KR100575826B1 - Suction valve support device for reciprocating compressor - Google Patents

Abstract

The present invention relates to a device for maintaining a gap of a suction valve for a reciprocating compressor, and the present invention forms a plurality of gas passages penetrating in the longitudinal direction to a body portion, and the spring accommodation grooves to be negatively shaped to a predetermined depth in the center of the end surface A piston forming a fastening groove in the center of the spring accommodation groove; A suction valve which opens and closes a gas passage of the piston by forming a bolt hole at a center thereof so as to be fixedly coupled to the front end surface of the piston so as to correspond to a spring receiving groove of the piston; A suction valve spring supporting the center of the suction valve and inserted into a spring accommodation groove of the piston such that the suction valve maintains a fine gap at the front end surface of the piston; And a head portion wider than the bolt hole of the suction valve to support the suction valve, a connection portion connected to the head portion and passing through the bolt hole of the suction valve and the suction valve spring, and a screw at the end of the connection portion. And a valve support bolt formed of a fixing part for fastening to the fastening groove of the piston, thereby reducing the surface tension between the suction valve and the piston, thereby increasing the opening speed of the suction valve and increasing the stress concentration on the suction valve. Prevents the life of the valve can be extended. In addition, it is possible to improve the performance of the compressor to stabilize the behavior of the intake valve to reduce the noise while increasing the cooling power.

Description

Spacing device of suction valve for reciprocating compressor {SUCTION VALVE SUPPORT DEVICE FOR RECIPROCATING COMPRESSOR}

1 is a longitudinal sectional view showing a compression mechanism of a conventional reciprocating compressor;

Figure 2 is a perspective view of the intake valve disassembled from the piston in the conventional reciprocating compressor,

Figure 3 is a schematic view showing the behavior of the suction valve in the conventional reciprocating compressor,

4 is a longitudinal sectional view showing a compression mechanism of the present invention reciprocating compressor;

Figure 5 is a perspective view of the intake valve disassembled in the piston in the present invention reciprocating compressor,

Figure 6 is a schematic view showing the behavior of the intake valve in the reciprocating compressor of the present invention.

** Description of symbols for the main parts of the drawing **

2: cylinder 6: discharge valve

10: piston 11: body part

12: head portion 13: first gas passage

14: second gas passage 15: spring receiving groove

16: tightening groove 20: suction valve

21: Bolt hole 30: Intake valve spring

40: valve support bolt 41: head

42: connection portion 43: fixing portion

P: compression chamber S: discharge chamber

The present invention relates to a reciprocating compressor, and more particularly, to a space maintaining apparatus of a suction valve for a reciprocating compressor supporting the initial interval of the suction valve.

In general, the reciprocating compressor is a piston in the reciprocating motion in a straight line inside the cylinder to suck and compress the gas discharge, Figure 1 is a longitudinal cross-sectional view showing the compression mechanism of the conventional reciprocating compressor, Figure 2 is a conventional suction valve assembly Is a perspective view of the exploded view.

As shown in the drawing, the conventional reciprocating compressor includes a linear cylinder (2) fixed to the frame (1), a sliding insert into the cylinder (2), and a reciprocating motor (not shown). A piston (3) which forms a compression chamber (P) on the front side and slides back and forth inside the cylinder (2) by connecting to a ruler, and is installed on the front surface of the piston (3) to open and close the suction side. A suction valve 4, a discharge cover 5 covering the front side of the cylinder 2 to form a predetermined discharge chamber S, and a compression chamber of the cylinder 2 inside the discharge cover 5 ( The discharge valve 6 which opens and closes P), the discharge valve spring 7 which supports the compression back surface of the discharge valve 6 with respect to the discharge cover 5, and is compressed by being installed on one side of the discharge cover 5, and compressed. The gas discharge pipe 8 which guides gas to a refrigeration cycle apparatus is included.

The piston 3 has a trunk portion 3a having an annular rod shape having a predetermined length, a head portion 3b formed at the front side of the trunk portion 3a and providing the suction valve 4, and a trunk portion ( It is formed in a flange shape on the rear side of 3a) and consists of a connecting portion (not shown) for connecting with the electric mechanism part.

In addition, the piston 3 forms one first gas passage 3c with a predetermined depth from the rear end to the front side so that the refrigerant gas can flow in the center of the body portion 3a, and the first gas passage 3c. Several second gas passages 3d are formed at regular intervals along the circumferential direction so as to communicate with the edge of the head portion 3b from the inside of the circumferential direction.

In the center of the front end face of the head portion 3b, a fastening groove 3e for coupling the intake valve 4 for opening and closing the second gas passage 3d with the fastening bolt 9 is formed.

The suction valve 4 is formed of a circular plate of a thin plate so as to correspond to the front end face of the piston 3, and a bolt hole 4a is formed in the center of the circular plate so that the above-mentioned fastening bolt 9 passes.

Moreover, surface tension is generated around the bolt hole 4a of the suction valve 4 by the lubricating oil which the suction valve 4 flows in through the gas passage 3c, 3d of the piston 3, and this surface In order to prevent the suction valve 4 from sticking to the piston 3 due to tension, the fine bent portion 4b is formed outward to maintain the initial interval t.

