KR100963943B1 - Suction Valve Sssembly Of Reciprocating Compressor - Google Patents

Abstract

The present invention relates to an intake valve assembly of a reciprocating compressor that can easily induce a displacement of a suction valve to suck refrigerant more efficiently. The present invention relates to a cylinder block having a cylinder bore for reciprocating a piston, and a cylinder block disposed behind the cylinder block. In a suction valve assembly of a reciprocating compressor comprising a valve plate, a suction valve and a gasket disposed between the cylinder block and the belt plate, the suction valve is composed of an opening and closing portion and an extension portion, the extension portion is the other side from the one side Since the slit groove is formed through the predetermined width toward the side to minimize the pressure loss of the compressor for bending the suction valve as well as increase the suction amount of the refrigerant is effective to further improve the volumetric efficiency of the compressor.

Reciprocating compressor, suction valve, slit groove

Description

Suction Valve Sssembly Of Reciprocating Compressor

The present invention relates to an intake valve assembly of a reciprocating compressor, and more particularly, to an intake valve assembly of a reciprocating compressor capable of easily inducing a displacement of the intake valve to suck refrigerant more efficiently.

In general, a vehicle air conditioner is a device that maintains a temperature inside a car lower than an external temperature by using a refrigerant, and includes a compressor, a condenser, and an evaporator to configure a circulation cycle of the refrigerant.

In particular, the compressor is a device that compresses and pumps refrigerant, and is driven by a power of an engine or a motor.

The swash plate type compressor, which is a kind of reciprocating compressor, is installed on a drive shaft to which engine power is transmitted such that a disk-shaped swash plate corresponds to rotation of the drive shaft, and the inclination angle thereof is variable, and a shoe (a A plurality of pistons installed via a shoe is configured to suck, compress and discharge the refrigerant gas by linearly reciprocating the inside of the plurality of cylinder bores formed in the cylinder block.

Hereinafter, a configuration of a reciprocating compressor according to the prior art will be described with reference to FIG. 1.

As shown, the conventional reciprocating compressor 10 has a cylinder block 11 having a plurality of cylinder bores 11a formed in parallel in the longitudinal direction on an inner circumferential surface thereof, and sealed in front of the cylinder block 11. The front housing 12 is coupled, and the rear housing 13 is hermetically coupled via a valve plate 13a at the rear of the cylinder block 11.

A swash plate chamber 14 is formed inside the front housing 12, and one end of the drive shaft 15 is rotatably supported at the center of the front housing 12, while the other end of the drive shaft 15 is It passes through the swash plate chamber 14 and is supported by the bearing 11c to the central shaft hole 11b of the cylinder block 11 via a bearing 11c.

In addition, the drive shaft (15) is provided with a lug plate (16) spaced apart by a predetermined distance and a swash plate (17) provided through the drive shaft (15) so that the inclination angle is variable, and the lug plate (16) is provided. A spring 27 for elastically supporting the swash plate 17 with respect to the lug plate 16 is interposed between the swash plates 17.

In the lug plate 16, a pair of power transmission protrusions 16a, each of which has a hinge hole 16b linearly perforated, is formed to protrude integrally at one end of the surface to rotate together with the drive shaft 15, and the swash plate 17 is a hinge pin (18) fixed to one surface of the lug plate (16) formed in the hinge hole (16b) of the power transmission projection (16a) is fixed to one side while being inclined at a predetermined angle to the drive shaft (15). It is inserted and rotates together with the lug plate 16, and the inclination angle thereof is varied.

In addition, the outer circumferential surface of the swash plate 17 is slidably fitted to the piston 19 provided in each cylinder bore 11a via the shoe 20.

Accordingly, as the swash plate 17 rotates in an inclined state, the pistons 19 fitted through the shoe 20 on the outer circumferential surface thereof reciprocate in each cylinder bore 11a of the cylinder block 11. .

In addition, the rear housing 13 has a suction chamber 21 and a discharge chamber 22, respectively, and the valve plate 13a interposed between the rear housing 13 and the cylinder block 11 each cylinder bore. The suction port 23 and the discharge port 24 are formed in the position corresponding to 11a, respectively.

