JP2021092168A - Electric compressor, and manufacturing method for electric compressor - Google Patents

Abstract

To improve workability for assembly while suppressing increase in size.SOLUTION: A cover 14 is formed with an insertion hole 14h into which a fixing bolt 50 screwed into a motor housing 13 is inserted. A nut 46 is formed with a female screw hole 49 that can be screwed with a temporary fixing bolt that temporarily fixes the cover 14 to a holder 40. A nominal diameter r1 of the female screw hole 49 is larger than a nominal diameter r2 of a screw part 51 of the fixing bolt 50. The fixing bolt 50 fastens the cover 14, the holder 40, and the motor housing 13 by screwing the fixing bolt into the motor housing 13 at the screw part 51 while inserting the insertion hole 14h and the female screw hole 49.SELECTED DRAWING: Figure 3

Description

The present invention relates to an electric compressor and a method for manufacturing the electric compressor.

The electric compressor includes a compression unit that compresses a fluid, an electric motor that drives the compression unit, a motor control device that has a circuit board for driving the electric motor, a housing that houses the compression unit and the electric motor, and a motor. It is provided with a cover for accommodating a control device. The cover is attached to the housing. Further, for example, as disclosed in Patent Document 1, the electric compressor includes a holder for holding a circuit board.

Japanese Unexamined Patent Publication No. 2015-40538

By the way, in the electric compressor of Patent Document 1, in order to attach the cover to the housing, first, the holder is attached to the housing by screwing the first bolt penetrating the holder into the housing. Then, the cover is attached to the holder by screwing the second bolt penetrating the cover into the holder, so that the cover is attached to the housing via the holder. Therefore, in the electric compressor of Patent Document 1, since it is necessary to attach the holder to the housing and then attach the cover to the holder, the assembly workability is poor.

Therefore, for example, it is conceivable to temporarily fix the cover and the holder with temporary fixing bolts, and to attach the cover and the holder to the housing with fixing bolts in a state where the cover and the holder are integrated in advance. In this case, in addition to the fixing bolts for fixing the cover to the housing, the number of bolts is increased by the amount of the temporary fixing bolts, so that the electric compressor becomes large. Further, even if the cover and the holder are integrated in advance by other fixing means, it is necessary to devise to make the fixing means function effectively and to position the cover and the holder, and as a result, electric compression is required. The machine becomes large.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an electric compressor capable of improving assembly workability while suppressing an increase in size, and a method for manufacturing the electric compressor. is there.

An electric compressor that solves the above problems includes a compression unit that compresses a fluid, an electric motor that drives the compression unit, a motor control device that has a circuit board for driving the electric motor, the compression unit, and the above. A housing for accommodating an electric motor, a cover for accommodating the motor control device, and a holder for holding the circuit board are provided, and the cover is an electric compressor attached to the housing and is the cover. Is formed with an insertion hole through which a fixing bolt to be screwed into the housing is inserted, and the holder is formed with a female screw hole that can be screwed with a temporary fixing bolt for temporarily fixing the cover to the holder. The nominal diameter of the female screw hole is larger than the nominal diameter of the threaded portion of the fixing bolt, and the fixing bolt is screwed into the housing at the threaded portion while inserting the insertion hole and the female screw hole. To fasten the cover, the holder, and the housing.

According to this, by screwing a temporary fixing bolt into the female screw hole and temporarily fixing the cover to the holder, the cover and the holder can be integrated in advance by using the temporary fixing bolt. Then, with the cover and holder integrated in advance arranged at predetermined positions with respect to the housing, the temporary fixing bolt is removed from the female screw hole. Here, the nominal diameter of the female screw hole is larger than the nominal diameter of the threaded portion of the fixing bolt. Therefore, the threaded portion of the fixing bolt can be screwed into the housing while inserting the insertion hole and the female screw hole, and the cover, the holder, and the housing can be fastened by the fixing bolt. In this way, the cover and holder integrated in advance can be assembled to the housing, so that the assembly workability is improved. Further, it is not necessary to integrate the cover and the holder in advance by other fixing means. Then, the temporary fixing bolt used to integrate the cover and the holder in advance is removed from the female screw hole, and the fixing bolt is screwed into the housing while inserting the insertion hole and the female screw hole to screw the cover, the holder and the housing. And were fastened with fixing bolts. Therefore, unlike the conventional technology, it is avoided that the number of bolts is increased by the amount of temporary fixing bolts in addition to the fixing bolts for fixing the cover to the housing, so that the increase in size of the electric compressor is suppressed. can do. As a result, the assembling workability can be improved while suppressing the increase in size.

