JP2014047672A - Electric compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the number of components.SOLUTION: On an installation base 41, cylindrical projections 41b are protrudingly provided through which a bolt 50 used for attaching a cover member 20 to a bottom wall 12a of a suction housing 12 can be inserted. Additionally, in the cover member 20, recesses 21 in which projections 41b are fitted are provided. The installation base 41 is positioned and attached to the cover member 20 by a positioning part 42 composed of fitting of the projections 41b in the recesses 21.

Description

  The present invention relates to an electric compressor including a compression unit, an electric motor, and a motor drive circuit.

  In general, a housing of an electric compressor houses a compression unit that compresses a refrigerant and an electric motor that drives the compression unit. A cover member is attached to the housing. A motor drive circuit for driving the electric motor is provided between the housing and the cover member. The motor drive circuit includes a flat circuit board and a plurality of types of electrical components mounted on the circuit board.

  By the way, in order to improve the maintainability in the motor drive circuit, a circuit board, a plurality of electrical components, and the like that are mounted on a mounting base and modularized are disclosed in, for example, Patent Document 1. The attachment base is attached to the cover member with bolts in a state where a circuit board, a plurality of electrical components, and the like are attached to the attachment base. Then, the cover member to which the attachment base is attached is attached to the housing via a bolt.

JP 2010-93220 A

  In such an electric compressor, the bolt used for attaching the cover member to the housing has a function of attaching the cover member to the housing, and also transfers heat transmitted from the motor drive circuit to the cover member. It has a function to dissipate heat and release noise on the cover member to the housing. However, since the bolt used for attaching the attachment base and the cover member does not contribute as a function of the electric compressor other than the function for attaching the attachment base and the cover member, the number of parts can be reduced. From the viewpoint, there has been a demand to eliminate as many bolts used for mounting the mounting base and the cover member as possible.

  The present invention has been made to solve the above problems, and an object thereof is to provide an electric compressor capable of reducing the number of parts.

  In order to achieve the above object, according to a first aspect of the present invention, a compression portion and an electric motor are accommodated in a housing, and a cover member is attached to the housing, and the housing, the cover member, A motor drive circuit for driving the electric motor is provided between the circuit board, the motor drive circuit including a circuit board and a plurality of electrical components mounted on the circuit board. And the electric compressor to which the plurality of electrical components are attached to a mounting base, wherein the cover member and the mounting base have a fitting portion on one side and a fitting portion on which the protruding portion is fitted, An insertion hole through which a bolt can be inserted in the positioning portion includes a positioning portion for positioning the cover member and the mounting base by fitting the protrusion and the fitting portion. Is formed, it said mounting base and said cover member by the bolt to the subject matter to be fastened to the housing.

  According to this invention, the attachment base is positioned and attached to the cover member by the positioning portion formed by fitting the protrusion and the fitting portion, and the cover member and the attachment base are inserted through the insertion holes formed in the positioning portion. Fastened to the housing by a bolt. Therefore, since the mounting base is attached to the cover member using the positioning part for positioning the mounting base on the cover member, there is no need for a bolt for attaching the mounting base to the cover member, and a bolt mounting portion of the bolt. The number of parts can be reduced.

  The invention according to claim 2 is the invention according to claim 1, wherein the fitting portion is a recess, and the insertion hole is a through-hole penetrating the protrusion and a through-hole penetrating into the recess. It is a summary.

  According to the present invention, for example, the cover member is inserted into the through hole of the protrusion and the through hole penetrating into the recess as compared with the case where the protrusion penetrates either the cover member or the mounting base. When the bolt is fastened to the housing by the bolt, the number of parts sandwiched between the housing and the cover member in the mounting base can be increased. As a result, the assembling property of the cover member and the mounting base with respect to the housing can be improved.

The gist of the invention described in claim 3 is that, in the invention described in claim 1 or 2, the protrusion is cylindrical and the fitting portion is circular in plan view.
According to the present invention, for example, the protrusion and the fitting portion are easier to form than the case where the protrusion is a triangular tube shape or a square tube shape and the fitting portion is a triangular shape or a square shape in plan view. Can be.

