KR910002864Y1 - Reciprocatory piston type compressor with noise free suction valve mechanism - Google Patents

Abstract

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Description

Intake valve mechanism of reciprocating compressor

1 to 5 show the intake valve mechanism of the reciprocating compressor according to the present invention

1 is a cross-sectional view.

2 is a side view showing the intake valve body.

3 is a side view showing the valve open state in the configuration of FIG.

4 is an enlarged cross-sectional view of the main portion in FIG. 1 showing a valve opening initiator; FIG.

FIG. 5 is a side view showing another embodiment of the intake valve body shown in FIG. 2. FIG.

6 is a cross-sectional view.

Fig. 7 is a side view showing the intake valve body.

FIG. 8 is a sectional view showing a valve opening start state in the configuration of FIG. 6. FIG.

9 is a sectional view showing a valve open state.

* Explanation of symbols for main parts of the drawings

1: Cylinder 2: Intake valve body

2a: intake valve portion 3: valve tube

4 suction hole 5 exhaust hole

6: notch 7: notch groove

11: opening

The present invention relates to a configuration for smoothing the opening operation of the intake valve mechanism of the reciprocating compressor, in particular the intake valve, and preventing anomalies caused by the intake valve.

Conventionally, this type of reciprocating compressor that has been used includes, for example, Japanese Utility Model Laid-Open Publication No. 50-145012, but the representative configuration of the intake valve mechanism is shown in FIGS. 6 to 9. Can be mentioned.

That is, the reference numeral 1 in Figs. 6 to 7 denotes a cylinder block having a plurality of cylinder bores 1b, and the end portion 1a of the cylinder block 1 passes through the intake valve body 2 to the valve. The plate 3 is installed by airtight coupling.

The valve plate 3 is provided with a suction hole 4 and a discharge hole 5 with a predetermined gap, and is formed integrally with the suction body 2 on the cylinder bore 1b side of the suction hole 4. The suction valve part 2a is elastically coupled with elasticity normally.

In the suction operation, the free end 2aA of the suction valve portion 2a is spaced apart from the valve plate 3 as shown in FIG. 9, and the cylinder 1 adjacent to the suction valve portion 2a. And a through hole 2b formed in contact with the wall portion 6a of the cutout portion 6 formed at the end portion 1a of the cutout portion 6 and communicating with the discharge hole 5 at the base of the suction valve portion 2a. It is. As shown in FIG. 7, the suction valve body 2 is composed of a single plate, and the inlet valve portion 2a is configured to be operable in the thickness direction by forming a substantially U-shaped cutout 7. have. Therefore, although the said intake valve body 2 is not shown in figure, the some intake valve part 2a of the one intake valve body 2 is formed.

Further, the discharge valve 8 and the valve presser plate 9 are attached to the housing 12 side of the discharge hole 5 in the valve plate 3, that is, the side facing the discharge chamber 12A. ), The discharge valve 8 is bent at the time of discharge and abuts against the valve press plate 9 so that the discharge hole 5 is opened.

An opening 11 formed by the cutout groove 7 is formed between the free end 2aA of the suction valve portion 2a and the wall portion 2c of the suction valve body 2, and the opening 11 is formed. is formed, the length of the opening 11 is composed of L ₁ is formed in an extremely short.

The suction valve mechanism of the conventional reciprocating compressor is configured as described above, and the operation thereof will be described below.

First, the piston is moved by an inclined plate operating in conjunction with the rotation of a rotating shaft (not shown). When the piston is moved from the discharge stroke to the suction stroke, the suction valve portion 2a moves to the cylinder bore in accordance with the movement of the piston as shown in FIG. By the negative pressure in (1b) and the suction pressure of the suction chamber 12B formed in the housing 12, it is bent to the cylinder bore side, the suction hole 4 becomes a valve open state, and suction is performed.

In addition, when the piston (not shown) moves in the reverse direction to the compression stroke from the suction stroke, the suction hole 4 is closed due to the return action of the suction valve portion 2a and the pressure rise in the cylinder bore 1b. The discharge valve 8 is bent by the discharge pressure and the discharge port name 5 is brought into the valve open state.

Since the suction valve mechanism of the conventional reciprocating compressor is configured as described above, the following problems exist.

(1) As described above, if the opening 11 formed above the intake valve 2a is kept in a very small state in order to keep the deterioration of compression efficiency to a minimum, the rotation of the engine, such as at low speed, becomes low and the intake pressure is reduced. The force for attaching the valve portion 2a to the cylinder bore 1b side is small, and the suction valve portion 2a is closed by the oil residue attached to the joint surface between the suction valve portion 2a and the valve plate 3. It becomes difficult to separate from the plate 3, and as shown in FIG. 8, a part of the intake valve part 2a adheres to the valve plate 3, and becomes bent.

