KR101452888B1 - Valve plate asembly of compressor - Google Patents

Abstract

A valve plate assembly of a compressor of the present invention includes: a valve plate on which a suction port is formed; And a suction reed for opening and closing the suction port, wherein the suction port is composed of an inlet-side first suction port and an outlet-side second suction port, and the area of the second suction port is larger than the area of the first suction port And is formed to be wide.
Accordingly, since the suction port composed of the first and second suction ports has a large area, the passage speed of the suction refrigerant is prevented from rising, thereby minimizing the pressure drop of the suction refrigerant.

Description

[0001] VALVE PLATE ASEMBLY OF COMPRESSOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a valve plate assembly of a compressor, and more particularly, to a valve plate assembly of a compressor that enlarges an area of a suction port to prevent a passage speed of a suction refrigerant from rising.

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.

A valve plate having a suction port and a discharge port formed therebetween is interposed between the housing and the cylinder block, and the suction port and the discharge port are opened and closed by a lead.

Hereinafter, a conventional valve plate assembly will be described with reference to the drawings.

1 and 2, a valve plate assembly 1 according to the prior art includes a valve plate 2 formed with a suction port 2a, a lid 3a for opening and closing the suction port 2a, (3).

At this time, the lead 3a is connected to the valve seat 3 by the thin neck portion 3b having an elastic force.

Accordingly, the suction port 2a is opened and closed by the lid 3a to suck the refrigerant.

However, the valve plate assembly 1 according to the related art has a problem in that the suction refrigerant is sucked into the cylinder bore through the suction port 2a having a small area, thereby increasing the speed and causing pressure drop.

At this time, a flow loss of the suction refrigerant also occurs due to the pressure drop of the suction refrigerant.

In addition, the lead 3a for opening and closing the suction port 2a has a longer valve lift and noise, and at the same time, it takes a long time to restore the lead 3a, Lt; / RTI >

This is because the suction refrigerant that has passed through the suction port 2a with a small area is concentrated on the lid 3a.

In addition, as the valve lift of the lid 3a increases, the dead volume also increases, thereby lowering the cooling capability.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a compressor which minimizes a pressure drop of a suction refrigerant by preventing an increase in the passage area of a suction refrigerant by increasing an effective area of the suction port, To provide a valve plate assembly.

According to an aspect of the present invention, there is provided a valve plate assembly for a compressor, including: a valve plate having a suction port; And a suction reed for opening and closing the suction port, wherein the suction port is composed of an inlet-side first suction port and an outlet-side second suction port, and the area of the second suction port is larger than the area of the first suction port And is formed to be wide.

The valve plate may include a first valve plate on which the first suction port is formed and a second valve plate on which the second suction port is formed.

Preferably, the first valve plate closes a part of the inlet side of the second suction port so that the first and second suction ports are stepped.

The first suction port is formed in the shape of a long hole in the circumferential direction of the valve plate, and the second suction port is surrounded by the first suction port and extends in the circumferential direction toward the circumference of the valve plate It is preferable to include a protruding configuration portion that extends.

In addition, it is preferable that the projecting portions are formed with two through the groove-shaped portions.

According to the valve plate assembly of the compressor according to the present invention, since the suction port composed of the first and second suction ports has a large area, the passage speed of the suction refrigerant is prevented from rising, thereby minimizing the pressure drop of the suction refrigerant .

Further, it is possible to suppress the occurrence of the flow loss of the suction refrigerant as the pressure drop of the suction refrigerant is minimized.

Further, as the area of the lead on which the suction refrigerant acts is increased, the valve lift of the lead is reduced, and noise is prevented from being generated.

In addition, the reduction of the valve lift of the leads also reduces the dead volume, thereby increasing the cooling efficiency.

1 is a perspective view showing an exploded view of a valve plate assembly according to the prior art.
2 is a front view of Fig.
3 is a longitudinal sectional view showing a structure of a capacity modulation compressor according to the present invention.
4 is an exploded perspective view of the valve plate assembly of FIG. 3. FIG.
FIG. 5 is a perspective view showing the engaged state of FIG. 4;
FIG. 6 is an enlarged perspective view of the main part of FIG. 3. FIG.

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

FIG. 3 is a longitudinal sectional view showing the structure of the variable displacement compressor according to the present invention, FIG. 4 is a perspective view showing an exploded view of the valve plate assembly of FIG. 3, FIG. 5 is a perspective view showing a combined state of FIG. 3 is an enlarged perspective view of the main part of Fig.

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

3, the variable displacement swash plate type compressor C includes a cylinder block 10 having a plurality of cylinder bores 12 formed in parallel on its inner circumferential surface in the longitudinal direction, A front housing 16 hermetically coupled to the front and a rear housing 18 hermetically coupled to the rear of the cylinder block 10. [

One end of the drive shaft 44 is rotatably supported near the center of the front housing 16 while the other end of the drive shaft 44 is rotatably supported by the crank chamber 86. The crank chamber 86 is provided on the inside of the front housing 16, Through a crank chamber (86) and a bearing provided on the cylinder block (10).

In the crank chamber 86, a lug plate 54 and a swash plate 50 are provided around the drive shaft 44.

The lug plate 54 is formed with a pair of power transmission support arms 62 formed integrally with one surface of the swash plate 50 and each having a guide hole 64 formed in a central portion thereof. The ball provided on the arm 66 of the swash plate 50 is inserted into the guide hole of the lug plate 54 as the lug plate 54 rotates, 64, the inclination angle of the swash plate 50 is varied.

