KR20040104758A - Discharge valve assembly of a linear compressor - Google Patents

Abstract

PURPOSE: A discharge valve assembly of a linear compressor is provided to reduce a noise by making the noise resonant in a space between inner and outer discharge covers. CONSTITUTION: A discharge valve(58c) is installed at one end of a cylinder(52) and is opened and shut according to a pressure of a refrigerant to discharge the refrigerant compressed in the cylinder. An inner discharge cover(58a) is fixed at one end of the cylinder for forming a refrigerant storage space inside to temporarily store the refrigerant discharged from the discharge valve. An outer discharge cover(58b) is installed surrounding the inner discharge cover at a predetermined gap for shielding a noise. A discharge pipe(58e) has one end connected with a discharge hole(58a') formed at the inner discharge cover and the other end placed outside the outer discharge cover.

Description

Discharge valve assembly of a linear compressor

The present invention relates to a discharge valve assembly of a linear compressor for controlling the discharge of the compressed refrigerant between the cylinder and the piston, and more particularly to a discharge valve assembly of the linear compressor that can minimize the flow loss of the refrigerant and at the same time reduce the flow noise will be.

In general, a compressor is a machine that compresses a fluid such as air or refrigerant gas. In a linear compressor, for example, a linear driving force of a motor is transmitted to a piston, and a piston reciprocates linearly inside a cylinder to generate refrigerant gas. The suction and compression is divided into a compression unit for compressing the refrigerant gas and a driving unit for supplying a driving force to the compression unit.

1 is a cross-sectional view showing the main portion of the linear compressor according to the prior art, Figure 2 is an exploded perspective view showing the discharge valve assembly of the linear compressor according to the prior art.

Looking at the compression unit for compressing the refrigerant gas in the linear compressor according to the prior art, as shown in FIGS. 1 and 2 and the hollow cylinder (2) of which one end is opened to form a compression space (P) for compressing the refrigerant gas; A piston (4) for compressing the refrigerant gas while linearly reciprocating in the cylinder (2), and an intake valve installed at one end of the piston (4) to allow the refrigerant gas to be sucked into the compression space (P) ( 6) and a discharge valve assembly 8 installed at one end of the cylinder 2 to discharge the refrigerant gas compressed in the compression space P to the outside.

Here, the piston 4 is connected to one end of the cylindrical piston body 4a and the piston body 4a, through which the refrigerant gas can flow, and a plurality of suction passages so that the refrigerant gas can flow therein ( 4h) is formed of a cylindrical piston head (4b), the piston 4 is connected to a linear compressor (not shown) at the other end so that the piston (4) linear reciprocating motion inside the cylinder (2) do.

Next, the suction valve 6 has a thin plate shape installed in the form of a cantilever in the center of the piston head 4b to open and close the suction passage 4h of the piston, and the center is screwed to the piston head 4b. It is bent in accordance with the refrigerant gas pressure in the compression space (P) to open the suction passage (4h).

Next, the discharge valve assembly 8 is a hemispherical discharge valve to open and close the compression space P inside the inner and outer discharge covers 8a and 8b installed to block one end of the cylinder 2. 8c is installed to be elastically supported by the inner discharge cover 8a by a valve spring 8d, and a plurality of discharge holes 8a 'are formed in the inner discharge cover 8a and the outer discharge cover. The cylindrical discharge pipe 8e is connected to 8b.

Therefore, the refrigerant compressed in the compression space P is temporarily stored in the inner discharge cover 8a, and then passes through the discharge hole 8a 'and passes between the inner and outer discharge covers 8a and 8b. It is discharged to the outside along the discharge pipe 8e.

Of course, since the inner and outer discharge covers 8a and 8b are installed to overlap, the discharge valve 8c is opened to alleviate the pulsation phenomenon of the refrigerant gas due to the sudden pressure fluctuation of the refrigerant, and at the same time, the fluid noise and the discharge valve. (8c) It is effective for sounding collision noise during opening and closing.