  According to the present invention, the number of parts can be reduced.

(A) is a fragmentary sectional view showing an electric compressor in the embodiment, (b) is an enlarged sectional view showing the periphery of a protrusion and a recess, and (c) is a sectional view taken along line 1-1 in FIG. 1 (b). . The disassembled sectional view which shows the state before attaching the cover member to which the attachment base was attached to the suction housing. Sectional drawing which expands and shows the protrusion and recessed part periphery in another embodiment. Sectional drawing which expands and shows the protrusion and fitting hole periphery in another embodiment.

Hereinafter, an embodiment embodying the present invention will be described with reference to FIGS. 1 and 2.
As shown in FIG. 1 (a), the housing H of the electric compressor 10 is made of aluminum (made of a metal material) having a bottomed cylindrical shape to a discharge housing 11 made of aluminum (made of a metal material) having a covered cylindrical shape. The suction housing 12 is joined. A suction port (not shown) is formed on the peripheral wall of the suction housing 12, and the suction port is connected to an external refrigerant circuit (not shown). A discharge port 14 is formed in the discharge housing 11, and the discharge port 14 is connected to an external refrigerant circuit. In the suction housing 12, a compression unit 15 (shown by a broken line in FIG. 1A) for compressing the refrigerant and an electric motor 16 for driving the compression unit 15 are accommodated. In the present embodiment, although not particularly illustrated, the compression unit 15 is composed of a fixed scroll fixed in the suction housing 12 and a movable scroll disposed to face the fixed scroll.

  A stator 17 (stator) is fixed to the inner peripheral surface of the suction housing 12, and the stator 17 has a coil 17 b wound around a tooth (not shown) of a stator core 17 a fixed to the inner peripheral surface of the suction housing 12. It is configured to be turned. A rotation shaft 19 is rotatably supported in the suction housing 12 while being inserted into the stator 17, and a rotor 18 (rotor) is fixed to the rotation shaft 19.

  A cover member 20 made of aluminum (made of a metal material) is attached to the bottom wall 12a of the suction housing 12 in the form of a covered cylinder. A motor drive circuit 30 for driving the electric motor 16 is provided between the suction housing 12 and the cover member 20. Therefore, in this embodiment, the compression part 15, the electric motor 16, and the motor drive circuit 30 are arrange | positioned along with the direction (axial direction) where the axis L of the rotating shaft 19 extends in this order.

  By supplying the electric power controlled by the motor drive circuit 30 to the electric motor 16, the rotating shaft 19 and the rotor 18 are rotated at the controlled rotational speed, and the compression unit 15 is driven. By driving the compression unit 15, the refrigerant is sucked into the suction housing 12 from the external refrigerant circuit via the suction port, the refrigerant sucked into the suction housing 12 is compressed by the compression unit 15, and the compressed refrigerant is discharged. Discharge to the external refrigerant circuit via the port 14 is performed.

  The motor drive circuit 30 includes a flat circuit board 31 and a plurality of electrical components mounted on the circuit board 31. Examples of the electrical component include a switching element 32 and a capacitor 33. A lead 32a protrudes from the switching element 32, and the switching element 32 and the circuit board 31 are electrically connected by joining the lead 32a and the circuit board 31 by soldering. Further, a lead 33a protrudes from the capacitor 33, and the capacitor 33 and the circuit board 31 are electrically connected by joining the lead 33a and the circuit board 31 by soldering.

  On the outer surface of the cover member 20, a connector connecting portion 20c that is connected to an external power source protrudes. A metal terminal 20 d extends from the connector connecting portion 20 c toward the inside of the cover member 20. The inner end of the cover member 20 in the metal terminal 20 d is connected to the circuit board 31. The circuit board 31 and the electrical components such as the switching element 32 and the capacitor 33 are made of aluminum (made of a metal material) and attached to a plate-like mounting base 41.

