JP2018119520A - Double rotation scroll type compressor and method for manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a double rotation scroll type compressor that facilitates assembly work.SOLUTION: A scroll housing part 3b that houses a driving side scroll member 70, a driven side scroll member 90, a first support member 33, and a second support member 35 is provided. A first driving side scroll part 71 and a second driving side scroll part 72 are fixed by a wall body fixing bolt 31. The driven side scroll part 90 and the second support member 35 are fixed by a second support fixing bolt 36. In the scroll housing part 3b, an access hole 3b1 through which the wall body fixing bolt 31 and the second support fixing bolt 36 are accessible is formed.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a double-rotating scroll compressor and an assembling method thereof.

  Conventionally, a double-rotation scroll compressor is known (see Patent Document 1). This comprises a drive-side scroll and a driven-side scroll that rotates synchronously with the drive-side scroll, and the driven shaft that supports the rotation of the driven-side scroll is divided by a turning radius relative to the drive shaft that rotates the drive-side scroll. The drive shaft and the driven shaft are rotated at the same angular velocity in the same direction with an offset of only.

Japanese Patent No. 5443132

  In the double-rotation type scroll compressor, the drive-side scroll member and the driven-side scroll member rotate around different rotation axes, so that it is difficult to assemble the two scroll members in the housing.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a double-rotating scroll compressor and an assembling method thereof that facilitate assembly work.

  In order to solve the above problems, the double-rotating scroll compressor and its assembling method according to the present invention employ the following means.

  The double-rotating scroll compressor of the present invention is driven by a drive unit and is arranged on a driven-side end plate, a driving-side scroll member having a spiral drive side wall disposed on the driving-side end plate, and the drive A driven side scroll member having a driven side wall corresponding to the side wall body, and the driven side wall body meshing with the drive side wall body to form a compression space; the drive side scroll member; and the driven side scroll A synchronous drive mechanism for transmitting a driving force from the drive-side scroll member to the driven-side scroll member so that the member rotates in the same direction at the same angular velocity, the drive-side scroll member, the driven-side scroll member, and the synchronous A drive housing mechanism, wherein the drive side scroll member includes a first drive side end plate and a first drive side wall body; A first driving side scroll unit to be driven, a second driving side scroll unit having a second driving side end plate and a second driving side wall, and shafts of the first driving side wall and the second driving side wall And a wall-side fixing portion that fixes the front-side end in the direction facing each other, and the driven-side scroll member is provided on one side surface of the driven-side end plate and meshes with the first driving side-wall body. And a second driven side wall provided on the other side of the driven side end plate and meshing with the second driving side wall, and is disposed with the first driving side end plate interposed therebetween, A first support member that is fixed to the distal end side in the axial direction of the driven side wall by a first support fixing portion and rotates together with the first driven side wall, and the second drive side end plate is disposed therebetween. To the distal end side in the axial direction of the second driven side wall body A second support member that is fixed by the second support fixing part and rotates together with the second driven side wall body, and the housing includes the wall body fixing part and / or the first support fixing part, And / or the hole part which can access the 2nd support fixing | fixed part is formed.

The drive side wall disposed on the end plate of the drive side scroll member and the corresponding driven side wall of the driven side scroll member are engaged with each other. The drive side scroll member is rotationally driven by the drive unit, and the driving force transmitted to the drive side scroll member is transmitted to the driven side scroll member via the synchronous drive mechanism. Thereby, the driven scroll member rotates and rotates with the same angular velocity in the same direction with respect to the drive scroll member. Thus, a double-rotation scroll compressor in which both the drive-side scroll member and the driven-side scroll member rotate is provided.
In the housing, a hole that can access the wall body fixing portion and / or the first support fixing portion and / or the second support fixing portion is formed. A tool can be inserted through the hole to access the wall body fixing portion and / or the first support fixing portion and / or the second support fixing portion. Accordingly, after the drive-side scroll member and the support member are assembled in the housing, the work can be performed by accessing from the outside of the housing, and the assembling work is facilitated.
In addition, the hole is used for other purposes such as accessing a reference pin or positioning pin of each component incorporated in the housing, or passing a stopper for preventing the scroll member from rotating during assembly. be able to.

  Furthermore, the double-rotating scroll compressor according to the present invention includes a sealing body that seals the hole.

