KR20170126548A - Valve plate assembly for Compressor exhausting refrigerant - Google Patents

Abstract

A valve assembly for discharging a compressor coolant according to the present invention is interposed between a cylinder block having a plurality of pistons installed therein to reciprocate and a rear housing coupled to shield one side of the cylinder block so as to guide discharge of a coolant discharged from the pistons. The valve assembly for discharging a compressor coolant comprises: a plate-shaped valve plate disposed between the cylinder block and the rear housing, and having a discharge port and a suctioning port communicating with a discharge chamber and a suctioning chamber of the rear housing; a discharge valve interposed between the rear housing and the valve plate, and having a plurality of leads disposed to correspond to a position of the discharge port so as to selectively open and close the discharge port; and a retainer interposed between the rear housing and the discharge valve, and having a plurality of guide tunnels disposed to correspond to a position of the leads so as to delimit a movement of the leads while selectively communicating with the discharge port. The valve assembly for discharging a compressor coolant according to the present invention has an improved retainer structure. Thus, noise caused by excessive separation of a discharge valve is reduced. At the same time, a discharge area of a coolant is sufficiently ensured, and thus a coolant discharging function of a compressor can be maintained.

Description

Technical Field [0001] The present invention relates to a valve assembly for compressing refrigerant,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a valve assembly for discharging a refrigerant in a compressor, and more particularly, to a valve assembly for discharging a refrigerant in a compressor capable of reducing vibrations and noise generated during discharge of the refrigerant.

Generally, air conditioning system is applied for the purpose of lowering the room temperature in the summer of automobiles. They use the latent heat of evaporation of the refrigerant to cool the surrounding cool air and heat it to lower the temperature.

The air conditioner system is composed of a compressor, a condenser, a receiver drier, an expansion valve, and an evaporator. Among them, a refrigerant compressor required for compressing a refrigerant evaporated is largely divided according to a driving method of a piston. In recent years, .

In the refrigerant compressor of the above-described swash plate type, a housing which forms a housing space, a shaft which is provided at the center of the housing space and rotates by a driving force transmitted from the outside to a belt, The swash plate is fixed.

A plurality of cylinders are radially arranged on the inner wall of one side of the housing, and a piston accommodating the swash plate is inserted into the cylinder. At this time, a valve unit for sucking or discharging the refrigerant is mounted on the outer surface of the cylinder.

The valve unit includes a valve plate that is formed in the housing and has a plate shape of metal and has a suction port and a discharge port; a discharge valve attached to one side of the valve plate to open and close the discharge port of the valve plate; And a retainer for restricting the retainer.

Here, the discharge valve is made of a plate-like metal material having elasticity, and a plurality of discharge leads are formed to match the discharge port of the valve plate.

The swash plate is rotated by the rotation of the shaft and the piston is reciprocated in the sealer, so that the suction or discharge of the refrigerant is performed. Here, the refrigerant is discharged while pushing the discharge lead of the discharge valve through the discharge port of the valve plate through the through-hole of the suction valve, When the refrigerant is sucked again, the discharge reed contacts the valve plate by elasticity and closes the discharge port.

However, in the conventional valve unit as described above, the discharge valve is considerably heard at a high pressure, which causes severe vibration. Further, vibration of the vehicle body is caused by the vibration of the valve unit as described above, and there is a problem that room noise is generated.

Further, in order to solve this problem, when the height of the discharge hole of the retainer is reduced to narrow the movement width of the discharge valve, the discharge flow rate of the refrigerant is reduced and the performance of the compressor is deteriorated.

A public utility model 2000-0014824 is disclosed as a related art.

It is an object of the present invention to provide a valve assembly for discharging a refrigerant in a compressor, which can maintain the performance of the compressor while reducing noise generated during discharge of the refrigerant of the compressor .

A valve assembly for discharging a refrigerant in a compressor according to the present invention comprises a cylinder block installed to reciprocate a plurality of pistons in a cylinder, a rear housing coupled to one side of the cylinder block to shield the cylinder block, And a discharge port and a suction port which are disposed between the cylinder block and the rear housing and communicate with the discharge chamber and the suction chamber of the rear housing, Plate type valve plate; A discharge valve interposed between the rear housing and the valve plate, the discharge valve being provided to correspond to a position of the discharge port and having a plurality of leads selectively opening and closing the discharge port; And a retainer interposed between the rear housing and the discharge valve and provided with a plurality of guide tunnels arranged corresponding to the positions of the leads and selectively communicating with the discharge ports and restricting the behavior of the leads.

The guide tunnel preferably has an upper surface curved concavely toward the discharge valve.

At this time, on the upper surface of the guide tunnel, a concave portion curved toward the discharge valve and a convex portion protruding from both ends toward the rear housing may be formed.

The valve assembly for discharging the refrigerant of the compressor according to the present invention can improve the structure of the retainer to reduce the noise generated due to excessive lifting of the discharge valve and secure the discharge area of the refrigerant to maintain the refrigerant discharge performance of the compressor .

1 is an exploded perspective view of a plate assembly for discharging refrigerant in a compressor according to the present invention,
Fig. 2 is a perspective view showing the retainer shown in Fig. 1,
3 is a cross-sectional view taken along line AA 'in Fig. 2; Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, at the time of the present application, It should be understood that variations can be made.

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

FIG. 1 is an exploded perspective view of a valve assembly 100 for discharging a refrigerant according to the present invention, FIG. 2 is a perspective view showing a retainer 130 shown in FIG. 1, FIG. 3 is a cross- .

