KR100879638B1 - FET mounting structure of blower motor - Google Patents

Abstract

The present invention relates to a FET device fixing structure for a blower motor.

The present invention provides a blower motor FET device fixing structure, wherein an accommodating groove is formed in an upper portion thereof, and a heat sink in which an accommodating groove is formed on an inner side of a protrusion formed to protrude on both sides of the accommodating groove; An FET device disposed on a bottom surface of the receiving groove of the heat sink; At both ends, the bent portion is formed to be bent in a "c" shape to be elastically coupled to the fixing groove, and the support portion is formed to be bent to a "П" shape at the center to be elastically supporting three surfaces of the FET element. Is done.

Therefore, by fixing the FET device to the inside of the heat sink elastically through the fixing means configured as described above, it is possible to easily and simply combine the FET device, and also has the effect of greatly improving the fixing force of the fixing means.

FET device, blower motor, heat sink, fastening means

Description

FET mounting structure of blower motor

1 is a cross-sectional view showing a conventional structure for fixing a FET device for a blower motor.

Figure 2 is an exploded perspective view showing a fixed structure of the FET device for the blower motor according to the present invention.

3 is a cross-sectional view of FIG.

4 is a perspective view showing another embodiment of the FET device fixing structure for the blower motor according to the present invention.

Figure 5 is a perspective view showing another embodiment of the FET device fixing structure for the blower motor according to the present invention.

Figure 6 is a perspective view showing another embodiment of the FET device fixing structure for the blower motor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: heat sink 110: receiving groove

120: fixed groove 200: FET device

210: terminal 300, 300 ', 300 ": fixing means

310: bent portion 311: inclined surface

320: support portion 321: through hole

330: ridge 340: bolt

350: protrusion

The present invention relates to a FET device fixing structure for the blower motor, and more particularly, FET device fixing structure for fixing the FET device more firmly and stably through the fixing means fixed to the inner wall of the FET module of the blower motor with elastic force It is about.

In general, in order to maintain an appropriate temperature of a vehicle, high temperature or low temperature air is introduced into the vehicle to control the temperature.

The air inflow for the temperature control is performed by a blower fan (FAN), the blower fan (FAN) is rotated by the blower motor, the rotation of the blower motor is controlled by the FET device.

The FET device of the configuration operates by receiving an output signal from an external signal (Controller), and has a function of blocking current and dissipating heat when an overcurrent is formed in the blower motor to generate heat.

As shown in FIG. 1, the FET device includes a heat sink 10 having protrusions protruding upward from both sides of an upper surface thereof, and a heat sink 10 formed at a lower portion thereof, and a FET element disposed on an upper surface of the heat sink 10. 20) and a bolt 30 penetrating the FET element and fixed to an upper surface of the heat sink.

Therefore, when the FET device operates, current flows to the FET device while the FET device emits heat.

That is, as described above, the heat generated from the FET device 20 of the FET device is transferred to the heat sink 10, and the heat transferred to the heat sink 10 is transferred to the heat sink formed at the end of the heat sink 10. The heat transmitted to the heat sink is cooled by the wind of the blower motor.

However, since the FET device 20 of the FET device is fixed to the bottom surface of the heat sink 10 through the bolt 30, the loosening phenomenon of the bolt 30 or one side of the FET device 20 is lifted up when used for a long time. There was a problem that the adhesion between the FET device 20 and the heat sink 10 is inferior due to the phenomenon, the heat generated from the FET device 20 was not smoothly transferred to the heat sink 10 accordingly. .

In addition, there is a problem that damage to the FET device may lead to a fire as the heat generated from the FET device 20 is not discharged.

The present invention has been made to solve the above problems, an object of the present invention to provide a FET device fixing structure for the blower motor that can be more firmly and stably in contact with the FET device inside the heat sink through the fixing means. have.

In the present invention for achieving the above object, in the blower motor FET device fixing structure, the receiving groove is formed on the upper side, the fixing groove is formed to correspond to the inner side of the protrusion formed to protrude on both sides of the receiving groove. A heat sink; An FET device disposed on a bottom surface of the receiving groove of the heat sink; At both ends, the bent portion is formed to be bent in a "c" shape to be elastically coupled to the fixing groove, and the support portion is formed to be bent to a "П" shape at the center to be elastically supporting three surfaces of the FET element. Characterized in that made.

In addition, the present invention has a receiving groove is formed in the lower portion, the heat sink is formed on one side of the inner side of the protrusion formed to protrude on both sides of the receiving groove; An FET element disposed on an upper surface of the receiving groove of the heat sink; One end of the bent portion is formed in a bent "C" shape is elastically coupled to the one side fixing groove, the other end is fixed to the bottom surface of the heat sink through the bolt penetrating the upper surface, the center in the shape "П" It is characterized in that the support portion is formed of a fixing means that is bent to elastically support the three surfaces of the FET device.