  As shown in FIG. 1 (b), a plurality of protrusions 41b (two shown in FIG. 1 (a)) protrude from the surface of the mounting base 41 opposite to the bottom wall 12a of the suction housing 12. . As shown in FIG.1 (c), the protrusion 41b is formed with the circular through-hole 41h, and the protrusion 41b is formed in a cylindrical shape. As shown in FIG. 1B, an annular flange portion 20f is projected from the outer peripheral portion of the cover member 20, and a fitting portion 41b of the mounting base 41 is fitted to the flange portion 20f. A recess 21 as a part is formed. As shown in FIG.1 (c), the recessed part 21 is formed circularly by planar view. And the positioning part 42 in which the cover member 20 and the attachment base are positioned is formed by each protrusion 41b and each recessed part 21 fitting. Here, the “positioning portion 42” refers to a portion where the protrusion 41b and the recess 21 are fitted. The attachment base 41 is attached to the cover member 20 in a state of being positioned by the positioning portion 42.

  As shown in FIG. 1B, the cover member 20 is formed with a through hole 20h that penetrates into the recess 21 and communicates with the through hole 41h of the protrusion 41b. Bolts 50 can be inserted into the through holes 20h and 41h. Therefore, in the present embodiment, an insertion hole into which the bolt 50 can be inserted is formed by the through holes 20h and 41h. The bolt 50 is inserted into each of the through holes 20 h and 41 h and screwed into the female screw hole 12 b formed in the bottom wall 12 a of the suction housing 12, so that the cover member 20 and the mounting base 41 are connected to the suction housing 12. It is fastened to the bottom wall 12a.

Next, a procedure for attaching the cover member 20 and the attachment base 41 to the bottom wall 12a of the suction housing 12 will be described.
As shown in FIG. 2, first, the projections 41 b of the mounting base 41 in a state where electrical components such as the circuit board 31 and the switching element 32 and the capacitor 33 are mounted are fitted into the recesses 21 of the cover member 20. Let The attachment base 41 is attached to the cover member 20 in a state where the attachment base 41 is positioned at a predetermined position by the positioning portions 42 by fitting the protrusions 41b and the recesses 21. Here, the “predetermined position” refers to a position where the metal terminal 20 d and the circuit board 31 are connected to each other when the attachment base 41 is attached to the cover member 20.

  Next, the mounting base 41 attached to the cover member 20 is brought into contact with the bottom wall 12a of the suction housing 12 by fitting the protrusions 41b and the recesses 21, and bolts 50 are respectively inserted into the through holes 20h and 41h. The bolt 50 is inserted and screwed into the female screw hole 12 b of the bottom wall 12 a of the suction housing 12. Accordingly, the cover member 20 and the mounting base 41 are fastened to the bottom wall 12a of the suction housing 12.

Next, the operation of this embodiment will be described.
The attachment base 41 is positioned and attached to the cover member 20 by the positioning portion 42 by fitting each protrusion 41b and each recess 21. The cover member 20 and the attachment base 41 are inserted into the through holes 20h and 41h. The bolt 50 is fastened to the bottom wall 12 a of the suction housing 12. That is, the mounting base 41 is attached to the cover member 20 by using the positioning portion 42 that positions the mounting base 41 on the cover member 20. For this reason, the bolt for attaching the attachment base 41 to the cover member 20 and the bolt attachment part of the said bolt are unnecessary, the number of parts is reduced, and the electric compressor 10 itself is reduced in weight.

In the above embodiment, the following effects can be obtained.
(1) The mounting base 41 is provided with a cylindrical protrusion 41b through which a bolt 50 used for attaching the cover member 20 to the bottom wall 12a of the suction housing 12 can be inserted. Further, the cover member 20 is provided with a recess 21 into which the protrusion 41b is fitted. Then, the mounting base 41 is positioned and attached to the cover member 20 by the positioning portion 42 formed by fitting each projection 41b and each recess 21. According to this, since the attachment base 41 is attached to the cover member 20 by using the positioning portion 42 for positioning the attachment base 41 to the cover member 20, the bolt for attaching the attachment base 41 to the cover member 20, and The bolt mounting portion of the bolt is not necessary, and the number of parts can be reduced.