In the electric compressor, the holder has a metal strut and a resin holder main body portion, and the strut has the female screw hole and is integrally formed with the holder main body portion. , It may be sandwiched between the cover and the housing.

According to this, since the holder main body is made of resin, the weight of the holder can be reduced, and as a result, the weight of the electric compressor can be reduced. Further, the threaded portion of the fixing bolt that has passed through the insertion hole and the female screw hole is screwed into the housing, so that the support column receives the axial force of the fixing bolt while being sandwiched between the cover and the housing. At this time, since the support column is made of metal, the axial force of the fixing bolt can be suitably received while the support column is sandwiched between the cover and the housing. As a result, the axial force of the fixing bolt screwed into the housing is easily transmitted to the cover, the column, and the housing, and the cover can be firmly attached to the housing via the holder.

The electric compressor includes an external connector to which an external power source is connected, and the external connector has a connector connection portion that protrudes from the cover in a tubular shape and a bus bar that is held by the connector connection portion. The circuit board may be connected to the bus bar.

According to this, since the circuit board and the bus bar of the external connector are connected, the temporary fixing bolt is internally screwed with the pre-integrated cover and holder arranged at a predetermined position with respect to the housing. When removed from the hole, the displacement between the cover and the holder can be suppressed. Therefore, the positions of the insertion hole of the cover and the female screw hole of the holder are not easily displaced, and the assembling workability can be further improved.

A method of manufacturing an electric compressor that solves the above problems includes a compression unit that compresses a fluid, an electric motor that drives the compression unit, a motor control device that has a circuit board for driving the electric motor, and the compression unit. A method for manufacturing an electric compressor, which comprises a housing for accommodating a unit and the electric motor, a cover for accommodating the motor control device, and a holder for holding the circuit board. A step of arranging the holder in the housing and a step of arranging the holder in a state where the cover is temporarily fixed to the holder by screwing a temporary fixing bolt into the female screw hole formed in the holder. Later, with the holder placed at a predetermined position with respect to the housing, the temporary fixing bolt is removed from the female screw hole, and after the removal step, the screw portion of the fixing bolt is attached to the cover. It has a fastening step of fastening the cover, the holder, and the housing with the fixing bolts by passing the formed insertion holes and the female screw holes in this order and screwing them into the housing.

First, a temporary fixing bolt is screwed into the female screw hole to temporarily fix the cover to the holder, and then an arrangement step of arranging the holder in the housing is performed. In the placed state, the temporary fixing bolt is removed from the female screw hole, and the removal process is performed. Then, after the removal step, the threaded portion of the fixing bolt is passed through the insertion hole and the female screw hole in this order and screwed into the housing to perform a fastening step of fastening the cover, the holder and the housing with the fixing bolt. In this way, the cover and holder integrated in advance can be assembled to the housing, so that the assembly workability is improved. Further, it is not necessary to integrate the cover and the holder in advance by other fixing means. Then, the temporary fixing bolt used to integrate the cover and the holder in advance is removed from the female screw hole, and the fixing bolt is screwed into the housing while inserting the insertion hole and the female screw hole to screw the cover, the holder and the housing. And were fastened with fixing bolts. Therefore, unlike the conventional technology, it is avoided that the number of bolts is increased by the amount of temporary fixing bolts in addition to the fixing bolts for fixing the cover to the housing, so that the increase in size of the electric compressor is suppressed. can do. As a result, the assembling workability can be improved while suppressing the increase in size.

According to the present invention, it is possible to improve the assembling workability while suppressing the increase in size.

A side sectional view showing an electric compressor in an embodiment. Enlarged sectional view partially showing the electric compressor. A cross-sectional view showing an enlarged view of the periphery of the fixing bolt. A side sectional view showing a state in which the cover and the holder are integrated in advance. A cross-sectional view showing an enlarged view of the periphery of the temporary fixing bolt.

