JPS63205472A - Variable displacement compressor - Google Patents

Abstract

PURPOSE:To make assembly easy as well as to maintain the extent of smooth sliding contact, by constituting a rotation checking mechanism with a cylindrical block to be formed with a vertically split groove at the tip and a guide plate whose both ends are ratatably supported. CONSTITUTION:A rotor 26 is locked to a driving shaft 25, and a swash plate 27 is hinged to this rotor 26 by a pin 28. In a lower position on the circumference of a rocking plate 29, there is formed with a radial hole 32, and in this hole 32, there is provided with a cylindrical block 33 shiftably in the radial direction of the rocking plate 29. Both ends of a guide plate 35 are supported each by a front end plate 13 and a cylinder block 11, making this guide plate rotatable. Rotation of the rocking plate 29 is checked by the cylindrical block 33 and the guide plate 35. Thus, assembly becomes facilitated, and smooth sliding contact between the guide plate and the cylindrical block is thus maintained.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a swash plate type compressor, and in particular, the invention relates to a swash plate type compressor, in particular, a compressor in which the inclination angle of the swash plate is made variable so that the compression capacity can be changed by changing the inclination angle of the swash plate. The present invention relates to a variable capacity compressor.

[Prior art]

A swash plate type compressor is known in which a swash plate is rotated to cause a oscillating plate to swing and reciprocate a piston. In such a swash plate type compressor, in order to change the compression capacity, the angle of the swash plate with respect to the drive shaft is variable, and the compression capacity can be controlled by controlling the inclination angle of the swash plate. For example, the compressor of JP-A-56-77
No. 578.

In a swash plate compressor, it is necessary to prevent rotation of the oscillating plate. One example of a mechanism for preventing the rotation of a rocking plate is a mechanism in which a bevel gear is provided at the center of the rocking plate and meshes with a fixed bevel gear, as shown in Japanese Patent Application Laid-Open No. 55-29040. It will be done.

However, in the above variable compression capacity type, the swash plate and the swing plate move along the drive shaft as the inclination angle of the swash plate changes, so the swash plate and the swing plate move like the mechanism using the bevel gear described above. It is not possible to prevent rotation in the center of the plate.

In order to solve this problem, in JP-A-56-77578, as shown in FIG. A hollow hair ring 101 is fitted so as to slide along the rod, and a pair of semi-cylindrical bevel members 1o2°102 that abut the outer surface of the bearing are fitted into a guide hole provided on the outer periphery of the rocking plate. Rotation is prevented by a slidably fitted structure.

[Problems to be solved]

In this rotation prevention mechanism, a pair of metal members 102.1
02, the pair of sliding metal members 102 and 102 are fitted into the guide hole of the rocking plate, and the guide rod 10 is inserted into the hollow bearing 101.
It is necessary to assemble it into the compressor housing while maintaining the assembled state in which 0 is inserted through the compressor housing. At this time, the sliding metal member 10
2 and 102 are easily pulled out from the guide hole, and there is a risk that the combined state of the 9-rotation prevention mechanism may be disrupted. Therefore, the work of assembling it into the compressor housing is difficult and extremely complicated.

Therefore, it is an object of the present invention to assemble a structure that allows each component to be assembled into a housing one by one, instead of assembling a plurality of components in advance in a state where they tend to come apart and then incorporating them into a housing. A variable capacity compressor equipped with a simple rotation prevention mechanism is provided.

[Failure to solve the problem]

In order to solve the above problems, the present invention provides a housing having a cylinder block including a plurality of cylinders, a front end plate facing the cylinder block and supporting a drive shaft, and a housing having a cylinder block and a front end plate. a swash plate disposed in a crank chamber formed between the two and connected to the drive shaft so as to have a variable inclination angle; and a swash plate that swings as the swash plate rotates to cause the piston to reciprocate within the cylinder. , a variable displacement compressor having a rotation prevention mechanism that prevents rotation of the oscillating plate, and in which the stroke of the piston changes according to a change in the swash plate angle of the swash plate, and the compression capacity changes, The rotation prevention mechanism includes a columnar block that is attached to a predetermined position on the outer periphery of the rocking plate so as to be movable in the radial direction and has a vertical groove formed at its tip, and a columnar block that is aligned with the vertical groove of the columnar block. This variable capacity compressor is characterized by comprising a guide plate whose side edges are fitted and whose ends are rotatably supported by the front end plate and the cylinder block.

[Effect]

According to the above configuration, the vertical groove of the columnar block fits into the guide plate supported by the cylinder block and the front end plate, and the columnar block.

Since it is provided movably in the radial direction on the outer peripheral surface of the rocking plate, rotation of the rocking plate is prevented by the guide plate via the columnar block. On the other hand, the movement of the rocking plate in the direction of the drive shaft is
Since the columnar block can slide along the guide plate,
The swing plate is swingable.

