KR20100112480A - Discharge valve assembly for linear compressor - Google Patents

Abstract

PURPOSE: Discharge valve assembly of a linear compressor is provided to rapidly control a discharge valve according to the pressure change of a compression space since the elastic forces applied to the discharge valve vary depending on the open degree of the discharge valve. CONSTITUTION: Discharge valve assembly of a linear compressor comprises a discharge valve(61), a discharge cover(62), and at least two discharge valve springs(63,64). The discharge valve is installed in order to close a refrigerant compression space, opens and closes the compression space depending on the refrigerant pressure. The discharge cover is installed in order to accept the discharge valve and forms a space through which the refrigerant discharged from the compression space passes. The discharge valve spring is installed between the discharge valve and the discharge cover and supplies the elastic force applied to the closing direction of the discharge valve based on the open degree of the discharge valve. The more the discharge valve opens, the stronger the elastic force of the discharge valve spring is.

Description

Discharge valve assembly of linear compressor {DISCHARGE VALVE ASSEMBLY FOR LINEAR COMPRESSOR}

The present invention relates to a discharge valve assembly of a linear compressor in which the discharge valve is sensitively opened and closed according to the pressure of the compression space.

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 cross-sectional view showing an example of a linear compressor according to the prior art, Figure 2 is a front view showing an example of the wire lead-out shape in the linear compressor of the prior art.

The conventional linear compressor has a frame 2, a cylinder 3, a piston 4, an intake valve 5, a discharge valve assembly 6, a motor cover inside the sealed container 1 as shown in FIG. 7), the supporter 8, the back cover 9, the muffler assembly 10, eight springs 20, the structure consisting of the linear motor 30 is installed to be elastically supported. Of course, the sealed container 1 is provided with a suction tube 1a through which the refrigerant is sucked and a discharge tube 1b through which the compressed refrigerant is discharged. Of course, the oil supply device (not shown) which pumps oil to cool and lubricate the oil stored in the sealed container 1 by supplying / circulating oil into the gap between the cylinder 3 and the piston 4 and This includes an oil supply valve assembly (not shown) for controlling the supply of oil to be pumped.

The springs 20 are installed such that the piston 4 is elastically supported in the axial direction, and four first springs 21 are installed between the motor cover 7 and the supporter 8, and four second springs. The field 22 is installed between the supporter 8 and the back cover 9. Therefore, when the piston 4 moves in the direction of compressing the refrigerant, when the first springs 21 are elastically supporting the piston 4 while being compressed, while the piston 4 moves in the direction of sucking the refrigerant, The second springs 22 are compressed to elastically support the piston 4.

The linear motor 30 maintains an air gap between the inner stator 31 and the outer stator 32, and a permanent magnet 33 is installed between the inner stator 31 and the outer stator 32 so as to reciprocate linear motion. 33 is reciprocally driven as the piston 4 is connected to the piston 4 by the connecting member 34. The inner stator 31 is formed in a cylindrical shape in which laminations are laminated in the circumferential direction. The inner stator 31 is fitted to the outer circumferential surface of the cylinder 3 so that the axial end of the inner stator 31 abuts on one side of the frame 2, and then the fixing ring It is fixed by (not shown). The outer stator 32 has a plurality of cores coupled to the coil winding at regular intervals in the circumferential direction, and the cores are installed to surround the outer circumferential surface of the coil winding so that a pair of poles surrounds a portion of the inner circumferential surface of the coil winding. Is provided. Of course, the outer stator 32 is installed to maintain a gap with the outer circumferential surface of the inner stator 31, the outer stator 32 is positioned to abut the frame 2 and the motor cover 7 in the axial direction, and then the motor cover (7) is fixed as bolted to the frame (2). Permanent magnet 33 has an NS pole, it is installed so that each pole (NS) is located on the surface facing the inner stator 31 and the outer stator (32), by the connecting member 34 It is installed to connect with the piston (4). Therefore, the piston 4 is operated while the permanent magnet 33 reciprocates linearly by mutual electromagnetic force between the inner stator 31 and the outer stator 32 and the permanent magnet 33.

When the linear motor 30 is operated as described above, the piston 3 and the muffler assembly 10 connected thereto are reciprocated linearly, and the suction valve 5 and the discharge valve assembly are changed as the pressure of the compression space P is varied. (6) is operated, the refrigerant passes through the suction pipe (1a) of the sealed container (1), the opening of the back cover (9), the muffler assembly (10), the inlet of the piston (3) and the compressed space ( After being sucked into P) and compressed, it exits through the discharge valve assembly 6, the loop pipe (not shown), and the discharge pipe 1b of the sealed container 1 to the outside.

Figure 2 is a side cross-sectional view showing an example of the discharge valve assembly of the linear compressor according to the prior art.

As shown in FIG. 2, the discharge valve assembly 6 applied to the conventional linear compressor has a discharge valve 6a provided to be opened and closed at an open end of the cylinder 3, and a discharge space outside the discharge valve 6a. A discharge cover 6b coupled to one end of the cylinder 3 so as to form, and a discharge valve spring 6c that elastically supports the discharge valve 6a in the axial direction inside the discharge cover 6b. At this time, it is preferable that the discharge valve spring 6c is made of a coil spring having a predetermined rigidity so that the internal pressure of the compression space is excessively high in the refrigerant compression state.

