KR20190092802A - Inductor housing and motor assembly including thereof - Google Patents

Abstract

The present invention relates to an inductor housing and a motor assembly including the same and, more specifically, to an inductor housing capable of improving durability, heat radiation and productivity of an inductor and a motor assembly comprising the same by forming a case and a lead pin fixing unit in an inductor to guide a position of the inductor and make the length of a lead pin uniform, and to a motor assembly comprising the same.

Description

Inductor housing and motor assembly including the same

The present invention relates to an inductor receptor and a motor assembly including the same, and more particularly, the inductor receptor and the motor assembly including the same may improve durability and assemblability of the inductor, and furthermore, durability and insulation of the motor assembly. And it relates to an inductor receptor and a motor assembly comprising the same that can improve the assembly.

Various devices, including vehicles, use motors for cooling or other purposes. As an example of using a motor in a vehicle, there may be a cooling fan installed in front of the vehicle. The cooling fan is installed at the front of the vehicle to cool the heat exchange medium inside the heat exchanger. The cooling fan is connected to the rotation shaft of the motor to rotate.

1 illustrates a coupled state of a motor assembly connected to a conventional cooling fan. As shown in FIG. 1, the motor assembly connected to the cooling fan includes a motor unit 10 and a housing 20 in which the motor unit 10 is installed at one side (the upper part based on FIG. 1). It may include an inverter unit (not shown) installed in.

FIG. 2 illustrates that the motor assembly shown in FIG. 1 is turned upside down and the inverter unit 30 installed in the motor housing 20 is separated. The inverter unit 30 is installed in the motor housing 20 to apply current to the motor unit 10 and control the motor unit 10, as shown in FIG. 2. It may include a substrate 31 and an inductor 32 for driving.

The inductor 32 may be connected to the substrate 31 according to the improvement of Electro Magnetic Compatibility (EMC). Inductors may be of various types such as SMD (surface mounting device), Axial, Radial type, etc., but a toroidal type may be used for volume improvement as shown in FIG. 2.

3 is a cross-sectional view of a portion of the substrate 31 in which the inductor 32 is installed while the inverter unit 30 is coupled to the motor housing 20.

As shown in FIG. 3, the inductor 32 includes a lead pin 33, and the lead pin 33 is inserted into a hole formed on the substrate 31 at one side of the substrate 31 to have a predetermined length to the other side. It protrudes. Lead pin 33 is connected to the substrate 31 through the soldering operation, a predetermined length must be protruded to the lower portion of the substrate 31 to secure the insulation distance, for this purpose after soldering the lead pin 33 By cutting the end of the lead pin, the operation was made so that the lead pin protrudes to a certain degree.

In the conventional method, the length of the lead pins 33 is different for each inductor 32, and after connecting the substrate 31 and the lead pins 33 through soldering, even if the ends of the lead pins 33 are cut to a certain length. The insulation of the inductor 32 was likely to be broken because it was difficult to maintain it, and it was difficult to accurately position the inductor 32 in the center of the hole formed in the motor housing 20, and the inductor 32 was formed in the motor housing 20. When vibration is applied to the inductor 32 in a state in which the center of the groove is installed to one side, there is a possibility that the coating of the coil exposed to the outside of the inductor 32 is peeled off and the insulation of the inductor 32 is destroyed.

Korean Patent Publication No. 10-2015-0098884

The present invention has been made to solve the problems described above, the object of the inductor receptor and the motor assembly including the same according to the present invention is to accurately and consistently coupled the inductor to the substrate assembly of the inductor and inductor To improve the productivity of the motor assembly including a and at the same time to provide an inductor receptor and a motor assembly including the same that can improve the durability, insulation, heat dissipation of vibration of the inductor.

An inductor receptor according to the present invention for solving the above problems, a lead including a case in which an inductor including a lead pin is accommodated and a first insertion hole formed at one side of the case to insert the lead pin. It characterized in that it comprises a pin fixing portion.

In addition, the lead pin is inserted into the first insertion hole from one side of the lead pin fixing part, protrudes a predetermined distance to the other side of the lead pin fixing part, and one end surface of the first insertion hole into which the lead pin is inserted is The lead pin is smaller than the other end surface of the first insertion hole, the case is open to both sides, the shape surrounding the side of the inverter, the case protrudes inward from the inner surface includes a seating portion for mounting the inductor Characterized in that.

In addition, the motor assembly including the inductor receptor according to the present invention includes a motor unit, a motor housing in which the motor unit is installed, the motor housing is installed in the motor housing to control the motor unit, the inverter unit including a substrate, the substrate to be connected to the And an inductor inserted into the motor housing and the inductor inserted into the inductor receptor.

