KR20080035747A - Discharge valve assembly for reciprocating compressor - Google Patents

Abstract

A discharge valve assembly for a reciprocating compressor is provided to individually open or close openings of a valve plate, which are connected to a compression chamber, by a discharge valve, thereby reducing pressure of refrigerant serving as an opening or closing load and increasing an entire cooling capacity of the compressor. A discharge valve assembly for a reciprocating compressor includes a valve plate(111) closing a compression space(P) and having at least an opening connected to the compression space, and a thin discharge valve(112) stacked on the valve plate for opening or closing the opening of the valve plate, wherein the discharge valve has opening and closing parts for opening or closing the openings of the valve plate individually according to the pressure of refrigerant in the compression space.

Description

Discharge Valve Assembly for Reciprocating Compressor {DISCHARGE VALVE ASSEMBLY FOR RECIPROCATING COMPRESSOR}

1 shows a part of a reciprocating compressor in which the prior art is an embodiment;

Figure 2 is a view showing a discharge valve an embodiment of the prior art.

3 is a view showing a reciprocating compressor of one embodiment of the present invention.

4 and 5 is a view showing the discharge valve assembly an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

110: discharge valve assembly 111: valve plate

111a: discharge port 112: discharge valve

112a: opening and closing portion 113: retainer

113a: reinforcement 113b: support

113h: open space 114: discharge valve spring

115: discharge cap 116: discharge valve supporter

The present invention relates to a reciprocating compressor including a fixed member, a movable member and a linear motor, and more particularly, to a discharge valve assembly for a reciprocating compressor for discharging a compressed refrigerant in a compression space formed between the fixed member and the movable member.

In general, the reciprocating compressor is configured to compress the refrigerant while the piston reciprocates linearly within the cylinder by forming a compression space in which the working gas is absorbed and discharged between the piston and the cylinder.

Recently, the reciprocating compressor includes a component such as a crank shaft in order to convert the rotational force of the drive motor to the reciprocating linear kinetic force of the piston, there is a problem that a large mechanical loss caused by the movement change occurs. Many linear compressors have been developed for this purpose.

Such a linear compressor, in particular, allows the piston to be directly connected to a linear motor in reciprocating linear motion, thereby eliminating mechanical loss due to motion switching, thereby improving compression efficiency, and having a simple structure, and controlling power input to the linear motor. Since the operation can be controlled, the noise is lower than that of other compressors, so it is widely applied to home appliances such as refrigerators used indoors.

1 is a view showing a portion of a conventional reciprocating compressor of one embodiment, Figure 2 is a view showing a discharge valve is an embodiment of the prior art.

1 and 2, a linear compressor, which is an embodiment of a reciprocating compressor according to the related art, is moved by a linear motor (not shown) to reciprocate a straight line inside a fixing member 4. Movement, thereby compressing the refrigerant sucked into the compression space P formed between the movable member 2 and the fixing member 4, and then discharging the refrigerant into the discharge space D formed at one end of the fixing member 4, A discharge valve assembly for discharging the refrigerant from the compression space P to one end of the movable member 2 is provided with a suction valve 6 for introducing the refrigerant into the compression space P. 10) is installed.

Here, the suction valve 6 is installed to open and close the suction port 2h formed at the end of the movable member 2, while the discharge valve assembly 10 is installed to open and close the end of the fixing member 4, the suction valve ( 6) and the discharge valve assembly 10 is opened and closed according to the internal pressure of the compression space.

At this time, the discharge valve assembly 10 is composed of a discharge valve 12, the discharge valve spring 14, the discharge cap 16, the supporter 18, the discharge valve 12 to block one end of the cylinder (4) At the same time, the discharge cap 16 and the ring-shaped discharge valve supporter 18 are seated therein so as to form the discharge space D in one end of the cylinder 4, and the discharge valve 12 and the discharge cap ( The spiral discharge valve spring 14 is provided between the 16 and is adjusted to open and close the discharge valve 12 in accordance with the internal pressure of the compression space (P).

In particular, as shown in FIG. 2, the discharge valve 12 is formed to be flat so as to be in close contact with one end of the fixing member 4, and at the same time, to prevent deformation even in a high pressure state of the compression space P. A convex protrusion is formed toward the center, and a spring support part 12a is formed in which a seating groove 12h is stepped so that one end of the discharge valve spring 14 can be seated.

Of course, since the discharge valve 12 is elastically supported in the axial direction by the discharge valve spring 14, the discharge valve 12 opens and closes one end of the holding member 4 entirely in accordance with the pressure in the compression space P. It is installed to make.

