KR19990038673A - Reciprocating compressor - Google Patents

Abstract

According to the present invention, a valve ball is formed by reciprocating a reciprocating motion of the piston by folding a cylinder that reciprocally receives the piston, a valve plate that shields the front surface of the cylinder to form a compression space, and a valve hole formed in the valve plate. A reciprocating compressor having a valve lead to open and close, the method comprising: a fixing member disposed on a plate surface of the valve plate with the valve lead interposed therebetween, the valve lead fixing and supporting the valve hole of the valve plate to be opened and closed; ; And a fixing part for fixing the fixing member to the plate surface of the valve plate. As a result, the valve lead can be stably fixed, thereby increasing the compression efficiency, and reducing damage and abrasion, thereby extending the life of the product, and increasing reliability.

Description

Reciprocating compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reciprocating compressor, and more particularly, to a reciprocating compressor which effectively fixes a lead valve for opening and closing a valve hole formed in a valve plate and a fixing member for opening and closing the lead valve so as not to be separated. will be.

1 is a longitudinal sectional view of a reciprocating compressor. The reciprocating compressor 1 has a drive motor portion 11 and a compression portion 21 in a main body casing which seals the inside and forms an outer appearance. On the outer surface of the main body casing 3, a suction pipe 5 into which the refrigerant gas flows in, a discharge pipe not shown in which the compressed refrigerant gas is discharged, and a power supply terminal 9 for supplying power are exposed.

The drive motor unit 11 is composed of a stator 13, a rotor 15, and an excitation coil 17. When external power is supplied to the power supply terminal 9, an electric rotational force is generated in the stator 13 to rotate the rotor 15. At this time, the rotary shaft 19 press-fitted in the vertical direction in the rotor is integrated. To rotate. At the end of the rotary shaft 19, an eccentric crank portion 20 is provided.

The compression part 21 is comprised from the cylinder 23 in which the refrigerant gas supplied through the suction pipe 5 is accommodated, and the piston 25 installed so that reciprocating sliding in this cylinder is possible. The crank portion 20 of the piston 25 and the rotary shaft 19 are coupled to each other by the connecting rod 27, whereby the rotational force of the rotary shaft 19 is converted into the sliding reciprocating motion of the piston 25. do. And the cylinder head 65 which seals the inside of a cylinder and forms a compression space is provided in the front surface of the cylinder 23, The valve plate 31 and the cylinder head 65 and the cylinder 23 are provided. The valve lead which opens and closes the said valve hole by the pressure difference of the both sides of the valve plate 31 formed by the reciprocating motion of the piston 25 is interposed.

FIG. 2 is an exploded perspective view of a partially enlarged view of FIG. 1, FIG. 3 is an exploded perspective view of a conventional valve plate and lead valve, FIG. 4 is a longitudinal cross-sectional view of the assembled state of FIG. 3, and FIG. 5. Is a partially enlarged view of FIG. 4. As can be seen from these figures, the valve plate 31 is formed with a suction hole 33 for sucking the refrigerant gas and a discharge hole 35 for discharging the refrigerant. A suction valve lead member 61 having a suction valve lead 63 for opening and closing the suction hole 33 is interposed between the valve plate 31 and the cylinder 23. On the other side of the valve plate 31, a discharge valve lead 71 for opening and closing the discharge hole 35, an elastic member 81 for urging the discharge valve lead 71 toward the discharge hole 35, and The fixing member 91 for fixing the discharge valve lead 71 and the elastic member 81 is combined. Corresponding to these, the other side surface of the valve plate 51 is predetermined recessed with respect to the reference surface to set the position of each discharge valve lead 71, the elastic member 81, and the fixing member 91 ( 41) is provided.

The discharge valve lead 71, the elastic member 81, and the discharge hole 35 opened and closed by the fixing member 91 are equipped with a muffler body 37 for receiving external refrigerant gas and supplying it into the cylinder. Then, the cylinder head 39 for guiding the refrigerant compressed in the cylinder to the condenser is coupled to the front of the muffler body 37 therebetween, and the muffler cover 65 for forming the exterior is coupled to the upper portion.

6 and 7 are partially enlarged views of FIG. 1 and show a state in which refrigerant gas is compressed and exhausted by a reciprocating motion of a piston. As can be seen from these figures, when the piston 25 in the cylinder moves from the top dead center (A) of the piston stroke to the bottom dead center (B), the pressure on the suction valve lead side and the discharge valve lead side of the valve plate 31 are shown. The pressure of is larger than the internal pressure of the cylinder 23. By this pressure, the suction valve lead 61 is pressed in the opening direction to open the suction hole 33 and the discharge valve lead 71 is pressed in the opposite direction to the opening direction to completely close the discharge hole 35.