In addition, the motor housing includes an inductor mounting portion which is formed to recess the inductor receptor, a heat transfer portion is formed on the surface of the inductor installation portion, the heat transfer portion is a liquid, the substrate is inserted into the first insertion hole and protrudes The lead pin is inserted from one side, the lead pin is protruded to the other side of the second insertion hole to a certain degree, the lead pin of the inductor is inserted into the first insertion hole formed in the lead pin fixing portion of the inductor acceptor The first insertion hole is soldered to the first insertion hole is characterized in that the lead is filled in the cross section of the first insertion hole on the side of the lead pin protruding.

According to the inductor receptor and the motor assembly including the same according to the present invention as described above, the inductor is mounted on the case serving as a guide, and the inductor receptor is installed in the inductor mounting portion formed in the motor housing so as to correspond to the size of the case. The effect is that the inductor can be installed in the correct position.

In addition, according to the present invention, the lead pin of the inductor coil is fixed at the lead pin fixing portion, and the end of the lead pin is protruded from the lead pin fixing portion by a certain distance, thereby easily inserting the lead pin when the inductor receiver is installed in the motor housing. In addition, since the lead pin cutting operation may be omitted or simplified, assembly and productivity may be improved, and the length of the lead pin protruding from the substrate may be kept constant, thereby effectively securing the insulation distance of the inductor. .

In addition, according to the present invention, when the lead pin is connected to the substrate through the soldering operation, the lead is filled into the first insertion hole into which the lead pin is inserted, thereby ensuring a space in which lead is filled, and thereby more stably connecting the lead pin with the substrate. It can be connected.

In addition, according to the present invention, if the liquid insulator is pre-formed on the inductor mounting portion, and then the inductor acceptor is installed to cover the insulator, the liquid insulator portion rises inside the inductor to contact the coil, thereby improving heat dissipation performance. have.

1 is a perspective view of a motor assembly.
FIG. 2 is an exploded perspective view in which the motor assembly shown in FIG. 1 is turned upside down and some components are disassembled. FIG.
3 is a partial cross-sectional view of FIG.
4 and 5 are a perspective view of the inductor receptor according to an embodiment of the present invention.
Figure 6 is an exploded perspective view of the inductor receptor according to an embodiment of the present invention.
Figure 7 is an exploded perspective view of the motor assembly according to an embodiment of the present invention.
8 is a partial exploded cross-sectional view of a motor assembly according to an embodiment of the present invention.
9 is a partial cross-sectional view of the motor assembly according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the inductor receptor according to the present invention will be described in detail with reference to the accompanying drawings.

4 shows an inductor receptor 40 according to one embodiment of the invention.

As shown in FIG. 4, the inductor receptor 40 according to an embodiment of the present invention may include a case 200 and a lead pin fixing part 300.

The inductor 100 accommodated in the case 200 may be a toroidal inductor having the same configuration as the inductor described above in the background technology of the present invention. That is, as shown in FIG. 4, the inductor 100 of the present invention includes an annular core 120, a coil 130 wound around the core 120, and lead pins 110 that are both ends of the coil 130. It may include, the lead pin 110 may be connected to a substrate to be described later. The reason why the Troidal Inductor is used in one embodiment of the present invention is that since the Troidal Inductor is annular and smaller in volume than other types of inductors, it is possible to construct a more compact motor assembly.

5 is a view showing the inductor receptor 40 according to an embodiment of the present invention shown in FIG. 4 from below, and FIG. 6 is an inductor according to an embodiment of the present invention shown in FIGS. 4 and 5. The decomposition of the receptor 40 is shown.

As shown in FIGS. 4 to 6, the case 200 accommodates the inductor 100. The case 200 may surround a side surface of the inductor 100, but may have a cylindrical shape in which upper and lower sides thereof are opened. However, the present invention is not limited thereto and a case having various shapes may be used.

Since the inductor 100 needs to be seated inside the case 200 while being inserted from one side of the case 200, the case 200 may include an inverter seating part 210 protruding inward from the inner surface. .

The inverter seating part 210 is a part for guiding the position of the inverter 100 while seating the inductor 100 inserted into the case 200 by reducing the area in which one side of the case 200 is opened. The opening 211 formed by the inverter seating part 210 is formed to have a smaller cross-sectional area perpendicular to the vertical direction of the inverter 100, that is, the area of the horizontal cross-section, so that a part of the lower part of the inverter 100 may be located in the inverter seating part ( It may be inserted into the opening 211 formed by the 210. Since the inverter 100 includes the coil 130 wound around the core 120, the lower end has a predetermined curvature, and thus the inductor 100 is formed by the inverter seating part 210. The lower part of the inductor 100 may be guided to the opening 211 by curvature so as to be accurately aligned in the center. After the inductor 100 is seated inside the case 200 by the inverter seating part 210, the inductor 100 and the case 200 may be fixed to each other through various methods.

