KR101740037B1 - Variable displacement swash plate compressor - Google Patents

Abstract

The variable displacement swash plate type compressor of the present invention comprises a housing, a cylinder block having a plurality of cylinder bores, a drive shaft rotatably supported by the cylinder block, a lug plate fixed to the drive shaft, And a piston reciprocatably received in the cylinder bore by rotation of the swash plate. The variable displacement swash plate compressor includes a return spring installed on a rear drive shaft of the swash plate, ; A tapering ring mounted on a drive shaft between the swash plate and the return spring; And a stepped portion for separating the swash plate from the tapered portion, thereby preventing a torsion of the tapered portion by the swash plate.
As a result, the tapered portion is prevented from being tilted with respect to the drive shaft by contacting the center of the swash plate with the center of the tapered portion by the stepped portion, thereby improving the tapering behavior.

Description

[0001] VARIABLE DISPLACEMENT SWASH PLATE COMPRESSOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable displacement swash plate type compressor, and more particularly, to a variable displacement swash plate type compressor capable of minimizing a required power at a minimum inclination angle of a swash plate.

The number of revolutions can not be controlled because the compressor included in the cooling system of the air conditioner for an automobile is directly connected to the engine through the belt.

Therefore, in recent years, a capacity variable compressor capable of changing the discharge amount of the refrigerant in order to obtain the cooling capacity without being restricted by the revolution number of the engine has been widely used.

As the capacity variable type compressor, various types such as swash plate type, rotary type, and scroll type are disclosed.

In the swash plate type compressor, a swash plate provided so as to vary the inclination angle in the crank chamber rotates in accordance with the rotational motion of the drive shaft, and the piston reciprocates by the rotational motion of the swash plate. In this case, the refrigerant in the suction chamber is sucked into the cylinder by the reciprocating movement of the piston, and is compressed and discharged to the discharge chamber. The inclination angle of the swash plate changes according to the pressure difference in the crankcase and the pressure in the cylinder bore, .

In particular, it is common to adopt an electromagnetic solenoid-type displacement control valve to adjust the pressure of the crank chamber by opening and closing the valve by energization, thereby adjusting the discharge capacity by adjusting the inclination angle of the swash plate.

At this time, the operation of the capacity control valve is controlled by a control unit in which signals such as the detected number of revolutions of the engine, the temperature inside or outside the vehicle, or the evaporator temperature are calculated by a control unit incorporating a CPU or the like, And is sent to an electromagnetic coil.

Hereinafter, a variable displacement swash plate type compressor according to the prior art will be described with reference to the drawings.

1, a variable displacement swash plate type compressor 10 according to the related art includes a rotating drive shaft 11, a lug plate 12 fixed to the drive shaft 11, and a lug plate 12 And a swash plate 13 mounted on the drive shaft 11 so as to change its inclination angle while being rotated by the swash plate 13.

The lug plate 12 is formed with a protrusion 14 in a swash plate direction and a slope 15 is formed in the protrusion 14. The swash plate 13 is provided with an arm 16 are formed.

The slide block 17 is provided on both sides of the arm 16 so that the slide block 17 rolls along the slope 15 to guide the slant movement of the swash plate 13. [

Accordingly, as the lug plate 12 rotates, the inclined angle of the swash plate 13 varies as the slide block 17 of the swash plate 13 slides along the inclined surface 15 of the lug plate 12 .

At this time, a taper ring 19 is inserted into the drive shaft 11 between the swash plate 13 and the return spring 18.

Thus, the inclination angle of the swash plate 13 is reduced to the minimum inclination angle from the maximum inclination angle of the swash plate 13, and the inclination angle of the swash plate 13 is reduced to about 0 ° while the swash plate 13 and the taper ring 19 are in contact with each other It will be done.

However, when the inclination angle of the swash plate 13 is 2 °, the rear surface of the swash plate 13 comes into contact with the upper end of the taper ring 19.

That is, when the upper end of the taper ring 19 contacts the rear surface of the swash plate 13, the outer diameter of the taper ring 19 and the outer diameter of the drive shaft 11 cause the taper ring 19 to be tilted with respect to the drive shaft 11, 19 can not be smoothly performed. Accordingly, the minimum inclination angle of the swash plate 13 is not reduced to the 0 degree level, but the swash plate 19 is tilted at 2 degrees by the tapered portion 19, thereby increasing the required power at the time of compressor off.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a variable displacement swash plate type compressor capable of minimizing the required power at minimum angle of incline of swash plate.

In accordance with another aspect of the present invention, there is provided a variable displacement swash plate compressor including a housing, a cylinder block having a plurality of cylinder bores, a drive shaft rotatably supported by the cylinder block, a lug plate fixed to the drive shaft, A swash plate type compressor comprising a swash plate installed to be able to vary a tilt angle while being rotated by a lug plate, and a piston reciprocatably received in the cylinder bore by rotation of the swash plate, Rearward) drive shaft; A tapering ring mounted on a drive shaft between the swash plate and the return spring; And a stepped portion for separating the swash plate from the tapered portion, thereby preventing a torsion of the tapered portion by the swash plate.

Preferably, the stepped portion is formed on the rear surface of the swash plate or on the front surface of the tapered portion facing the swash plate.

When viewed from the center of the drive shaft, the stepped portion is preferably formed on a horizontal line passing through the center of the drive shaft.

According to the variable displacement swash plate compressor according to the present invention, since the center of the swash plate and the center of the taper are brought into contact with each other by the stepped portion, the tapering of the drive shaft is prevented from being caused to be distorted.