  (2) The cover member 20 is provided with a recess 21. Furthermore, a through hole 41h was formed in the protrusion 41b, and a through hole 20h that penetrated into the recess 21 and communicated with the through hole 41h of the protrusion 41b was formed in the cover member 20 through which the bolt 50 could be inserted. According to this, for example, as compared with the case where the protrusion 41b penetrates the cover member 20, the cover member 20 is attached to the bottom wall 12a of the suction housing 12 by the bolt 50 inserted through each of the through holes 20h and 41h. When attached, the site | part pinched by the bottom wall 12a and the cover member 20 in the attachment base 41 can be increased. As a result, the assembling property of the cover member 20 and the mounting base 41 to the bottom wall 12a of the suction housing 12 can be improved.

  (3) The protrusion 41b is cylindrical, and the recess 21 is circular in plan view. According to this, for example, the protrusion 41b has a triangular cylindrical shape or a rectangular cylindrical shape, and the protrusion 41b and the concave portion 21 can be easily formed as compared with the case where the concave portion 21 has a triangular shape or a square shape in plan view. Can be.

(4) According to this embodiment, since the number of parts can be reduced, the electric compressor 10 itself can be reduced in weight.
(5) In this embodiment, since the attachment base 41 and the cover member 20 are not attached by bolts, a bolt for attaching the attachment base 41 and the cover member 20 is screwed to the attachment base 41 or the cover member 20. There is no need to form a female screw hole, and the manufacturing process of the mounting base 41 or the cover member 20 can be simplified.

  (6) The attachment base 41 is attached to the cover member 20 by fitting the protrusions 41b and the recesses 21. According to this, for example, the bolt mounting portion is formed inside the cover member 20 as compared to the case where the bolt mounting portion of the bolt for mounting the mounting base 41 to the cover member 20 is formed inside the cover member 20. As a result, the space inside the cover member 20 can be effectively utilized.

  (7) According to this embodiment, for example, when the bolt mounting portion of the bolt for mounting the mounting base 41 to the cover member 20 is formed inside the cover member 20, the shape of the circuit board 31 is The troublesomeness of having to avoid the bolt mounting portion can be eliminated.

  (8) The mounting base 41 can be positioned at a predetermined position with respect to the cover member 20 by the positioning portions 42 formed by fitting the protrusions 41b and the recesses 21. According to this, when attaching the attachment base 41 to the cover member 20, the positioning jig for positioning the attachment base 41 with respect to the cover member 20 so that the metal terminal 20d and the circuit board 31 are connected to each other. Is not necessary, and the attachment process of the attachment base 41 to the cover member 20 can be simplified.

  (9) Each protrusion 41b is cylindrical, and each recess 21 is circular in plan view. According to this, for example, after fitting the first set of protrusions 41b and the recesses 21, the protrusions 41b can be rotated inside the recesses 21, and the second set of protrusions 41b and the recesses 21 can be easily fitted.

  (10) Since each protrusion 41b and each recessed part 21 are fitted, compared with the case where each protrusion 41b and each recessed part 21 are not fitted, the contact between the mounting base 41 and the cover member 20 The area can be increased. As a result, heat transmitted from the motor drive circuit 30 to the cover member 20 can be easily radiated to the suction housing 12 via the mounting base 41, and noise on the cover member 20 can be radiated via the mounting base 41. Thus, it is possible to easily escape to the suction housing 12 side.

  (11) In this embodiment, the cover member 20 and the mounting base 41 can be removed from the bottom wall 12 a of the suction housing 12 by removing the bolt 50. For this reason, the maintenance work of the motor drive circuit 30 can be performed in a space different from the mounting space of the electric compressor 10, and the maintainability in the motor drive circuit 30 can be improved.

