KR900003398Y1 - Small sized motor - Google Patents

Abstract

No content.

Description

Small motor

1 is a side cross-sectional view for explaining the basic configuration of a small motor of the present invention.

2a and 2b are explanatory diagrams of a first embodiment of the present invention.

3 is an explanatory diagram of a second embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: motor body 2: shield case

2 ': shield case cover 3: printed board

4. 4 ': anti-vibration rubber 5: integrated circuit (IC)

6: heat dissipation part of ICS 7: IC lead wire

8, 10: elastic spring 9: elastic spring receiving portion

The present invention is a small motor, in particular a small motor in which a motor is installed in a shield case and provided with a control circuit in a space in the shield case, at least in the above-described control circuit, both of the heat dissipation portion of the integrated circuit and the shield case. The present invention relates to a small motor that provides compactness and low cost by disposing an elastic member having thermal conductivity so as to be in contact with each other so as to achieve heat dissipation of the integrated circuit.

In general, small motors are known which are used in, for example, tape recorders and the like, having a built-in motor body in a shield case and having a control circuit for controlling the rotation speed, for example. Therefore, in such a small motor, the control circuit mounts the components of the control circuit to the printed board for miniaturization, and the IC (integrated circuit) is being advanced. As a problem when the IC is advanced in this manner, whether or not the heat generated in the IC is effectively radiated.

In a conventional small motor, as a means of increasing the heat dissipation effect of the IC, consideration is given to installing a printed board on which the IC is mounted outside the shield case, or using the metal board having a high heat dissipation effect. It is becoming. However, there is an unfavorable problem that the installation of the IC outside the shield case is counteract to the miniaturization of the motor, and that the use of a metal printed board becomes a factor of cost increase.

The present invention is a small motor aimed at solving the above-mentioned problems, and a first object is a print in which a motor main body is installed in a shield case and a control circuit for controlling the motor in the shield case is mounted. A small motor having a substrate, comprising: an elastic member having a thermal conductivity disposed so as to be in contact with both the heat dissipation portion of the integrated circuit and the shield case in at least the control circuit, and the generated heat of the integrated circuit via the elastic member; It provides a small motor that is configured to radiate heat to the shield case. A second object is to use an elastic spring as the elastic member having the thermal conductivity, and the elastic spring receiving portion is provided in the through hole provided in the printed board and the anti-vibration rubber, and the elastic spring receiving portion corresponds to the position of the heat radiating portion in the IC. It is to provide a small motor that is configured so that the outer circumference of the elastic spring is in contact with the heat radiating portion of the shield case cover. A third object is to provide a small motor which is configured such that the elastic spring is elastically in contact with the shield case cover and the heat dissipation portion at both end faces of the spring. A fourth object is to provide a small motor which uses conductive elastic rubber as an elastic member in place of the elastic spring, and is configured to elastically contact the shield case cover and the heat radiating portion. A fifth object is to provide a small motor that is configured to insert an electrical insulating plate such as a plastic sheet between the conductive member and the heat conducting elastic member and the shield case cover when the electrical insulation is necessary.

These objects of the present invention are clearly understood by the following description with reference to FIGS. 1 to 3 below.

Next, a description will be given with reference to the drawings.

The basic configuration of a small motor to which the present invention is applied is shown in FIG. That is, the motor main body 1 is provided in the shield case 2, and the opening part of this shield case 2 is comprised so that it may be closed as the shield case cover 2 '. Therefore, in order to make a compact shape, the printed circuit board 3 in which the control circuit comprised by a capacitor | condenser, IC, etc. is mounted using the space between the motor main body 1 and the shield case cover 2 'is provided, for example. . In addition, the dustproof rubbers 4 and 4 'are for preventing the movement of the motor main body 1 and the printed circuit board 3 in the shield case 2.

As shown in FIG. 1, since the printed board 3 is sealed by the shield case 2 and the shield case cover 2 ', the control circuit component mounted on the printed board 3 is provided. In particular, it is necessary to effectively radiate the IC. As shown in FIG. 1, the present invention is constructed so that the printed circuit board 3 is provided in the shield case 2 and the heat dissipation of the IC can be effectively performed.