Herein, a through hole is formed on an upper surface of the support, and the terminal of the FET device is inserted through the through hole.

In addition, the end of the bent portion is characterized in that it is formed as a slope inclined upward from the horizontal axis.

In addition, the lower surface of the support is characterized in that a plurality of ridges having an uneven shape are formed.

In addition, the surface between the support and the bent portion is characterized in that one or more projections for strength reinforcement is formed.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 5.

FET device fixing structure for the blower motor of the present invention, as shown in Figure 2 and 3, to more stably secure the FET device 200, the receiving groove 110 is formed on the upper, the receiving groove Inside the protrusion formed to protrude on both sides of the 110, the heat sink 100 is formed to correspond to the fixing groove 120, and the FET device 200 disposed on the bottom surface of the receiving groove 110 of the heat sink 100 ) And fixing means 300 for elastically fixing the FET device 200 inside the heat sink 100.

The heat sink 100 is for receiving heat generated from the FET device 200 and dissipating it to the outside, and an accommodating groove 110 is formed on an upper surface thereof to penetrate in the front and rear directions, and both sides of the accommodating groove 110. The fixing groove 120 is formed to correspond to the inside of the protrusion formed to protrude in the FET device 200 is disposed on the bottom surface of the receiving groove 110, the fixing means 300 in the fixing groove 120 Combined.

In addition, a plurality of heat dissipation fins 130 are radially formed on the bottom surface of the heat sink 100, and heat is dissipated to the outside through the heat dissipation fins 130.

The FET device 200 is to block the flow of overcurrent to a blower motor (not shown), and is composed of a double safety device that cuts off the voltage by shorting the voltage cut-off and the built-in temperature fuse in the FET device 200 itself. .

In addition, the FET device 200 is fixed inside the upper surface of the heat sink 100 through fixing means.

That is, the fixing means 300 is to elastically and stably support the FET device 200, and the bent portion 310 is bent to have a "c" shape at both ends thereof, so that the fixing groove 120 is formed in the fixing groove 120. It is elastically coupled, the support portion 320 is bent in the shape of "П" in the center, it is to elastically support the three surfaces (top and both sides) of the FET device 200.

The bent portion 310 is formed by bending two stages in a "c" shape on both ends of the rectangular plate, through which is tightly coupled to the inner circumferential surface of the fixing groove 120 has a more rigid fixing force.

Here, the end of the bent portion 310 is formed of an inclined surface 311 inclined upwardly from a horizontal axis, and the bent portion 310 elastically to the fixing groove 120 through the inclined surface 311. It can be attached and detached easily (refer FIG. 3).

The support part 320 is for elastically fixing the FET device 200. The support part 320 is bent downwardly open in a shape of "П" in the center of the rectangular plate in which the bent part 310 is formed, and the open " The inner circumferential surface of the " P &quot; is elastically supported to surround the top and both sides of the FET device 200.

Here, a plurality of bumps 330 having an uneven shape are formed on a lower surface of the support part 320, and the adhesion between the FET device 200 and the receiving groove 110 may be improved through the bumps 330. Can have a more stable holding force.

The assembly state of the FET device fixing structure for the blower motor configured as described above is as follows.

First, the FET device 100 is disposed in the front-rear direction on the bottom surface of the receiving groove 110 of the heat sink 100, and then the FET device 200 is positioned on the support part 320 of the fixing means 300. The bent portion 310 is coupled to the fixing groove 120, respectively.

Then, the “c” shaped bent portion 310 is elastically supported on the inner circumferential surface of the fixing groove 120 and the support portion 320 is coupled in a form surrounding the upper surface and both sides of the FET device 200.

Accordingly, the FET device 200 is elastically fixed through the fixing means 300 that is elastically fixed to the inner wall of the heat sink 100, and the FET device 200 can be prevented from flowing remarkably. have.

Here, by pressing the upper surface of the FET device 200 more strongly through the ridge 330 formed on the support 320, the FET device 200 can be in close contact with the bottom surface of the receiving groove 110.

Hereinafter, another embodiment of the present invention will be described, and the same reference numerals are used for the same configuration as the above-described embodiment, and a description thereof will be omitted.

4 shows another embodiment of the FET device fixing structure for the blower motor according to the present invention.