However, in the discharge valve assembly of the linear compressor according to the prior art, a coil spring having a predetermined rigidity is used as the discharge valve spring 6c, and the discharge valve spring 6c is discharge valve (6a) while the discharge valve 6a is opened and closed. Since 6a) is elastically supported continuously, even if the pressure in the compression space changes, the discharge valve spring 6c is gradually compressed or relaxed, thereby delaying the opening and closing operation of the discharge valve 6a, and thus delaying the opening and closing of the discharge valve 6a. There is a problem that the loss of cold power occurs.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a discharge valve assembly of the linear compressor to open and close the discharge valve quickly in accordance with the pressure change in the compression space.

The present invention for solving the above problems is installed to block the compressed space in which the refrigerant is compressed, the discharge valve for opening and closing the compression space in accordance with the refrigerant pressure; A discharge cover installed to accommodate the discharge valve and forming a space through which the refrigerant discharged from the compression space passes; Disposed between the discharge valve and the discharge cover, the discharge of the linear compressor, characterized in that it comprises at least two discharge valve springs for providing a different amount of elastic force to push in the closing direction of the discharge valve according to the opening degree of the discharge valve Provide a valve assembly.

In addition, in the present invention, the discharge valve spring is characterized in that the larger the opening degree of the discharge valve is installed so that the magnitude of the elastic force.

In addition, in the present invention, the discharge valve springs include a main spring for providing a constant elastic force until the discharge valve is in the set open state, and an auxiliary spring for providing an additional elastic force in the discharge valve is in the set open state. It is done.

In addition, in the present invention, the main spring is supported by the center of the discharge valve and the discharge cover, to provide an elastic force in the closing direction of the discharge valve to the center of the discharge valve, the auxiliary spring is discharged in the set open state of the discharge valve It is installed on the discharge cover to abut the outer peripheral portion of the valve, characterized in that to provide an additional elastic force in the closing direction of the discharge valve in the outer peripheral portion of the discharge valve in the set open state of the discharge valve.

In the present invention, the main spring is a coil spring, and the auxiliary spring is a ring spring.

In addition, in the present invention, the discharge cover is characterized in that it comprises a circular first groove portion, the main spring is supported, and a circular second groove portion larger in diameter than the first groove portion so that the auxiliary spring is supported and stepped with the first groove portion.

The discharge valve assembly of the linear compressor according to the present invention configured as described above has a main spring elastically supported in a closed state of the discharge valve and an auxiliary spring supporting from a predetermined or more opened state of the discharge valve, so that Accordingly, the elastic force exerted on the discharge valves by the discharge valve springs acts differently, so that the discharge valve can be quickly opened and closed in response to the pressure change in the pressure space, and as a result, the operation reliability of the discharge valve can be improved, and further, the cooling force loss can be reduced. There is an advantage to this.

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

3 is a side cross-sectional view showing an example of the discharge valve assembly of the linear compressor according to the present invention, Figure 4 is a plan view showing an example of the auxiliary spring applied to FIG.

The discharge valve assembly of the linear compressor according to the present invention includes a discharge valve 61 for opening and closing one end of the cylinder 4 and a discharge space outside the discharge valve 61 as shown in FIGS. 3 to 4. Discharge cover 62 coupled to one end of the (4), and two discharge valve springs (63, 64) elastically supporting the discharge valve 61 inside the discharge cover 62, discharge valve springs ( 63 and 64 have different elastic forces applied to the discharge valve 61 according to the opening degree of the discharge valve 61.

More specifically, the discharge valve springs 63 and 64 may include a main spring 63 installed to elastically support the discharge valve 61 and the discharge cover 62 in the closed state of the discharge valve 61, and the discharge valve ( 61 is composed of an auxiliary spring 64 for supporting the discharge valve 61 in the axial direction only in the section from the opening point of the predetermined or more to the fully open point. At this time, the main spring 63 is a coil spring is used, the auxiliary spring 64 is a ring-shaped leaf spring is used, the main spring 63 may be mounted through the auxiliary spring 64. Of course, the stiffness of the main spring (63) and the auxiliary spring (64) must be maintained to withstand the excessive pressure of the compression space, but in the present invention, the sum of the stiffnesses of the main spring (63) and the auxiliary spring (63) is known. Since the discharge valve spring of the present invention may be the same as the rigidity of one coil spring, the main spring 63 of the present invention is preferably designed to reduce the rigidity compared to the conventional discharge valve spring. In addition, it is preferable that the sum of the rigidities of the main spring 63 and the auxiliary spring 64 of the present invention is designed to be larger than that of the existing discharge valve spring.

In addition, the discharge valve 61 is formed to be convex toward the center, the central portion (61a) is elastically supported by the main spring (63), the outer circumferential portion (61b) by the auxiliary spring (64) only more than a predetermined opening degree It is elastically supported. In addition, the discharge cover 62 includes a first groove portion 62a on which the main spring 63 is seated, and a second groove portion 62b on which the auxiliary spring 64 rests, and includes a main spring 63 and an auxiliary spring. According to the size of 64, the second groove portion 62b is preferably formed larger than the first groove portion 62a.