  Since the sealing body is attached to the hole and sealed after the work is performed using the hole, the housing can be sealed.

  Furthermore, in the double-rotating scroll compressor according to the present invention, a plurality of the holes are provided.

  Since a plurality of holes are formed, various operations can be performed at a desired position.

  Furthermore, in the double-rotating scroll compressor of the present invention, the hole is formed at an end opposite to the end of the housing that can be opened.

  If the end of the housing is openable, each component may be inserted into the housing from the openable end during assembly. However, after each component is inserted into the housing and assembled, it may be necessary to access each component. Therefore, by providing a hole at the end opposite to the end that can be opened, each component assembled in the housing can be accessed.

  Also, the assembly method of the double-rotating scroll compressor of the present invention includes a drive-side scroll member having a spiral drive side wall disposed on the drive-side end plate and driven by a drive unit, and a driven-side end plate. A driven scroll member disposed and having a driven side wall corresponding to the drive side wall, the driven side wall engaging with the drive side wall to form a compression space; and the drive side scroll member A synchronous drive mechanism for transmitting a driving force from the drive side scroll member to the driven side scroll member so that the driven side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity, the drive side scroll member, and the driven side A scroll member and a housing for accommodating the synchronous drive mechanism, wherein the drive side scroll member has a first drive side end plate and a first drive side wall body. A first driving side scroll unit driven by the driving unit; a second driving side scroll unit having a second driving side end plate and a second driving side wall; and the first driving side wall and the second driving side wall. A wall body fixing portion that fixes the front end of the body in an axial direction facing each other, and the driven scroll member is provided on one side surface of the driven end plate and meshes with the first drive side wall body. A first driven side wall body and a second driven side wall body that is provided on the other side surface of the driven side end plate and meshes with the second driving side wall body, are disposed with the first driving side end plate interposed therebetween. A first support member fixed by a first support fixing portion with respect to the distal end side in the axial direction of the first driven side wall body and rotating together with the first driven side wall body, and the second drive side end plate between Arranged in the axial direction of the second driven side wall An assembly method of a double-rotating scroll compressor comprising a second support member fixed to a distal end side by a second support fixing portion and rotating together with the second driven side wall, After the first support member or the second support member is assembled, the first support fixing is performed using a hole portion that is accessible to the first support fixing portion or the second support fixing portion formed in the housing. The second support fixing part or the second support fixing part is fixed.

  The housing is formed with a hole accessible to the first support fixing portion or the second support fixing portion. A tool can be inserted through the hole to access the first support fixing portion or the second support fixing portion. Thereby, after incorporating a support member in a housing, it can access and work from the outside of a housing, and can reduce the complexity of an assembly process.

  Also, the assembly method of the double-rotating scroll compressor of the present invention includes a drive-side scroll member having a spiral drive side wall disposed on the drive-side end plate and driven by a drive unit, and a driven-side end plate. A driven scroll member disposed and having a driven side wall corresponding to the drive side wall, the driven side wall engaging with the drive side wall to form a compression space; and the drive side scroll member A synchronous drive mechanism for transmitting a driving force from the drive side scroll member to the driven side scroll member so that the driven side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity, the drive side scroll member, and the driven side A scroll member and a housing for accommodating the synchronous drive mechanism, wherein the drive side scroll member has a first drive side end plate and a first drive side wall body. A first driving side scroll unit driven by the driving unit; a second driving side scroll unit having a second driving side end plate and a second driving side wall; and the first driving side wall and the second driving side wall. A wall body fixing portion that fixes the front end of the body in an axial direction facing each other, and the driven scroll member is provided on one side surface of the driven end plate and meshes with the first drive side wall body. A first driven side wall body and a second driven side wall body that is provided on the other side surface of the driven side end plate and meshes with the second driving side wall body, are disposed with the first driving side end plate interposed therebetween. A first support member fixed by a first support fixing portion with respect to the distal end side in the axial direction of the first driven side wall body and rotating together with the first driven side wall body, and the second drive side end plate between Arranged in the axial direction of the second driven side wall An assembly method of a double-rotating scroll compressor comprising a second support member fixed to a distal end side by a second support fixing portion and rotating together with the second driven side wall, Then, after assembling the first drive side scroll part and the second drive side scroll part, the wall body fixing part is fixed using a hole part accessible to the wall body fixing part formed in the housing. It is characterized by that.