Therefore, when looking at the refrigerant discharge process, when the movable member 2 is reciprocated linearly in the fixed member 4, when the internal pressure of the compression space (P) is less than the set discharge pressure, the discharge valve 12 is discharge valve spring While the refrigerant is not discharged by being in close contact with one end of the fixing member 4 by the elastic force of 14, when the internal pressure of the compression space P is equal to or higher than the set discharge pressure, the discharge valve 12 is discharge valve spring 14 The compressed refrigerant is discharged by opening one end of the fixing member 4.

However, the discharge valve for the reciprocating compressor according to the prior art, when the internal pressure of the compression space is more than the set discharge pressure, because the whole is opened from the fixed member, the load to open and close the discharge valve acts largely to lose the pressure of the refrigerant Therefore, there is a problem that the cold power is reduced.

The present invention has been made to solve the above problems of the prior art, and an object thereof is to provide a discharge valve assembly for a reciprocating compressor that can reduce the load for opening and closing the opening communicating with the compression space.

The present invention for solving the above problems in the discharge member for the reciprocating compressor discharge valve assembly for reciprocating linear movement of the movable member inside the fixed member, controlling the discharge of the compressed refrigerant in the compression space formed between the fixed member and the movable member A valve plate installed to block the compression space and having at least one opening communicating with the compression space; And, laminated to the valve plate, the discharge valve assembly for a reciprocating compressor comprising a; a thin discharge valve having an opening and closing portion for opening and closing the opening of the valve plate.

In addition, the valve plate provides a discharge valve assembly for a reciprocating compressor, characterized in that formed integrally with one end of the fixing member.

In addition, the opening and closing portion provides a discharge valve assembly for a reciprocating compressor, characterized in that a plurality is formed at regular intervals in the circumferential direction.

The present invention also provides a discharge valve assembly for a reciprocating compressor, further comprising a retainer stacked on the discharge valve and having a reinforcement part interlocked with an opening and closing part of the discharge valve.

The present invention also provides a discharge valve assembly for a reciprocating compressor, further comprising a spring elastically supporting the retainer in an axial direction such that the retainer is in close contact with the compression space.

In addition, the retainer provides a discharge valve assembly for a reciprocating compressor, which is in contact with the discharge valve, a predetermined open space for discharging the refrigerant on one side of the reinforcement portion.

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

3 is a view showing a reciprocating compressor of one embodiment of the present invention, Figures 4 and 5 is a view showing a discharge valve assembly of an embodiment of the present invention.

Linear compressor which is an embodiment of the reciprocating compressor according to the present invention comprises a movable member 102, a fixing member 104, a suction valve 106, a discharge valve assembly 110 as shown in FIG. The suction valve 106 is installed to open and close the opening 102h on the movable member side, and the discharge valve assembly 110 includes the valve plate 111, the discharge valve 112, a retainer 113, and a discharge valve. The spring 114, the discharge cap 115, the discharge valve supporter 116 is formed so as to be opened and closed on one end of the fixing member (104).

Specifically, referring to the discharge valve assembly 110 with reference to FIGS. 4 and 5, the valve plate 111 is installed to block one end of the fixing member 104 in which the compression space is formed in a kind of cap shape, and the compression space P At least one opening (111h) in communication with the compression space (P) is provided so that the refrigerant compressed in the) is preferably provided, preferably four openings (111h) are formed at regular intervals in the circumferential direction Do.

At this time, the valve plate 111 may be configured integrally with the fixing member 104 as it is made of a steel material, it is more preferably configured in a cap shape so that it can be assembled directly to the existing cylindrical fixing member 104. .

Next, the discharge valve 112 is also formed in a thin plate like the intake valve 106 and laminated on the valve plate 111, the openings 111h of the valve plate 111 to the pressure of the refrigerant in the compression space (P) In accordance with the plurality of opening and closing portion 112a is provided separately.

At this time, the opening and closing portions 112a are formed so that one end is connected and the other end is opened and closed, and the other end of the opening and closing portions 112a is formed larger than the openings 111h of the valve plate 111. The other end of the opening and closing portions 112a is installed to overlap with the openings 111h of the valve plate 111.

Of course, the discharge valve 112 may be configured to be in close contact with the valve plate 111 by the elastic force of the valve spring 114, but may also be configured to directly screw the center portion.

Next, the retainer 113 is formed in a flat plate shape having a predetermined thickness in order to reinforce the strength of the discharge valve 112, and is stacked on the discharge valve 112, separately from the openings and closing portions 112a of the discharge valve 112. A plurality of reinforcement portions 113a are provided to correspond to the opening and closing portions 112a of the discharge valve 112 so as to interlock with each other.

In this case, the reinforcement parts 113a are also formed to be cut so that one end is connected and the other end can be opened and closed, to prevent the high pressure refrigerant of the compression space P side from leaking through the cutouts of the opening and closing parts 112a. For this purpose, the reinforcement parts 113a are preferably configured to be larger than the opening and closing parts 112a, and the refrigerant is provided at the other end of the reinforcement parts 113a to secure the discharge flow path of the high pressure refrigerant at the compression space P side. More preferably, a predetermined open space 113h is discharged.