When assembling, after attaching one end of the guide plate to the cylinder block inside the housing, a columnar block is fitted to the guide plate, and then, while attaching the columnar block to the outer peripheral surface of the rocking plate,... can be incorporated into This is then done by mounting the front end plate onto the housing after assembling other parts.

However, since the support of the guide plate to the front end plate and the cylinder block is made to be able to rotate, even if the direction of the vertical groove of the columnar block is tilted, the guide plate will be tilted accordingly, so that both sides of the guide plate and Unbalanced contact with the vertical groove wall surface is prevented.

〔Example〕

Hereinafter, two embodiments of the present invention will be described with reference to the drawings.

Referring to FIG. 1, the housing 10 has an IJ 7 at one end.
It has a tab lock 11. A plurality of cylinders 12 (only one is shown in FIG. 2) are formed in the cylinder block 11. The other end of the housing 1o is closed by a front end plate 13, and a crank chamber 14 is formed between the front end plate 13 and the cylinder block 11.

A cylinder head 18 is installed on the end surface of the cylinder block 11 via a valve plate 17 that is provided with a suction hole 15 and a discharge hole 16 .

The cylinder head 18 is connected to the cylinder 1 through the suction hole 15.
2, and a discharge chamber 20, which is selectively connected to the cylinder 12 through the discharge hole 16. Note that 21° and 22 represent a suction valve and a discharge valve, respectively. The cylinder head 18 is provided with a fluid inlet 23 and an outlet 24 connected to a suction chamber 19 and a discharge chamber 20, respectively, and to an external fluid circuit (not shown).

The drive shaft 25 extends from the outside of the front end plate 13 into the crank chamber 14 and is connected to the front end plate 1
3 and a cylinder block 11 so as to be rotatable.

A rotor 26 is fixed to the drive shaft 25 and is rotatable together with the drive shaft 25. A swash plate 27 is hingedly connected to the rotor 26 by a pin 28 . Therefore, the swash plate 27 can also rotate together with the rotation of the drive shaft 25.
Furthermore, because of the hinge connection, the angle of inclination with respect to the drive shaft 25 is variable.
A swing plate 29 is rotatably mounted on the end surface of the T-swash plate 27 facing the cylinder block 11. A piston rod 30 is loosely coupled to the outer periphery of this rocking plate. A piston 31 slidably provided within the cylinder 12 is coupled to the other end of the piston rod 3o.

A radial hole 32 is formed at a lower position on the outer circumference of the rocking plate 29, and nine cylindrical blocks 3 are inserted into the hole 32.
3 is disposed so as to be movable in the radial direction of the rocking plate.

Referring to FIG. 2, a vertical groove 34 is formed in the cylindrical block 33 in the axial direction from the lower end surface.

Referring to FIGS. 1 and 2, a guide plate 35 is disposed in the lower part of the crank chamber 14 in parallel with the drive shaft 25, and a vertical groove of the cylindrical block 33 extends from the upper edge of the guide plate 35. 34 are fitted. The upper edge of the guide plate 35 has a downwardly convex circular arc shape 36 as shown in FIG.

Both ends of the guide plate 35 are supported by the front end plate 13 and the cylinder block, respectively, and this support allows the guide plate 35 to rotate.

As shown in FIG. 2, diametrical grooves 37a and 38a are formed on one side of the disks 37 and 38.

Both ends of the guide plate 35 are fitted into the slits 37a and 38a, respectively. The discs 37, 38 are fitted into circular holes 39, 40 formed in the opposite faces of the cylinder block 11 and the front end plate 13, respectively.

A cylindrical block 33 attached to the swing plate 29.

Cylinder block 11 and front end plate 1
The rotation of the rocking plate 29 is prevented by the guide plate 35 supported at 3.

The cylinder block 11 and the valve plate 17 are provided with communication holes 4 that communicate with each other between the crank chamber 14 and the suction chamber 19.
1 is formed and b. A pressure sensitive chamber 42 is formed in the middle of this communication hole 41.

A bellows valve 43 is provided within this pressure sensitive chamber 42 . When the crank chamber pressure introduced into the pressure sensitive chamber 41 becomes higher than a predetermined value (bellows inner pressure), the bellows valve 43 opens the valve and connects the suction chamber 19 and the crank chamber 14 to reduce the pressure inside the crank chamber 14. It is something that makes you

Note that when the internal pressure of the crank chamber 14 is high, the back pressure of the piston 31 becomes high. As a result, the bottom dead center position of the piston 31 shifts toward the top dead center, and the stroke of the piston becomes smaller. That is, the angle of inclination of the swash plate 27 and the swing plate 29 with respect to the drive shaft 25 becomes smaller (that is, it approaches a right angle). In this state, the compression capacity becomes small. On the contrary, crank chamber 1
When the internal pressure of the piston 4 is low, the back pressure of the piston 31 is small, and for the opposite reason, the stroke of the piston is small, and the angle of inclination of the swash plate 27 and the rocker plate 29 is large. Compression capacity is a dog. However, the variable capacity compressor described here is just one example, and it is clear that the present invention is applicable not only to the scope of the mechanism described above.