Referring to FIG. 1, a valve assembly 100 for discharging a refrigerant in a compressor according to the present invention is a device for reducing a noise due to vibration of a compressor by improving the structure of a retainer.

The BUB assembly 100 includes a cylinder block 20 having a piston (not shown) reciprocatingly mounted on a rotary shaft (not shown), and a rear housing (not shown) 30, respectively.

At this time, the valve tactile unit 100 discharges the refrigerant compressed by the piston, and guides or controls the refrigerant discharged from the compressor.

To this end, the valve tile chip body 100 includes a valve plate 110, a discharge valve 120, and a retainer 130.

Referring to FIG. 1, the valve plate 110 is provided between the cylinder block 20 and the rear housing 30. The valve plate 110 is provided with a plurality of suction ports 111 and a discharge port 112 that communicate with the discharge chamber and the suction chamber of the rear housing 30. At this time, the suction ports 111 are preferably equally spaced on the inner circumferential surface of the valve plate 110, and the discharge ports 112 are equally spaced from the outer circumferential surface of the valve plate 110.

The discharge valve 120 is disposed between the valve plate 110 and the rear housing 30. At this time, the discharge valve 120 is disposed to be in contact with one surface of the valve plate 110.

The discharge valve 120 may include a plurality of suction holes 122 at positions corresponding to the suction ports 111 formed in the valve plate 130. At this time, the refrigerant flowing into the rear housing 30 through the suction hole 122 flows into the cylinder block 20 again.

The discharge valve 120 has a plurality of leads 121 at positions corresponding to the discharge ports 111 of the valve plate 110. At this time, the lead 121 may be bent or re-expanded due to the flow of the refrigerant, thereby selectively opening and closing the discharge port 110.

More specifically, when the refrigerant is discharged from the piston of the cylinder block 20, the lead 121 is lifted by the refrigerant passing through the discharge port 112 to open the discharge port 110 . When the discharge of the refrigerant is stopped, the lead 121 recovers its position due to its elasticity and closes the discharge port 110 while contacting the valve plate 110.

The retainer (130) is interposed between the rear housing (30) and the discharge valve (120). The retainer 130 partially abuts against the valve plate 110 at an edge thereof and partly separates from the valve plate 110 to form a predetermined space in which the discharge valve 120 can be received. 2, the retainer 130 may include a support plate 131, a fixed disc 132, and a guide tunnel 133.

First, the support plate 131 is disposed at an edge of the retainer 130 and installed to face the valve plate 110.

Further, the fixed disk 132 is disposed at the center of the retainer 130 and spaced apart from the valve plate 110. At this time, a predetermined space is formed between the valve plate 110 and the fixed disk 132, and the discharge valve 120 is accommodated therebetween.

The guide tunnel 133 is disposed at a corresponding position of the discharge port 112 and connects the support plate 131 and the fixed disk 132. The guide tunnel 133 is spaced apart from the valve plate 110 so that refrigerant discharged from the discharge port 112 flows into the discharge chamber 32 of the rear housing 30.

One end of the guide tunnel 133 selectively communicates with the discharge port 112 and the other end of the guide tunnel 133 faces the discharge chamber 32 to form a space in which the lead 121 operates. At this time, the lead 121 abuts on the upper surface of the guide tunnel 133 and its lifting is limited.

 At this time, the guide tunnel 133 is formed so that its upper surface is curved. More specifically, the upper surface of the guide tunnel 133 may be curved in the direction of the discharge valve 120.

3, the upper surface of the guide tunnel 133 is formed with a recess 131a curved in the direction of the discharge valve 120 at the center and a convex portion 131a protruding toward the rear housing 30 at both ends thereof Quot; U "

At this time, the discharge valve 120 is limited in the amount of lifting by the recess 131a. More specifically, when the refrigerant is discharged, the lead 121 of the discharge valve 120 is pushed back by the flow of the refrigerant, and the lead 131 is lifted up to the position of the concave portion 131 It is possible.

Meanwhile, the guide tunnel 133 may protrude toward the rear housing 30, and the space through which the refrigerant is discharged may be enlarged and secured.

 The valve assembly 10 according to the present invention improves the structure of the retainer 130 so as to reduce the noise generated due to excessive lifting of the discharge valve 120 and sufficiently secure the discharge area of the refrigerant, The refrigerant discharge performance of the refrigerant can be maintained.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: valve assembly for compressor refrigerant discharge 20: cylinder block
30: rear housing 110: valve plate
111: Suction port 112: Discharge port
120: Discharge valve 121: Lead
122: suction hole 130: retainer
133: Guide tunnel 131a:
131b:

Claims (3)

A rear housing coupled to the cylinder block so as to shield one side of the cylinder block; and a compressor refrigerant interposed between the rear housing and guiding the discharge of the refrigerant discharged from the piston, A discharge valve assembly comprising:
A plate-shaped valve plate disposed between the cylinder block and the rear housing and having a discharge port and a suction port communicating with the discharge chamber and the suction chamber of the rear housing;
A discharge valve interposed between the rear housing and the valve plate and arranged to correspond to the position of the discharge port to selectively open and close the discharge port;
And a retainer provided between the rear housing and the discharge valve and provided with a plurality of guide tunnels arranged to correspond to the positions of the leads and selectively communicating with the discharge ports and limiting the behavior of the leads, Valve assembly for venting. The method according to claim 1,
Wherein the guide tunnel is curved so that its upper surface is concave toward the discharge valve. The method of claim 2,
On the upper surface of the guide tunnel,
A concave portion curved toward the discharge valve,
And a convex portion protruding from the both ends toward the rear housing is formed.

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