Although the inverter seating part 210 illustrated in FIGS. 4 to 6 is formed at the lower end of the case 200, the present invention is not limited thereto and may protrude inwardly from the inner surface of the middle of the case 200.

4 to 6, the lead pin fixing part 300 is connected to the case 200 in a plate shape protruding outward from the outer surface of the case 200, the lead pin 110 is inserted The lead pin 110 may be fixed.

As shown in FIG. 6, the lead pin fixing part 300 has a first insertion hole 310 into which the lead pin 110 is inserted to fix the lead pin 110. Since the lead pins 110 correspond to both ends of the coil 130 wound on the core 120, two lead pins 110 are formed, and thus, the first insertion hole 310 also corresponds to the lead pins 110. Two may be formed in the lead pin fixing part 300, but the present invention is not limited thereto.

As shown in FIGS. 5 and 6, the first insertion hole 310 has a lower portion (a side from which the lead pin 110 protrudes) of the lead pin fixing part 300 and an upper portion (the lead pin 110 is inserted). Side area). This is a space in which the molten lead has a large area of the first insertion hole 310 when connecting the lead pin 110 and the substrate through soldering after installing the inductor receptor 40 according to the embodiment of the present invention. That is, by filling the lead pin 110 into the first insertion hole 310 of the protruding side, it is to be able to connect the lead pin 110 and the substrate more stably. Hereinafter, for convenience, a portion having a narrow cross section at the side where the lead pin 110 is inserted among the first insertion holes 310 is called a lead pin fixing space, and a portion having a wide cross section is called a lead filling space. The lead pin fixing space may be referred to as a first insertion hole 310 illustrated in FIG. 6, and the lead filling space may be referred to as a first insertion hole 310 illustrated in FIG. 5.

As shown in Figure 4 and 5, the end of the lead pin 110 is protruded to the other side (lower side relative to the drawing) of the lead pin fixing portion 300 to be connected to the substrate using a protruding portion. do. The length at which the end of the lead pin 110 protrudes to the other side of the lead pin fixing part 300 may be predetermined according to a design, and the lead pin 110 may include a first insertion hole of the lead pin fixing part 300. After inserting into the 310, cutting the end of the lead pin 110 may be performed to adjust the length of the lead pin 110 protruding.

As shown in FIG. 6, the side surface of the case 200 of the lower portion of the lead pin fixing part 300 may be opened. This is because the lead pin fixing part 300 is a portion that is connected to the substrate to be described later, the substrate may be located on the open side of the case 200.

Hereinafter, a motor assembly including an inductor receiver according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

7 illustrates an exploded view of a motor assembly including an inductor receiver according to an embodiment of the present invention.

As shown in FIG. 7, a motor assembly including an inductor receptor according to an embodiment of the present invention includes a motor unit (not shown), a motor housing 20, an inverter unit 30, and an inductor receptor 40. It may include.

Since the motor unit, the motor housing 20 and the inverter unit 30 are the same as those described in the background art of the present invention, a separate description is omitted, but the inductor is not included in the inverter unit 30.

As shown in FIG. 7, the inductor receiver 40 may be installed in the inductor mounting portion 21 formed in one side of the motor housing 20.

The inductor mounting portion 21 is recessed in an area corresponding to the lower cross section of the case 200 of the inductor acceptor 40 so that the inductor acceptor 40 can be stably coupled to the motor housing 20.

FIG. 8 is a partial exploded cross-sectional view of a motor assembly including an inductor receiver 40 according to an embodiment of the present invention, and FIG. 9 is a partially combined cross-sectional view of the motor assembly shown in FIG.

As illustrated in FIG. 8, the heat insulator 22 may be formed in the inductor mounting unit 21 before the inductor acceptor 40 is coupled. The heat transfer part 22 transfers heat generated from the inductor acceptor 40, more specifically, the inductor 100 included in the inductor acceptor 40 to the motor housing 20 and maintains insulation of the inductor 100. It is formed to be.

The heat transfer part 22 may be formed of a solid heat transfer pad, but in one embodiment of the present invention, the heat transfer part 22 may be formed by applying a liquid such as thermal grease. This is because when the inductor receptor 40 is installed in the inductor installation part 21 after the liquid heat transfer part 22 is formed as shown in FIG. 9, the inductor 100 passes through the opened lower part of the case 200. This is because it rises to a certain degree and contacts the lower end of the coil 130 to directly transfer heat generated from the coil 130 to the motor housing 20, thereby more efficiently transferring heat.