Hereinafter, an embodiment in which the electric compressor is embodied will be described with reference to FIGS. 1 to 5. The electric compressor of this embodiment is used, for example, in a vehicle air conditioner.
As shown in FIG. 1, the electric compressor 10 includes a tubular housing 11. The housing 11 has a bottomed tubular discharge housing 12 and a bottomed tubular motor housing 13 connected to the discharge housing 12. The discharge housing 12 and the motor housing 13 are made of a metal material, for example, aluminum. The motor housing 13 has a plate-shaped bottom wall 13a and a peripheral wall 13b extending in a tubular shape from the outer peripheral edge of the bottom wall 13a. On the peripheral wall 13b of the motor housing 13, a suction port 13h for sucking a refrigerant as a fluid is formed in the motor housing 13.

The electric compressor 10 includes a cover 14. The cover 14 is made of a metal material, for example, aluminum. The cover 14 has a plate-shaped bottom wall 14a and a peripheral wall 14b extending in a tubular shape from the outer peripheral edge of the bottom wall 14a. The cover 14 is attached to the bottom wall 13a of the motor housing 13 in a state where the axis of the peripheral wall 14b coincides with the axis of the peripheral wall 13b of the motor housing 13.

A rotating shaft 15 is housed in the motor housing 13. The rotating shaft 15 is housed in the motor housing 13 in a state where the axis of the rotating shaft 15 coincides with the axis of the peripheral wall 13b of the motor housing 13. Further, the motor housing 13 houses a compression unit 16 that is driven by the rotation of the rotating shaft 15 to compress the refrigerant, and an electric motor 17 that rotates the rotating shaft 15 to drive the compression unit 16. .. Therefore, the housing 11 accommodates the compression unit 16 and the electric motor 17. The compression unit 16 and the electric motor 17 are arranged side by side in the axial direction, which is the direction in which the axis of the rotating shaft 15 extends. The electric motor 17 is arranged closer to the bottom wall 13a of the motor housing 13 than the compression unit 16.

The compression unit 16 is, for example, a scroll type including a fixed scroll (not shown) fixed in the motor housing 13 and a movable scroll (not shown) arranged to face the fixed scroll.

The electric motor 17 includes a tubular stator 18 and a rotor 19 arranged inside the stator 18. The rotor 19 rotates integrally with the rotating shaft 15. The stator 18 surrounds the rotor 19. The rotor 19 has a rotor core 19a anchored to the rotating shaft 15 and a plurality of permanent magnets (not shown) provided on the rotor core 19a. The stator 18 has a tubular stator core 18a and a motor coil 18b wound around the stator core 18a.

One end of an external refrigerant circuit (not shown) is connected to the suction port 13h. A discharge port 12h is formed in the discharge housing 12. The other end of the external refrigerant circuit is connected to the discharge port 12h. The refrigerant sucked into the motor housing 13 from the external refrigerant circuit via the suction port 13h is compressed by the compression unit 16 by the drive of the compression unit 16 and flows out to the external refrigerant circuit through the discharge port 12h. Then, the refrigerant flowing out to the external refrigerant circuit returns to the motor housing 13 via the heat exchanger and the expansion valve of the external refrigerant circuit, and through the suction port 13h. The electric compressor 10 and the external refrigerant circuit constitute a vehicle air conditioner.

A drive circuit chamber 20 is formed between the outer surface 13c, which is the surface of the bottom wall 13a of the motor housing 13 opposite to the peripheral wall 13b, and the cover 14. The motor control device 21 is housed in the drive circuit chamber 20. Therefore, the cover 14 accommodates the motor control device 21. Therefore, the motor control device 21 is covered with the cover 14. The compression unit 16, the electric motor 17, and the motor control device 21 are arranged side by side in the axial direction of the rotating shaft 15 in this order.

As shown in FIG. 2, the motor control device 21 has a circuit board 22 for driving the electric motor 17. A plurality of electronic components 23 are mounted on the circuit board 22. Therefore, the motor control device 21 has a plurality of electronic components 23. Examples of the plurality of electronic components 23 include filter elements such as coils and capacitors, switching elements, and the like.

