JPH04312337A - Molded motor - Google Patents

Abstract

PURPOSE:To provide a highly reliable and safe molded motor by protecting various electronic components mounted on a circuit board from the heat of stator. CONSTITUTION:Integrally resin molded various electronic components mounted on a circuit board 8 fixed to a stator comprising a stator core 6 and a winding coil 7 are protected from the heat of the stator through a protective means.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a molded motor, and more particularly to a molded motor in which a stator and a circuit board on which various electronic components are mounted are integrally molded with synthetic resin.

0002

[Prior Art] As a conventional molded motor of this type,
The technique disclosed in Japanese Utility Model Application Publication No. 63-167380 can be mentioned.

FIG. 5 is a sectional view showing a conventional molded motor, and FIG. 6 is a perspective view showing the main parts of the conventional molded motor.

In the figure, 1 is a housing that forms the outer shell of the motor, 2 is a shaft hole bored in the housing 1, and 3 is a housing that forms the outer shell of the motor.
Reference numeral 4 indicates a bearing such as a bearing, numeral 4 a stopper that restricts movement of the shaft in the axial direction, and numeral 5 a bearing holder that holds the bearing 3. 6 is a stator core, 7 is a winding coil wound around the stator core 6, and the stator core 6 and the winding coil 7 constitute the stator of the motor. 8 is a circuit board, 9 is various electronic components mounted on the circuit board 8, and 10 is an IC component which is one of the electronic components 9. Reference numeral 11 designates a resin mold part in which the stator, circuit board 8, etc. are integrally molded with synthetic resin, and reference numeral 12 designates a shaft hole passing through the center of the resin mold part 11 in a cylindrical shape. 13
14 is the shaft 13, which is the rotation axis of the motor.
The shaft 13, the rotor case 15, and the magnet 16 constitute the rotor of the motor. There is. 17 is a spring washer that preloads the bearing 3, and 18 is a mounting bolt that attaches the circuit board 8 to the stator core 6.

A conventional molded motor is constructed as described above, and a circuit board 8 on which various electronic components 9 including an IC component 10 are attached is assembled to a stator consisting of a stator core 6 and a winding coil 7. , these are integrally molded with synthetic resin. Furthermore, most of the various electronic components 9 are mounted on the board stator side A of the circuit board 8.

[0006]

[Problems to be Solved by the Invention] In the conventional molded motor as described above, heat from the stator is directly applied to various electronic components 9 mounted on the circuit board 8 through the synthetic resin of the resin molded part 11. It was being communicated.

However, if this type of molded motor is driven continuously for a long time, the temperature of the electronic component 9 will rise excessively due to the heat from the stator, and the electronic component 9 will be affected by this overheating, resulting in malfunction or damage to the electronic component 9. Something happened.

[0008] Accordingly, an object of the present invention is to provide a highly reliable and safe molded motor that protects various electronic components 9 mounted on a circuit board 8 from heat from a stator.

[0009]

[Means for Solving the Problems] The present invention includes a stator comprising a stator core and a winding coil, a circuit board attached to the stator and integrally molded with synthetic resin, and various types of circuit boards attached to the circuit board. and a protection means for protecting the electronic component from the heat of the stator.

0010

[Operation] In the molded motor of the present invention, various electronic components mounted on a circuit board integrally molded with the stator using synthetic resin are protected from the heat of the stator. This prevents the temperature from rising excessively, preventing malfunctions and damage to electronic components due to overheating.

[0011]

[Embodiments] Each embodiment of the present invention will be explained below.

<First Embodiment> FIG. 1 is a side view showing the main parts of a molded motor according to a first embodiment of the present invention. In the drawings, the same reference numerals and symbols as those in the above conventional example indicate constituent parts that are the same as or correspond to those in the above conventional example.

In the figure, reference numeral 19 denotes a heat shield cover that covers the IC component 10 mounted on the circuit board 8. The structure other than this heat shield cover 19 is the same as that of the conventional example.

[0014] In the molded motor having this structure, as in the conventional example, a circuit board 8 on which various electronic parts 9 including an IC part 10 are mounted is assembled to a stator consisting of a stator core 6 and a winding coil 7. These are integrally molded with synthetic resin.

However, in this embodiment, since the heat-sensitive IC component 10 is covered with the heat shield cover 19, the heat transmitted from the stator via the resin mold part 11 is shielded by the heat shield cover 19. It is not directly transmitted to the IC component 10. Therefore, the temperature of the IC component 10 does not rise excessively as in the conventional case, and malfunction or damage to the IC component 10 due to overheating does not occur.

