KR100820145B1 - Gas suction device for reciprocating compressor - Google Patents

Abstract

In the gas suction device of a reciprocating compressor according to the present invention, a guide flow path is formed to communicate with the suction flow path at a guide portion of a suction valve slipped into a suction flow path of a piston, and a refrigerant guide surface is formed between the guide flow path and the opening / closing portion. Alternatively, the guide passage is formed in the suction passage of the piston, so that the refrigerant sucked through the suction passage of the piston can be smoothly sucked in the guide passage of the suction valve. In addition, the intake valve is opened by sliding, so that even if the intake valve is repeatedly opened and closed for a long time, it is possible to prevent the valve from being damaged and to prevent the deterioration of reliability due to the formation of a dead volume or detachment when the intake valve is fixed. Can be.

Description

GAS SUCTION DEVICE FOR RECIPROCATING COMPRESSOR}

1 is an exploded perspective view showing a gas suction device in a conventional reciprocating compressor;

2 is an exploded perspective view showing a gas suction device in the reciprocating compressor according to the present invention;

Figure 3 is a perspective view of the intake valve from the rear in the present invention reciprocating compressor,

Figure 4 is a cross-sectional view showing a gas suction process in the reciprocating compressor of the present invention,

5 is a cross-sectional view showing a gas discharge process in the reciprocating compressor of the present invention,

Figure 6 is a cross-sectional view showing another embodiment of a gas suction device in the reciprocating compressor of the present invention.

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

110,210: Piston 111,211: Suction channel

111a, 211c: fixed side sealing surface 112: pin hole

120,220: suction valve 121,221: guide part

121a, 211a: guide passage 121b, 121c, 211b, 221a: refrigerant guide surface

122,222: opening and closing part 122a, 222a: movable side sealing surface

123,223: Guide hole 130,230: Guide pin

The present invention relates to a gas suction device of a reciprocating compressor, and more particularly, to a gas suction device of a reciprocating compressor which can increase the stability of the suction valve and increase the suction efficiency of the refrigerant by using an inertial valve.

In general, a reciprocating compressor compresses a refrigerant while the piston moves in a straight line relative to a cylinder, and a suction flow passage is formed in the piston so that the refrigerant is sucked in, and a suction flow passage is formed at the front end of the suction flow passage. A suction valve is installed to regulate the refrigerant sucked through. The suction valve is usually composed of a lead-type valve whose one side is fixed to the front end surface of the piston to open and close the suction flow path.

1 is an exploded perspective view showing an example of a gas suction device of a reciprocating compressor using a conventional reed valve.

As shown therein, the gas suction device of a conventional reciprocating compressor has a suction passage 11 formed therein and is coupled to a mover of a reciprocating motor (not shown) to reciprocate linearly together. And a suction valve 20 mounted on the front end surface of the piston 10 and formed of a thin plate body to open and close the suction channel 11 according to the reciprocating motion of the piston 10.

The suction valve 20 has a thin plate body cut in an open shape so that the center thereof is fixed to the center of the front end surface of the piston 10, and a fixing portion 21 is formed. An edge of the fixing portion 21 forms the piston. An opening / closing part 22 is formed to open and close the suction flow path 11 of 10, and both arm-shaped elastic parts 23 are integrally formed between the fixing part 21 and the opening and closing part 22.

The suction valve 20 may fasten and fix the fixing portion 21 to the front end surface of the piston 10 by using the bolt 30 as shown in FIG. 1, but the fixing portion is not shown in the drawing but the piston is fixed. It may be fixed to the front end of the welding or by pressing a magnet in the center of the front end of the piston may be fixed to the fixed portion of the suction valve by magnetic force. In the drawings, reference numeral 12 denotes a fastening groove and 24 a fastening hole.

However, in the gas suction device of the conventional reciprocating compressor as described above, as the suction valve 20 is formed by cutting the thin plate, the rigidity of the suction valve 20 is lowered, thereby continuously repeating the opening and closing operation. There was a risk of breakage at the incision site.

In addition, when the fastening bolt 30 is used to fix the intake valve 20, a private volume is generated by the height of the protrusion of the fastening bolt 30, and when the welding bolt and the magnet are fixed by the suction valve 20, respectively. ) Is released from the piston, which may lower the reliability.

The present invention has been made in view of the above problems of the gas suction device of the conventional reciprocating compressor, and provides a gas suction device of the reciprocating compressor that can prevent the intake valve from being damaged due to a long time repeated opening and closing operation. I want to do that.

It is also an object of the present invention to provide a gas suction device of a reciprocating compressor that can prevent the dead volume is generated or released when fixing the intake valve to reduce the reliability.

