KR100676744B1 - Valve unit for compressor - Google Patents

Abstract

The present invention relates to a valve unit for a compressor, and to prevent assembly defects or missing assembly of the valve unit in the process of assembling the compressor, to improve assembly productivity, and to reduce the cost of the valve unit by reducing the components of the valve unit. It aims at compacting a compressor.

In the valve unit for a compressor according to the present invention, a plurality of discharge holes 15 are radially circumscribed around a central through hole 13 in which a plurality of suction leads 11 are radially cut along the edge portion and a shaft is inserted. The suction reed valve 1 and the suction reed valve 1 have the same appearance and a plurality of suction holes 25 are formed at positions corresponding to the suction leads 11 and the central through holes 23 are formed. A discharge reed valve (2) formed with a plurality of discharge leads (21) cut in a position corresponding to the discharge hole (15) around; It is characterized in that the suction reed valve 1 and the discharge reed valve 2 are joined to each other in a butted state to be integrated.

Therefore, the refrigerant may be sucked through the suction hole 25 and the suction lead 11 during the suction stroke, and the refrigerant may be discharged through the discharge hole 15 and the discharge lead 21 during the discharge stroke.

Compressor, Compressor Valve, Reed Valve

Description

Valve unit for compressor {VALVE UNIT FOR COMPRESSOR}

1 is a front view showing a suction reed valve constituting a valve unit according to the present invention.

FIG. 2 is a sectional view showing the main parts taken along the line II-II of FIG. 1. FIG.

3 is a front view showing a discharge reed valve constituting a valve unit according to the present invention.

4 is a sectional view showing the principal parts taken along a line IV-IV of FIG. 3.

5 is a sectional view showing a valve unit according to the present invention.

6 is a cross-sectional view showing a general swash plate compressor.

7 is an exploded perspective view showing a general swash plate compressor.

<Explanation of symbols for the main parts of the drawings>

1: suction reed valve, 2: discharge reed valve,

11: suction lead, 15: discharge hole,

21: discharge lead, 25: suction hole

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve unit for a compressor, and in particular, a suction reed valve and a discharge reed valve are integrally bonded to each other so as to eliminate components such as valve plates that have been conventionally used. A valve unit for a machine.

In general, the compressor constituting the automotive cooling system selectively receives the power of the engine delivered through the pulley of the vehicle by the intermittent action of the electronic clutch, sucks the refrigerant exchanged from the evaporator, and compresses it by the linear reciprocating motion of the piston. It is a device that discharges to a condenser.

There are various types of such compressors, and they are generally divided into reciprocating and rotary type according to the compression method and structure, and in the case of reciprocating type, crank type, swash plate type, wobble plate type type, and rotary type, main rotary type and scroll type type. Is divided again.

In the compressors as described above, the valve unit is installed to suck and discharge the refrigerant.

Next, the conventional valve unit will be described using, for example, a swash plate type compressor. As shown in Figs. 3 and 4, the swash plate compressor comprises: a front housing 4; A rear housing 5 coupled thereto; A front cylinder 41 installed inside the front housing 4; A rear cylinder (51) mounted to the rear housing (5); A plurality of double head pistons (6) installed in the reciprocating linear movement in the bores (42) of the front cylinder (41) and the bores (52) of the rear cylinder (51); A drive shaft (7) rotatably installed through the centers of the front and rear housings (4, 5) and the front and rear cylinders (41, 51); A swash plate (8) which is inclined to the drive shaft (7) inclined and rotates in accordance with the rotation of the drive shaft (7) to move the pistons (6) back and forth; And both valve units 9 and 9 provided between the front and rear cylinders 41 and 51 and the inner surfaces of the front and rear housings 4 and 5.

In addition, the valve unit 9 includes a valve plate 91, a suction reed valve 92 and a discharge reed valve 93 installed back and forth with the valve plate 91 interposed therebetween, and a discharge reed valve 93. It comprises a gasket 94 is installed on the side. Therefore, when the drive shaft 7 is rotated by the power of the engine, the pistons 6 are moved forward and backward by the swash plate 8 which rotates in an inclined state together with the drive shaft 7. In the intake stroke of the piston 6 during forward and backward movement of the piston 6, the lid of the suction reed valve 92 opens and opens while the discharge reed valve 93 is closed, so that the refrigerant is inside the cylinder bores 42 and 52. At the time of the discharge stroke of the piston 6, the lid of the discharge reed valve 93 is opened and opened while the suction reed valve 92 is closed so that the refrigerant is compressed and discharged.

In the compressor as described above, in the process of assembling the components of the valve unit 9, in particular, the suction reed valve 92, the discharge reed valve 93, and the gasket 94 are formed in a disk shape having a thin thickness. The parts of the unit 9 are not drawn out one by one, but are drawn out in an overlapping state and assembled or missing and assembled, resulting in a compressor assembly failure.

 SUMMARY OF THE INVENTION The present invention has been made in view of the above-described conventional problems, and in the process of assembling the compressor, it is possible to prevent assembly defects or missing of the valve unit and to improve the assembly productivity. It is aimed at reducing costs and compacting compressors.