  The housing has a hole that is accessible to the wall fixing portion. A tool can be inserted through this hole to access the wall fixing part. Thus, after the drive-side scroll member is assembled in the housing, the work can be performed by accessing from outside the housing, and the complexity of the assembly process can be reduced.

  In addition, an assembly method of a double-rotating scroll compressor as a reference example includes a drive-side scroll member having a spiral drive side wall that is rotationally driven by a drive unit and disposed on a drive-side end plate, and a driven-side end plate A driven side scroll member that has a driven side wall body corresponding to the driving side wall body and that forms a compression space by meshing the driven side wall body with the driving side wall body, and the driving side scroll A synchronous drive mechanism for transmitting a driving force from the drive-side scroll member to the driven-side scroll member so that the member and the driven-side scroll member rotate in the same direction at the same angular velocity, the drive-side scroll member, and the driven drive A side scroll member and a housing for accommodating the synchronous drive mechanism, wherein the drive side scroll member includes a first drive side end plate, a first drive side wall, A first driving side scroll unit driven by the driving unit; a second driving side scroll unit having a second driving side end plate and a second driving side wall; the first driving side wall unit; A wall body fixing portion that fixes the drive side wall body in a state where the front ends in the axial direction face each other, and the driven side scroll member is provided on one side surface of the driven side end plate, and the first drive side wall A first driven side wall that meshes with the body, and a second driven side wall that is provided on the other side surface of the driven side end plate and meshes with the second driving side wall, with the first driving side end plate interposed therebetween A first support member that is arranged at a first support fixing portion and is rotated together with the first driven side wall body and is fixed to a distal end side in the axial direction of the first driven side wall body, and the second driving side end. The second driven side wall disposed between the plates And a second support member that is fixed to the distal end side in the axial direction by a second support fixing portion and rotates together with the second driven side wall body. The first drive side scroll part, the second drive side scroll part, the first support member and the second support member are integrated to form an assembly, and then assembled to the housing.

  Prior to insertion into the housing, the first drive side scroll portion, the second drive side scroll portion, the first support member and the second support member are integrated to form an assembly. Thereby, since both scroll members can be centered before incorporating in a housing, both scroll members can be assembled | attached correctly. Moreover, the hole part and sealing body which were mentioned above become unnecessary, and a number of parts can be reduced.

  Since the hole portion is provided in the housing so that the drive-side scroll member and the support member can be accessed, the housing can be easily assembled.

It is the longitudinal section showing the double rotation scroll type compressor concerning one embodiment of the present invention. It is the longitudinal cross-sectional view which showed the 1st process of the assembly of the double-rotation scroll type compressor of FIG. It is the longitudinal cross-sectional view which showed the 2nd process of the assembly of the double rotation scroll type compressor of FIG. It is the longitudinal cross-sectional view which showed the 3rd process of the assembly of the double rotation scroll type compressor of FIG. It is the longitudinal cross-sectional view which showed the 4th process of the assembly of the double rotation scroll type compressor of FIG. It is the longitudinal cross-sectional view which showed the 5th process of the assembly of the double rotation scroll compressor of FIG. It is the longitudinal cross-sectional view which showed the 1st process of the assembly of the double-rotation scroll type compressor which concerns on reference embodiment. It is the longitudinal cross-sectional view which showed the 2nd process of the assembly of the double-rotation scroll type compressor which concerns on reference embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1 and 2.
FIG. 1 shows a double-rotating scroll compressor (scroll compressor) 1. The double-rotating scroll compressor 1 can be used as a supercharger that compresses combustion air (fluid) supplied to an internal combustion engine such as a vehicle engine.

  The double-rotating scroll compressor 1 includes a housing 3, a motor (drive unit) 5 housed on one end side of the housing 3, a drive-side scroll member 70 and a driven-side scroll member housed on the other end side of the housing 3. 90.

  The housing 3 has a substantially cylindrical shape, and includes a motor accommodating portion 3 a that accommodates the motor 5, and a scroll accommodating portion 3 b that accommodates the scroll members 70 and 90.