That is, as the tapering behavior is smoothly performed, the minimum inclination angle of the swash plate is maintained at 0 ° at the minimum inclination angle of the compressor, so that the required power can be minimized.

1 is a view showing a variable displacement swash plate type compressor according to the prior art.
2 is a longitudinal sectional view showing the structure of a variable displacement swash plate type compressor according to the present invention.
Fig. 3 is an enlarged view of the main configuration of Fig. 2. Fig.
FIG. 4 is a view showing the swash plate in the direction of the center of the drive shaft of FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a longitudinal sectional view showing the structure of the variable displacement swash plate type compressor according to the present invention, FIG. 3 is an enlarged view of the main structure of FIG. 2, Fig.

First, the structure of a variable displacement swash plate type compressor having a valve assembly according to the present invention will be schematically described.

2, the capacity variable type swash plate type compressor (C) according to the present invention includes a variable capacity swash plate type compressor (C) according to the present invention, A cylinder block 210 having a plurality of cylinder bores 212, a front housing 216 hermetically coupled to the front of the cylinder block 210, and a valve plate 220 disposed behind the cylinder block 210 And a rear housing 218 hermetically coupled therewith.

One end of the drive shaft 120 is rotatably supported near the center of the front housing 216 while the other end of the drive shaft 120 is supported by the crank chamber 286. The crank chamber 286 is formed in the front housing 216, Through the crank chamber 286 and through the bearings provided in the cylinder block 210.

A lug plate 130 and a swash plate 140 are installed in the crank chamber 286 around the driving shaft 120.

The lug plate 130 is formed with a projection 135 having an inclined surface 134. An arm 141 is formed on one side of the swash plate 140 so that the lug plate 130 is rotated The inclined angle of the swash plate 140 is varied while the slide block 143 attached to the arm 141 of the swash plate 140 slides over the slanted surface 134 of the projection 135.

The outer peripheral surface of the swash plate 140 is slidably engaged with each piston 214 via a shoe 276.

Accordingly, as the swash plate 140 rotates in an inclined state, the pistons 214 fitted to the outer circumferential surface of the swash plate 140 through the shoe 276 reciprocate within the respective cylinder bores 212 of the cylinder block 210 do.

A valve plate 220 interposed between the rear housing 218 and the cylinder block 210 is provided with a suction chamber 222 and a discharge chamber 224 in the rear housing 218, A suction valve 232 and a discharge valve 236 are formed at positions corresponding to the discharge port 212, respectively.

The refrigerant in the suction chamber 222 is sucked into the cylinder bore 212 to be compressed and discharged to the discharge chamber 224 by the reciprocating motion of the piston 214. The pressure in the crank chamber 286 and the pressure in the cylinder bore The angle of inclination of the swash plate 140 is changed according to the pressure difference between the swash plate 140 and the swash plate 140 and the discharge amount of the refrigerant is adjusted by adjusting the pressure of the crank chamber 286 by opening and closing the valve by energization, And a displacement control valve 300 for adjusting the discharge displacement by adjusting the discharge displacement.

A return spring 410 is installed on the rear driving shaft 120 of the swash plate 140 and a taper ring 420 is installed on the driving shaft 120 between the swash plate 140 and the return spring 410. [ do.

In addition, a step 430 for separating the swash plate 140 from the tapering 420 is provided. The rear surface of the swash plate 140 is not in contact with the upper end of the tapered portion 420 so that the tapered portion 420 of the swash plate 420 contacts the driving shaft 120. Therefore, .

The step 430 may be formed on the rear surface of the swash plate 140 or on the front surface of the tapered portion 430 facing the swash plate 140.

4, the stepped portion 430 may have one or two (e.g., two, three, four, five, five, six, Respectively.

The center of the swash plate 140 is brought into contact with the center of the tapering 430 by the step 430 to prevent the tapering 430 from being tilted with respect to the driving shaft 120, And the like. As a result, the minimum tilt angle of the swash plate 140 is maintained at 0 ° at the minimum inclination angle of the compressor, so that the required power can be minimized.

Meanwhile, a snap ring 440 is mounted on the drive shaft 120 to support the rear surface of the return spring 410.

Although the preferred embodiments of the present invention have been described in detail, the technical scope of the present invention is not limited to the above-described embodiments, but should be construed according to the claims. It will be understood by those skilled in the art that many modifications and variations are possible without departing from the scope of the present invention.

C - Capacitive variable swash plate type compressor 120 - Drive shaft
130 - Lug plate 140 - Swash plate
410 - return spring 420 - tapering
430 - Step 440 - Retaining ring

Claims (3)

A cylinder block having a plurality of cylinder bores, a drive shaft rotatably supported by the cylinder block, a lug plate fixed to the drive shaft, a swash plate rotatably driven by the lug plate and capable of changing its inclination angle, And a piston reciprocatably received in the cylinder bore by rotation of the cylinder bore,
A return spring installed on a rear driving shaft of the swash plate;
A tapering ring mounted on a drive shaft between the swash plate and the return spring; And
A stepped portion for separating the swash plate from the tapered portion to prevent twisting of the tapered portion by the swash plate;
And a variable displacement swash plate compressor.
The method according to claim 1,
Wherein the stepped portion is formed on a rear surface of the swash plate or on the front surface of the tapered portion facing the swash plate.
3. The method of claim 2,
Wherein the stepped portion is formed on a horizontal line passing through the center of the drive shaft when viewed from the center of the drive shaft.

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