KR100993737B1 - A spring band of compressor - Google Patents

Abstract

In the variable swash plate compressor, a plurality of locking jaws are formed in the inner side thereof so that the fixing pin connecting the arm of the rotating plate and the arm of the swash plate can be moved step by step in a rectangular slot provided in the fixed side arm. It is about a spring band,

In order to fix the swash plate of the compressor to the rotating plate, the rotating plate is provided with a fixed side arm having a rectangular slot, and the swash plate is formed with a movable side arm corresponding to the fixed side arm to fix the movable side arm. In a variable swash plate compressor in which a fixing pin for fixing to a side arm is configured to operate along the slot,

In order to move the fixing pin to be moved along the slot step by step is located inside the slot,

The upper and lower ends of the body, which are separated from each other on both sides, are bent in a circular arc shape toward the inside of the slot so that the ends of each of the upper and lower ends are fixedly mounted in the middle of the movable arm where the upper and lower ends of the slot are located. The side of each is characterized in that a plurality of bends are formed at predetermined intervals.

Multi-level spring band, variable swash plate compressor, flex

Description

Multi-Stage Spring Band of Variable Swash Plate Compressor

1 is a perspective view of a multi-stage spring band according to the present invention.

2 is a front view of the multi-stage spring band according to the present invention.

Figure 3 is a mounting state of the multi-stage spring band according to the present invention.

Figure 4 is an operating state of the multi-stage spring band according to the present invention.

5 to 7 are views for explaining the conventional technology.

[Description of Drawings]

10: swash plate type air conditioner compressor 17: swash plate

17a: movable side arm 18: rotating plate

18a: fixed side arm 20: slot

21: fixed pin 30: multi-level spring band

31: body 32: upper part

33: lower portion 34, 35: coupling piece

36: bend

The present invention relates to a multi-stage spring band of a variable swash plate compressor, and more particularly, in a variable swash plate compressor, a fixing pin connecting the arm of the rotating plate and the arm of the swash plate is moved in a rectangular slot provided on the fixed side arm. The present invention relates to a multi-stage spring band having a plurality of locking jaws formed therein so as to be made in stages.

In general, an air conditioner system mounted on a vehicle is formed by using expansion valves, evaporators, compressors, condensers, etc. as main components. The expansion valve receives and throttles a liquid refrigerant having a high temperature and high pressure, and then forms a liquid refrigerant having a low temperature and low pressure to send it to an evaporator. An evaporator functions to generate cold air by evaporating heat by evaporating the refrigerant having a low temperature and low pressure. The compressor is driven by an engine, and the low-temperature, low-pressure gaseous refrigerant discharged from the evaporator is compressed into a high-temperature high-pressure gaseous refrigerant and sent to the condenser. The condenser cools the refrigerant sent from the compressor to a high-temperature, high-pressure liquid refrigerant. It functions to condense.

5 is a cross-sectional view of a variable swash plate compressor used in a conventional general air conditioner system. As shown in the figure, the housing of the variable swash plate compressor 10 is divided into a front housing 11 and a rear housing 12, and a cylinder having a plurality of cylinders 14 between the front housing and the rear housing. The body 13 is formed. Each cylinder 14 houses a piston 15 which is operated back and forth as the swash plate 17 rotates. In addition, one end of the drive shaft 16 for controlling the rotation operation of the swash plate 17 is formed to protrude to the outside of the housing to receive a rotational force from the drive source. The end of the drive shaft 16 inside the housing is elastically supported by the shock absorbing spring to cushion the shock caused by the rotation of the swash plate 17.

On the other hand, in the middle of the drive shaft 16, the rotating plate 18 having a fixed side arm 18a for adjusting the inclination angle of the swash plate 17 is axially coupled. The fixed side arm 18a is formed with a rectangular slot 20 for allowing the position of the pivot point of the swash plate 17 to be variable. On one side of the swash plate 17 at a position corresponding to the fixed side arm 18a, a movable side arm 17a provided with a hinge hole is protruded, and the movable side arm 17a is fixed to the fixed side by means of a fixing pin 21. It is hinged to the arm 18a.

The process in which the swash plate 17 is rotated during operation of the variable swash plate compressor 10 will be described below. The front and back pressure of the swash plate 17 is generated in accordance with the pressure of the suction-side refrigerant acting on the pressure valve 19 provided on one side of the housing of the variable swash plate compressor 10, in this process fixed arm 18a Since the slot 20 provided in the inclined portion is formed to be inclined, the fixing pin 21 fixing the movable side arm 17a of the swash plate 17 is moved in the inclined direction of the slot.

