KR100615800B1 - Discharge valve assembly for linear compressor - Google Patents

Abstract

The discharge valve assembly of the linear compressor according to the present invention includes a cylinder formed therein a compression space for compressing the sucked refrigerant as the piston reciprocates linearly therein, a discharge cover provided to be opened and closed at one end of the cylinder, and one end of the cylinder. A discharge cap fixed to the discharge cap to form a discharge space through which the refrigerant is discharged from the compression space, and elastically supported between the discharge cover and the discharge cap so that the discharge cover is disposed from one end of the cylinder according to the internal pressure of the compression space. A discharge valve spring for opening and closing, a ring-shaped discharge valve supporter seated at an inner edge of the discharge cap to cushion the vibration of the discharge valve spring to be transmitted to the discharge cap, and the discharge valve supporter contacting the discharge cap On at least one of the outer circumferential surface and the outer edge of the It is formed so as to project with the case comprises a support projection for reducing the contact area between the discharge valves and the discharge cap supporter.

Linear compressor, cylinder, discharge valve assembly, discharge valve supporter, protrusion, discharge cap

Description

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

1 is a side sectional view showing a discharge valve assembly of a linear compressor to which a conventional discharge valve supporter is applied;

Figure 2 is a perspective view of a conventional discharge valve supporter,

3 is a side sectional view showing a discharge valve assembly of a linear compressor to which a discharge valve supporter of the present invention is applied;

4 is a perspective view showing a first embodiment of a discharge valve supporter according to the present invention;

5 is a perspective view showing a second embodiment of the discharge valve supporter according to the present invention;

Figure 6 is a graph showing the operating noise of the conventional discharge valve supporter and the linear compressor to which each of the discharge valve supporter of the present invention is applied.

<Explanation of symbols on main parts of the drawings>

52: piston 54: cylinder

56: suction valve 62: discharge cover

64: discharge valve spring 68: discharge cap

70: discharge valve supporter 72: support protrusion

70h: slit hole

The present invention provides a linear compressor for compressing refrigerant sucked into a compression space as the piston reciprocates linearly in a cylinder, and a discharge cover is opened and closed by a discharge valve spring at one end of the cylinder to discharge the compressed refrigerant to the discharge space. The present invention relates to a discharge valve assembly, and more particularly, to a discharge valve assembly of a linear compressor, which can effectively improve the transmission of vibration transmitted between the piston and the cylinder through the discharge valve spring to the whole product.

In general, a compressor is a mechanical device that increases pressure by receiving power from a power generator such as an electric motor or a turbine to compress air, refrigerant, or various other working gases. It is widely used throughout.

These compressors are classified into a reciprocating compressor which compresses the refrigerant while linearly reciprocating the inside of the cylinder by forming a compression space in which the working gas is absorbed and discharged between the piston and the cylinder. And a rotary compressor for compressing the refrigerant while the roller is eccentrically rotated along the inner wall of the cylinder to form a compression space in which the working gas is sucked and discharged between the eccentrically rotating roller and the cylinder. As a scroll compressor that compresses the refrigerant while the rotating scroll rotates along the fixed scroll to form a compression space in which the working gas is absorbed and discharged between the orbiting scroll and the fixed scroll. Divided.

Recently, among the reciprocating compressors, in particular, the piston is directly connected to the reciprocating linear motion drive motor, so that there is no mechanical loss due to the motion conversion to improve the compression efficiency as well as a simple linear compressor has been developed a lot.

1 is a side cross-sectional view illustrating a discharge valve assembly of a linear compressor to which a conventional discharge valve supporter is applied, and FIG. 2 is a perspective view illustrating a conventional discharge valve supporter.

In the discharge valve assembly of the linear compressor according to the prior art, as shown in FIG. 1, the piston 2 is driven by a linear motor (not shown) to reciprocate linearly inside the cylinder 4, and thus the cylinder 4. And compresses the refrigerant sucked into the compression space P formed between the piston and the piston 4, and then discharges the refrigerant sucked into the discharge space D formed at one end of the cylinder 4, thereby blocking one end of the cylinder 4. A cover 12 is installed and a discharge cap 16 and a ring-shaped discharge valve supporter 20 are installed in the cylinder cap 4 so as to form the discharge space D at one end thereof. A spiral discharge valve spring 14 is installed between the cover 12 and the discharge cap 16 so that the discharge cover 12 is opened and closed according to the internal pressure of the compression space P.