The electric compressor 10 includes an external connector 31 to which an external power supply 30 is connected. The external connector 31 has a connector connection portion 32 and a bus bar 33. The connector connection portion 32 protrudes in a tubular shape from the outer surface 14c, which is the surface of the bottom wall 14a of the cover 14 opposite to the peripheral wall 14b. The bus bar 33 is held by the connector connecting portion 32 via a resin insulating member 34. The bus bar 33 has an elongated plate shape. One end of the bus bar 33 is located inside the connector connecting portion 32. The other end of the bus bar 33 projects from the inside of the connector connecting portion 32 into the cover 14, and is connected to the circuit board 22 by soldering or the like while penetrating the circuit board 22. Therefore, the circuit board 22 is connected to the bus bar 33. Then, the electric power from the external power source 30 connected to the external connector 31 is supplied to the circuit board 22 via the bus bar 33.

The electric compressor 10 includes a circuit board 22 and a holder 40 for holding a plurality of electronic components 23. The holder 40 has a plate-shaped resin holder main body 41. In the holder main body 41, one surface of the holder main body 41 in the plate thickness direction is a mounting surface 41a on which the circuit board 22 is mounted. The circuit board 22 is mounted on the mounting surface 41a of the holder main body 41 in a state where the plate thickness direction of the circuit board 22 coincides with the plate thickness direction of the holder main body 41.

A plurality of boss portions 13f are provided so as to project from the outer surface 13c of the bottom wall 13a of the motor housing 13. The protruding length of the bottom wall 13a from the outer surface 13c of each boss portion 13f is the same. A boss female screw hole 13g is formed in each boss portion 13f. The other surface of the holder body 41 in the plate thickness direction is a contact surface 41b that contacts each boss portion 13f of the motor housing 13. Further, a tubular holding wall 41c for holding each electronic component 23 projects from the contact surface 41b of the holder main body 41. Then, each electronic component 23 is held in each holding wall 41c in a state of being housed in each holding wall 41c. An adhesive is applied between each electronic component 23 and each holding wall 41c so that each electronic component 23 does not fall from each holding wall 41c.

The lead wire 23a of each electronic component 23 penetrates the holder main body 41 in the plate thickness direction and projects from the mounting surface 41a of the holder main body 41. Then, a portion of the lead wire 23a of each electronic component 23 that protrudes from the mounting surface 41a of the holder main body 41 is connected to the circuit board 22 by soldering or the like in a state of penetrating the circuit board 22. As a result, each electronic component 23 is mounted on the circuit board 22 via the lead wire 23a.

As shown in FIG. 3, a plurality of positioning holes 22a are formed in the circuit board 22. Further, a plurality of positioning protrusions 42 are provided so as to project from the mounting surface 41a of the holder main body 41. Each positioning protrusion 42 can be inserted into each positioning hole 22a of the circuit board 22. The circuit board 22 is mounted on the mounting surface 41a of the holder main body 41 with the positioning protrusions 42 inserted in the positioning holes 22a. The circuit board 22 is held in the holder 40 in a state of being positioned with respect to the holder 40 by inserting the positioning protrusions 42 into the positioning holes 22a.

The holder 40 has a plurality of boss portions 43 protruding from the mounting surface 41a of the holder main body portion 41. Each boss portion 43 has a cylindrical shape. Each boss portion 43 is arranged at a position corresponding to each boss portion 13f of the motor housing 13 on the mounting surface 41a of the holder main body portion 41. Further, the holder main body 41 is formed with communication holes 44 that communicate with each other inside each boss 43. Each communication hole 44 penetrates the holder main body 41 in the plate thickness direction. One end of each communication hole 44 communicates with the inside of each boss portion 43, and the other end of each communication hole 44 opens to the contact surface 41b of the holder main body portion 41. The hole diameter of each communication hole 44 is the same as the inner diameter of each boss portion 43. A nut holding hole 45 is formed inside the communication hole 44 and the boss portion 43. Therefore, the holder 40 has a plurality of nut holding holes 45.

