JP2009177869A - Circuit board fixing structure for motor unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a circuit board fixing structure for a motor unit, which can surely and easily fixing a circuit board without using a screw for fixing the circuit board. <P>SOLUTION: The circuit board fixing structure for a motor unit U includes an electric motor M and the circuit board C for controlling the electric motor M. Further, a board accommodation part 1d for accommodating the circuit board C is provided within a casing 1 covering the electric motor M, wherein the circuit board C accommodated in the board accommodation part 1d is covered with a cover 10. Besides, the circuit board C is held between the casing 1 and the cover 10, and elastic members 11, 12 provided between the casing 1, cover 10 and circuit board C bite into the through-holes C1 formed in the circuit board C, causing the circuit board C to be fixed relative to the casing 1. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a circuit board fixing structure of a motor unit including an electric motor and a circuit board for controlling the electric motor.

  2. Description of the Related Art In recent years, attention has been drawn to electric vehicles that run by the output of an electric motor and hybrid vehicles that run by the output of an engine and an electric motor. In such automobiles such as electric vehicles and hybrid vehicles, a motor unit including an electric motor and a circuit board for controlling the electric motor is used as a drive source of an electric pump that supplies hydraulic pressure to a transmission or the like. .

  Such a motor unit is integrally provided with an electric motor and a circuit board from the viewpoint of compactness. For example, a casing in which a board storage portion for storing the circuit board in the casing covers the electric motor. The circuit board housed in the board housing section in the casing is covered with a cover.

  By the way, the circuit board housed in the casing as described above is generally fixed by screwing the casing so that the electronic components mounted on the circuit board are not damaged by the vibration of the casing. ing. Thus, when fixing a circuit board with respect to a casing by screwing, it was a factor of a cost increase to use the screw for circuit board fixation.

Therefore, as a circuit board fixing structure, a circuit board is fixed by sandwiching the circuit board between a casing (case) and a cover (lid), or a projection is formed on the casing and a through hole is formed in the circuit board. A structure for fixing a circuit board by inserting a projection of a casing into a through hole of the circuit board is disclosed (for example, refer to Patent Document 1).
Japanese Patent Laid-Open No. 10-303590

  However, the structure in which the circuit board is fixed by sandwiching the circuit board between the casing and the cover may cause the circuit board to move in a plane direction parallel to the substrate surface of the circuit board, and the circuit board is not sufficiently fixed. There was a problem that there was. Further, the structure in which the circuit board is fixed by inserting the protrusion of the casing into the through hole of the circuit board has a problem that it is complicated to insert the protrusion into the through hole of the circuit board.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a circuit board fixing structure for a motor unit that can securely and easily fix a circuit board without using a screw for fixing the circuit board. It is to provide.

  The invention according to claim 1 includes an electric motor and a circuit board for controlling the electric motor, and a casing housing the circuit board is provided in a casing covering the electric motor, and the board The circuit board housed in the housing part is a circuit board fixing structure of a motor unit covered with a cover, and the circuit board is sandwiched between the casing and the cover, and between the circuit board and at least one of the casing and the cover. The circuit board is fixed with respect to the casing by the elastic member provided in the bite through the through-hole formed in the circuit board.

  According to this configuration, the circuit board is sandwiched between the casing and the cover, and the elastic member provided between at least one of the casing and the cover and the circuit board bites into the through-hole formed in the circuit board. The circuit board is fixed to the casing. For this reason, the movement of the circuit board in a direction perpendicular to the substrate surface of the circuit board is regulated by the casing and the cover sandwiching the circuit board, and parallel to the board surface of the circuit board by the elastic member that has bite into the through hole of the circuit board. The circuit board can be reliably fixed without restricting the movement of the circuit board in the plane direction and without using the circuit board fixing screw. In addition, the elastic member for regulating the movement of the circuit board in the plane direction parallel to the circuit board surface of the circuit board can bite into the through hole of the circuit board in the process of sandwiching the circuit board by the casing and the cover, The circuit board can be easily fixed as compared with the case where the circuit board is fixed by inserting the protrusion formed on the casing into the through hole of the circuit board as in the conventional technique. Further, since it is not necessary to form a screw hole for screwing a circuit board fixing screw or a protrusion for insertion into the through hole of the circuit board in the casing, the screw hole or the protrusion is formed in the casing as in the above prior art. As compared with the case of forming the casing, the casing can be easily processed.