Of course, a hole is formed at the end of the piston to allow the refrigerant to be sucked into the compression space, and a thin suction valve is screwed to open and close the hole, and one end of the cylinder to discharge the refrigerant from the compression space. Discharge valve assembly consisting of the opening and closing cover, the discharge valve spring, the discharge valve supporter and the discharge cap is installed, the intake valve and discharge valve assembly is controlled to open and close according to the internal pressure of the compression space.

Here, the discharge cover 12 is formed to be flat so that one surface (12A) is in close contact with one end of the cylinder (4) and at the same time the opposite surface 12B is protruded convex toward the center, the discharge in the center A seating groove 12h is stepped so that one end of the valve spring 14 can be seated.

Next, the discharge valve spring 14 is a spiral coil spring is used, one end of the small diameter is seated on the discharge cover 12 and the other end of the large diameter is supported by the discharge valve supporter 20.

Next, the discharge cap 16 is also assembled in a circular cap shape so that the end is fixed to one end of the cylinder 4, the refrigerant discharge pipe (not shown) for guiding the refrigerant to one side is connected and installed, the discharge The valve supporter 20 is formed in a ring shape having a cross section 'L' as shown in FIG. 2, and is seated in surface contact with an inner edge portion of the discharge cap 16.

At this time, the discharge valve spring 14 is made of a metal material having a high rigidity so as to push the discharge cover 12 to one end side of the cylinder 4 even if the compression space (P) maintains a high pressure state, Since the discharge cap 16 is made of a metal material having a high strength to withstand internal pressure even when the high pressure refrigerant compressed in the compression space P is temporarily stored, the discharge valve spring 14 is directly connected to the discharge cap ( In order not to contact 16, the discharge valve supporter 20 of a flexible material is installed inside the discharge cap 16.

Therefore, in the refrigerant discharge process, when the internal pressure of the compression space P is lower than the set discharge pressure as the piston 2 reciprocates linearly in the cylinder 4, the discharge cover 12 discharges the discharge. While the refrigerant is not discharged due to close contact with one end of the cylinder 4 by the elastic force of the valve spring 14, when the internal pressure of the compression space P is equal to or greater than a predetermined discharge pressure, the discharge cover 12 discharges the discharge. The valve spring 14 is compressed to open one end of the cylinder 4 so that the compressed refrigerant is discharged.

However, in the discharge valve assembly of the linear compressor according to the prior art, the discharge cover 12 is installed at one end of the cylinder 4 so as to be opened and closed by the discharge valve spring 14. Since one end is supported by the discharge cover 12 and the other end of the discharge valve spring 14 is supported by the discharge cap 16 fixed to one end of the cylinder 4 and the discharge valve supporter 20 seated thereon. Vibration generated while the piston 2 reciprocates linearly in the cylinder 4 is transmitted to the discharge valve supporter 20 and the discharge cap 16 in surface contact with the discharge valve spring 14 through the discharge valve spring 14. Not only is it amplified, there is a problem that the noise is increased.

The present invention has been made to solve the above problems of the prior art, it is possible to improve the vibration and noise performance by preventing the vibration generated by the piston reciprocating linear movement in the cylinder amplified and transmitted through the discharge valve spring. It is an object to provide a discharge valve assembly of a linear compressor.

The discharge valve assembly of the linear compressor according to the present invention for solving the above problems is provided with a cylinder formed therein a compression space in which the compressed refrigerant is compressed as the piston reciprocates linearly therein, and is installed to be opened and closed at one end of the cylinder. A discharge cap, a discharge cap fixedly installed at one end of the cylinder to form a discharge space through which the refrigerant is discharged from the compressed space, and installed to be elastically supported between the discharge cover and the discharge cap, according to the internal pressure of the compressed space. A discharge valve spring for allowing the discharge cover to be opened and closed from one end of the cylinder, a ring-shaped discharge valve supporter seated at an inner edge of the discharge cap to cushion the vibration of the discharge valve spring to be transmitted to the discharge cap, and the discharge Outer peripheral surface and outer edge of the discharge valve supporter in contact with the cap The protrusion is formed such that at least at regular intervals to any one consists of a support projection for reducing the contact area between the discharge valves and the discharge cap supporter.

