JP2009079522A - Compressor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compressor capable of effectively reducing generation of noise and wear of components and showing excellent durability. <P>SOLUTION: The compressor includes a shaft rotor having a shaft and a rotor built as one unit, a swash plate installed on the shaft rotor in such a manner that inclination angle of the same can be varied and that the same can rotate as one unit, and a planet plate installed on a swash plate boss part formed at a center part of the swash plate via a radial bearing and on a side surface of the swash plate via a thrust bearing in such a manner that the same can relatively rotate, and converting rotation motion of the swash plate to reciprocation motion of a piston. A balance nut adjusting rotation balance of the swash plate is fastened on the swash plate boss part and an inner ring of the radial bearing is fixed in an axial direction thereof by the balance nut. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a variable displacement compressor whose discharge capacity is variable according to the inclination angle of a swash plate, and more particularly to a structure for mounting a balance nut to a swash plate.

  2. Description of the Related Art Conventionally, as a variable displacement compressor used in a vehicle air conditioner or the like, a compressor that converts a rotational movement of a swash plate that can change an inclination angle into a reciprocating movement of a piston is known (for example, Patent Documents). 1). In such a compressor, in order to adjust the rotational balance of the swash plate in the rotational movement of the swash plate, an annular balance ring that rotates with the swash plate is provided. FIG. 4 shows a mounting structure of the balance ring. In FIG. 4, reference numeral 100 denotes a shaft rotor in which a shaft and a rotor are integrally assembled. A swash plate 101 is connected to the shaft rotor 100 via a hinge mechanism 102 so that the tilt angle can be varied. The swash plate 101 is configured to be rotatable together with the shaft rotor 100. A planet plate 104 is attached to the swash plate 101 so as to be rotatable relative to the swash plate 101. The planet plate 104 is rotatable relative to the swash plate boss 103 provided at the center of the swash plate 101 via a radial bearing 105 and to the side surface of the swash plate 101 via a thrust bearing 106. The rotational movement of the swash plate 101 is converted into the reciprocating movement of the piston 108 connected to the planet plate 104 via the piston rod 107.

  A balance ring 110 is connected to the swash plate 101 via a snap ring 109. The balance ring 110 adjusts the rotational balance of the swash plate 101.

In the compressor as described above, since it is necessary to allow relative rotation of the swash plate 101 with respect to the planet plate 104, it is necessary to form a gap between the planet plate 104 and the balance ring 110. However, in the structure in which the balance ring 110 is connected using the snap ring 109, if vibration or the like is applied due to operation of the compressor or the like, backlash occurs in the axial direction of the compressor, and the planet plate 104 and the balance ring 110 interfere with each other to generate noise. Or parts such as the radial bearing 105 may be worn out. In addition, if the above problems occur, the durability of the compressor may be adversely affected.
Japanese Utility Model Publication No. 7-8573

  Accordingly, an object of the present invention is to provide a compressor capable of effectively suppressing the generation of noise and the wear of parts and exhibiting excellent durability and reliability.

  In order to solve the above-described problems, a compressor according to the present invention includes a shaft rotor in which a shaft and a rotor are integrally assembled, and a swash plate that is mounted on the shaft rotor so that the inclination angle can be varied and can be integrally rotated. The swash plate boss formed at the center of the swash plate is attached to the swash plate through a radial bearing and the side surface of the swash plate through a thrust bearing so as to be rotatable relative to the swash plate. A compressor having a planet plate for converting the rotational movement of the swash plate into the reciprocating movement of the piston, and a balance nut for adjusting the rotational balance of the swash plate is fastened to the swash plate boss, and the radial bearing is used by the balance nut The inner ring is fixed in the axial direction. In such a compressor, a balance nut is fastened to the swash plate boss, and the inner ring of the radial bearing is fixed in the axial direction of the compressor by the balance nut, so that the balance nut and the radial bearing move in the axial direction of the compressor. Therefore, it is possible to provide a compressor having excellent durability and reliability, which can suppress wear of components and generation of noise.

  A shim is preferably interposed between the swash plate and the inner ring of the radial bearing. If such a shim is interposed, the gap between the swash plate and the inner ring of the radial bearing can be eliminated, and a constant distance can always be maintained between the balance nut and the planet plate. In addition, it is possible to more reliably prevent the radial bearing from moving in the axial direction of the compressor.