In order to achieve the object of the present invention, a piston coupled to the mover of the reciprocating motor to reciprocate in a straight line and the suction flow passage is formed in the axial direction so that the refrigerant is sucked therein; And an inlet valve extending in the axial direction of the piston in contact with the suction channel of the piston and slidingly inserted into the piston, and an opening / closing portion for opening and closing the suction channel at the end of the guide unit. The guide portion of the valve is spaced apart from the suction flow path of the piston is provided with a guide flow path to communicate with the suction flow path, the gas suction device of the reciprocating compressor provided with a curved or inclined refrigerant guide surface is formed at the downstream end of the guide flow path is provided. do.

In addition, the suction flow passage is formed in the axial direction to be coupled to the mover of the reciprocating motor reciprocating in a straight line so that the refrigerant is sucked therein, and the groove along the axial direction on the main surface from the middle to the end of the downstream downstream of the suction flow passage. A piston in which at least one guide passage is engraved in a shape; And a guide part slidably inserted into the suction flow path of the piston and formed so that the guide flow path communicates with the suction flow path during the reciprocating motion of the piston, and an opening and closing portion extended to open and close the suction flow path at the end of the guide. Provided is a gas suction device for a reciprocating compressor including a valve.

Hereinafter, a gas suction device of a reciprocating compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 2 is a perspective view showing an exploded gas intake device in the reciprocating compressor of the present invention, Figure 3 is a perspective view showing a suction valve from the rear of the reciprocating compressor of the present invention, Figure 4 is a gas suction process in the reciprocating compressor of the present invention 5 is a cross-sectional view showing a gas discharge process in the reciprocating compressor of the present invention.

As shown therein, the gas suction device of the reciprocating compressor of the present invention includes a piston 110 through which a suction flow path 111 is formed and coupled to a mover of a reciprocating motor (not shown) to reciprocate in a straight line. And, the suction is inserted into the suction flow path 111 of the piston 110, the suction to open and close the suction flow path 111 while moving relative to the piston 110 by the inertia during the reciprocating movement of the piston 110 The valve 120 and the suction valve 120 is composed of a guide pin 130 for slidingly coupled to the piston (110).

The piston 110 is formed in a cylindrical shape so that the suction passage 111 is provided therein, and the downstream end of the suction passage 111 corresponds to the opening / closing portion 122 of the suction valve 120 to be described later. A fixed side sealing surface 111a is formed to be inclined (or curved) to extend toward the side.

In addition, the downstream of the piston 110, the pin hole 112 is formed through the radial direction so that the guide pin 130 is inserted in the radial direction and fixed.

 The suction valve 120 is integrally formed at the end of the guide portion 121 and the guide portion 121 which is slidably coupled to the suction flow path 111 of the piston 110 to open and close the suction flow path. The opening and closing part 122 is made.

The guide portion 121 is formed as a circular cross section having a predetermined length, and the guide flow path (D-cut) or engraved on both sides of the outer peripheral surface (or may be formed at equal intervals along the circumferential direction) 121a) is formed long in the axial direction. Further, the first refrigerant guide surface 121b is curved or inclined at the downstream end of the guide passage 121a, that is, the end contacting the opening / closing portion 122 so that the refrigerant flowing through the guide passage 121a can be smoothly sucked. Is formed. In addition, it is preferable that the second refrigerant guide surface 121c is formed such that the upstream end of the guide passage 121a, that is, the end contacting the refrigerant for the first time, is inclined or convexly curved in a wedge shape.

In addition, the middle portion of the guide portion 121 is formed with a long hole-shaped guide hole 123 in the axial direction so that the guide pin 130 can be slid in the axial direction.

The opening and closing portion 122 is formed in a disk shape, the compression surface is formed to be inclined or curved so as to be fitted to the fixed side sealing surface 111a of the piston 110, the movable side sealing surface 122a is formed. In addition, it is preferable that the compression rear surface of the opening part 122 is formed in a flat shape so as to coincide with the front end surface of the piston to minimize the dead volume.

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

That is, when the piston 110 reciprocates linearly with the mover of the reciprocating motor (not shown), the suction valve 120 is inserted and coupled to slide in the suction flow path 111 of the piston 110 inertia. By opening and closing the suction flow path 111 while the relative movement with the piston.

For example, when the piston 110 moves backward as shown in FIG. 4, the suction valve 120 moves relative to the piston 110 along the guide pin 130 in the opposite direction, that is, in the opening direction. The movable side sealing surface 122a of the intake valve 120 is spaced apart from the fixed side sealing surface 111a of the piston 110. Accordingly, the guide passage 121a of the suction valve 120 opens to open the piston. The refrigerant sucked through the suction channel 120 of 110 moves along the guide channel 121a and is sucked into the compression space of the cylinder (not shown). At this time, the first and second coolant guide surfaces 121b and 121c are formed to be curved or inclined upstream of the guide part 121 and the upstream end of the inlet valve 120, respectively. The second refrigerant guide surfaces 121b and 121c may be smoothly sucked without eddy phenomenon.