Suction valves for opening and closing the inlet port 23 and the outlet port 24 in each of the inlet port 23 and the outlet port 24 formed in the valve plate 13a by the pressure change according to the reciprocating motion of the piston 19. 25 and a discharge valve 26 are provided.

In addition, the rear housing 13 has suction with the swash plate chamber 14 so as to adjust the inclination angle of the swash plate 17 by varying the pressure difference between the refrigerant suction pressure in the cylinder bore 11a and the pressure in the swash plate chamber 14. A control valve (not shown) for operatively communicating the seal 21 is provided.

In the conventional reciprocating compressor 10 configured as described above, the inclination angle of the swash plate 17 is adjusted in response to the pressure difference between the pressure in the swash plate chamber 14 and the suction pressure in the cylinder bore 11a. Due to the change in the inclination angle, the stroke distance of the piston 19 connected to the swash plate 17 is changed to change the discharge capacity of the compressor.

Meanwhile, as shown in FIG. 2, a gasket 13g is disposed between the cylinder block 11 and the valve plate 13a along a circumference, and a suction valve is provided between the gasket 13g and the valve plate 13a. 25 is arrange | positioned. That is, the gasket 13g and the suction valve 25 overlap each other.

In addition, the part shown by the hidden line in the figure shows the state in which the intake valve 25 is open over the engaging jaw (11d) of the cylinder bore.

However, in the reciprocating compressor according to the prior art, the suction pressure of the cylinder bore deflects the suction valve to open the suction port. In the opening process, the end of the suction valve extends over the engaging jaw of the cylinder bore, thereby opening the suction port. Since the deformed shape was gentle, it was difficult to suck the refrigerant smoothly.

The present invention has been made to solve the above problems, an object of the invention is to increase the displacement of the suction valve to suck the refrigerant more efficiently, reducing the internal pressure loss of the compressor to further improve the compression efficiency It is to provide a suction valve assembly of the same type compressor.

In order to achieve the above object, the suction valve assembly of the reciprocating compressor according to the present invention is a cylinder block formed with a cylinder bore reciprocating piston, a valve plate disposed behind the cylinder block, between the cylinder block and the belt plate In a suction valve assembly of a reciprocating compressor including a suction valve and a gasket disposed in the suction valve, the suction valve is composed of an opening and closing portion, the extension portion has a slit groove formed through the predetermined width from one side toward the other side is formed It is characterized by.

Here, the slit groove is formed in the vicinity of the side wall of the cylinder bore opposite the opening and closing portion.

In addition, the slit groove is characterized in that formed in a plurality in the longitudinal direction of the extension.

In addition, the slit groove is characterized in that it is alternately determined with respect to one side and the other side of the extension.

In addition, the cylinder bore is characterized in that a stopper is formed to interfere with the opening and closing portion.

According to the present invention having the configuration described above, by forming a slit groove in the extension portion of the suction valve, not only minimizes the pressure loss of the compressor for bending the suction valve but also increases the suction amount of the refrigerant to increase the volumetric efficiency of the compressor. Further improvement is effective.

Hereinafter, with reference to the accompanying Figures 3 to 5 will be described in detail a preferred embodiment of the present invention.

Prior to the description, since the configuration of the reciprocating compressor according to the present invention is similar to the prior art illustrated in FIG. .

Moreover, the present invention is applicable to all general reciprocating compressors including swash plate compressors.

As shown in FIG. 3, the suction valve assembly 1000 for the reciprocating compressor according to the present embodiment includes a gasket 13g disposed between the cylinder block 11 and the valve plate 13a, and the gasket 13g. It consists of a suction valve 100 which is bonded to.

First, the cylinder block 11 is provided with a locking step (11d) to prevent the noise by reducing the displacement with respect to the upper portion of the process of opening and closing the intake valve 100 to be described later.

In addition, a discharge port 24 is formed in a radial direction of the valve plate 13a, and a suction port 23 is formed in a radial direction larger than the position of the discharge port 24.

On the other hand, the gasket 13g is firmly fixed between the valve plate 13a and the cylinder block 11 serves to increase the sealing force.

This gasket 13g may be disposed between the valve plate 13a and the rear housing 13 (see FIG. 1).