The holder 40 has a plurality of nuts 46. Each nut 46 is held in each nut holding hole 45 in a state of being inserted into each nut holding hole 45. Each nut 46 is provided in a state of being integrated with the holder main body 41 by being insert-molded into the holder main body 41. Therefore, each nut 46 is made of metal integrally formed with the holder main body 41.

The nut 46 has a cylindrical portion 47 and an annular flange portion 48 projecting outward from a portion located at one end of the cylindrical portion 47 in the axial direction on the outer peripheral surface of the cylindrical portion 47. The inside of the cylindrical portion 47 is a female screw hole 49. Therefore, the nut 46 has a female screw hole 49. One end of the cylindrical portion 47 protrudes from the end of the boss portion 43 opposite to the mounting surface 41a. One end of the cylindrical portion 47 and the flange portion 48 are in contact with the inner surface 14d, which is the surface of the bottom wall 14a of the cover 14 on the peripheral wall 14b side. Further, the other end of the cylindrical portion 47 is in contact with the boss portion 13f of the motor housing 13. Each nut 46 functions as a support column for maintaining a distance between the inner surface 14d of the cover 14 and each boss portion 13f of the motor housing 13. Therefore, the holder 40 has a support column that maintains a distance between the cover 14 and the motor housing 13.

A plurality of insertion holes 14h are formed in the bottom wall 14a of the cover 14. In the present embodiment, the bottom wall 14a of the cover 14 is formed with four insertion holes 14h along the peripheral wall 14b at equal intervals in the circumferential direction. A fixing bolt 50 screwed into each boss portion 13f of the motor housing 13 is inserted into each insertion hole 14h. Specifically, the screw portion 51 of each fixing bolt 50 is inserted into each insertion hole 14h.

The nominal diameter r1 of the female screw hole 49 is larger than the nominal diameter r2 of the threaded portion 51 of the fixing bolt 50. Therefore, the screw portion 51 of the fixing bolt 50 that has passed through the insertion hole 14h passes through the inside of the female screw hole 49. Further, the hole diameter r3 of the insertion hole 14h is larger than the nominal diameter r1 of the female screw hole 49. The head portion 52 of the fixing bolt 50 is larger than the insertion hole 14h. The head 52 of the fixing bolt 50 is pressed around the insertion hole 14h on the outer surface 14c of the bottom wall 14a of the cover 14 via the annular washer 53. The outer edge of the washer 53 is larger than the head 52, and the inner edge of the washer 53 is smaller than the head 52. The washer 53 seals between the head portion 52 of the fixing bolt 50 and the outer surface 14c of the bottom wall 14a of the cover 14.

The end of the screw portion 51 of the fixing bolt 50 opposite to the head 52 is screwed into the boss female screw hole 13g of the boss portion 13f of the motor housing 13. Then, in the cover 14, the threaded portion 51 of each fixing bolt 50 is screwed into the boss female screw hole 13 g of each boss portion 13f of the motor housing 13, so that the distance between the cover 14 and the motor housing 13 is maintained by each nut 46. In this state, it is attached to the motor housing 13 via the holder 40. Each nut 46 is sandwiched between the cover 14 and the motor housing 13. Each fixing bolt 50 is screwed into the motor housing 13 at the screw portion 51 while inserting each insertion hole 14h and each female screw hole 49, thereby fastening the cover 14, the holder 40, and the motor housing 13.

Next, the operation of the present embodiment will be described while explaining the manufacturing method of the electric compressor 10 of the present embodiment. Here, as a method of manufacturing the electric compressor 10, a method of assembling the cover 14 and the holder 40 to the motor housing 13 will be described.

As shown in FIGS. 4 and 5, when assembling the cover 14 and the holder 40 to the motor housing 13, first, before assembling the cover 14 and the holder 40 to the motor housing 13, the cover 14 and the holder 40 are integrated in advance. To do. Specifically, the cover 14 and the holder 40 are integrated by using a temporary fixing bolt 54 that can be screwed into the female screw hole 49. At this time, since the hole diameter r3 of the insertion hole 14h is larger than the nominal diameter r1 of the female screw hole 49, the temporary fixing bolt 54 that can be screwed into the female screw hole 49 can be screwed into the female screw hole 49 via the insertion hole 14h. It has become. The temporary fixing bolt 54 is inserted into two diagonally existing insertion holes 14h out of the four insertion holes 14h. Then, by screwing the temporary fixing bolt 54 into the female screw hole 49, the arrangement step of arranging the holder 40 in the motor housing 13 is performed with the cover 14 temporarily fixed to the holder 40.