As described above, the molded motor of this embodiment includes a stator consisting of a stator core 6 and a winding coil 7, a circuit board 8 attached to this stator and integrally molded with synthetic resin, and this circuit board 8. A heat shield cover 1 is provided to protect various electronic components 9 mounted on the stator and an IC component 10, which is one of the electronic components 9, from the heat of the stator.
9.

Therefore, the IC component 10 mounted on the circuit board 8 integrally molded with the stator from synthetic resin is protected from the heat of the stator by the heat shield cover 19. Therefore, the temperature of the IC component 10 does not rise excessively due to heat from the stator, and malfunction or damage to the IC component 10 due to overheating can be prevented, resulting in increased reliability and safety of the motor.

In this embodiment, the case where the IC component 10 mounted on the circuit board 8 is protected by covering it with the heat shield cover 19 has been explained, but other heat-sensitive electronic components 9 can be protected by covering the heat shield cover 19 in the same way. It may be protected by covering with 19.

Second Embodiment FIG. 2 is a side view showing the main parts of a molded motor according to a second embodiment of the present invention. In the drawings, the same reference numerals and symbols as those in the conventional example and the first embodiment indicate constituent parts that are the same as or correspond to those in the conventional example and the first embodiment.

In the figure, B is the side of the circuit board 8 opposite to the stator. An IC component 10 is mounted on the side B of the circuit board 8 opposite to the stator. Other than this, the configuration is the same as that of the conventional example.

Similar to the conventional example and the first embodiment described above, the molded motor with this configuration also includes a circuit board in which various electronic components 9 including IC components 10 are mounted on a stator consisting of a stator core 6 and a winding coil 7. 8 are assembled, and these are integrally molded with synthetic resin.

However, in this embodiment, since the heat-sensitive IC component 10 is mounted on the side B of the substrate opposite to the stator, the heat from the stator transmitted via the resin mold section 11 is shielded by the circuit board 8. , are not directly transmitted to the IC component 10. Therefore, the temperature of the IC component 10 does not rise excessively as in the conventional case, and malfunction or damage to the IC component 10 due to overheating does not occur.

As described above, the molded motor of this embodiment includes the same stator as the first embodiment, the circuit board 8,
The electronic component 9 is also provided with a protection means mounted on the side B of the substrate opposite to the stator in order to protect an IC component 10, which is one of the electronic components 9, from the heat of the stator.

Therefore, the IC component 10 mounted on the circuit board 8 integrally molded with the stator from synthetic resin is protected by the circuit board 8 from the heat of the stator. Therefore, the temperature of the IC component 10 does not rise excessively due to heat from the stator, and malfunction or damage to the IC component 10 due to overheating can be prevented, resulting in increased reliability and safety of the motor.

In this embodiment, the IC component 10 is mounted on the side B of the circuit board 8 opposite to the stator, but other heat-sensitive electronic components 9 may be mounted on the side B of the circuit board opposite the stator. good.

<Third Embodiment> FIG. 3 is a side view showing the main parts of a molded motor according to a third embodiment of the present invention. In the drawings, the same reference numerals and symbols as those in the above-mentioned conventional example and each embodiment indicate constituent parts that are the same as or correspond to those in the above-mentioned conventional example and each embodiment.

In the figure, reference numeral 20 indicates a heat dissipation fin attached to the IC component 10. Also in this embodiment, the IC component 10 is mounted on the side B of the circuit board 8 opposite to the stator. Other than this, the configuration is the same as that of the conventional example.

Similarly to the conventional example and the above-mentioned embodiments, the molded motor having this configuration also includes a stator consisting of a stator core 6 and a winding coil 7, and a circuit board 8 on which various electronic components 9 including an IC component 10 are mounted. are assembled and molded together with synthetic resin.

However, in this embodiment, the heat-sensitive IC component 10 is mounted on the side B of the substrate opposite to the stator, and the heat dissipation fins 20 are attached to this IC component 10. The heat from the stator transmitted through the stator is shielded by the circuit board 8 and not only is not directly transmitted to the IC component 10, but also the heat accumulated in the IC component 10 is radiated through the heat radiation fins 20. Therefore, the temperature of the IC component 10 does not rise excessively as in the conventional case, and malfunction or damage to the IC component 10 due to overheating does not occur.

As described above, the molded motor of this embodiment has the same stator as the first and second embodiments, and
It includes a circuit board 8 and an electronic component 9, and an IC component 10, which is one of the electronic components 9, is mounted on the side B of the substrate opposite to the stator in order to protect it from the heat of the stator, and the IC component 10 is provided with heat dissipation. A protection means is provided by attaching fins 20.