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

3 is a side cross-sectional view illustrating a discharge valve assembly of a linear compressor to which a discharge valve supporter of the present invention is applied, and FIGS. 4 and 5 are perspective views illustrating first and second embodiments of the discharge valve supporter according to the present invention; Figure 6 is a graph showing the operating noise of the conventional discharge valve supporter and the linear compressor to which each of the discharge valve supporter of the present invention is applied.

As shown in FIG. 3, the discharge valve assembly of the linear compressor according to the present invention includes a discharge cover 62 and a discharge cover 62 positioned to cover one end of a cylinder 54 in which the piston 52 reciprocates linearly. Helical discharge valve spring 64, the ring-shaped discharge valve supporter 70 for supporting the other end of the discharge valve spring 64, and the support projection 72 formed integrally therewith, the cylinder 54 It is fixed to one end to form a discharge space (D) in the inside, as well as the support projection 72 is made of a discharge cap (68) in which the discharge valve supporter 70 is seated in a supported state.

Here, the cylinder 54 is installed so that the piston 52 reciprocates linearly by a linear motor (not shown), and a compression space in which a refrigerant is compressed between the piston 52 and the cylinder 54 ( P is formed, but a hole 52h is formed at one end of the piston 52 so that refrigerant can be sucked into the compression space P, and a thin suction valve 56 can be opened and closed at the hole 52h. Is installed.

Next, the discharge cover 62 is formed such that one surface 62A is flat so as to prevent one end of the cylinder 54, and the opposite surface 62B is convex toward the center, and the discharge is formed at the center thereof. A ring-shaped seating groove 62h is formed to be terminally formed so that one end of the valve spring 64 can be seated, and can withstand the pressure acting from the compression space P and the discharge space D as well as the The cylinder 54 is made of PEEK, a kind of engineering plastic, to be in close contact with one end.

Next, the discharge valve spring 64 is a spiral coil spring is applied to one end of the small diameter is supported by the discharge cover 62 and the other end of the large diameter is supported by the discharge valve supporter 70, the compression space Even if the internal pressure (P) is high, it is preferable that the discharge cover 62 is made of a metal material having a high rigidity so as to push the discharge cover 62 toward one end of the cylinder 54.

Next, one end of the discharge cap 68 is fixed to the outer peripheral surface of one end of the cylinder 54, a discharge space D for discharging the high-pressure refrigerant is formed inside the discharge cap 68, one side of the discharge cap 68 A refrigerant discharge pipe (not shown) is connected and installed to allow the refrigerant to be discharged to the outside, and it is preferable that the refrigerant is made of a metal material having a high strength to withstand the internal pressure of the discharge space D at a high pressure.

Next, the discharge valve supporter 70 is formed in a ring shape having a cross section 'L' as shown in FIG. 4, and the outer diameter of the discharge valve supporter 70 may be seated inside the discharge cap 68. The discharge cap 68 is formed to have a predetermined tolerance with the inner diameter, and is formed of a soft material such as Teflon to buffer the metal material such as the discharge valve spring 64 and the discharge cap 68. It is preferable to be produced with.

In this case, the support protrusion 72 is integrally formed with the discharge valve supporter 70 such that the support protrusion 72 protrudes convexly on both the outer circumferential surface or the outer edge or the outer circumferential surface and the outer edge of the discharge valve supporter 70 in contact with the discharge cap 68. Is formed, the support projections 72 are three are formed at regular intervals in the circumferential direction of the discharge valve supporter 70 so that it can be stably supported.

Of course, the support protrusion 72 has a vertex protruding from the discharge valve supporter 70 in contact with the discharge cap 68, and is formed long in the axial direction of the discharge valve supporter 70 so that the discharge valve supporter is formed. Support 70 to be in line contact with the discharge cap (68).