Hereinafter, the suction valve 100 which is a characteristic component of the present invention will be described in more detail.

The suction valve 100 performs the opening and closing operation for the refrigerant suction in a state in which the gasket 13g is attached to the suction valve 100, and is formed of a thin plate that is elastically deformable to be bent or flattened by the pressure difference of the piston 19. You lose.

Specifically, as shown in FIG. 4, the suction valve 100 extends along the longitudinal direction from the opening and closing portion 110 and the opening and closing portion 110 disposed to cover the front surface of the suction opening 23 and the gasket. It is formed of an extension 120 connected to 13g.

Here, of course, the opening and closing part 110 is formed in a size larger than the diameter of the suction port 23.

In addition, the extension part 120 has a length sufficient to interfere with the stopper 11c when the opening and closing part 110 is opened.

In particular, the slit groove 130 is formed in the extension part 120 to greatly increase the suction amount of the refrigerant in a state in which the displacement is increased in the internal pressure of the cylinder bore 11a.

The slit groove 130 has a predetermined width penetrating from one side of the extension portion 120 toward the other side.

In addition, the slit groove 130 is formed in the vicinity of the side of the cylinder bore (11a), it is preferable to form a plurality in the longitudinal direction of the extension portion 120.

In this case, the slit groove 130 may be alternately determined with respect to one side and the other side of the extension portion 120. This is to prevent the bending action of the extension 120 from being biased to only one side when the slit groove 130 is formed side by side only on one side of the extension 120.

In addition, the slit groove 130 of the extension portion 120 is formed so as to reduce the rigidity to further advance the deformation of the suction valve 100 by the suction pressure in the cylinder bore (11a).

Hereinafter, the operation of the suction valve assembly 1000 of the reciprocating compressor according to the embodiment of the present invention will be described with reference to FIG. 5.

First, when the piston 19 of the compressor proceeds to the suction process, as the suction pressure is generated inside the cylinder block 11, the suction valve 100 closing the suction hole 23 is opened.

In the process of opening as described above, the suction valve 100 is able to sufficiently suck the refrigerant required for the compressor as the displacement amount increases as the rigidity is reduced by the plurality of slit grooves 130 formed in the extension part 120. do.

That is, when the partial stiffness of the suction valve 100 is reduced, not only can the suction pressure of the compressor to displace it be reduced, but also the suction area of the suction valve 100 is greatly increased, so that the refrigerant can be sufficiently sucked. .

Then, when the discharge pressure of the compressor is generated, the suction valve 100 is to close the suction hole 23 to the elastic force.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to such specific embodiments, and those skilled in the art may appropriately change within the scope described in the claims of the present invention. This will be possible.

1 is a cross-sectional view showing the configuration of a reciprocating compressor according to the prior art.

2 is a cross-sectional view showing the intake valve structure of FIG.

3 is a cross-sectional view showing a suction valve assembly for a reciprocating compressor according to an embodiment of the present invention.

4 is a front view showing the structure of the suction valve of FIG.

5 is a cross-sectional view showing the operation of the intake valve assembly of the reciprocating compressor according to the embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

11: cylinder block 11a: cylinder bore

13: rear housing 13a: valve plate

13g: Gasket 23: Suction Hole

100: suction valve 110: opening and closing portion

120: extension 130: slit groove

1000: suction valve assembly of reciprocating compressor

Claims (5)

In the intake valve assembly of a reciprocating compressor comprising a cylinder block having a cylinder bore reciprocating piston, a valve plate disposed behind the cylinder block, a suction valve and a gasket disposed between the cylinder block and the belt plate, The suction valve is composed of the opening and closing portion and the extension portion, the extension portion includes a slit groove formed through a predetermined width toward the other side from one side, The slit groove is formed in the vicinity of the side wall of the cylinder bore opposite the opening and closing portion is arranged in plurality along the longitudinal direction of the extension, The slit groove is intake valve assembly of the reciprocating compressor, characterized in that it is alternately determined with respect to one side and the other side of the extension. delete delete delete The method of claim 1, A suction valve assembly of the reciprocating compressor, characterized in that a stopper is formed in the cylinder bore to interfere with the opening and closing portion.

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