Cooling fins 3c for cooling the motor 5 are provided on the outer periphery of the motor housing 3a. A discharge port 3d for discharging compressed air (working fluid) is formed at the end of the scroll accommodating portion 3b. Although not shown in FIG. 1, the housing 3 is provided with an air suction port for sucking air (working fluid). Further, an access hole 3b1 that is a through hole is formed at the end of the scroll accommodating portion 3b. A plurality of access holes 3b1 are provided, and are formed according to the position to be accessed. The access hole 3b1 may be one.
The access hole 3b1 is provided with a sealing bolt (sealing body) 40 for sealing. The sealing bolt 40 is attached after the assembly is completed. In addition, when it is not necessary to seal the inside of the housing 3, the sealing bolt 40 may be omitted. In this case, the through hole by the access hole 3b1 remains open.

  The motor 5 is driven by power supplied from a power supply source (not shown). The rotation control of the motor 5 is performed by a command from a control unit (not shown). The stator 5 a of the motor 5 is fixed to the inner peripheral side of the housing 3. The rotor 5b of the motor 5 rotates around the drive side rotation axis CL1. A drive shaft 6 extending on the drive side rotation axis CL1 is connected to the rotor 5b. The drive shaft 6 is connected to the first drive side shaft portion 7 c of the drive side scroll member 70.

The drive-side scroll member 70 includes a first drive-side scroll portion 71 on the motor 5 side and a second drive-side scroll portion 72 on the discharge port 3d side.
The first drive side scroll portion 71 includes a first drive side end plate 71a and a first drive side wall 71b.
The first drive side end plate 71a is connected to a first drive side shaft portion 7c connected to the drive shaft 6, and extends in a direction orthogonal to the drive side rotation axis CL1. The first drive side shaft portion 7c is rotatably provided to the housing 3 via a first drive side bearing 11 that is a ball bearing.

  The first drive side end plate 71a has a substantially disc shape when viewed in plan. On the first driving side end plate 71a, a plurality of first driving side wall bodies 71b having a spiral shape are provided. The first drive side walls 71b are arranged at equal intervals around the drive side rotation axis CL1.

The second drive side scroll part 72 includes a second drive side end plate 72a and a second drive side wall 72b. Similar to the first drive side wall 71b described above, a plurality of second drive side walls 72b are formed in a spiral shape.
A cylindrical second drive side shaft portion 72c extending in the direction of the drive side rotation axis CL1 is connected to the second drive side end plate 72a. The second drive side shaft portion 72c is provided so as to be rotatable with respect to the housing 3 via the second drive side bearing 14 which is a ball bearing. A discharge port 72d is formed in the second drive side end plate 72a along the drive side rotation axis CL1.

  Between the second drive side shaft portion 72c and the housing 3, two seal members 16 are provided on the distal end side (left side in FIG. 1) of the second drive side shaft portion 72c with respect to the second drive side bearing 14. ing. The two seal members 16 and the second drive side bearing 14 are disposed with a predetermined interval in the direction of the drive side rotation axis CL1. Between the two seal members 16, a lubricant, for example, a grease which is a semi-solid lubricant is enclosed. The number of seal members 16 may be one. In this case, the lubricant is sealed between the seal member 16 and the second drive side bearing 14.

  The first drive side scroll part 71 and the second drive side scroll part 72 are fixed in a state where the ends (free ends) of the wall bodies 71b and 72b face each other. The first drive-side scroll portion 71 and the second drive-side scroll portion 72 are fixed to wall fixing bolts fastened to flange portions 73 provided at a plurality of locations in the circumferential direction so as to protrude outward in the radial direction. Wall body fixing part) 31. The wall fixing bolt 31 is located at a position accessible by a tool from an access hole 3b1 formed in the scroll accommodating portion 3b.

The driven-side scroll member 90 has a driven-side end plate 90a positioned substantially at the center in the axial direction (horizontal direction in the figure). A through hole 90h is formed in the center of the driven side end plate 90a so that the compressed air flows to the discharge port 72d.
A first driven side wall 91b is provided on one side of the driven side end plate 90a, and a second driven side wall 92b is provided on the other side of the driven side end plate 90a. The first driven side wall body 91b installed on the motor 5 side from the driven side end plate 90a is meshed with the first driving side wall body 71b of the first driving side scroll portion 71, and from the driven side end plate 90a to the discharge port 3d side. The installed second driven side wall 92 b is engaged with the second drive side wall 72 b of the second drive side scroll portion 72.