Although not shown in FIG. 9, a heat transfer part 22 may be formed between the case 200 of the inductor receptor 40 and the motor housing 20.

As shown in FIG. 8, the inductor receiver 40 is disposed on the inductor mounting portion 21 and then fixed to the inductor mounting portion 21 as shown in FIG. 9. In the situation as shown in FIG. 9, the lead pin fixing part 300 of the inductor receptor 40 contacts one surface of the substrate 31, and an end of the lead pin 110 protruding to the other side of the lead pin fixing part 300 is formed. Inserted into the second insertion hole 34 formed in the substrate 31 is protruded to the other side (lower side relative to the drawing) of the substrate 31. Afterwards, the operator connects the substrate 31 and the lead pins 110 to each other through soldering on the other side of the substrate 31. In the soldering process, the molten lead flows into the lead filling space 311 of the first insertion hole 310 to charge the lead filling space 311. When the lead filling space 311 is completely filled, the remaining lead pins are filled. It can additionally flow into the fixed space 312, through which the lead pin 110 and the substrate 31 can be more easily connected.

The inductor receptor 40 and the motor assembly including the same according to an embodiment of the present invention having the configuration as described above have a strong durability due to external vibration because the case 200 surrounds the inductor 100. The lower end of the inductor 100 is inserted into the opening 211 formed by the inductor seating part 210 of the case 200, so that the position of the inductor 100 is guided to the center of the center to facilitate alignment of the inductor 100. There is an effect that can be, and the lead pin protruding to the other side of the substrate 31 by connecting the lead pin 110 and the substrate 31 in a state in which the lead pin 110 is fixed in the lead pin fixing part 300 ( The length of the 110 can be kept constant, thereby reducing the possibility of dielectric breakdown of the lead pin 110 and easily assembling the inductor receptor 40 on the substrate 31, thereby improving the productivity of the motor assembly, 110 of the first insertion hole 310 is inserted Lead filling space 311 which is an extended space of the first insertion hole 310 during the soldering operation for connecting the lead pin 110 to the substrate 31 by extending the lower end to form a lead filling space 311 By flowing into the), it is possible to more stably connect the lead pin 110 and the substrate 31.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

10: motor unit 20: motor housing
21: inverter mounting portion 22: heating portion
30: inverter unit 31: substrate
32: inductor 33: lead pin
34: second insertion hole 40: inductor receptor
100: inductor 110: lead pin
120: core 130: coil
200: case 210: inverter seat
300: lead pin fixing portion 310: first insertion hole
311: lead charging space 312: lead pin fixing space

Claims (13)

A case accommodating an inductor including a lead pin; And
A lead pin fixing part formed on one side of the case and including a first insertion hole formed to insert the lead pin;
Inductor receptor characterized in that it comprises a.
The method of claim 1,
The lead pin is inserted into the first insertion hole from one side of the lead pin fixing portion, inductor receptor, characterized in that protruding a predetermined distance to the other side of the lead pin fixing portion.
The method of claim 2,
One end surface of the first insertion hole into which the lead pin is inserted is narrower than the other end surface of the first insertion hole from which the lead pin protrudes.
The method of claim 1,
The case is open to both sides, the inductor receptor, characterized in that the shape surrounding the side of the inverter.
The method of claim 1,
The case protrudes inward from the inner surface and the inductor receptor, characterized in that it comprises a seating portion is seated.
A motor unit;
A motor housing in which the motor unit is installed;
An inverter unit installed in the motor housing to control the motor unit and including a substrate;
An inductor receptor according to any one of claims 1 to 5 installed in the motor housing so as to be connected to the substrate; And
An inductor inserted into the inductor receptor;
A motor assembly comprising a.
The method of claim 6,
The motor housing includes an inductor mounting portion formed to be recessed so that the inductor receptor is installed.
The method of claim 7, wherein
Motor assembly, characterized in that the heat transfer is formed on the surface of the inductor mounting portion.
The method of claim 8,
The heat transfer unit is a motor assembly, characterized in that the liquid.
The method of claim 6,
The substrate has a motor assembly, characterized in that it comprises a second insertion hole is inserted into the protruding lead pin is inserted into the first insertion hole from one side.
The method of claim 10,
The lead pin is a motor assembly, characterized in that protruding to the other side of the second insertion hole to some extent.
The method of claim 6,
The lead pin of the inductor is inserted into the first insertion hole formed in the lead pin fixing portion of the inductor receptor, characterized in that connected to the substrate.
The method of claim 12,
The first assembly hole is soldered to the motor assembly, characterized in that the molten lead is filled in the cross section of the first insertion hole on the side of the lead pin protruding.

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