  The fastening portion between the swash plate boss portion and the balance nut is preferably provided with a loosening prevention that prevents the balance nut from loosening. By preventing the loosening, the balance nut can be reliably prevented from moving in the axial direction. For example, loosening can be prevented by applying any one of caulking, welding, and adhesion to the fastening portion.

  According to the compressor of the present invention, the balance nut is fastened to the swash plate boss part, and the inner ring of the radial bearing is fixed in the axial direction of the compressor by the balance nut. Therefore, the balance nut and the radial bearing in the axial direction of the compressor Therefore, it is possible to provide a compressor having excellent durability and reliability.

  If a shim is interposed between the swash plate and the inner ring of the radial bearing, the gap between the swash plate and the inner ring of the radial bearing is eliminated, and a constant distance is always provided between the balance nut and the planet plate. Since it can hold | maintain, the movement to the compressor axial direction of a balance nut and a radial bearing can be prevented more reliably.

  If the fastening portion between the swash plate boss portion and the balance nut is prevented from loosening, the balance nut can be reliably prevented from moving in the axial direction. For example, if any one of caulking, welding, and bonding is applied to the fastening portion, loosening of the fastening portion can be easily prevented.

Hereinafter, preferred embodiments of a compressor according to the present invention will be described with reference to the drawings.
FIG. 1 shows a compressor according to an embodiment of the present invention. In this embodiment, the compressor is configured as a compressor of a vehicle air conditioner. In FIG. 1, reference numeral 1 denotes a variable capacity compressor. The compressor 1 includes a front housing 2, a cylinder block 3, and a cylinder head 4. A crank chamber 12 is formed between the front housing 2 and the cylinder block 3. A plurality of cylinder bores 6 are provided in the circumferential direction of the cylinder block 3. A piston 7 is inserted into each cylinder bore 6 so as to be able to reciprocate. The piston 7 is connected to a planet plate 9 in the crank chamber 12 via an AC rod 8. A shaft rotor 13 in which a shaft and a rotor are integrally assembled is inserted into the swash plate 11, and the swash plate 11 and the shaft rotor 13 are configured to be integrally rotatable. The planet plate 9 rotates relative to the swash plate 11 via a radial bearing 31 with respect to the swash plate boss portion 11 a of the swash plate 11, and with respect to the side surface 11 b of the swash plate 11 via a thrust bearing 10. It is installed as possible.

  One end of the shaft rotor 13 is rotatably supported by a sliding bearing 14 fixed to a sliding bearing installation portion 15 of the cylinder block 3. An arm portion 17 extending toward the rotor portion 16 of the shaft rotor 13 is provided on one surface of the swash plate 11, and a pin 18 is provided on the arm portion 17. The pin 18 is inserted into the long hole 19 so that the swash plate 11 and the rotor portion 16 are connected even when the inclination angle of the swash plate 11 changes. The rotor portion 16 is thrust supported on the inner wall of the front housing 2 via a thrust bearing 20. The cylinder block 3 is provided with a capacity control valve 22 that controls the discharge capacity in accordance with the pressure in the crank chamber 12. The capacity control valve 22 is provided in the capacity control valve installation portion 23 of the cylinder block 3. The plain bearing installation portion 15 and the capacity control valve installation portion 23 are arranged in this order along the axial direction of the compressor toward the cylinder head 4 side.

  A clutch mechanism 21 is provided at the other end of the shaft rotor 13. Power is transmitted to or cut off from the shaft rotor 13 by turning on and off the clutch mechanism 21.

  The inside of the cylinder head 4 is divided into a suction chamber 25 and a discharge chamber 26 by an inner wall 24. A valve plate 27 is provided between the cylinder block 3 and the cylinder head 4. The valve plate 27 is provided with a suction hole 28 and a discharge hole 29 corresponding to each cylinder bore 6. A gas (for example, refrigerant) sucked into the suction chamber 25 is sucked into the cylinder bore 6 through the suction hole 28 and is compressed in the cylinder bore 6. Then, the ink is discharged into the discharge chamber 26 through the discharge hole 29.