  A first support member 33 and a second support member 35 are provided at both ends in the axial direction (horizontal direction in the figure) of the driven scroll member 90. The first support member 33 is disposed on the motor 5 side, and the second support member 35 is disposed on the discharge port 3d side.

  The first support member 33 is fixed to the outer peripheral end (free end) of the first driven side wall 91b by a first support fixing bolt (first support fixing portion) 34, and the second support member 35 is The second driven side wall 92b is fixed to the outer peripheral end (free end) by a second support fixing bolt (second support fixing portion) 36. The second support fixing bolt 36 is at a position accessible by a tool from an access hole 3b1 formed in the scroll accommodating portion 3b.

  A shaft portion 33 a is provided on the center shaft side of the first support member 33, and the shaft portion 33 a is fixed to the housing 3 via a first support member bearing 37. A shaft portion 35 a is provided on the center shaft side of the second support member 35, and the shaft portion 35 a is fixed to the housing 3 via a second support member bearing 38. As a result, the driven scroll member 90 rotates about the driven center axis CL <b> 2 via the support members 33 and 35.

  A pin ring mechanism (synchronous drive mechanism) 15 is provided between the first support member 33 and the first drive side end plate 71a. That is, a rolling bearing (ring) is provided on the first drive side end plate 71a, and a pin member 15b is provided on the first support member 33. A driving force is transmitted from the driving side scroll member 70 to the driven side scroll member 90 by the pin ring mechanism 15, and both scroll members 70, 90 are rotated in the same direction at the same angular velocity.

The double-rotating scroll compressor 1 having the above-described configuration operates as follows.
When the drive shaft 6 is rotated around the drive-side rotation axis CL1 by the motor 5, the first drive-side shaft portion 7c connected to the drive shaft 6 also rotates, thereby causing the drive-side scroll member 70 to move to the drive-side rotation axis CL1. Rotate around. When the driving scroll member 70 rotates, the driving force is transmitted from the support members 33 and 35 to the driven scroll member 90 via the pin ring mechanism 15, and the driven scroll member 90 rotates about the driven rotation axis CL2. To do. At this time, when the pin member 15b of the pin ring mechanism 15 moves while being in contact with the inner peripheral surface of the circular hole, both scroll members 70 and 90 rotate in the same direction at the same angular velocity.
When the scroll members 70 and 90 rotate and rotate, the air sucked from the suction port of the housing 3 is sucked from the outer peripheral sides of the scroll members 70 and 90 and is formed by the scroll members 70 and 90. Is taken in. The compression chamber formed by the first drive side wall 71b and the first driven side wall 91b and the compression chamber formed by the second drive side wall 72b and the second driven side wall 92b are separately compressed. The Each compression chamber decreases in volume as it moves toward the center, and air is compressed accordingly. The air compressed by the first drive side wall 71b and the first driven side wall 91b passes through the through-hole 90h formed in the driven side end plate 90a, and the second drive side wall 72b, the second driven side wall 92b, The compressed air is merged, and the merged air passes through the discharge port 72d and is discharged from the discharge port 3d of the housing 3 to the outside. The discharged compressed air is guided to an internal combustion engine (not shown) and used as combustion air.

[Assembly method]
Next, a method for assembling the double-rotation scroll compressor 1 will be described with reference to FIGS. 2A to 2E.

  First, as shown in FIG. 2A, after the second drive side bearing 14 and the second support member bearing 38 are attached to the scroll accommodating portion 3b, the second support member 35 is moved to the open end side of the scroll accommodating portion 3b. Insert and assemble. Specifically, the shaft portion 35 a of the second support member 35 is inserted into the inner periphery of the inner ring of the second support member bearing 38. At this time, the sealing bolt 40 (see FIG. 1) is not attached to the access hole 3b1 formed in the scroll accommodating portion 3b.

  Next, as shown in FIG. 2B, the second drive side scroll part 72 is assembled. Specifically, the second drive side shaft portion 72 c of the second drive side scroll portion 72 is inserted into the inner periphery of the inner ring of the second drive side bearing 14.