Therefore, as shown in FIGS. 6 and 7, when the minimum capacity operation of the variable swash plate compressor 10 is inclined, the inclination direction of the swash plate 17 is vertical, and the maximum capacity operation of the variable swash plate compressor 10 is performed. At the time, the swash plate 17 is inclined at a predetermined angle. According to the inclination angle of the swash plate 17 to be changed in this way, a change in the stroke of the piston is generated to adjust the refrigerant discharge amount of the compressor.

However, in the operation of the compressor between the minimum capacity operation and the maximum capacity operation, in the position change of the fixing pin with respect to the slot, the existing slot is formed with a smooth surface, so that the opening and closing of the valve is made suddenly. There was a problem in that the inclination angle of the swash plate is sudden and unstable in the initial operation of the compressor and when the load fluctuation of the air conditioner system is severe.

Therefore, the present invention has been made to solve the above problems, in the variable swash plate compressor, the fixing pin for connecting the arm of the rotating plate and the arm of the swash plate is made in a rectangular slot provided in the fixed side arm step by step An object of the present invention is to provide a multi-level spring band having a plurality of locking jaws formed therein.

The present invention as a means for achieving the above object,

In order to fix the swash plate of the compressor to the rotating plate, the rotating plate is provided with a fixed side arm having a rectangular slot, and the swash plate is formed with a movable side arm corresponding to the fixed side arm to fix the movable side arm. In a variable swash plate compressor in which a fixing pin for fixing to a side arm is configured to operate along the slot,

In order to allow the fixed pin to move along the slot step by step is located inside the slot,

The upper and lower ends of the body, which are separated from each other on both sides, are bent in a circular arc shape toward the inside of the slot so that the ends of each of the upper and lower ends are fixedly mounted in the middle of the movable arm where the upper and lower ends of the slot are located. Each side is characterized in that a plurality of bends are formed at predetermined intervals.

Hereinafter, with reference to the accompanying drawings, preferred embodiments according to the configuration and operation of the multi-stage spring band for a variable swash plate compressor according to the present invention will be described in detail.

1 is a perspective view of a multi-stage spring band according to the present invention, Figure 2 is a front view of the multi-stage spring band according to the present invention, Figure 3 is a mounting state of the multi-stage spring band according to the present invention, Figure 4 is This is a state diagram of multi-stage spring band.

Reference numeral 30 denoted in the drawings indicates a multi-level spring band formed by the present invention, and some reference numerals are used as they are in the description of the prior art.

The multi-stage spring band 30 is mounted to the slot 20 provided on the fixed side arm 18a of the rotating plate 18 constituting the variable swash plate compressor 10 to hinge the rotation of the swash plate 17. The movement of the fixing pin 21 is to be made in stages.

To this end, the multi-stage spring band 30 is divided into two sides with a size smaller than the size of the slot 20 to be fitted to the slot 20. The thickness of the body 31 constituting the multi-stage spring band 30 is formed of spring steel having excellent elastic force having a thickness (preferably around 1 mm) in the range of 0.5 to 1.5 mm. That is, the state of the assembly state of the body in accordance with the shape of the rectangular slot 20 is formed in a rectangle in which the upper and lower ends form a semicircular shape.                     

The division of the body 31 is preferably made at the upper and lower ends 32 and 33 formed in a curved shape, so that the divided part is fixedly mounted in the middle of the fixed side arm 18a constituting the slot 20. . Coupling pieces 34 and 35 are protruded at a predetermined distance from the upper and lower ends 32 and 33 of the body 31 for assembly with the fixed side arm 18a, and the coupling pieces 34 and 35 According to the size, the defect grooves 24 and 25 are formed also in the middle of the said fixed side arm 18a.

In particular, both sides of the body 31 are provided with a plurality of bends 36 at predetermined intervals, which is to ensure that the movement can be made through a certain step without moving at a time when the fixing pin 21 is moved. will be. The plurality of bends 36 is preferably formed in an arc shape having a predetermined radius rather than an angled form. At this time, the radius of each bend 36 may be formed in the same size as the radius of the fixing pin 21, it may be formed in a smaller size than that.