The outer circumferential surface of the swash plate 50 is slidably engaged with each piston 14 via a shoe 76.

Accordingly, as the swash plate 50 rotates in an inclined state, the pistons 14 fitted to the outer peripheral surface of the swash plate 50 via the shoe 76 reciprocate in the respective cylinder bores 12 of the cylinder block 10 do.

The refrigerant in the suction chamber 22 is sucked into the cylinder bore 12 by the reciprocating motion of the piston 14 and is compressed and discharged to the discharge chamber 24. The pressure in the crank chamber 86 and the pressure in the suction chamber The inclined angle of the swash plate 50 is changed according to the pressure difference in the swash plate 50 and the discharge amount of the refrigerant is adjusted by adjusting the pressure of the crank chamber 86 by opening and closing the valve by energization, And a displacement control valve 200 for adjusting the discharge displacement by adjusting the discharge displacement.

A suction chamber 22 and a discharge chamber 24 are formed in the rear housing 18 and a valve plate assembly 100 is interposed between the rear housing 18 and the cylinder block 10.

The compressor described above is only one example in which the valve plate assembly 100 according to the present invention is installed, and is applicable to various other types of compressors.

Hereinafter, a valve plate assembly 100 according to the present invention will be described.

3 to 6, a valve plate assembly 100 according to the present invention includes a valve plate 110 on which a suction port 111 is formed, and a suction plate 120 for opening and closing the suction port 110 ).

First, the suction port 111 communicates with the suction chamber 22 to introduce suction refrigerant, and the suction lead 120 is connected to the valve seat 122 by the neck 121.

At this time, the lead 120 and the neck 121 are elastically deformed by the suction pressure Ps of the suction refrigerant, thereby opening and closing the suction port 111 to suck the suction refrigerant into the cylinder bore 12 do.

The suction port 111 is composed of an inlet side first suction port 112 and an outlet side second suction port 113. The area of the second suction port 113 is larger than the area of the first suction port 112, Is preferably formed to be wider than the area

The valve plate 110 includes a first valve plate 110a facing the suction chamber 22 and a second valve plate 110b facing the cylinder bore 12. [ At this time, the first suction port 112 may be formed in the first valve plate 110a, and the second suction port 113 may be formed in the second valve plate 110b.

However, the first suction port 112 and the second suction port 113 may be formed in one valve plate.

The first valve plate 110a closes a part of the inlet side of the second suction port 113 so that the first and second suction ports 112 and 113 are formed to be stepped with respect to each other. That is, the first and second suction ports 112 and 113 communicated with each other to suck in the suction refrigerant have different areas as described above, so that the first and second valve plates 110a and 110b are overlapped with each other, The two suction ports 112 and 113 are stepped on each other.

In the figure, the first suction port 112 is formed in the shape of a long hole in the circumferential direction of the valve plate, and the second suction port 113 surrounds the first suction port 112, And a protruding portion 114 extending toward the periphery of the valve plate across the valve plate. Thus, more natural stepped portions can be formed.

Although two protruding portions 114 are formed through the groove-like portion 115, one or three protruding portions 114 may be provided.

Accordingly, since the first and second suction ports 112 and 113 have a large area, the passage speed of the suction refrigerant is prevented from rising, thereby minimizing the pressure drop of the suction refrigerant.

Specifically, the suction refrigerant includes a suction chamber 22, a first suction port 112 having a relatively narrower area than the suction chamber 22, and a second suction port 112 having a relatively larger area than the first suction port 112. [ 2 suction port 113, the pressure is reduced while the speed is reduced.

Further, it is possible to suppress the occurrence of the flow loss of the suction refrigerant as the pressure drop of the suction refrigerant is minimized.

The suction port 111 of the present invention having a relatively larger area than the suction port of the prior art shown in FIG. 1 has a wider area where the suction refrigerant of the lead 120 acts, lift and head lift) are reduced and noise can be prevented from being generated.

In addition, since the valve lift of the lead 120 is not large, restoration of the valve can be easily performed, thereby suppressing a decrease in efficiency of the compressor.

In addition, the reduction of the valve lift of the lead 120 also reduces the dead volume, thereby improving the cooling capability.

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.

For example, in the above description, the suction side is described as an example of minimizing the pressure drop of the suction refrigerant, but it goes without saying that the same can be applied to the discharge side.

C - Capacity Variable Swash Compressor 10 - Cylinder Block
12 - Cylinder bore 16 - Front housing
18 - rear housing 44 - drive shaft
50 - swash plate 54 - lug plate
62 - Arm 64 - Guide hole
76 - Shoe 86 - Crankshaft
200 - Capacity control valve 100 - Valve plate assembly
110 - Valve plate 111 - Suction port
120 - Lead

Claims (5)

A valve plate (110) in which a suction port (111) is formed; And
And a suction lead 120 for opening and closing the suction port 111,
The suction port 111 is composed of an inlet side first suction port 112 and an outlet side second suction port 113. The area of the second suction port 113 is larger than the area of the first suction port 112 More broadly,
The first suction port 112 is formed in the shape of a long hole in the circumferential direction of the valve plate 110 and the second suction port 113 surrounds the first suction port 112, And a plurality of protrusions (114) extending across the valve plate (110) and across the recess (115).
The method according to claim 1,
The valve plate (110)
And a second valve plate (110b) having a first valve plate (110a) formed with the first suction port (112) and a second suction port (113) formed therein.
3. The method of claim 2,
Wherein the first valve plate (110a) closes a part of the inlet side of the second suction port (113) so that the first and second suction ports (112, 113) are formed to be stepped.
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