  The invention according to claim 2 is the circuit board fixing structure of the motor unit according to claim 1, wherein the elastic member is provided between both the casing and the cover and the circuit board. To do.

  According to this configuration, since the elastic member is provided between both the casing and the cover and the circuit board, the elastic member can be bitten into the through hole of the circuit board from both sides of the circuit board surface. it can. Therefore, the circuit board can be more reliably fixed.

  According to the present invention, the circuit board can be reliably and easily fixed without using the circuit board fixing screw, and the casing can be easily processed.

  Embodiments according to the present invention will be described below with reference to the drawings. A motor unit U having a circuit board fixing structure according to the present embodiment includes an electric motor M, a circuit board C for controlling the electric motor M, and a gear pump (gear pump) P driven by the electric motor M. Is prepared for.

  More specifically, the bottomed substantially cylindrical casing 1 houses the stator 3 constituting the electric motor M and the like, and the pump housing 2 is fixed to the opening end 1 </ b> A of the casing 1. . Therefore, the casing 1 is covered with the pump housing 2.

  A substantially cylindrical stator 3 that generates a rotating magnetic field is press-fitted or bonded to the inner periphery 1 </ b> B of the casing 1. The stator 3 includes a stator core 3a and a plurality of coils 3b made of conductive wires wound around the stator core 3a, and can generate a rotating magnetic field by appropriately supplying electricity to the coil 3b.

  A bearing housing 1 a for housing the rolling bearing 4 is formed on the bottom 1 C in the casing 1, and the end 2 A of the pump housing 2 in the axial direction A is also rolled similarly to the casing 1. A bearing housing portion 2a for housing the bearing 5 is formed.

  And the rotor 6 comprised from the permanent magnet 6a and the shaft member 6b is rotatably supported by the rolling bearings 4 and 5 accommodated in the bearing accommodating parts 1a and 2a, and the rotor 6 is inside the annular stator 3. It is arranged.

  More specifically, the rotor 6 is inserted into a permanent magnet 6a for obtaining a driving force for rotating the rotor 6 by a rotating magnetic field, and an inner periphery 6A of the cylindrical permanent magnet 6a, and is permanent by adhesion or press-fitting. The shaft member 6b is fixed to the magnet 6a.

  Since the magnetic poles are alternately magnetized along the direction in which the rotor 6 rotates on the outer periphery 6B of the permanent magnet 6a, a rotating magnetic field is generated by the stator 3, thereby causing the rotor 6 (that is, the permanent magnet 6a and the shaft). The member 6b) rotates.

  As described above, the casing 3 houses the stator 3, the permanent magnet 6a of the rotor 6, and the rolling bearings 4 and 5, and the electric motor M includes the stator 3 and the rotor 6, and the rotor. The gear pump P is driven with 6 as a drive shaft.

  The pump housing 2 is formed with a gear housing portion 2b in which the gear 7 is housed, and a through hole 2c is provided in the center of the pump housing 2 to communicate the gear housing portion 2b with the inside of the casing 1. . The shaft member 6b is inserted into the through hole 2c, and the shaft member 6b extends from the casing 1 to the gear housing portion 2b.

  The recessed gear housing portion 2b houses an inner rotor (external gear) 7a and an outer rotor (internal gear) 7b, which are gears 7 using a trochoidal curve as a tooth shape. The shaft member 6b is fixed.

  The gear housing portion 2b in which the gear 7 is housed is sealed by a pump plate 8 that covers the end surface 2B of the pump housing 2, and the pump plate 8 has a suction for sucking fluid oil into the gear housing portion 2b. A port (not shown) and a discharge port (not shown) for discharging oil from the gear housing 2b are formed.

  As described above, the gear 7 is accommodated in the pump housing 2 sealed by the pump plate 8, and the gear pump P includes the pump housing 2, the gear 7, and the pump plate 8, and the rotor 6 includes the rotor 6. The gear pump P is driven by the rotation.

  More specifically, when the rotor 6 rotates, the gear 7 in the pump housing 2 rotates, and the gear pump P is driven so as to transport oil from the suction port of the pump plate 8 to the discharge port.

  In addition, an opening 1b is formed in a part of the bottom 1C of the casing 1, and the casing 1D on the opposite side of the bottom 1C of the casing 1 is for housing the circuit board C in the casing 1. A substrate storage portion 1d is provided.