  Then, as shown in FIG. 2C, the driven scroll member 90 is assembled. Specifically, after the tip of the second driven side wall 92b of the driven scroll member 90 and the tip of the second support member 35 are brought together, the second support fixing bolt 36 is used to connect the driven scroll member 90 to the second scroll member 90. 2 The support member 35 is fixed. This fixing operation is performed by inserting a tool from the access hole 3b1 and rotating the second support fixing bolt 36 around its axis. When the second support fixing bolt 36 is fixed at a plurality of locations, the driven scroll member 90 and the second support member 35 may be rotated by a predetermined angle and the same access hole 3b1 may be used, or the driven scroll member 90 and the second support member 35 may be rotated using a plurality of access holes 3b1 provided at corresponding angular positions.

  And the 1st drive side scroll part 71 is assembled | attached as shown to FIG. 2D. Specifically, after the first drive side wall 71b is attached to the second drive side wall 72b of the second drive side scroll part 72, the first drive side scroll part 71 and the first drive side scroll part 71 are The second drive side scroll part 72 is fixed. This fixing operation is performed by inserting a tool from the access hole 3b1 and rotating the wall fixing bolt 31 around its axis. When fixing the wall fixing bolts 31 at a plurality of locations, the drive-side scroll member 70 may be rotated by a predetermined angle and the same access hole 3b1 may be used, or the drive-side scroll member 70 is not rotated. You may carry out using the some access hole 3b1 provided in the angle position to carry out.

  Then, as shown in FIG. 2E, the first support member 33 is assembled. Specifically, after the front end of the first driven side wall 91b of the driven side scroll member 90 and the front end of the first support member 33 are brought together, the first support fixing bolt 34 is used to connect the driven side scroll member 90 to the first side scroll member 90. 1 The support member 33 is fixed. This fixing work is performed by accessing from the open end (right end in the figure) side of the scroll accommodating portion 3b.

  Then, the sealing bolt 40 is fixed to the access hole 3b1. Thereby, the inside of the housing 3 can be sealed.

The fixing operation of the second support fixing bolt 36 described with reference to FIG. 2C may be performed after the driven side scroll member 90 is temporarily fixed to the second support member 35. For example, FIG. 2D and FIG. 2E It may be after the process.
Moreover, you may perform the fixing operation | work of the wall fixing bolt 31 demonstrated using FIG. 2D by accessing from the open end side of the scroll accommodating part 3b, without using the access hole 3b1.

According to this embodiment, there exist the following effects.
A tool can be inserted through the access hole 3b1 to access the second support fixing bolt 36 and the wall fixing bolt 31. Thereby, after incorporating the second support member 35 and the drive-side scroll member 70 in the scroll accommodating portion 3b, the work can be performed by accessing from outside the housing 3, and the assembling work is facilitated.

  Since the sealing bolt 40 is attached to the access hole 3b1 and sealed after the work is performed using the access hole 3b1, the housing 3 can be sealed.

  Since the access hole 3b1 is provided at the end opposite to the end where the scroll housing 3b can be opened, the second support member 35 and the drive-side scroll member 70 are assembled after being assembled in the scroll housing 3b. Can be accessed.

  In the above-described embodiment, the double-rotating scroll type compressor is used as the supercharger. However, the present invention is not limited to this, and can be widely used as long as it compresses fluid. For example, it can also be used as a refrigerant compressor used in an air conditioning machine. In addition, the scroll compressor 1 of the present invention can be applied to an air control device that uses the force of air as a brake system for a railway vehicle.

  In addition, the access hole 3b1 is used for other purposes such as accessing the reference pins and positioning pins of each component incorporated in the scroll accommodating portion 3b and preventing the scroll members 70 and 90 from rotating during assembly. It can also be used to pass a stopper.

[Reference embodiment]
3A and 3B show a reference embodiment.
When the access hole 3b1 (see FIG. 1) is not provided in the scroll accommodating portion 3b, assembly is performed as follows. That is, as shown in FIGS. 3A and 3B, the first drive side scroll part 71 and the second drive side scroll part 72 are fixed by the wall body fixing bolt 31, and the first support member 33 and the driven side scroll member 90 are fixed. Are fixed by the first support fixing bolt 34, and the second support member 35 and the driven scroll member 90 are fixed by the second support fixing bolt 36, and these are integrated to form a cartridge (assembly). To do. Thereafter, the cartridge is inserted and assembled from the open end side of the scroll accommodating portion 3b.
By forming the cartridge before insertion into the scroll accommodating portion 3b, the scroll members 70 and 90 can be centered before being incorporated into the scroll accommodating portion 3b. Can be assembled. Further, the access hole 3b1 and the sealing bolt 40 described above are unnecessary, and the number of parts can be reduced.