However, the discharge valve assembly of the linear compressor according to the prior art is provided with an inner discharge cover 8a having a plurality of discharge holes 8a 'and an outer discharge cover 8b to surround the inner discharge cover 8a, Since the discharge pipe 8 is installed to be connected to the outer discharge cover 8b, the refrigerant is discharged between the inner and outer discharge covers 8a and 8b through the plurality of discharge holes 8a 'and then the discharge pipe. Since the discharge resistance is increased along the discharge line 8e, the flow resistance increases, thereby reducing the compression efficiency, and the noise passing through the inner discharge cover 8a penetrates the outer discharge cover 8b to generate a lot of high frequency noise. have.

The present invention has been made to solve the above problems of the prior art, and provides a discharge valve assembly of a linear compressor that can reduce the flow resistance of the refrigerant by reducing the flow path of the compressed refrigerant is discharged at the same time to reduce the noise. There is a purpose.

1 is a cross-sectional view showing the main portion of a linear compressor according to the prior art,

2 is an exploded perspective view showing a discharge valve assembly of a linear compressor according to the prior art,

3 is a cross-sectional view showing a discharge valve assembly of the linear compressor according to the present invention;

4 is an exploded perspective view showing a discharge valve assembly of the linear compressor according to the present invention;

5A and 5B are views illustrating a compression process of the linear compressor according to the present invention.

<Explanation of symbols on main parts of the drawings>

52: cylinder 54: piston

56: suction valve 58: discharge valve assembly

58a: inner discharge cover 58b: outer discharge cover

58c: discharge valve 58d: valve spring

58e: discharge pipe 58e ': hole

Discharge valve assembly of the linear compressor according to the present invention for solving the above problems is installed in one end of the cylinder and the discharge valve is opened and closed in accordance with the pressure of the refrigerant so that the compressed refrigerant in the cylinder and the cylinder It is fixed to one end is installed to surround the inner discharge cover and the inner discharge cover having a refrigerant storage space formed therein so that the refrigerant discharged from the discharge valve is temporarily stored at a predetermined interval outside the inner discharge cover An outer discharge cover for shielding noise and a discharge pipe having one end connected to a discharge hole formed in the inner discharge cover to guide the refrigerant discharged to the inner discharge cover and the other end positioned outside the outer discharge cover. .

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

3 is a cross-sectional view showing a discharge valve assembly of the linear compressor according to the present invention, Figure 4 is an exploded perspective view showing a discharge valve assembly of the linear compressor according to the present invention.

The compression unit for compressing the refrigerant gas in the linear compressor according to the present invention, as shown in Figures 3 and 4 and the hollow cylinder 52 of which one end is open so that the compression space (P) for compressing the refrigerant gas is formed; A piston 54 for compressing the refrigerant gas while linearly reciprocating in the cylinder 52, and an intake valve 56 installed at one end of the piston 54 to allow the refrigerant gas to be sucked into the compression space P. And a discharge valve assembly 58 installed at one end of the cylinder 52 to discharge the refrigerant gas compressed in the compression space P to the outside through a straight pipe and to form an air layer. It is configured to include.

Here, the piston 54 is a cylindrical piston body 54a having a predetermined length so that refrigerant gas can flow therein, and a cylindrical piston head 54b formed to be connected to one end of the piston body 54a. And a plurality of suction passages (54h) formed in the piston head (54b) for guiding the refrigerant gas flowing through the piston body (54a) to the compression space (P) side, the piston A driving part (not shown) is connected to the other end 54 to allow the piston 54 to linearly reciprocate in the cylinder 52.

Next, the suction valve 56 is a thin plate shape installed in the center of the piston head 54 in the form of a cantilever to open and close the suction passage 54h of the piston, the center of which is screwed to the piston head 4b It is bent in accordance with the refrigerant gas pressure in the compression space (P) to open the suction passage (4h).

Next, the discharge valve assembly 58 is fixed to surround one end of the cylinder 52, and an inner discharge cover 58a having one discharge hole 58a 'formed at one side thereof, and an outer side of the inner discharge cover 58a. It is installed to surround the inner discharge cover (58a) at a predetermined interval in the outer discharge cover (58b) to shield the noise by forming an air layer, and inserted into the inner discharge cover (58a) and the compressed space ( A hemispherical plastic discharge valve 58c for opening and closing P and a circumferential portion of the discharge valve 58c so that the discharge valve 58c blocks the compression space P, the inner discharge cover 58a. Valve spring (58d) elastically supported on the) and one end is connected to the discharge hole (58a ') and the other end is installed so as to be located outside through the outer discharge cover (58b) to discharge the refrigerant Made of a pipe 58e.