On the other hand, the radius (R) of the lower end (33) arc of the body 31 is formed in the size of the radius of the fixing pin 21, the radius (r) of the arc of the upper end (32) of the body 31 is fixed pin ( It may be formed to a size of the radius of 21) or smaller. In the exemplary embodiment for explaining the present invention, the diameter r of the arc of the upper end portion 32 is formed to have a size smaller than that of the fixing pin 21.

It is preferable that the distance between the plurality of bends 36 formed on the bodies 31 on both sides so that the stepping movement of the fixing pin 21 is more effectively formed is gradually reduced from the lower side to the upper side. At this time, the radius of the arc of the plurality of bends 36 may be gradually reduced from the lower side to the upper side, the size of the arc may be formed to a constant size.

In the multi-stage spring band 30 configured as described above, the coupling pieces 34 and 35 provided at upper and lower ends of the swash plate 17 at the step of assembling the swash plate 17 are coupled to the fixing side arm 18. 24, 25). The hinge hole provided in the movable side arm 17a of the swash plate 17 coincides with the slot 20 provided in the fixed side arm 18a of the rotating plate 18 in the next step where the multi-stage spring band 30 is fastened. Fixing pin 21 is mounted in the state.

Hereinafter, looking at the operating state of the multi-stage spring band as described above.

When the variable swash plate compressor 10 is driven at the minimum capacity, the swash plate 17 is driven in a vertical state, such that the fixing pin 21 is positioned at the lower end 33 of the slot 20.

In addition, as the variable swash plate compressor 10 is gradually driven toward a high capacity, the fixing pin 21 faces the upper side of the slot 20 due to the pressure difference between both sides of the swash plate 17. However, in this process, since the multi-stage spring band 30 according to the present invention is mounted in the slot 20, the fixing pin 21 is not moved toward the corresponding position at a time, and a plurality of bends 36 are provided. Is moved step by step.

Therefore, in the conventional compressor without a device such as the multi-stage spring band 30 according to the present invention, the change of the inclination angle of the swash plate is severe due to the temporary movement of the fixing pin 21, but the multi-stage spring band 30 according to the present invention In the applied compressor, the same problems as in the prior art are solved. This eventually leads to the vibration and noise reduction aspects of the compressor.

According to the present invention configured as described above, the swash plate of the compressor can be moved step by step in the process of rotating the fixing pin to the rotation point, so that the rotation of the swash plate can be made more stably, There is a big advantage that can be more advantageous in terms of vibration and noise reduction due to rotation.

Claims (6)

In order to fix the swash plate of the air conditioner compressor to the rotating plate, the rotating plate is formed with a fixed side arm having a rectangular slot, and the swash plate is formed with a movable side arm corresponding to the fixed side arm. In a variable swash plate type compressor, wherein a fixing pin for fixing to a fixed side arm is configured to operate along the slot, In order to allow the fixing pin 21 to be moved along the slot 20 can be moved step by step, the inside of the slot 20, The upper and lower ends 32 and 33 of the body 31 which are separated from each other on both sides are bent in an arc shape in a semicircle toward the inside of the slot so that the upper and lower ends of each of the upper and lower ends are positioned at the upper and lower ends of the slot 20. It is fixed in the middle of the side arm (17a), the multi-stage spring band of the variable swash plate compressor characterized in that a plurality of bends (36) are formed at predetermined intervals on the side of the body (31), respectively. The method of claim 1, Multi-stage springs of the variable swash plate compressor characterized in that the distance between the corresponding bends of the corresponding position among the plurality of bends 36 formed in each of the body 31 which are separated from each other on both sides becomes narrower from the lower side to the upper side band. The method according to claim 1 or 2, The plurality of bending 36 is a multi-stage spring band of the variable swash plate compressor, characterized in that formed in an arc shape. The method of claim 1, Multi-stage spring band of the variable swash plate compressor characterized in that the diameter of the plurality of bends 36 is gradually reduced in diameter from the lower side to the upper side. The method according to claim 1 or 2, The radius of the arc (R) of the lower end of the body 31 is formed in the radius size of the fixing pin 21, the radius (r) of the arc of the upper end of the body 31 is the radius of the fixing pin 21 Multi-level spring band of the variable swash plate compressor characterized in that formed in a smaller size. The method according to claim 1 or 2, The body 31 is a multi-stage spring band of a variable swash plate compressor characterized in that the spring steel is excellent in elasticity and its thickness is formed to a thickness of 0.5 ~ 1.5 mm.

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