In addition, you may change the said embodiment as follows.
As shown in FIG. 3, the cover member 20 may be provided with a cylindrical protrusion 61 b and the mounting base 41 may be provided with a recess 62 b as a fitting part into which the protrusion 61 b is fitted. . A through hole 61h is formed in the protrusion 61b. The mounting base 41 is formed with a through hole 60h that penetrates into the recess 62b and communicates with the through hole 61h of the protrusion 61b. An insertion hole into which the bolt 50 can be inserted is formed by the through holes 60h and 61h. Then, the attachment base 41 may be positioned and attached to the cover member 20 by the positioning portion 63 formed by fitting the protrusion 61b and the recess 62b. Here, the “positioning portion 63” refers to a portion where the protrusion 61b and the recess 62b are fitted.

  As shown in FIG. 4, the protrusion 41 b may penetrate the cover member 20. The flange portion 20f is formed with a fitting hole 65 as a fitting portion that can be fitted to the protrusion 41b. Then, the attachment base 41 may be positioned and attached to the cover member 20 by the positioning portion 71 by fitting between the protrusion 41b and the fitting hole 65. In addition, the protrusion 41b may protrude from the flange portion 20f, or the tip surface of the protrusion 41b may be located on the same plane as the flange portion 20f.

In the embodiment shown in FIG. 3, the protrusion 61 b may penetrate the mounting base 41.
In the embodiment, the protrusion 41b may be a triangular cylinder or a square cylinder, and the recess 21 may be a triangle or a square when viewed from above.

In the embodiment, the attachment base 41 may be formed of a metal material other than aluminum.
In the embodiment, the mounting base 41 may be formed of a material other than a metal material.

In the embodiment, the cover member 20 may be attached to the outer peripheral surface of the suction housing 12, for example.
In the embodiment, the compression unit 15 may be, for example, a piston type or a vane type.

Next, the technical idea that can be grasped from the above embodiment and other examples will be described below.
(A) The protrusion is provided on the mounting base, and the fitting part is provided on the cover member. Electric compressor.

(B) The electric compressor according to any one of claims 1 to 3 and the technical idea (A), wherein the mounting base is made of a metal material.
(C) The compression unit, the electric motor, and the motor drive circuit are arranged in this order along the axial direction of the rotating shaft, and the technology. The electric compressor according to any one of (1) and (2).

  H: Housing, 10: Electric compressor, 15: Compression part, 16: Electric motor, 20 ... Cover member, 20h, 60h ... Through hole forming insertion hole, 21, 62b ... Recessed part as fitting part, 30 ... Motor drive circuit, 31 ... Circuit board, 32 ... Switching element as electrical component, 33 ... Capacitor as electrical component, 41 ... Mounting base, 41b, 61b ... Projection, 41h, 61h ... Through hole forming insertion hole, 42,63,71 ... positioning part, 50 ... bolt, 65 ... fitting hole as fitting part.

Claims (3)

A compression part and an electric motor are accommodated in the housing, and a cover member is attached to the housing, and a motor drive circuit for driving the electric motor is provided between the housing and the cover member. The motor drive circuit is an electric compressor that includes a circuit board and a plurality of electrical components mounted on the circuit board, and the circuit board and the plurality of electrical components are attached to a mounting base. And
The cover member and the mounting base have a fitting portion in which the protruding portion is fitted on one side and the protruding portion is fitted on the other side, and the protruding portion and the fitting portion are fitted to each other to form the cover member. A positioning portion for positioning the mounting base is provided, and the positioning portion is formed with an insertion hole through which a bolt can be inserted.
The electric compressor, wherein the cover member and the mounting base are fastened to the housing by the bolt.   2. The electric compressor according to claim 1, wherein the fitting portion is a recess, and the insertion hole is a through-hole penetrating the protrusion and a through-hole penetrating into the recess.   3. The electric compressor according to claim 1, wherein the protrusion has a cylindrical shape, and the fitting portion has a circular shape in a plan view.