At this time, the discharge pipe (58e) is a cylindrical straight pipe (straight pipe), the refrigerant gas temporarily stored in the inner discharge cover (58a) is guided to the outside because the flow path is shortened the refrigerant gas in a short time Can be discharged to the outside to increase the compression efficiency.

The discharge pipe 58e is formed with a hole 58e 'that allows noise to resonate into a space formed between the inner discharge cover 58a and the outer discharge cover 58b, and the position of the hole 58e'. And according to the size it is possible to reduce the noise of a specific frequency, it is possible to have a plurality of holes (58e ') formed.

Looking at the operation of the present invention configured as described above are as follows.

5A and 5B are views illustrating a compression process of the linear compressor according to the present invention.

First, the piston 54 receives power from the linear motor and sucks refrigerant gas into the compression space P formed between the piston 54 and the cylinder 52 while linearly reciprocating in the cylinder 52. After compression, the discharge process is repeated.

Specifically, as shown in FIG. 5A, as the piston 54 moves from the top dead center A to the bottom dead center C, the pressure of the compression space P is relatively lowered. In the state in which the compression space P is blocked, the suction valve 56 opens the suction passage 54h so that the refrigerant gas flows into the compression space P.

Next, as shown in FIG. 5B, as the piston 54 moves from the bottom dead center C to the top dead center A, the pressure of the compression space P becomes relatively high, so that the discharge valve 58c is In the state in which the compression space P is blocked, the suction valve 56 blocks the suction passage 54h so that the refrigerant gas is compressed in the compression space P, but the piston 54 has a top dead center ( When reaching A), the discharge valve 58c is opened, and the refrigerant gas compressed in the compression space P is discharged.

Here, as the discharge valve 58c is opened, the refrigerant compressed in the compression space P passes through the inner discharge cover 58a and is discharged to the outside along the discharge pipe 58e.

At this time, since the discharge pipe 58e has a relatively short straight tube shape, as the refrigerant is rapidly discharged to the outside, the flow resistance is reduced, thereby improving the compression efficiency.

In addition, the flow noise of the refrigerant and the noise due to the collision during opening and closing of the discharge valve 58c are shielded by the inner and outer discharge covers 58a and 58b, and the holes 58e formed in the discharge pipe 58e. ') Can be resonated to the space formed between the inner and outer discharge cover (58a, 58b) to reduce the noise.

The discharge valve assembly of the linear compressor according to the present invention configured as described above can increase the compression efficiency as the refrigerant passing through the inner discharge cover is discharged to the outside in a short time by the direct pipe discharge pipe is directly connected to the inner discharge cover, As noise is shielded by the inner and outer discharge covers, not only can noise be reduced, but holes are formed in the discharge pipe, so that the noise resonates into the space between the inner and outer discharge covers, thereby enhancing the noise reduction effect. have.

Claims (3)

A discharge valve installed at one end of the cylinder and opened / closed according to the pressure of the refrigerant to discharge the refrigerant compressed in the cylinder; An inner discharge cover fixed to one end of the cylinder and having a refrigerant storage space therein for temporarily storing the refrigerant discharged from the discharge valve; An outer discharge cover installed to surround the inner discharge cover at a predetermined interval outside the inner discharge cover to shield noise; And a discharge pipe having one end connected to a discharge hole formed in the inner discharge cover to guide the refrigerant discharged to the inner discharge cover and the other end disposed to be located outside the outer discharge cover. Valve assembly. The method of claim 1, The discharge pipe assembly of claim 1, wherein the discharge pipe is a straight pipe. The method of claim 2, The discharge pipe is a discharge valve assembly of a linear compressor, characterized in that a hole for resonating noise formed in the space formed between the inner discharge cover and the outer discharge cover.