  Such a compressor 1 is provided with an annular balance nut 30 that rotates together with the swash plate 11 in order to adjust the rotation balance of the swash plate 11 in the rotational movement of the swash plate 11. The balance nut 30 is fastened to the swash plate boss portion 11a. That is, as shown in FIG. 3, the swash plate boss portion 11 a is engraved with a thread 32, and the balance nut 30 is engraved with a thread 33. By fastening the threads 32 and 33, a fastening portion 34 is formed, and the balance nut 30 is fastened to the swash plate boss portion 11a. When the balance nut 30 is fastened to the swash plate boss portion 11a, the tip of the balance nut 30 is in contact with the inner ring 31a of the radial bearing, thereby fixing the position of the inner ring 31a in the compressor axial direction. ing. In this embodiment, a shim 35 is interposed between the swash plate 11 and the inner ring 31a, and a gap between the swash plate 11 and the inner ring 31a is filled.

  The fastening portion 34 is prevented from loosening in order to prevent the balance nut 30 from loosening. In this embodiment, as shown in FIG. 3, loosening is prevented by caulking the balance nut 30 from the direction of the arrow. It is also possible to prevent loosening by applying either welding or adhesion.

  In the present embodiment, the balance nut 30 is fastened to the swash plate boss portion 11a, the balance nut 30 is further brought into contact with the inner ring 31a of the radial bearing 31, and the inner ring is fixed in the axial direction of the compressor 31a. 30 and the radial bearing 31 are prevented from moving in the axial direction of the compressor. Therefore, the interference of each component is prevented and the generation of wear and noise is suppressed, so that a compressor having excellent durability and reliability can be realized.

  Further, since a shim 35 is interposed between the swash plate 11 and the inner ring 31a of the radial bearing 31, a gap between the swash plate 11 and the inner ring 31a is eliminated, and the balance nut 30 and the planet are fixed. Since it is possible to always maintain a constant distance between the plate 9 and the plate 9, it is possible to more reliably prevent the balance nut 30 and the radial bearing 10 from moving in the compressor axial direction.

  Further, since the fastening portion 34 between the swash plate boss portion 11a and the balance nut 30 is prevented from loosening, the fastening portion 34 is prevented from loosening, and the balance nut 30 is reliably prevented from moving in the axial direction. can do.

  The compressor according to the present invention can be applied as a compressor in various industrial fields, and is particularly suitable as a compressor for a vehicle air conditioner.

It is sectional drawing of the compressor which concerns on one embodiment of this invention. FIG. 2 is a cross-sectional view of a tilt angle varying portion of the compressor of FIG. It is an enlarged view of the A section of FIG. It is sectional drawing of the inclination angle fluctuation | variation part of the conventional compressor.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Compressor 2 Front housing 3 Cylinder block 4 Cylinder head 6 Cylinder bore 7 Piston 8 AC rod 9 Planet plate 10 Thrust bearing 11 Swash plate 11a Swash plate boss | hub part 11b Side surface of swash plate 12 Crank chamber 13 Shaft rotor 14 Sliding bearing 15 Cylinder block Sliding bearing installation portion 16 Rotor portion 17 Arm portion 18 Pin 19 Long hole 20 Thrust bearing 21 Clutch mechanism 22 Capacity control valve 23 Capacity control valve installation portion 24 Inner wall 25 Suction chamber 26 Discharge chamber 27 Valve plate 28 Suction hole 29 Discharge hole 30 Balance nut 31 Radial bearing 31a Radial bearing inner ring 32, 33 Thread 34 Fastening portion 35 Shim

Claims (4)

  A shaft rotor in which a shaft and a rotor are integrally assembled, a swash plate mounted on the shaft rotor so as to be capable of varying an inclination angle and integrally rotatable, and a swash plate boss formed at a central portion of the swash plate A planet plate that is mounted so as to be able to rotate relative to the swash plate via a radial bearing and a thrust bearing on the side of the swash plate, and converts the rotational movement of the swash plate into a reciprocating motion of the piston. And a swash plate boss portion to which a balance nut for adjusting the rotational balance of the swash plate is fastened, and the inner ring of the radial bearing is fixed in the axial direction by the balance nut. .   The compressor according to claim 1, wherein a shim that fills an axial gap is interposed between the swash plate and the inner ring of the radial bearing.   The compressor according to claim 1 or 2, wherein a loosening prevention for preventing the balance nut from being loosened is applied to a fastening portion between the swash plate boss portion and the balance nut. The compressor according to claim 3, wherein the loosening prevention is performed by caulking, welding, or adhesion.

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