On the contrary, when the piston 25 moves from the bottom dead center B of the piston stroke to the top dead center A in the cylinder, the internal pressure of the cylinder 23 is discharged from the suction valve lead side of the valve plate 31 and discharged. It becomes larger than the pressure on the valve lead side. Thus, the suction valve lead 61 is pressed in the opposite direction to the opening direction to close the suction hole 33 and the discharge valve lead 71 is pressed in the opening direction to open the discharge hole 35.

By the way, in the conventional reciprocating compressor, the fixing member 91 in a state where the discharge valve lead 71 and the elastic member 81 correspond to the corresponding positioning portions 43 and 45 formed on the valve plate 31, respectively. Is fixed by simply press-fitting into the corresponding positioning part 47 of the valve plate 31, the engagement state becomes unstable over time. In particular, in the valve plate 31 in which a predetermined vibration is transmitted by the cylinder 25 reciprocating in the cylinder, wear or damage of the discharge valve lead 71 may occur, which greatly affects the life of the product. Will be affected.

Accordingly, an object of the present invention, in view of these problems in the prior art, by more effectively fixing the fixing member and the elastic member for holding and closing the valve lead to the front of the valve hole of the valve plate, the flow by the predetermined vibration It is to provide a reciprocating compressor that can prevent the breakage and wear of the valve lead by preventing it from coming off or falling off.

1 is a longitudinal sectional view of a reciprocating compressor;

2 is an enlarged exploded perspective view of FIG. 1;

3 is a partially enlarged view of FIG. 2, which is an exploded perspective view of a conventional valve plate and lead valve,

4 is a longitudinal cross-sectional view of the assembled state of FIG.

5 is an enlarged partial view of FIG. 4;

6 and 7 are partially enlarged views of FIG. 1 showing a state in which refrigerant gas is compressed and exhausted by a reciprocating motion of a piston;

8 is an exploded perspective view of a valve plate and a lead valve according to the present invention;

9 is a longitudinal sectional view of the assembled state of FIG. 8;

10 is a partially enlarged view of FIG. 9.

<Description of Symbols for Main Parts of Drawings>

1: Reciprocating Compressor 11: Driving Motor Part

15: rotor 19: rotating shaft

21 compression unit 23 cylinder

25: piston 27: connecting rod

31: valve plate 33: suction hole

35: discharge hole 37: muffler body

39: cylinder head 43: lead position setting unit

45: elastic member positioning portion 47: fixed member positioning portion

63: suction valve lead 71: discharge valve lead

81: elastic member 91: fixing member

93: fixing groove 99; Fixing protrusion

The object of the present invention is to reciprocate the piston by folding a cylinder which reciprocally receives the piston, a valve plate that shields the front surface of the cylinder to form a compression space, and a valve hole formed in the valve plate. A reciprocating compressor having a valve lead that opens and closes a valve hole in association with a valve, wherein the valve lead is disposed on a plate surface of the valve plate with the valve lead therebetween, so that the valve lead opens and closes the valve hole of the valve plate. Fixing member and; It is achieved by a reciprocating compressor comprising a fixing portion for fixing the fixing member to the plate surface of the valve plate.

Here, the fixing part, the fixing projections protruding to correspond to both ends of the fixing member on the plate surface of the valve plate to face each other; It can be simply configured as a fixing groove formed to engage with the fixing projection on the fixing member.

At this time, the valve lead, the lead body of the elastic material in contact with the plate surface of the valve plate; An opening and closing plate formed at an end of the lead body to open and close the valve hole of the valve plate; Preferably, the fixing member has a close contact portion to keep the lead body in contact with the plate surface of the valve plate.

And a lead position setting unit recessed in the plate surface of the valve plate to set the position of the valve lead; A fixing member positioning portion recessed around the lead positioning portion; The fixing protrusion may be configured to protrude in the fixing member positioning portion.

It is preferable that the hinge piece further includes an elastic member interposed between the valve lead and the fixing member to elastically bias the valve lead toward the valve hole of the valve plate.

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

The reciprocating compressor according to the present invention has a configuration similar to that described with reference to FIG. 1, and merely includes a discharge valve lead 71 and an elastic member 81 for opening and closing the valve plate 31 and the discharge hole 35. And the shape of the fixing member 91 is improved. Therefore, the description of the overall reciprocating compressor will be replaced by the above description, and the improved configuration will be described with reference to FIGS. 8 to 9. At this time, the same reference numerals are used for the same configurations and the same names as in the prior art.

8 is an exploded perspective view of a valve plate and a lead valve according to the present invention, FIG. 9 is a longitudinal cross-sectional view of the assembled state of FIG. 8, and FIG. 10 is a partially enlarged view of FIG. 9. As can be seen from these figures, around the discharge hole 35 of the valve plate 31 according to the present invention, a lead position setting portion 43 for setting the position of the discharge valve lead 71 is formed. The lead positioning portion 43 is formed at the end of the lead body 75 and the lead body 75 of an elastic material in contact with the plate surface of the valve plate 31, the discharge hole 35 of the valve plate 31 The reference plate surface of the valve plate 31 is recessed so as to correspond to the shape of the discharge valve lead 71 having the opening / closing plate portion 73 for opening and closing the opening.