That is, the FET device fixing structure for the blower motor of the present embodiment, as shown in Figure 4, the receiving groove 110 is formed at the bottom, fixed to one inside of the protrusion formed to protrude on both sides of the receiving groove 110 A heat sink 100 having a groove 120 corresponding thereto, a FET device 200 disposed on an upper surface of the receiving groove 110 of the heat sink 100, and one end of which is bent in a "c" shape. 310 is bent to be elastically coupled to the one side fixing groove 120, the other end is fixed to the bottom surface of the receiving groove 110 through the bolt 340 penetrating the upper surface, the "П" in the center The support part 320 is bent to have a shape and includes fixing means 300 ′ that elastically supports three surfaces of the FET device 200.

Therefore, in the state in which the FET device 200 is disposed on the bottom surface of the accommodating groove 110 of the heat sink 100, the “c” shaped bent portion 310 formed at one end of the fixing means 300 ′ is formed. Resilient coupling to the fixing groove 120, the other end is fixed to the bottom surface of the receiving groove 110 through the bolt 340, the FET element 200 through the support "320" shaped in the center The top and both sides of the elastic support so that the FET device 200 is more stably fixed.

5 shows another embodiment of the FET device fixing structure for the blower motor according to the present invention.

That is, the FET device fixing structure for the blower motor of the present embodiment forms a through hole 321 through the upper and lower surfaces of the support part 320 of the fixing means 300 ″, and is formed at a lower end thereof through the through hole 321. Terminals of the supported FET device 200 are inserted through.

Therefore, the FET device 200 is prevented from flowing through the fixing means 300 ″ having the through hole 321.

6 shows another embodiment of the FET device fixing structure for the blower motor according to the present invention.

As shown in FIG. 6, a protrusion 350 for strength reinforcement is formed on a surface between the support part 320 and the bent part 310 of the fixing means 300, 300 ′, 300 ″ of the present embodiment. The protrusion 350 prevents the bending of the fixing means 300, 300 ′ and 300 ″ to press the FET device 200 more flexibly.

As described above, although the preferred embodiment of the present invention has been described, the present invention is not limited to the above embodiment, and is easily changed and equivalent to those skilled in the art from the embodiments of the present invention. Includes all changes and modifications to the extent permitted.

The FET device fixing structure for the blower motor of the present invention configured as described above is fixed to the inner wall of the heat sink by fixing the FET device to the inner wall of the heat sink through a fixing means having bent portions at both ends and supporting portions formed at the center thereof. In addition, the FET device can be more firmly and stably fixed to the bottom surface of the heat sink, thereby greatly improving the reliability of the product and increasing the durability of the product.

In addition, by forming an uneven portion of the support portion, there is an effect that the adhesion between the FET element and the heat sink can be greatly improved.

In addition, by forming an inclined surface at the end of the bent portion, there is an easy attachment and detachment of the fixing means.

In addition, by forming one or more protrusions for strength reinforcement on the surface between the support portion and the bent portion, it is possible to press the FET device more elastically by preventing bending of the fixing means through the protrusions, thereby There is an effect that can greatly improve the adhesion.

Claims (6)

In the FET device fixing structure for the blower motor, An accommodating groove is formed at an upper portion thereof, and a heat sink having a fixing groove corresponding to an inner side of the protrusion formed on both sides of the accommodating groove; An FET device disposed on a bottom surface of the receiving groove of the heat sink; At both ends, the bent portion is formed to be bent in a "c" shape to be elastically coupled to the fixing groove, and the end of the bent portion is formed with an inclined surface inclined upwardly from a horizontal axis, and the support portion is bent in the shape of "П" at the center. It is formed, the lower surface of the support portion is a FET element fixing structure for a blower motor, characterized in that the ridge formed in the concave-convex shape is formed by the fixing means for elastically supporting the three surfaces of the FET element. A heat sink having a receiving groove formed at a lower portion thereof, and a fixing groove formed at one inner side of a protrusion formed to protrude on both sides of the receiving groove; An FET element disposed on an upper surface of the receiving groove of the heat sink; One end of the bent portion is formed to be bent "C" shape is elastically coupled to the one side fixing groove, the other end is fixed to the bottom surface of the heat sink through a bolt penetrating the upper surface, the end of the bent portion from the horizontal axis The inclined surface is inclined upwardly, the support portion is bent in the shape of "П" at the center, and the lower surface of the support portion is a fixing means for elastically supporting the three surfaces of the FET element is formed by the uneven shape A FET device fixing structure for a blower motor, characterized in that made. The method of claim 2, A through hole is formed in an upper surface of the support, and a FET device fixing structure for a blower motor, characterized in that the terminal of the FET device is inserted through the through hole. delete delete The method according to any one of claims 1 to 3, A FET device fixing structure for a blower motor, characterized in that a projection for strengthening the strength is formed on the surface between the support and the bent portion.

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