The fastening bolt 9 has a diameter larger than the bolt hole 4a of the suction valve 4, and extends to the head 9a for fixing the suction valve 4 and the inner surface of the head 9a. It consists of a fixing portion (9b) formed to pass through the bolt hole (4a) of the intake valve (4) and then to the fastening groove (3e) of the piston (3).

The compression mechanism of the conventional reciprocating compressor as described above operates as follows.

The conventional reciprocating compressor as described above operates as follows.

That is, when power is applied to the reciprocating motor (not shown), the mover of the reciprocating motor linearly reciprocates according to the flux direction of the stator, and the piston 3 coupled to the mover moves linearly inside the cylinder 2. While reciprocating, the refrigerant gas is sucked into the compression chamber P of the cylinder 2 through the first gas passage 3c and the second gas passage 3d, and then compressed to discharge the chamber S of the discharge cover 5. Repeat the series of ejection steps.

At this time, the suction valve 4 opens and closes the second gas passage 3d of the piston 3 while the edge thereof is bent and stretched while the center thereof is supported by the head portion 9a of the fastening bolt 9. It was to limit the intake of refrigerant gas.

However, in the intake valve of the conventional reciprocating compressor as described above, the center of the intake valve (4) is in close contact with the front end surface of the piston (3) by the fastening bolt (9) to open and close only the edge to increase the rigidity While there was a problem that the opening speed is slow.

In addition, while a small amount of oil is sucked together during the suction of the refrigerant gas, a surface tension is generated between the front end surface of the piston 3 and the suction valve 4, and the suction valve 4 is driven by the surface tension. In particular, the opening speed of the intake valve 4 was further slowed by sticking to the front end surface of the intake valve. In the related art, in consideration of this, the front end surface of the piston 3 is bent in advance by bending the edge of the intake valve 4 outward. Although the fine bent portion 4b is formed to maintain the fine interval t with the concentrated load applied at the bending point a of the fine bent portion 4b, the fatigue of the intake valve 4 increases and the life is shortened. Of course, there is a problem that the behavior is unstable, the valve hit is increased and the cold power is lowered.

The present invention has been made in view of the problems of the conventional reciprocating compressor as described above, to increase the opening speed of the intake valve as well as to reduce the concentrated load to prevent breakage due to fatigue, to stabilize the behavior of the valve stroke or cold power SUMMARY OF THE INVENTION An object of the present invention is to provide a space keeping device of a suction valve for a reciprocating compressor capable of improving the temperature.

In order to achieve the object of the present invention, to form a plurality of gas passages penetrating in the longitudinal direction in the body portion, and to form a spring receiving groove in a negative depth to a predetermined depth in the center of the front end surface, in the center of the spring receiving groove A piston forming a fastening groove; A suction valve which opens and closes a gas passage of the piston by forming a bolt hole at a center thereof so as to be fixedly coupled to the front end surface of the piston so as to correspond to a spring receiving groove of the piston; A suction valve spring supporting the center of the suction valve and inserted into a spring accommodation groove of the piston such that the suction valve maintains a fine gap at the front end surface of the piston; And a head portion wider than the bolt hole of the suction valve to support the suction valve, a connection portion connected to the head portion and passing through the bolt hole of the suction valve and the suction valve spring, and a screw at the end of the connection portion. It provides a spacing device of the intake valve for the reciprocating compressor including a; valve support bolt made of a fixed portion for fastening to the fastening groove of the piston.

EMBODIMENT OF THE INVENTION Hereinafter, the space | interval maintenance apparatus of the suction valve for reciprocating compressors of this invention is demonstrated in detail based on one Example shown in an accompanying drawing.

Figure 4 is a longitudinal sectional view showing a compression mechanism of the reciprocating compressor of the present invention, Figure 5 is a perspective view showing the intake valve disassembled from the piston in the reciprocating compressor of the present invention, Figure 6 is the behavior of the suction valve in the reciprocating compressor of the present invention Is a schematic diagram.

As shown in the drawing, the compression mechanism of the reciprocating compressor according to the present invention includes a linear cylinder 2 fixed to the frame 1 and a mover of a reciprocating motor (not shown), which is slidably inserted into the cylinder 2. Piston 10 to form a compression chamber (P) on the front side while sliding back and forth in the inside of the cylinder (2) by connecting to, and installed to repeat the deformation and restoration on the front surface of the piston (10) The suction valve 20 for opening and closing the suction side and the piston 10 are supported on the central portion of the suction valve 20 so that the suction valve 20 maintains a fine interval t at the front end surface of the piston 10. ), A suction valve spring 30 inserted into the cylinder, a discharge cover 5 covering the front side of the cylinder 2 to form a predetermined discharge chamber S, and a cylinder 2 inside the discharge cover 5; The discharge valve 6 for opening and closing the compression chamber P of the < RTI ID = 0.0 >) < / RTI > A spring (7).