On the other hand, the discharge valve supporter 70 is formed such that the outer diameter of the discharge valve supporter 70 is the same as the inner diameter of the discharge cap 68 so that the outer peripheral surface is seated inside the discharge cap 68, the production As the size and shape may be deformed while undergoing heat treatment in the process, the support protrusion 72 is formed on the outer circumferential surface thereof so that the discharge valve supporter 70 is fitted to the discharge cap 68 accurately. To compensate for this, as illustrated in FIG. 5, the outer diameter of the discharge valve supporter 70 is larger than the inner diameter of the discharge cap 68, and at the same time, a slit hole 70h in which some sections are cut in the circumferential direction. ) Is formed.

Therefore, the discharge valve supporter 70 as described above is made of a soft material so that both ends of the slit hole 70h can be fitted into the discharge cap 68 so as to be assembled together during the manufacturing process. Due to the heat treatment, the size and shape may be deformed, or the support protrusion 72 may be formed on the outer circumferential surface of the discharge cap 68.

Such a discharge valve supporter 70 is a soft material and absorbs vibration itself as well as the support even though vibration generated between the piston 52 and the cylinder 54 is transmitted through the discharge valve spring 64. The vibration is attenuated and transmitted by being supported to the line cap by the protrusion 72 so as to be in line contact, and further, noise generated by the vibration can be reduced.

As described above, the noise generated during the operation of the discharge valve assembly of the linear compressor to which the discharge valve supporter is applied according to the present invention is compared with the noise generated while the discharge valve assembly of the linear compressor to which the discharge valve supporter according to the prior art is operated. As shown in FIG. 6, it can be seen that the present invention reduces noise compared to the prior art while the linear motor is operated in the full frequency region, in particular, while the linear motor is operated in the high frequency region. It can be seen that the noise is much reduced.

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.

The discharge valve assembly of the linear compressor according to the present invention configured as described above is installed so that the discharge valve spring is elastically supported between the discharge cover that covers one end of the cylinder and the discharge cap fixed to the end of the cylinder and the discharge valve supporter seated thereon. Since the support projection is formed to protrude convexly on the outer circumferential surface of the valve supporter, even if the vibration generated between the piston and the cylinder is transmitted to the valve spring through the discharge valve spring, the discharge valve supporter is in direct contact with the discharge cap by the support protrusion. By being installed, the vibration can be prevented from being amplified and transmitted, and furthermore, the noise generated by the vibration can be reduced.

Claims (5)

A cylinder having a compression space formed therein to compress the sucked refrigerant as the piston reciprocates linearly therein; A discharge cover installed to open and close at one end of the cylinder, A discharge cap fixedly installed at one end of the cylinder to form a discharge space through which the refrigerant is discharged from the compressed space; A discharge valve spring installed to be elastically supported between the discharge cover and the discharge cap to open and close the discharge cover from one end of the cylinder according to an internal pressure of the compression space; A ring-shaped discharge valve supporter seated at an inner edge of the discharge cap to buffer the vibration of the discharge valve spring to be transmitted to the discharge cap; It is formed to protrude at least one of the outer peripheral surface and the outer edge of the discharge valve supporter in contact with the discharge cap, characterized in that it comprises a support projection for reducing the contact area between the discharge valve supporter and the discharge cap Discharge valve assembly of linear compressor. The method of claim 1, The support protrusion is formed in the axial direction of the discharge valve supporter is discharge valve assembly of the linear compressor, characterized in that formed in line contact with the inner peripheral surface of the discharge cap. The method according to claim 1 or 2, And at least three or more support protrusions are formed at regular intervals in a circumferential direction of the discharge valve supporter. The method of claim 3, wherein The discharge valve supporter and the support protrusion is a discharge valve assembly of the linear compressor, characterized in that made of a soft material to be transmitted with reduced vibration. The method of claim 4, wherein The discharge valve supporter is a discharge valve assembly of a linear compressor, characterized in that the slit hole is cut in a portion of the circumferential direction so that the discharge valve supporter is fitted to the discharge cap even if the size and shape is deformed.

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