On the other hand, when the piston 110 moves forward, as shown in FIG. 5, the suction valve 120 moves relative to the piston 110 along the guide pin 130 in the opposite direction, that is, in the closing direction. The movable sealing surface 122a of the intake valve 120 comes into close contact with the fixed sealing surface 111a of the piston 110, and thus the refrigerant flows through the suction passage 111 of the piston 110. Inhalation is stopped. Here, the front end surface of the intake valve 120 is coincident with the front end surface of the piston 110, so that the increase in the dead volume can be prevented in advance.

In addition, the intake valve 120 is opened and closed by simply sliding the inlet flow path 111 by the inertia, even if used for a long time, the intake valve 120 itself is less likely to be damaged by fatigue and thereby the intake valve ( 120) and the reliability of the reciprocating compressor applying the same is improved.

On the other hand, if there is another embodiment of the gas suction device of the reciprocating compressor according to the present invention.

That is, in the above-described embodiment, the guide passage 121a is formed in the intake valve 120. However, the embodiment of the present invention has the guide described above on the inner circumferential surface of the suction passage 211 of the piston 210. The flow path 211a is formed.

To this end, at least one guide passage 211a (two in the figure) is engraved in a groove shape along the axial direction on the inner circumferential surface of the suction passage 211 of the piston 210, that is, the inner circumferential surface from the middle to the end of the downstream side. The guide portion 221 of the suction valve 220 is formed in a circular cross section so as to be in sliding contact with the entire inner circumferential surface of the suction passage 211 of the piston 210. Here, the length of the guide portion 221 of the intake valve 220 is preferably formed to have a length such that the guide passage 211a can communicate with the suction passage 211 when the suction valve 220 is opened. .

In this case, the end of the guide portion 221 of the intake valve 220, that is, the upstream end of the guide portion 221 is formed in a wedge shape so that the second refrigerant guide surface 221a is inclined or curved to smooth the flow of the refrigerant. Preferably, the first refrigerant guide surface 211b is formed such that the upstream end of the guide flow path 211a is inclined or curved to prevent the eddy phenomenon of the refrigerant.

In addition, the inclined or curved movable side sealing surface 222a is formed in the opening / closing portion 222 of the suction valve 220 and the movable side sealing surface 222a is also described in the suction passage 211 of the piston 210. The fixed side sealing surface 211c is formed so as to be coupled to the suction valve 220 is coupled to be inserted into the suction flow path 211 of the piston 210, or the guide portion 221 of the suction valve 220 The guide hole 223 is formed in the axial direction in the guide hole 230 is coupled to the guide pin 230 is coupled to the pin hole 212 of the piston 210 and the resulting effect is described above Since it is similar to one embodiment, a detailed description thereof will be omitted.

In the gas suction device of the reciprocating compressor according to the present invention, the refrigerant sucked through the suction channel of the piston can be smoothly sucked through the guide channel of the suction valve. In addition, the intake valve is opened by sliding, so that even if the intake valve is repeatedly opened and closed for a long time, it is possible to prevent the valve from being damaged and to prevent the deterioration of reliability due to the formation of a dead volume or detachment when the intake valve is fixed. Can be.

Claims (5)

A piston coupled to the mover of the reciprocating motor reciprocating in a straight line and having a suction passage penetrating in the axial direction such that refrigerant is sucked therein; And And an inlet valve extending in the axial direction of the piston in contact with the inlet flow path of the piston and slidably inserted therein, and an opening and closing portion for opening and closing the inlet flow path formed at an end of the guide unit. A guide flow path is formed in the guide part of the suction valve so as to be spaced apart from the suction flow path of the piston and communicate with the suction flow path, and a first refrigerant guide surface having a curved or inclined shape is formed at the downstream end of the guide flow path. Gas suction device of the compressor. It is coupled to the mover of the reciprocating motor which reciprocates in a straight line and the suction flow passage is formed in the axial direction so that the refrigerant is sucked therein, and has a groove shape along the axial direction on the main surface from the middle to the end downstream of the suction flow passage. A piston in which at least one guide passage is formed intaglio; And Suction valve is inserted into the suction flow path of the piston and the guide portion is formed so that the guide flow path communicates with the suction flow path during the reciprocating movement of the piston, and the suction valve of the opening and closing portion extending to open and close the suction flow path at the end of the guide portion Gas suction device of a reciprocating compressor including; The method according to claim 1 or 2, The suction valve is a gas suction device of the reciprocating compressor in which a guide hole is formed long in the guide portion in the axial direction so that the guide pin is fixed to the guide hole in a radial direction through the suction flow path of the piston. The method according to claim 1 or 2, And a second refrigerant guide surface inclined or curved at an upstream end thereof in a guide part of the suction valve. The method according to claim 1 or 2, Sealing surface between the piston and the suction valve is inclined or curved so as to correspond to each other is a gas suction device of the reciprocating compressor.

Images