terminal 140.

The connector 130 is coupled to one side of the core 100. The connector 130 is coupled to the core 100 to transfer power supplied from the outside to the field coil assembly. The connector 130 has a holder 132 coupled to the core 100, a terminal 140 seated on the holder 132, and a clip for fixing the terminal 140 to the holder 132 ( 160).

First, the holder 132 is a portion forming a skeleton of the connector 130, and is formed in a substantially plate shape. The holder 132 supports the terminal 140. The terminal 140 is seated on an upper surface of the holder 132, and hook hooks 134 are provided at both ends of the holder 132. The hook hook 134 is hooked to the hook hook 110 formed to protrude in the direction facing each other on the core 100 so that the connector 130 is fixed to the core 100.

Next, referring to the terminal 140, the terminal 140 is formed of a copper (Cu) -based material. A connection rib 142 is formed in the terminal 140. The connecting rib 142 extends from one side of the front end of the terminal 140 and is formed in a state in which the lead wire W of the coil is wrapped to be electrically connected to the lead wire W. FIG.

More precisely, the connecting rib 142 is formed in a substantially 'U' shape, and a predetermined coupling space 142 'through which the lead wire W is inserted is formed therebetween. Accordingly, as the connecting rib 142 is tightened while the lead wire W of the coil is inserted into the coupling space 142 ′ of the connecting rib 142, the lead wire W is connected to the terminal 140. Will be fixed on.

As shown in FIG. 3, a solder film 150 is formed on a part of the lead wire W coupled to the connection rib 142 of the terminal 140. The solder layer 150 is a kind of film that couples the connecting rib 142 of the terminal 140 and the core wire W 'of the lead wire W, and the core wire of the connecting rib 142 and the lead wire W. (W ') is connected to each other.

Preferably, the solder layer 150 is formed by coating a solder (Solder) on the core wire (W ') of the lead wire (W) after peeling the insulating coating of the lead wire (W). The solder layer 150 is melted by fusing to bond the core wire W ′ of the lead wire W to the connection rib 142 of the terminal 140. That is, the solder layer 150 allows the lead wire W and the terminal 140 to be electrically connected.

The solder layer 150 is coated with a predetermined thickness on the core wire W 'of the lead wire W from which the insulation coating is peeled off. In this case, when the insulation coating is peeled off the core wire W 'of the lead wire W, an oxide film is formed while the surface is in contact with air, so that the lead wire W is placed in a solder solution bath having an ultrasonic generator to remove the oxide film. Insert the core wire (W ') should be coated with the solder layer 150.

Meanwhile, the clip 160 is coupled to the holder 132. The clip 160 is coupled to the holder 132 with the terminal 140 therebetween to serve to fix the terminal 140. The clip 160 allows the terminal 140 to be fixed to the holder 132 prior to forming a cover (not shown) in the connector 130.

Hereinafter, the assembly process of the field coil assembly of the electronic clutch for a compressor according to the present invention will be described sequentially.

5 is a flowchart illustrating a process of manufacturing a field coil assembly of the electronic clutch for a compressor according to an embodiment of the present invention.

First, the operator peels off the tip of the insulation coating of the lead wire W of the coil by the required length (S100). At this time, since the core wire W 'of the stripped lead wire W is in contact with air, an oxide film is formed. And dipping the core wire (W ') of the lead wire (W') into a solder bath in a molten state with an ultrasonic generator to remove the oxide film formed on the core wire (W ') of the lead wire (W). Apply layer 150. In this case, the solder solution tank may be a lead-free solder tank (S110).

After applying the solder layer 150 to the core wire W 'of the lead wire W as described above, the operator installs an assembly composed of a coil and a bobbin on the core 100. In other words, the assembly consisting of the coil and the corbin is inserted into the empty space of the core 100 to be seated.

In this state, the connector 130 is assembled to the core 100. More precisely, the connector 103 is assembled at the position where the core wire W 'of the lead wire W is installed so that the core wire W' of the lead wire W and the terminal 140 of the connector 130 are mutually connected. It is electrically connected.

In the process of assembling the connector 130 to the core 100, the hook hook 134 of the connector 130 is fixed to the hook hook 110 of the core 100. The core wire W ′ of the lead wire W is inserted into the coupling space 142 ′ of the connection rib 142 formed in the terminal 140.

In this state, the operator can fuse and pressurize and heat the core wire W 'portion of the lead wire W and the connecting rib 142 to firmly couple the connection between the two. At this time, the solder layer 150 surrounding the core wire W 'portion of the lead wire W is melted, and thus the core wire W' of the lead wire W and the connection rib 142 of the terminal 140 are more firm. It can be combined to make. (S120)

Finally, the worker shields the connection portion of the lead wire W and the connecting rib 142 while the coil is inserted into the core 100, and simultaneously exposes the portion exposed to the outside of the connector 130. A cover (not shown) is molded to fill.

As described above, in the present invention, the solder layer 150 formed on the core wire W 'of the lead wire W is melted, thereby firmly coupling between the core wire W ′ of the lead wire W and the terminal 130. Although the core wire W 'and the terminal 130 of the lead wire W of the coil are formed of different materials, the lead wire W and the terminal 130 are prevented from being separated from each other.

On the other hand, the field coil assembly assembled in this way is supplied with power from the outside through the connector 130. That is, since the terminal 140 and the lead wire W of the connector 130 are electrically connected, external power is transmitted to the coil.

As the external power is transmitted to the coil, the coil C on which the wire is wound forms a magnetic field by electromagnetic induction, and the hub disk of the compressor driving side is sucked to the friction surface side of the pulley by using the magnetic force accordingly. It is connected dynamically. In this case, the driving force of the pulley rotated by the engine is transmitted to the compressor to operate the compressor.

The scope of the present invention is not limited to the embodiments described above, but may be defined by the scope of the claims, and those skilled in the art may make various modifications and alterations within the scope of the claims It is self-evident.

100: core 110: hook hook
130: connector 132: holder
134: hanger hook 140: terminal
142: connecting rib 150: solder layer
142 ': Joining space 160: Clip
W: lead wire W ': core wire

Claims (4)

The core 100 generates a suction magnetic flux by applying power and is provided with a coil from which the lead wire W is drawn.
It is provided on one side of the core 100, the terminal 140 is provided inside the field coil assembly of the electromagnetic clutch for the compressor comprising a connector 130 is electrically connected to one end of the lead wire (W) In
The core layer W 'of the lead wire W formed of an aluminum-based material is provided with a solder layer 150, and the lead wire W and the terminal 140 formed of a copper-based material are connected by pressing and heating . ,
The solder layer 150 is a field coil assembly of an electronic clutch for a compressor, wherein the solder layer 150 is made by dipping in a solder solution bath having an ultrasonic generator for removing an acidic coating of the core wire W '. delete delete delete

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