2 is an explanatory view of a first embodiment of the present invention, and FIG. 2a is an arrow A shown in FIG. 1 with the shield case cover 2 'and the anti-vibration rubber 4' removed in FIG. It is a front view in A, and FIG. 2B has shown the expanded sectional view (the state which the dustproof rubber 4 'and the shield case cover 2 were fixed) in arrow B: B shown in FIG. 2A.

In the first embodiment shown in Figs. 2A and 2B, the elastic spring receiving portion 9 in which the elastic spring 8 is installed is provided with a through hole in the printed board 3 and the anti-vibration rubber 4 '. It is in the form of drilling. Moreover, the installation position of this elastic spring accommodating part 9 respond | corresponds to the position of the heat radiating part 6 in IC5. Moreover, the elastic spring 8 provided in the said elastic spring accommodating part 9 is formed of the conductive metal with good thermal conductivity. Therefore, the outer diameter at the time of non-restriction of this elastic spring 8 is larger than the opposing space | interval (shown arrow P) of the said shield case cover 2 'and the heat dissipation part 6 at least. Therefore, the elastic spring 8 is installed in the form of elastic contact with both the shield case cover 2 'and the heat radiating portion 6. As a result, the generated heat of IC 5 is transferred from the heat radiating part 6 to the shield case cover 2 'and the shield case 2 again via the elastic spring 8, and this shield case 2 with a large heat dissipation area is provided. And the heat shield by the shield case cover 2 '. In addition, the elastic spring 8 not only plays a role of heat transfer, but also has a role of ground because of its conductivity. In addition, when the elastic spring 8 and the shield case cover 2 'need to be electrically insulated, an electrical insulating plate such as a plastic sheet may be inserted between the elastic spring 8 and the shield case cover 2'. good.

The second embodiment of the present invention shown in FIG. 3 basically has the same configuration as the first embodiment shown in FIGS. 2A and 2B. That is, in the first embodiment shown in Figs. 2A and 2B, the outer circumference of the elastic spring 8 is in contact with the shield case cover 2 'and the heat dissipation part 60. In the second embodiment shown in Fig. 2, both end surfaces of the elastic spring 10 are configured to elastically contact the shield case cover 2 'and the heat dissipation portion 6, and the result is shown in Figs. Same as the first embodiment shown in FIG. 2B.

As mentioned above, although the 1st and 2nd Example shown to FIG. 2A, FIG. 2B, and FIG. 3 was demonstrated, this invention is not limited to this, As an above-mentioned heat transfer means in IC5, In place of the elastic spring, an elastic member having a thermal conductivity such as conductive elastic rubber may be used.

As described above, according to the present invention, the heat generated by the IC can be transferred to the shield case having a large heat dissipation area through the elastic member having conductivity and thermal conductivity to radiate heat. Thus, a printed circuit board having a control circuit mounted thereon is installed in the shield case. A compact compact motor can be provided. In addition, the elastic member not only has the effect of grounding, but also eliminates the need to radiate heat generated by the IC by the printed circuit board itself, thereby making it possible to use inexpensive synthetic resin substrates such as phenol for the printed circuit board, thereby greatly reducing cost. You can contribute.

Claims (5)

A small motor having a printed circuit board on which a motor main body is installed in a shield case and a control circuit for controlling the motor in a space in the shield case, wherein at least the heat dissipation portion of the integrated circuit and the shield case in the control circuit. And a thermally conductive elastic member disposed so as to be in contact with both sides, and configured to radiate heat generated by the integrated circuit to the shield case via the elastic member. The elastic spring receiving portion is provided in a through hole provided in the printed circuit board and the anti-vibration rubber using an elastic spring as the elastic member having the thermal conductivity, and the position corresponding to the heat radiating portion of the integrated circuit. A small motor, characterized in that the outer circumference of the elastic spring is configured to contact the shield case cover and the heat radiating portion. The small motor according to claim 2, wherein the elastic spring is configured such that both end surfaces of the spring are elastically in contact with the shield case cover and the heat radiating portion. The small motor according to claim 1, wherein a conductive motor is used as the thermally conductive elastic member so as to elastically contact the shield case cover, the heat dissipation unit, and the dustproof rubber. The small motor according to claim 1, wherein when it is necessary to electrically insulate the thermally conductive elastic member and the shield case cover as the above-mentioned conductivity, the small motor is configured to sandwich electrical insulation such as a plastic sheet.