The piston 10 has a body portion 11 having a round rod shape having a predetermined length, a head portion 12 formed at the front side of the body portion 11 to install the suction valve 20, and a body portion ( 11) is formed in a flange shape on the rear side and consists of a connecting portion (not shown) for connecting with the power mechanism.

The body portion 11 forms one first gas passage 13 at a predetermined depth from the rear end to the front to allow the refrigerant gas to flow in the center thereof, and the head portion inside the first gas passage 13. Several second gas passages 14 are formed through the circumferential direction at equal intervals so as to communicate with the edge of (12).

A spring accommodation groove 15 is formed at the center of the front end face of the head portion 12 so as to insert a suction valve spring 30 for supporting the suction valve 20 for opening and closing the second gas passage 14. In the center of the inner side of the (15) to form a fastening groove 16 for coupling the intake valve 20 to the valve support bolt 40 stepped.

The suction valve 20 is formed of a circular plate of a thin plate to correspond to the front end surface of the piston 10, and the bolt hole 21 is formed in the center of the circular plate so that the valve support bolt 40 passes.

The suction valve spring 30 is formed of a compression coil spring having a diameter smaller than the diameter of the head portion 41 of the valve support bolt 40.

The valve support bolt 40 is formed to be wider than the bolt hole 21 of the suction valve 20 so as to be connected to the head 41 and the head 41 for supporting the suction valve 20. A screw 42 is formed at the end of the connecting portion 42 through the bolt hole 21 and the suction valve spring 30 of the 20 and the fastening groove 16 of the piston 10 is fastened. It consists of the government (43).

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the figure, 8, which is not described, is a gaseous tube.

The spacing device of the suction valve for the reciprocating compressor of the present invention as described above has the following effects.

That is, when power is applied to the stator of the reciprocating motor (not shown), the mover of the reciprocating motor moves linearly reciprocating along the flux direction of the stator together with the piston 10, and the piston 10 of the cylinder 2 While reciprocating in a straight line, the refrigerant gas is sucked into the compression chamber P of the cylinder 2, compressed and discharged into the discharge chamber S of the discharge cover 5.

Here, the suction valve 20 is mounted on the front end surface of the piston 10 to adjust the suction amount of the refrigerant gas sucked into the compression chamber P through the first gas passage 13 and the second gas passage 14. The inlet valve 20 has a center thereof and a second gas passage 14 is bent around its center as the second gas passage 14 is formed along the circumferential direction. ) Will be opened and closed.

At this time, the suction valve 20 is elastically supported by the suction valve spring 30 provided between the front end surface of the piston 10 without forming a fine bent portion by a minute interval (t) from the front end surface of the piston 10 Even though the lubricating oil is sucked through the gas passages 13 and 14, the opening speed of the suction valve 20 is prevented by preventing the suction valve 20 from sticking to the front end surface of the piston 10 due to the surface tension. Can increase.

In addition, as described above, since the minute bent portion is not formed in the intake valve 20, the stress is prevented from being concentrated during opening and closing of the intake valve 20, thereby preventing the life of the valve from shortening due to fatigue, and preventing the behavior of the valve. It is possible to improve the compressor performance by increasing the cooling power while reducing the valve sound by stabilizing.

The space maintaining device of the suction valve for the reciprocating compressor according to the present invention supports the suction valve with a spring and is spaced apart from the front end surface of the piston by a minute interval, thereby reducing the surface tension between the suction valve and the piston to reduce the opening speed of the suction valve. In addition to increasing the life of the valve by preventing stress concentration on the intake valve. In addition, it is possible to improve the performance of the compressor to stabilize the behavior of the intake valve to reduce the noise while increasing the cooling power.

Claims (3)

A piston forming a plurality of gas passages penetrating in the longitudinal direction in the body portion, forming a spring receiving groove so as to be negatively formed at a predetermined depth in the center of the front end surface thereof, and forming a fastening groove in the center of the spring receiving groove; A suction valve which opens and closes a gas passage of the piston by forming a bolt hole at a center thereof so as to be fixedly coupled to the front end surface of the piston so as to correspond to a spring receiving groove of the piston; A suction valve spring supporting the center of the suction valve and inserted into a spring accommodation groove of the piston such that the suction valve maintains a fine gap at the front end surface of the piston; And A head portion formed wider than the bolt hole of the suction valve to support the suction valve, a connection portion connected to the head portion through the bolt hole of the suction valve and the suction valve spring, and a screw formed at the end of the connection portion And a valve support bolt having a fixing part which is fastened to the fastening groove of the piston. The method of claim 1, The suction valve spring is a space keeping device of the suction valve for the reciprocating compressor, characterized in that the compression coil spring having a diameter smaller than the head diameter of the valve support bolt. The method according to claim 1 or 2, The gas passages include a first gas passage penetrating the center of the body portion in a longitudinal direction, and a plurality of second gas passages communicating with the first gas passage and formed at equal intervals along the circumferential direction at the edge of the front end surface of the body portion. An interval maintaining device of a suction valve for a reciprocating compressor, characterized in that made.

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