Next, after the placement step, a removal step of removing the temporary fixing bolt 54 from the female screw hole 49 is performed with the holder 40 placed at a predetermined position with respect to the motor housing 13. Specifically, the other end of the cylindrical portion 47 of each nut 46 is in contact with each boss portion 13f of the motor housing 13, and each female screw hole 49 is in a state of communicating with each boss female screw hole 13g. , The cover 14 and the holder 40 are arranged with respect to the motor housing 13. Then, the temporary fixing bolt 54 is removed from the female screw hole 49. At this time, since the circuit board 22 and the bus bar 33 are connected, the displacement between the cover 14 and the holder 40 is suppressed when the temporary fixing bolt 54 is removed from the female screw hole 49. Therefore, the positions of the insertion hole 14h of the cover 14 and the female screw hole 49 of the nut 46 are less likely to shift.

Next, as shown in FIGS. 2 and 3, after the removal step, the threaded portion 51 of the fixing bolt 50 is passed through the inside of the washer 53, and the threaded portion 51 is passed through the insertion hole 14h and the female screw hole 49 in this order. By screwing the cover 14 into the female screw hole 13g of the boss, the fastening step of fastening the cover 14, the holder 40, and the motor housing 13 with the fixing bolt 50 is performed. At this time, one end of the cylindrical portion 47 and the flange portion 48 are in contact with the inner surface 14d, which is the surface of the bottom wall 14a of the cover 14 on the peripheral wall 14b side, and the other end of the cylindrical portion 47 is the motor housing 13. It is in contact with the boss portion 13f. Therefore, the nut 46 receives the axial force of the fixing bolt 50 while being sandwiched between the inner surface 14d of the bottom wall 14a of the cover 14 and the boss portion 13f of the motor housing 13. Then, the axial force of the fixing bolt 50 screwed into the boss female screw hole 13g of the boss portion 13f is transmitted to the cover 14, the nut 46, and the boss portion 13f of the motor housing 13, and the cover 14 passes through the holder 40 to the motor. It is firmly attached to the housing 13. In this way, the cover 14 and the holder 40 are assembled to the motor housing 13.

In the above embodiment, the following effects can be obtained.
(1) By screwing the temporary fixing bolt 54 into the female screw hole 49 and temporarily fixing the cover 14 to the holder 40, the cover 14 and the holder 40 can be integrated in advance by using the temporary fixing bolt 54. Then, the temporary fixing bolt 54 is removed from the female screw hole 49 in a state where the cover 14 and the holder 40 integrated in advance are arranged at predetermined positions with respect to the motor housing 13. Here, the nominal diameter r1 of the female screw hole 49 is larger than the nominal diameter r2 of the screw portion 51 of the fixing bolt 50. Therefore, the screw portion 51 of the fixing bolt 50 can be screwed into the motor housing 13 while inserting the insertion hole 14h and the female screw hole 49, and the cover 14, the holder 40, and the motor housing 13 are fastened by the fixing bolt 50. be able to. In this way, the cover 14 and the holder 40 integrated in advance can be assembled to the motor housing 13, so that the assembly workability is improved. Further, it is not necessary to integrate the cover 14 and the holder 40 in advance by other fixing means. Then, the temporary fixing bolt 54 used to integrate the cover 14 and the holder 40 in advance is removed from the female screw hole 49, and the fixing bolt 50 is screwed into the motor housing 13 while inserting the insertion hole 14h and the female screw hole 49. By doing so, the cover 14, the holder 40, and the motor housing 13 are fastened with the fixing bolts 50. Therefore, as in the prior art, in addition to the fixing bolts 50 for fixing the cover 14 to the motor housing 13, it is avoided that the number of bolts increases by 54 minutes for the temporary fixing bolts, so that the electric compressor is used. It is possible to suppress the increase in size of 10. As a result, the assembling workability can be improved while suppressing the increase in size.