Accordingly, the main spring 63 and the auxiliary spring 64 are seated in the 1.2 grooves 62a, 62b of the discharge cover 62, and then the main spring 63 is mounted on the central portion 61a of the discharge valve 61. The discharge cover 62 is coupled to one end of the cylinder 4 to seat. At this time, since the main spring 63 is in contact with the discharge valve 61, the elastic force of the main spring 63 is applied to the discharge valve 61 to maintain the discharge valve 61 closed, but the auxiliary spring 64 Is spaced apart from the discharge valve 61, the elastic force of the auxiliary spring 64 is not applied to the discharge valve (61).

Looking at the operation of the discharge valve assembly 60 as described above, as the working fluid is sucked into the compression space, the pressure of the compression space is increased as it is compressed. At this time, the discharge valve 61 is kept closed by the elastic force of the main spring 63, but since only the elastic force of the main spring 63, which is smaller in rigidity, is applied, the pressure in the compression space is faster than the set pressure. The discharge valve 61 is opened. Of course, the main spring 63 gives a constant elastic force to the discharge valve 61 until the discharge valve 61 is set open state, and when the discharge valve 61 is set open state, in addition to the main spring 63 The auxiliary spring 64 imparts additional elastic force to the discharge valve 61, but does not prevent the refrigerant from escaping from the compression space because the discharge valve 61 maintains a set open state.

Then, when the high pressure working fluid exits the compression space, the pressure in the compression space is lowered. At this time, all of the elastic force of the main spring 63 and the auxiliary spring 64 acts on the discharge valve 61, but the pressure of the compression space is less than the set pressure because the elastic force of the main spring 63 and the auxiliary spring 64 acts larger than the existing elastic force. The discharge valve 61 is quickly closed.

FIG. 5 is a graph illustrating changes in volume and pressure of a compression space in an operating state of a linear compressor to which a conventional discharge valve assembly is applied and a linear compressor to which a discharge valve assembly of the present invention is applied.

While the volume of the compression space decreases as the working fluid is compressed, the conventional discharge valve assembly has a high rigidity of the discharge valve spring, so that the pressure in the compression space is excessively high as the discharge valve is kept closed even above the set pressure. In addition, since the discharge valve assembly of the present invention acts only on the rigidity of the main spring, it can be seen that the pressure of the compression space is not excessively high as the discharge valve is quickly opened above the set pressure.

After the compressed working fluid is discharged in the compression space, the conventional discharge valve assembly closes the discharge valve gradually because of the high rigidity of the discharge valve spring, whereas the discharge valve assembly of the present invention works together with the rigidity of the main spring and the auxiliary spring. Therefore, it can be seen that the discharge valve closes quickly.

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.

1 is a plan sectional view showing an example of a general linear compressor.

Figure 2 is a side cross-sectional view showing an example of the discharge valve assembly of the linear compressor according to the prior art.

Figure 3 is a side cross-sectional view showing an example of the discharge valve assembly of the linear compressor according to the present invention.

4 is a plan view showing an example of the auxiliary spring applied to FIG.

5 is a graph showing the volume and pressure change of the compression space in the operating state of the linear compressor to which the conventional discharge valve assembly is applied and the linear compressor to which the discharge valve assembly of the present invention is applied.

Claims (6)

A discharge valve installed to block a compression space in which the refrigerant is compressed, and opening and closing the compression space according to the refrigerant pressure; A discharge cover installed to accommodate the discharge valve and forming a space through which the refrigerant discharged from the compression space passes; Disposed between the discharge valve and the discharge cover, the discharge of the linear compressor, characterized in that it comprises at least two discharge valve springs for providing a different amount of elastic force to push in the closing direction of the discharge valve according to the opening degree of the discharge valve Valve assembly. The method of claim 1, Discharge valve springs are discharge valve assembly of the linear compressor, characterized in that the larger the opening degree of the discharge valve is installed so that the magnitude of the elastic force. The method of claim 2, The discharge valve springs include a main spring that provides a constant elastic force until the discharge valve is in a set open state, and an auxiliary spring that provides an additional elastic force when the discharge valve is in the set open state. Valve assembly. The method of claim 3, The main spring is supported by the center of the discharge valve and the discharge cover, provides an elastic force in the closing direction of the discharge valve to the center of the discharge valve, The auxiliary spring is installed in the discharge cover to be in contact with the outer circumference of the discharge valve in the set open state of the discharge valve, and provides additional elastic force in the closing direction of the discharge valve in the closed direction of the discharge valve in the set open state of the discharge valve. Discharge valve assembly of a linear compressor, characterized in that. The method of claim 4, wherein The main spring is a coil spring, The auxiliary spring is a discharge valve assembly of the linear compressor, characterized in that the ring spring. The method according to any one of claims 3 to 5, The discharge cover includes a circular first groove portion in which the main spring is supported, and a circular second groove portion in diameter larger than the first groove portion so that the auxiliary spring is supported and stepped from the first groove portion.

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