An elastic member 81 is disposed on the front surface of the discharge valve lead 71 positioned in the lead positioning unit 43. The elastic member 81 formed of a thin metal plate presses one end of the lead body 75 to the plate surface of the lead positioning portion 43 of the valve plate 31 to fix and hold the other side, including the opening and closing plate portion 73. It is elastically biased toward the discharge hole 35. The other end portion 85 of the elastic member 81 comes into contact with the elastic member positioning portion 45 provided on one side of the lead positioning portion 43.

On the other hand, outside the lead positioning unit 43, a fixed member positioning unit 47 is formed so as to be recessed with respect to the plate surface of the valve plate 31, and the lead positioning unit 43 is formed to be raised at a predetermined level. . In addition, fixing projections 99 protrude from the plate surface at both end portions of the fixing member positioning portion 47, respectively. In this lead positioning unit 47, a fixing member 91 is positioned, as described with reference to FIG. 3 conventionally. The fixing member 91 is composed of a metal plate having a predetermined length, and the center region of the fixing member 91 protrudes upwardly compared to both end regions. In addition, at both ends, fixing grooves 93 are formed to receive the fixing protrusions 99 and mesh with each other.

By such a configuration, mutual coupling of the valve plate 31, the discharge valve lead 71, the elastic member 81, and the fixing member 81 according to the present invention is first formed on the valve plate 31. The discharge valve lead 71 and the elastic member 81 are sequentially received in the corresponding positioning portions 43 and 45. At this time, one end portion 83 of the elastic member 81 presses one end portion 75 of the lead body 75 of the discharge valve lead 71 to the plate surface of the valve plate 31 to discharge the discharge valve lead 71. Opening and closing plate portion 73 of the) is to support the discharge hole 35 to open and close.

Then, the fixing member 91 is made to correspond to the front surface thereof, and the fixing groove 93 is accommodated in the fixing protrusions 99 provided at both end portions of the fixing member positioning unit 47, and fixed. At this time, one end of the fixing member 91 is to press the one end (83, 75) of the corresponding elastic member 81 and the discharge valve lead 71 to the plate surface of the valve plate 31, the discharge valve lead 71 can be stably fixed. At this time, the protrusion 95 provided in the central region of the fixing member 91 provides a flow space for opening and closing movement of the opening and closing plate portion 73 and the elastic member 81 of the discharge valve lead 71.

In this way, the valve plate 31 in which the discharge valve lead 71 and the elastic member 81 are stably assembled by the fixing member 91 is formed between the suction valve lead member 38 and the front surface of the cylinder 23. Then, the muffler body 37 and the cylinder head 39, and the muffler cover 65 and the like are coupled to each other. Thereby, as shown in FIGS. 6 and 7, the compression process of the refrigerant gas can be performed by the reciprocating motion of the piston 25 in the cylinder.

As described above, in the reciprocating compressor according to the present invention, the valve lead for opening and closing the valve ball can be stably fixed to the front surface of the valve plate by using the elastic member and the fixing member, so that a predetermined amount due to the reciprocating motion of the piston, etc. Vibration of the elastic member and the fixing member does not cause flow or departure. As a result, the damage and wear of the valve lead are reduced, so that the life of the product can be extended, and the external reliability can be increased.

Claims (5)

A valve for reciprocating the cylinder, a valve plate that shields the front surface of the cylinder to form a compression space, and a valve that folds in contact with the reciprocating motion of the piston to open and close the valve hole in contact with the valve hole formed in the valve plate. In a reciprocating compressor having a lead, A holding member disposed on the plate surface of the valve plate with the valve lead therebetween, the fixing member being fixed to support the valve hole of the valve plate to open and close; And a fixing part for fixing the fixing member to the plate surface of the valve plate. The method of claim 1, The fixing portion, A fixing protrusion protruding to correspond to both ends of the fixing member on the plate surface of the valve plate, and facing each other; Reciprocating compressor, characterized in that consisting of a fixing groove formed to engage with the fixing projection on the fixing member. The method of claim 1, The valve lead, A lead body of elastic material contacting the plate surface of the valve plate; An opening and closing plate formed at an end of the lead body to open and close the valve hole of the valve plate; The fixing member has a reciprocating compressor, characterized in that it has a close contact portion to keep the lead body in contact with the plate surface of the valve plate. The method of claim 3, A lead position setting portion recessed in a plate surface of the valve plate to set a position of the valve lead; A fixing member positioning portion recessed around the lead positioning portion; And the fixing projection protrudes in the fixing member positioning portion. The method of claim 4, wherein And an elastic member interposed between the valve lead and the fixing member to elastically bias the valve lead toward the valve hole of the valve plate.