The operation of the apparatus shown in FIG. 1 will be explained below.

The trotor 26 and the swash plate 27, which rotate the drive shaft 25 by an external drive source (not shown), rotate together. However,
The rocking plate 29 is rotatably set on the end face of the swash plate 27, and a cylindrical block 33 provided on the rocking plate is fitted into the guide plate 35, so that the rocking plate 29 cannot rotate. thwarted.

Therefore, it follows the slope of the rotating swash plate 27 and swings. That is, the piston rod 301d reciprocates in the axial direction, which causes the piston 31 to reciprocate within the cylinder 12. At this time, 1 cylindrical block 3
The block 33 is fitted into the guide plate 35 and reciprocated along the combination of the swing plate 29 and the swash plate 27.

Thereafter, as the piston 31 reciprocates within the cylinder 12, fluid is sucked from the suction chamber 19 through the suction hole 15, compressed, and discharged from the discharge hole 16 into the discharge chamber 20.

That is, the fluid is compressed.

During the process of suction and discharge of fluid due to the reciprocating motion of the piston 31, fluid flows into the crank chamber through the gap between the piston 31 and the cylinder 12. That is, blow-by gas is present. This blow pie gas increases the internal pressure of the crank chamber 14. As a result, as described above, the slope of the swash plate 27 and the rocking plate 29 is small, and the compression capacity is small. after that.

When the internal pressure of the crank chamber 14 becomes equal to or higher than a certain pressure, the bellows valve 43 opens and the crank chamber 14 and the suction chamber 19 communicate with each other. Thus, the internal pressure in the crank chamber 14 decreases, and as described above, the angle of inclination between the swash plate 27 and the rocking plate 29 becomes a dog, increasing the compression capacity.

When assembling this compressor, especially assembling the one rotation prevention mechanism, the disk 37 is inserted into the hole 39 of the cylinder block 11, and the guide plate 35 is inserted so that its tip end is inserted into the thrower 37a of the disk 37. The cylindrical block 33 is fitted to the upper part of the guide plate 35, and the combination of the swing plate 29 and the swash plate 27 is inserted into the hole 32 of the swing plate 29. After inserting the head of the cylindrical block 33 into the housing, and then assembling other parts into the housing 10, insert the disc 3 into the other end of the guide plate 35.
This is done by fitting 8 and attaching 9 the front end plate 13 to the housing 10 from above so that the disc 38 enters the hole 40 of the front end plate 13.

〔Effect of the invention〕

As described above, according to the configuration of the present invention, the single rotation prevention mechanism can be assembled one part at a time into the housing.
Since there is no need for the complicated work of assembling a plurality of parts in a predetermined relationship in advance and assembling them into the housing without disrupting that relationship, one assembly becomes easy.

In addition, even if the longitudinal groove of the cylindrical block or the guide plate 14) is assembled in an inclined position due to errors or gaps, the guide plate is supported so that it can rotate on its axis, so Follow and move. Therefore, uneven contact between the vertical groove wall surface and both wall surfaces of the guide plate is prevented, and smooth sliding contact between the guide plate and the cylindrical block is maintained.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a variable capacity compressor according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a two-rotation prevention mechanism, and FIG. 3 is an exploded perspective view of a conventional rotation prevention mechanism. 10...Housing, 11...Cylinder block. 12...Cylinder, 13...Front end plate. 14... Crank chamber, 25... Drive shaft, 27...
Swash plate. 29... Rocking plate, 31... Piston, 33... Cylindrical block, 34... Vertical groove, 35... Guide plate, 37° 38... Disc. Porridge 3

Claims (1)

[Claims] 1. A housing having a cylinder lock including a plurality of cylinders, a front end plate facing the cylinder lock and supporting a drive shaft, and a housing formed between the cylinder lock and the front end plate. a swash plate disposed in a crank chamber and connected to the drive shaft so as to have a variable inclination angle; a oscillation plate that oscillates by rotation of the swash plate and reciprocates a piston within the cylinder; A variable displacement compressor having a rotation prevention mechanism that prevents rotation of the swash plate, and in which the stroke of the piston changes according to a change in the inclination angle of the swash plate, and the compression capacity changes. a columnar block inserted at a predetermined position on the outer periphery of the rocking plate and having a vertical groove formed in its tip;
A variable capacity compressor comprising a guide plate having one side edge fitted into the longitudinal groove of the columnar block and both ends rotatably supported by the front end plate and the cylinder block. 2. The variable capacity compressor according to claim 1, wherein the means for freely supporting both ends of the guide plate is a disc having a vertical groove into which the guide plate is inserted.