Therefore, the IC component 10 mounted on the circuit board 8 which is integrally molded with the stator using synthetic resin is protected by the circuit board 8 from the heat of the stator. Furthermore, the heat dissipating fins 20 prevent heat from accumulating in the IC component 10 and radiate the heat. Therefore, the temperature of the IC component 10 does not rise excessively due to heat from the stator, and malfunction or damage to the IC component 10 due to overheating can be prevented, resulting in increased reliability and safety of the motor.

In this embodiment, an IC component 10 is mounted on the side B of the circuit board 8 opposite to the stator.
Although the case where the heat dissipation fin 20 is attached to the electronic component 9 has been described, another heat-sensitive electronic component 9 may be attached to the substrate side B opposite to the stator, and the heat dissipation fin 20 may be attached to this electronic component 9.

<Fourth Embodiment> FIG. 4 is a side view showing the main parts of a molded motor according to a fourth embodiment of the present invention. In the drawings, the same reference numerals and symbols as those in the above-mentioned conventional example and each embodiment indicate constituent parts that are the same as or correspond to those in the above-mentioned conventional example and each embodiment.

Similarly to the conventional example and each of the above-described embodiments, the molded motor having this configuration also includes a stator consisting of a stator core 6 and a winding coil 7, and a circuit board 8 on which various electronic components 9 including an IC component 10 are mounted. are assembled and molded together with synthetic resin.

However, in this embodiment, the heat-sensitive IC component 10 is mounted on the side B of the substrate opposite to the stator, and this I
Not only is a heat radiation fin 20 attached to the C component 10, but the tip of the heat radiation fin 20 protrudes from the resin mold part 11. Therefore, the heat from the stator transmitted via the resin mold part 11 is shielded by the circuit board 8, is not directly transmitted to the IC component 10, and is not directly transmitted to the IC component 10.
The heat accumulated in the C component 10 is not only radiated via the heat radiating fins 20, but also heat is radiated to the outside of the resin mold section 11 by the heat radiating fins 20. therefore,
Unlike the conventional case, the temperature of the IC component 10 does not rise excessively, and malfunction or damage to the IC component 10 due to overheating does not occur.

As described above, the molded motor of this embodiment has the same stator as the first to second embodiments, and
It includes a circuit board 8 and an electronic component 9, and an IC component 10, which is one of the electronic components 9, is mounted on the side B of the substrate opposite to the stator in order to protect it from the heat of the stator.
A heat dissipation fin 20 is attached to the component 10, and this heat dissipation fin 2
A protective means is provided in which the tip of the fin 0 protrudes from the resin mold part 11.

Therefore, the IC component 10 mounted on the circuit board 8 integrally molded with the stator from synthetic resin is protected by the circuit board 8 from the heat of the stator. Furthermore, heat is not accumulated in the IC component 10 due to the heat dissipation fins 20, and heat dissipation by the heat dissipation fins 20 is further promoted. Therefore, the temperature of the IC component 10 does not rise excessively due to heat from the stator, and malfunction or damage to the IC component 10 due to overheating can be prevented, resulting in increased reliability and safety of the motor.

In this embodiment, the IC component 10 is mounted on the side B of the circuit board 8 opposite to the stator.
Although the case where the heat dissipation fin 20 is attached to the electronic component 9 has been described, another heat-sensitive electronic component 9 may be attached to the substrate side B opposite to the stator, and the heat dissipation fin 20 may be attached to this electronic component 9.

[0039]

Effects of the Invention As explained above, the molded motor of the present invention includes a stator, a circuit board, an electronic component, and a protection means. By protecting the electronic components of the motor from the heat of the stator with protective means, the temperature of the electronic components will not rise excessively due to the heat from the stator, and malfunction or damage due to overheating of the electronic components can be prevented, improving the reliability and reliability of the motor. Increased safety.

[Brief explanation of drawings]

FIG. 1 is a side view showing the main parts of a molded motor according to a first embodiment of the present invention.

FIG. 2 is a side view showing essential parts of a molded motor according to a second embodiment of the present invention.

FIG. 3 is a side view showing essential parts of a molded motor according to a third embodiment of the present invention.

FIG. 4 is a side view showing essential parts of a molded motor according to a fourth embodiment of the present invention.

FIG. 5 is a sectional view showing a conventional molded motor.

FIG. 6 is a perspective view showing the main parts of a conventional molded motor.

[Explanation of symbols]

6 Stator core 7 Winding coil 8 Circuit board 9 Electronic component 10 IC component 11 Resin mold part 19
Heat shield cover 20 Heat radiation fin

Claims (1)

[Claims] 1. A stator comprising a stator core and a winding coil, a circuit board attached to the stator and integrally molded with synthetic resin, various electronic components attached to the circuit board, and the electronic components. A molded motor characterized by comprising: protection means for protecting the stator from heat.