In order to achieve the above object, in the valve unit for a compressor according to the present invention, a plurality of suction holes are radially cut along the edge portion and a plurality of discharge holes are radially arranged around a central through hole in which a shaft is inserted. A plurality of suction holes are formed in the reed valve 1 and the suction reed valve and the suction reed valve is formed in a position corresponding to the suction lead, and a plurality of discharge leads are cut in a position corresponding to the discharge hole around a central through hole. A discharge reed valve formed; The suction reed valve and the discharge reed valve are joined to each other in a state in which they are integrated.

According to the compressor valve unit according to the present invention configured as described above, the suction lead of the suction reed valve is opened toward the cylinder bore of the compressor by the suction force during the suction stroke of the compressor, so that the suction hole and the suction reed valve of the discharge reed valve The refrigerant may be sucked into the cylinder bore through a flow path formed between the suction leads. In the discharge stroke of the compressor, since the discharge pressure acts on the discharge lead through the discharge hole of the suction reed valve, the discharge lead is pushed toward the compressor housing. Therefore, the refrigerant in the cylinder bore is discharged toward the compressor housing through a passage formed between the discharge hole of the suction reed valve and the discharge reed valve and the discharge lead while being compressed.

Other features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

As shown in Figs. 1 and 2, reference numeral 1 denotes a suction reed valve, which has a disc shape and cuts a plurality of suction leads 11 (here, five are illustrated) for sucking refrigerant radially along an edge portion. It is being formed. In the center portion, a through hole 13 into which the drive shaft 7 of the compressor is inserted is formed, and a plurality of discharge holes 15 for discharging the refrigerant radially around the through hole 13 (here, five are examples). Formed).

3 and 4, reference numeral 2 is a discharge reed valve and has a disc shape like the suction reed valve 1, and is formed in the through hole 23 at the center thereof. A plurality of discharge leads 21 are cut out radially so that the refrigerant can be compressed and discharged by opening and closing them in correspondence with the discharge holes 15 of the suction reed valve 1 around the periphery 23. At the edge of the discharge reed valve 2, a plurality of suction holes 25 are opened radially to be opened and closed by the suction lead 11 of the suction reed valve 1.

According to the present invention, as shown in Fig. 5, the suction reed valve 1 and the discharge reed valve 2 made as described above are joined to each other. That is, the suction lead 11 of the suction reed valve 1 is in a state of blocking the suction hole 25 of the discharge reed valve 2, and the discharge lead 21 of the discharge reed valve 2 is the suction reed valve. The suction reed valve 1 and the discharge reed valve 2 are joined to each other so that the discharge hole 15 in (1) is blocked. At this time, the suction lead 11 and the discharge lead 21 is not bonded.

Reference numerals 17 and 27 represent a flow path formed to allow the refrigerant or the compressor oil to flow.

Next, for parts of the compressor other than the valve unit according to the present invention, the operation of the valve unit for the compressor according to the present invention will be described taking the compressor shown in FIGS. 6 and 7 as an example.

When power is transmitted to the compressor drive shaft 7, the swash plate 8 rotates together with the drive shaft 7 such that the pistons 6 reciprocate inside the cylinder bores 42 and 52. In this process, the suction lead 11 of the suction reed valve 1 opens toward the cylinder bore 42 and 52 of the compressor due to the suction force, so that the suction hole 25 and the suction reed of the discharge reed valve 2 are opened. The refrigerant may be sucked into the cylinder bores 42 and 52 through a flow path formed between the valve 1 and the suction lead 11. In this way, the refrigerant sucked into the cylinder bores 42 and 52 is compressed at the discharge stroke of the compressor, and the compression pressure acts on the discharge lead 21 through the discharge hole 15 of the suction reed valve 1. do. Accordingly, the discharge lead 21 is pushed toward the compressor housings 4 and 5 so that the refrigerant compressed in the cylinder bores 42 and 52 is discharged from the discharge hole 15 of the suction reed valve 1 and the discharge reed valve 2. ) Is discharged toward the compressor housing (4, 5) through a flow path formed between the discharge lead and (21).

According to the valve unit according to the present invention configured as described above, the suction reed valve (1) and the discharge reed valve (2) is formed in the same disk shape and joined together to eliminate components such as the valve plate used in the past The reduced thickness allows for compactness and cost reduction of the compressor.

In addition, since the components are reduced, the assembly is easy and only a single unit of the valve unit needs to be assembled. Thus, the cause of assembly failure, such as overlapping assembly or omission of conventional valve unit components, is eliminated, thereby improving the quality of the compressor. Assembly productivity is also improved.

Claims (1)

A suction reed valve 1 in which a plurality of suction leads 11 are radially cut along the edge portion and a plurality of discharge holes 15 are radially arranged around a central through hole 13 in which a shaft is inserted; The suction reed valve (1) has the same appearance and a plurality of suction holes 25 are formed in a position corresponding to the suction lead 11 and the discharge hole 15 and around the central through hole 23 and Comprising a plurality of discharge lead 21 is formed in the discharge reed valve 2 formed in the corresponding position, The valve unit for a compressor, characterized in that the suction reed valve (1) and the discharge reed valve (2) are joined to each other in an integrated state.

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