  A wiring (not shown) is formed on the substrate surface Ct of the circuit board C stored in the substrate storage portion 1d. The wiring includes a lead wire constituting the coil 3b of the stator 3 and a terminal of the electronic component 9. (Not shown) is connected. The electricity supplied to the coil 3b is controlled by the electronic component 9 mounted on the circuit board C.

  In addition, a screw hole 1e is formed in the substrate storage portion 1d, and a cover 10 that covers the circuit board C stored in the substrate storage portion 1d by a screw S screwed into the screw hole 1e is formed in the casing 1. On the other hand, it is fixed with screws. When the cover 10 is fixed to the casing 1 in this way, the circuit board C is moved in the direction perpendicular to the board surface Ct of the circuit board C by the casing 1 and the cover 10 (direction indicated by the arrow A in the figure). Sandwiched.

  Here, in the present embodiment, the circuit board C is sandwiched between the casing 1 and the cover 10, and the elastic members 11 and 12 provided between the casing 1 and the cover 10 and the circuit board C include the circuit board C. A feature is that the circuit board C is fixed to the casing 1 by biting into the through-hole C1 formed on the casing 1.

  More specifically, an elastic member 11 is provided between the casing 1 and the circuit board C. As shown in FIG. 1, the elastic member 11 is a substrate on which the casing 1 and the electronic component 9 are mounted. It is pressed against the substrate surface Cb which is the surface opposite to the surface Ct. 2 and 3A, the elastic member 11 is flat before the cover 10 is fixed to the casing 1 (that is, before the circuit board C is sandwiched between the casing 1 and the cover 10). Shape. Then, when the cover 10 is fixed to the casing 1, the elastic member 11 is deformed by being pressed against the casing 1 and the substrate surface Cb of the circuit board C, as shown in FIG. 1 and FIG. The elastic member 11 bites into the through hole C1 of the circuit board C.

  Further, an elastic member 12 is provided between the cover 10 and the circuit board C, and the elastic member 12 is pressed against the cover 10 and the substrate surface Ct on which the electronic component 9 is mounted. 2 and 3A, the elastic member 12 is an elastic member before the cover 10 is fixed to the casing 1 (that is, before the circuit board C is sandwiched between the casing 1 and the cover 10). Similar to 11, the shape is flat. Then, when the cover 10 is fixed to the casing 1, the elastic member 12 is deformed by being pressed against the cover 10 and the substrate surface Ct of the circuit board C, as shown in FIG. 1 and FIG. The elastic member 12 bites into the through hole C1 of the circuit board C.

  According to the above configuration, since the circuit board C is sandwiched between the casing 1 and the cover 10, the circuit board C is moved in a direction perpendicular to the substrate surface Ct of the circuit board C by the casing 1 and the cover 10 that sandwich the circuit board C. Is regulated. The movement of the circuit board C in the plane direction parallel to the board surface Ct of the circuit board C (the direction indicated by the arrow R in the figure) is regulated by the elastic members 11 and 12 that have bitten into the through hole C1 of the circuit board C. ing. The elastic members 11 and 12 that bite into the through holes C1 formed in the circuit board C are, as described above, the elastic members 11 and 12 in the process of sandwiching the circuit board C between the casing 1 and the cover 10. It bites into the through hole C1.

  In the present embodiment, the elastic member 11 is provided between both the casing 1 and the cover 10 and the circuit board C. For this reason, the elastic member 11 can bite into the through-hole C1 of the circuit board C from both sides of the board surfaces Ct and Cb of the circuit board C.

  In the present embodiment, the elastic member 11 is a heat radiating sheet formed of, for example, a silicon-based resin, and has thermal conductivity. Therefore, the heat in the circuit board C is transferred via the casing 1 and the cover 10. Heat can be radiated to the external G.

According to the circuit board fixing structure of the motor unit U of the above embodiment, the following effects can be obtained.
(1) The motor unit U includes an electric motor M and a circuit board C for controlling the electric motor M. In the casing 1 covering the electric motor M, a board storage portion 1d for storing the circuit board C. And the circuit board C accommodated in the substrate accommodating portion 1d is covered with the cover 10. The circuit board C is sandwiched between the casing 1 and the cover 10, and the elastic members 11 and 12 provided between the casing 1 and the cover 10 and the circuit board C are through holes C <b> 1 formed in the circuit board C. The circuit board C is fixed to the casing 1 by biting into the casing 1. For this reason, the casing 1 and the cover 10 sandwiching the circuit board C regulate the movement of the circuit board C in the direction perpendicular to the board surface Ct, and the elastic members 11 and 12 biting into the through-hole C1 cause the board surface Ct to move. By restricting the movement of the circuit board C in the parallel plane direction, the circuit board C can be securely fixed without using a circuit board fixing screw. Further, since the elastic members 11 and 12 for restricting the movement of the circuit board C can be bitten into the through hole C1 in the process of sandwiching the circuit board C between the casing 1 and the cover 10, the elastic members 11 and 12 are penetrated as in the prior art. The circuit board C can be easily fixed as compared with the case where the circuit board is fixed by inserting the protrusion formed in the casing into the hole. Further, since there is no need to form on the casing 1 a screw hole for screwing a circuit board fixing screw or a projection for insertion into the through hole of the circuit board, The casing 1 can be easily processed as compared with the case where the casing 1 is formed.