In addition, the retainer 113 is provided with a spring support portion 113b protruding to allow the discharge valve spring 114 to be fitted to a surface in a direction opposite to the surface in contact with the discharge valve 112, but the external force is greatly increased due to a collision or the like. In operation, the discharge valve 112 and the retainer 113 may be configured to open from the openings 111h of the valve plate 111 while compressing the discharge valve spring 114.

In addition, since the discharge valve spring 114, the discharge cap 116 and the discharge valve supporter 116 is formed in the same manner as the existing configuration, a detailed description thereof will be omitted.

Looking at the operation of the discharge valve assembly for a reciprocating compressor configured as described above, the discharge valve 112 and the retainer 113 is assembled to be in close contact with the valve plate 111 by the elastic force of the discharge valve spring 114.

Therefore, while the movable member 102 reciprocates linearly in the fixing member 104, when the internal pressure of the compression space P is less than the set discharge pressure, the openings and closing portions 112a and the retainer (112a) of the discharge valve 112 Since the reinforcement parts 113a of 113 closely contact the openings 111h of the valve plate 111 in the compression space P direction, the refrigerant is not discharged.

However, when the internal pressure of the compression space P is greater than or equal to the set discharge pressure, the opening and closing portions 112a of the discharge valve 112 and the reinforcement portions 113a of the retainer 113 are formed by the refrigerant pressure of the compression space P. Individually pushed in the opposite direction to the compression space (P), the opening and closing portions 112a of the discharge valve 112 and the reinforcing portions (113a) of the retainer 113 to open the openings (111h) of the valve plate 111 The high pressure refrigerant on the compression space P side passes through the predetermined open space 113h of the retainer 113 and the discharge space D inside the discharge cap 116 through a sound pipe (not shown). It is discharged to the outside.

Furthermore, recently, the reciprocating compressor can variably adjust the driving of the linear motor according to the required cooling force, thereby adjusting the reciprocating linear movement distance of the movable member 102 or adjusting the movement speed of the movable member 102. In this case, the discharge valve assembly 110 of the present invention may open only the openings 111h of the valve plate 111 communicating with the compression space P, so that the discharge valve assembly 110 may be individually opened. The opening and closing load of the 112 can be reduced, and cooling power can be increased by reducing the pressure of the refrigerant required for the opening and closing load of the discharge valve 112.

In addition, when the external force is large, the discharge valve spring 114 is compressed and the discharge valve 112 and the retainer 113 as a whole is pushed in the opposite direction to the compression space (P), the valve plate 111 of the As the openings 111h are fully opened, the high pressure refrigerant at the compression space P side may be discharged to alleviate the risk of explosion.

In the above, the present invention has been described in detail by way of examples based on the embodiments of the present invention and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

Discharge valve assembly for a reciprocating compressor according to the present invention configured as described above is provided with a plurality of openings in communication with the compression space, it is configured to open and close each opening individually can reduce the opening and closing load, open and close load There is an advantage that can increase the overall cooling power by reducing the pressure of the refrigerant required.

In addition, the discharge valve assembly for a reciprocating compressor according to the present invention is provided with a plurality of openings in communication with the compression space, and is configured to open and close each opening as well as individually, even if a large impact is applied. The high-pressure refrigerant on the compression space side is quickly escaped there is an advantage that can prevent the safety accident.

Claims (6)

In the discharge valve assembly for a reciprocating compressor in which the movable member reciprocates linearly inside the fixed member and controls the discharge of the compressed refrigerant in the compression space formed between the fixed member and the movable member, A valve plate installed to block the compression space and having at least one opening communicating with the compression space; And, A discharge valve assembly for a reciprocating compressor, comprising: a thin discharge valve stacked on the valve plate and having an opening and closing portion for opening and closing an opening of the valve plate. The method of claim 1, The valve plate is a discharge valve assembly for a reciprocating compressor, characterized in that formed integrally with one end of the fixing member. The method of claim 1, Discharge valve assembly for a reciprocating compressor, characterized in that a plurality of opening and closing portion is formed at regular intervals in the circumferential direction. The method of claim 1, A discharge valve assembly for a reciprocating compressor, further comprising: a retainer stacked on the discharge valve and having a reinforcement part interlocked with the opening and closing portion of the discharge valve. The method of claim 4, wherein And a spring for elastically supporting the retainer in an axial direction such that the retainer is in close contact with the compression space. The method of claim 4, wherein The retainer is in contact with the discharge valve, the discharge valve assembly for a reciprocating compressor, characterized in that a predetermined open space for discharging the refrigerant on one side of the reinforcement.

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