1 Double-rotation scroll compressor (scroll compressor)
3 Housing 3a Motor housing portion 3b Scroll housing portion (housing)
3b1 Access hole 3c Cooling fin 3d Discharge port 5 Motor (drive unit)
5a Stator 5b Rotor 6 Drive shaft 7c First drive side shaft portion 11 First drive side bearing 14 Second drive side bearing 15 Pin ring mechanism (synchronous drive mechanism)
15b Pin member 16 Seal member 31 Wall body fixing bolt (wall body fixing portion)
33 1st support member 33a Shaft part 34 1st support fixing bolt (1st support fixing part)
35 Second support member 35a Shaft portion 36 Second support fixing bolt (second support fixing portion)
37 First support member bearing 38 Second support member bearing 40 Sealing bolt (sealing body)
70 driving side scroll member 71 first driving side scroll part 71a first driving side end plate 71b first driving side wall body 72 second driving side scroll part 72a second driving side end plate 72b second driving side wall body 72c second driving side Shaft portion 72d Discharge port 73 Flange portion 90 Driven side scroll member 90a Driven side end plate 90h Through hole 91b First driven side wall member 92b Second driven side wall member CL1 Drive side rotation axis CL2 Driven side rotation axis

Claims (7)

A drive-side scroll member that is rotationally driven by the drive unit and has a spiral drive side wall disposed on the drive-side end plate;
A driven side scroll member disposed on the driven side end plate, having a driven side wall corresponding to the drive side wall, and forming a compression space by meshing the driven side wall with the drive side wall;
A synchronous drive mechanism for transmitting drive force from the drive side scroll member to the driven side scroll member so that the drive side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity;
A housing that houses the drive-side scroll member, the driven-side scroll member, and the synchronous drive mechanism;
With
The drive-side scroll member has a first drive-side end plate and a first drive side wall, and is driven by the drive unit, a first drive-side scroll portion, a second drive-side end plate, and a second drive side wall. A second drive side scroll portion having a body, and a wall body fixing portion that fixes the first drive side wall body and the second drive side wall body in a state in which tips in the axial direction face each other,
The driven-side scroll member is provided on one side surface of the driven-side end plate, provided on the other side surface of the driven-side end plate, and on the other side surface of the driven-side end plate. A second driven side wall that meshes with the side wall,
The first driving side end plate is disposed between the first driving side wall plate, the first driving side wall member is fixed to the distal end side in the axial direction by a first support fixing portion, and rotates together with the first driven side wall member. 1 support member;
The second driving side end plate is disposed between the second driven side wall body, the second driven side wall body is fixed to the distal end side in the axial direction by a second support fixing portion, and rotates together with the second driven side wall body. 2 support members;
With
A double-rotating scroll characterized in that the housing is formed with a hole accessible to the wall body fixing portion and / or the first support fixing portion and / or the second support fixing portion. Mold compressor.   The double-rotating scroll compressor according to claim 1, further comprising a sealing body that seals the hole.   The double-rotating scroll compressor according to claim 1 or 2, wherein a plurality of the holes are provided.   The double-rotating scroll compressor according to any one of claims 1 to 3, wherein the hole is formed at an end opposite to the end of the housing that can be opened. A drive-side scroll member that is rotationally driven by the drive unit and has a spiral drive side wall disposed on the drive-side end plate;
A driven side scroll member disposed on the driven side end plate, having a driven side wall corresponding to the drive side wall, and forming a compression space by meshing the driven side wall with the drive side wall;
A synchronous drive mechanism for transmitting drive force from the drive side scroll member to the driven side scroll member so that the drive side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity;
A housing that houses the drive-side scroll member, the driven-side scroll member, and the synchronous drive mechanism;
With
The drive-side scroll member has a first drive-side end plate and a first drive side wall, and is driven by the drive unit, a first drive-side scroll portion, a second drive-side end plate, and a second drive side wall. A second drive side scroll portion having a body, and a wall body fixing portion that fixes the first drive side wall body and the second drive side wall body in a state in which tips in the axial direction face each other,
The driven-side scroll member is provided on one side surface of the driven-side end plate, provided on the other side surface of the driven-side end plate, and on the other side surface of the driven-side end plate. A second driven side wall that meshes with the side wall,
The first driving side end plate is disposed between the first driving side wall plate, the first driving side wall member is fixed to the distal end side in the axial direction by a first support fixing portion, and rotates together with the first driven side wall member. 1 support member;