  (2) Since the elastic members 11 and 12 are provided between both the casing 1 and the cover 10 and the circuit board C, the through holes of the circuit board C are formed from both sides of the board surfaces Ct and Cb of the circuit board C. The elastic members 11 and 12 can bite into C1. Therefore, the circuit board C can be more reliably fixed.

  (3) Since the elastic members 11 and 12 have thermal conductivity, the heat in the circuit board C can be radiated to the outside G through the casing 1 and the cover 10. Therefore, it is possible to avoid malfunction of the electronic component 9 mounted on the circuit board C due to heat in the circuit board C.

  In addition, this invention is not limited to the said embodiment, A various design change is possible based on the meaning of this invention, and they are not excluded from the scope of the present invention. For example, you may change the said embodiment as follows.

  -In above-mentioned embodiment, although the elastic members 11 and 12 had heat conductivity, the elastic member 11 does not need to have heat conductivity. Even if comprised in this way, the effect as described in said (1) and (2) can be acquired.

  In the above embodiment, the elastic members 11 and 12 are provided between the casing 1 and the cover 10 and the circuit board C. However, only one of the elastic members 11 and 12 is provided. Good. That is, if an elastic member is provided between at least one of the casing 1 and the cover 10 and the circuit board C, the same effect as the above (1) can be obtained. That is, when the elastic member 11 is provided between the casing 1 and the circuit board C, the movement of the circuit board C in the plane direction parallel to the substrate surface Ct is regulated by the elastic member 11 that has digged into the through hole C1. Thus, the circuit board C can be securely fixed without using the circuit board fixing screw. On the other hand, when the elastic member 12 is provided between the casing 1 and the circuit board C, the movement of the circuit board C in the plane direction parallel to the substrate surface Ct is regulated by the elastic member 12 that has digged into the through hole C1. Thus, the circuit board C can be securely fixed without using the circuit board fixing screw.

Next, the technical idea that can be grasped from the above embodiment will be described below together with the effects thereof.
(Appendix 1) The circuit board fixing structure for a motor unit according to claim 1 or 2, wherein the elastic member has thermal conductivity.

  According to this configuration, since the elastic member engaged with the circuit board has thermal conductivity, the heat in the circuit board can be radiated to the outside through the casing and the cover. Therefore, for example, it is possible to avoid an electronic component mounted on the circuit board from malfunctioning due to heat in the circuit board.

The schematic block diagram which shows the motor unit which concerns on embodiment of this invention. The disassembled perspective view for demonstrating the motor unit which concerns on embodiment of this invention. (A) (b) The fragmentary sectional view for demonstrating the circuit board fixing structure of the motor unit which concerns on embodiment of this invention.

Explanation of symbols

  A: direction perpendicular to substrate surface of circuit board, R: plane direction parallel to substrate surface of circuit board, U: motor unit, M: electric motor, C: circuit board, C1: through hole, Ct, Cb: substrate Surface, G ... outside, 1 ... casing, 1d ... substrate storage part, 10 ... cover, 11, 12 ... elastic member.

Claims (2)

An electric motor and a circuit board for controlling the electric motor are provided, and in the casing that covers the electric motor, a board storage part for storing the circuit board is provided and stored in the board storage part. The circuit board is a circuit board fixing structure of a motor unit covered by a cover,
The circuit board is sandwiched between the casing and the cover, and an elastic member provided between at least one of the casing and the cover and the circuit board bites into a through hole formed in the circuit board. The circuit board fixing structure for a motor unit, wherein the circuit board is fixed to the casing.   2. The circuit board fixing structure for a motor unit according to claim 1, wherein the elastic member is provided between both the casing and the cover and the circuit board.

Images