(2) The holder 40 has a metal nut 46 and a resin holder main body 41. The nut 46 has a female screw hole 49 and is integrally formed with the holder main body 41. The nut 46 is sandwiched between the cover 14 and the motor housing 13. According to this, since the holder main body 41 is made of resin, the weight of the holder 40 can be reduced, and as a result, the weight of the electric compressor 10 can be reduced. Further, the threaded portion 51 of the fixing bolt 50 that has passed through the insertion hole 14h and the female screw hole 49 is screwed into the motor housing 13, so that the nut 46 is sandwiched between the cover 14 and the motor housing 13 and is held by the fixing bolt. Receives 50 axial forces. At this time, since the nut 46 is made of metal, the axial force of the fixing bolt 50 can be suitably received while the nut 46 is sandwiched between the cover 14 and the motor housing 13. As a result, the axial force of the fixing bolt 50 screwed into the motor housing 13 is easily transmitted to the cover 14, the nut 46, and the motor housing 13, and the cover 14 is firmly attached to the motor housing 13 via the holder 40. Can be done.

(3) Since the circuit board 22 and the bus bar 33 are connected, the temporary fixing bolt 54 is in a state where the cover 14 and the holder 40 integrated in advance are arranged at predetermined positions with respect to the motor housing 13. The displacement between the cover 14 and the holder 40 can be suppressed when the cover 14 is removed from the female screw hole 49. Therefore, the positions of the insertion hole 14h of the cover 14 and the female screw hole 49 of the nut 46 are unlikely to shift, and the assembling workability can be further improved.

(4) For example, it is conceivable that the cover 14 is attached to the motor housing 13 via the holder 40 by attaching the holder 40 to the motor housing 13 and then attaching the cover 14 to the holder 40. In this case, since a space for arranging the fixing parts used for attaching the holder 40 to the motor housing 13 and a space for arranging the fixing parts used for attaching the cover 14 to the holder 40 are required, the electric compressor is required. 10 becomes larger. However, in the present embodiment, the space for arranging the temporary fixing bolt 54 used for integrating the cover 14 and the holder 40 in advance is the fixing bolt used for attaching the cover 14 to the motor housing 13 via the holder 40. Since it can also be used as the arrangement space of 50, the size of the electric compressor 10 can be reduced.

(5) Assembling workability of the electric compressor 10 does not need to be provided separately in the cover 14 for inserting the temporary fixing bolt 54, and there is no concern that the airtightness of the space for accommodating the motor control device 21 is likely to be impaired. Can be improved.

The above embodiment can be modified and implemented as follows. The above embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.

○ In the embodiment, the holder main body 41 may be made of metal, for example. In this case, the nut 46 does not have to be integrally formed with the holder main body 41. Then, for example, the tip of the boss portion 43 of the holder 40 is in contact with the inner surface 14d of the bottom wall 14a of the cover 14, and the holder main body portion 41 and the boss portion 43 are the inner surface 14d of the cover 14 and the motor housing 13. It may function as a support column sandwiched by each boss portion 13f. In this case, a female screw hole is formed by the inside of the communication hole 44 and the boss portion 43 of the holder main body portion 41.

○ In the embodiment, inclusions may be interposed between one end of the cylindrical portion 47 and the flange portion 48 and the inner surface 14d of the bottom wall 14a of the cover 14. Further, an inclusion may be interposed between the other end of the cylindrical portion 47 and the boss portion 13f of the motor housing 13. In short, the nut 46 may function as a support column sandwiched between the inner surface 14d of the cover 14 and the boss portion 13f of the motor housing 13.

○ In the embodiment, the holder 40 may have, for example, a base member interposed between the outer surface 13c of the bottom wall 13a of the motor housing 13 and the holder main body 41. Then, for example, each electronic component 23 may be mounted on the base member.

○ In the embodiment, the electric compressor 10 may have, for example, a configuration in which the motor control device 21 is arranged on the radial side of the rotating shaft 15 with respect to the motor housing 13. In short, the compression unit 16, the electric motor 17, and the motor control device 21 do not have to be arranged side by side in the axial direction of the rotating shaft 15 in this order.