The second driving side end plate is disposed between the second driven side wall body, the second driven side wall body is fixed to the distal end side in the axial direction by a second support fixing portion, and rotates together with the second driven side wall body. 2 support members;
An assembly method of a double-rotating scroll compressor with
After assembling the first support member or the second support member to the housing, the first support fixing portion or the second support fixing portion formed in the housing is used to access the hole, A method of assembling a double-rotating scroll compressor, wherein the first support fixing portion or the second support fixing portion is fixed. A drive-side scroll member that is rotationally driven by the drive unit and has a spiral drive side wall disposed on the drive-side end plate;
A driven side scroll member disposed on the driven side end plate, having a driven side wall corresponding to the drive side wall, and forming a compression space by meshing the driven side wall with the drive side wall;
A synchronous drive mechanism for transmitting drive force from the drive side scroll member to the driven side scroll member so that the drive side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity;
A housing that houses the drive-side scroll member, the driven-side scroll member, and the synchronous drive mechanism;
With
The drive-side scroll member has a first drive-side end plate and a first drive side wall, and is driven by the drive unit, a first drive-side scroll portion, a second drive-side end plate, and a second drive side wall. A second drive side scroll portion having a body, and a wall body fixing portion that fixes the first drive side wall body and the second drive side wall body in a state in which tips in the axial direction face each other,
The driven-side scroll member is provided on one side surface of the driven-side end plate, provided on the other side surface of the driven-side end plate, and on the other side surface of the driven-side end plate. A second driven side wall that meshes with the side wall,
The first driving side end plate is disposed between the first driving side wall plate, the first driving side wall member is fixed to the distal end side in the axial direction by a first support fixing portion, and rotates together with the first driven side wall member. 1 support member;
The second driving side end plate is disposed between the second driven side wall body, the second driven side wall body is fixed to the distal end side in the axial direction by a second support fixing portion, and rotates together with the second driven side wall body. 2 support members;
An assembly method of a double-rotating scroll compressor with
After assembling the first drive side scroll portion and the second drive side scroll portion to the housing, the wall body fixing is performed using a hole portion accessible to the wall body fixing portion formed in the housing. A method of assembling a double-rotating scroll compressor characterized in that the part is fixed. A drive-side scroll member that is rotationally driven by the drive unit and has a spiral drive side wall disposed on the drive-side end plate;
A driven side scroll member disposed on the driven side end plate, having a driven side wall corresponding to the drive side wall, and forming a compression space by meshing the driven side wall with the drive side wall;
A synchronous drive mechanism for transmitting drive force from the drive side scroll member to the driven side scroll member so that the drive side scroll member and the driven side scroll member rotate in the same direction at the same angular velocity;
A housing that houses the drive-side scroll member, the driven-side scroll member, and the synchronous drive mechanism;
With
The drive-side scroll member has a first drive-side end plate and a first drive side wall, and is driven by the drive unit, a first drive-side scroll portion, a second drive-side end plate, and a second drive side wall. A second drive side scroll portion having a body, and a wall body fixing portion that fixes the first drive side wall body and the second drive side wall body in a state in which tips in the axial direction face each other,
The driven-side scroll member is provided on one side surface of the driven-side end plate, provided on the other side surface of the driven-side end plate, and on the other side surface of the driven-side end plate. A second driven side wall that meshes with the side wall,
The first driving side end plate is disposed between the first driving side wall plate, the first driving side wall member is fixed to the distal end side in the axial direction by a first support fixing portion, and rotates together with the first driven side wall member. 1 support member;
The second driving side end plate is disposed between the second driven side wall body, the second driven side wall body is fixed to the distal end side in the axial direction by a second support fixing portion, and rotates together with the second driven side wall body. 2 support members;
An assembly method of a double-rotating scroll compressor with
The first drive side scroll part, the second drive side scroll part, the first support member and the second support member are integrated to form an assembly, and then assembled to the housing. A method for assembling a rotary scroll compressor.

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