○ In the embodiment, the compression unit 16 is not limited to the scroll type, and may be, for example, a piston type or a vane type.
○ In the embodiment, the electric compressor 10 constitutes a vehicle air conditioner, but the present invention is not limited to this. For example, the electric compressor 10 is mounted on a fuel cell vehicle and is a fluid supplied to the fuel cell. The air as a fuel cell may be compressed by the compression unit 16.

○ In the embodiment, the fixing bolt 50 is composed of a head portion 52 and a columnar shaft portion, a screw portion 51 is formed at the tip of the shaft portion, and the outer diameter of the shaft portion is the hole diameter of the insertion hole 14h. The structure may be smaller than the nominal diameter of the female screw hole 49. In this case, the shaft portion is screwed with the housing 11 at the threaded portion at the tip while inserting the insertion hole 14h and the female screw hole 49.

○ In the embodiment, the motor housing 13 which is a part of the housing 11 may be divided into one housing member accommodating the compression unit 16 and the other housing member accommodating the electric motor 17.

○ In the embodiment, the cover 14 and the holder 40 may be fastened to any housing member as long as it is a part of the housing accommodating the compression unit 16 and the electric motor 17. For example, it may be fastened to the discharge housing 12 instead of the motor housing 13.

-In the embodiment, the electric compressor 10 has a configuration in which the motor housing 13 is a suction chamber, but may be configured to have a discharge chamber instead.

10 ... Electric compressor, 11 ... Housing, 14 ... Cover, 14h ... Insert hole, 16 ... Compressor, 17 ... Electric motor, 21 ... Motor control device, 22 ... Circuit board, 30 ... External power supply, 31 ... External connector, 32 ... Connector connection part, 33 ... Bus bar, 40 ... Holder, 41 ... Holder body part, 46 ... Nut that functions as a support, 49 ... Female screw hole, 50 ... Fixing bolt, 51 ... Thread part, 54 ... Temporary fixing bolt.

Claims (4)

A compression part that compresses the fluid,
An electric motor that drives the compression unit and
A motor control device having a circuit board for driving the electric motor, and
A housing that houses the compression unit and the electric motor,
A cover accommodating the motor control device and
A holder for holding the circuit board is provided.
The cover is an electric compressor attached to the housing.
The cover is formed with an insertion hole through which a fixing bolt screwed into the housing is inserted.
The holder is formed with a female screw hole that can be screwed with a temporary fixing bolt that temporarily fixes the cover to the holder.
The nominal diameter of the female screw hole is larger than the nominal diameter of the threaded portion of the fixing bolt.
The fixing bolt is an electric motor that fastens the cover, the holder, and the housing by screwing the fixing bolt into the housing at the screw portion while inserting the insertion hole and the female screw hole. Compressor. The holder has a metal support and a resin holder main body.
The strut has the female screw hole and is integrally formed with the holder main body.
The electric compressor according to claim 1, wherein the support column is sandwiched between the cover and the housing. Equipped with an external connector to which an external power supply is connected
The external connector is
A connector connection that protrudes from the cover in a tubular shape,
It has a bus bar held in the connector connection portion and
The electric compressor according to claim 1 or 2, wherein the circuit board is connected to the bus bar. A compression part that compresses the fluid,
An electric motor that drives the compression unit and
A motor control device having a circuit board for driving the electric motor, and
A housing that houses the compression unit and the electric motor,
A cover accommodating the motor control device and
A holder for holding the circuit board is provided.
The cover is a method of manufacturing an electric compressor attached to the housing.
An arrangement step of arranging the holder in the housing with the cover temporarily fixed to the holder by screwing a temporary fixing bolt into the female screw hole formed in the holder.
After the placement step, a removal step of removing the temporary fixing bolt from the female screw hole with the holder placed at a predetermined position with respect to the housing.
After the removal step, the threaded portion of the fixing bolt is passed through the insertion hole formed in the cover and the female screw hole in this order and screwed into the housing, whereby the cover, the holder and the housing are screwed by the fixing bolt. A method for manufacturing an electric compressor, which comprises a fastening process for fastening and.

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