If the suction operation continues, the suction valve portion 2a is separated from the valve plate 3 by the suction pressure and the suction gas passing through the suction hole 14, and the upper portion of the suction valve portion 2a is cut out. The wall part 6a of (6) crashed badly, and loud sound generate | occur | produced.

In addition, when the suction pressure is low and does not collide with the wall of the cutout part 6, the suction valve part 2a simply vibrates the suction valve part 2a by mutual tension between the suction pressure and the spring force. Inhibits the passage of gentle intake gas.

Therefore, in particular, when the engine is idle, the above-described abnormal sound is generated, and the sound is extremely unpleasant to the cylinder 1.

(2) In addition, as described above, when the operation of the suction valve portion 2a becomes unstable, the suction pulsation is increased, and not only abnormal noise is generated but also the performance of the compressor is deteriorated.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a suction valve mechanism of a reciprocating compressor, which facilitates the valve opening operation of the intake valve and prevents the occurrence of abnormal noise by the intake valve. .

The suction valve mechanism of the reciprocating compressor according to the present invention has a position opposite to the cylinder bore of the suction valve body squeezed by the valve plate provided with the suction hole and the discharge hole penetrating the cylinder block and the cylinder bore of the cylinder block. The inlet valve is formed in the opening, and the length of the opening located at the free end side of the inlet valve section of the cutout forming the inlet valve is larger than the radial length of the cutout section formed at the cylinder block end.

In the suction valve mechanism of the reciprocating compressor according to the present invention, since the length of the opening portion formed at the free end side of the suction valve portion is larger than the cutout portion formed at the cylinder block end portion, the suction stroke is started, and when the suction valve portion starts valve opening, The trapped overcompressed gas re-expands, and the free end of the intake valve portion is easily peeled off the valve plate by the gas flow and suction input when the gas by this re-expansion is discharged from the opening into the cylinder bore. Even in the city, the inlet valve portion is surely opened by the gas flow and the inlet pressure.

Therefore, it is possible to completely prevent the abnormal sound of the intake valve caused by the intake pulsation generated at the low speed of the engine, and to significantly improve the reliability of the compressor.

Hereinafter, a preferred embodiment of the intake valve mechanism of the reciprocating compressor according to the present invention together with the drawings will be described in detail.

In addition, the same code | symbol is attached | subjected to the same or equivalent part as a conventional example, and it demonstrates.

1 to 4 are views for showing the intake valve mechanism of the reciprocating compressor according to the present invention, shown in Figure 1 is a cylinder block forming a cylindrical cylinder formed with a plurality of cylinder bores in parallel with the axis, The valve plate 3 is hermetically coupled to the end 1a of the cylinder block 1 via the intake valve 2.

The suction hole 4 and the discharge hole 5 are provided in the position which opposes the cylinder bore 1b of the said valve plate 3 at predetermined intervals, and the said suction hole 4 is the said suction valve body 2 It is normally closed by the intake valve part 2a integrally formed in ().

The free end 2aA of the suction valve portion 2a is separated from the valve plate 3 at the time of the suction stroke and is adjacent to the suction valve portion 2a as shown in FIG. 3. And a through hole 2b communicating with the discharge hole 5 at the base of the suction valve portion 2a, which is configured to abut against the wall portion 6a of the cutout portion 6 formed at the end 1a of Formed.

As shown in FIG. 2, the intake valve body 2 is composed of a single plate, and a substantially U-shaped cutout 7 is formed so that the intake valve portion 2a is formed to be operable in the thickness direction. . Accordingly, although the suction valve body 2 is not shown in the drawing, the same number of suction valve portions 2a as the bore 1b are formed at a position opposite to the cylinder bore 1b on the single suction valve body 2. It is.

Moreover, the discharge valve 8 and the valve holding plate 9 are provided by the attachment bolt 10 at the discharge chamber 12A side of the discharge hole 5 in the valve plate 3, and at the time of the compression stroke. The discharge valve 8 is bent by the discharge gas pressure and abuts against the valve press plate 9 so that the discharge hole 5 is in the valve open state.

An opening 11 formed by the cut-out groove 7 is formed between the free end 2aA side end portion of the suction valve portion 2a and the wall portion 2c of the suction valve body 2, and the opening 11 is formed. ) And the length are composed of a length L ₂ (more than 3 millimeters of liquid) larger than the length in the radial direction of the cutout portion 6 formed in the cylinder block 1.

In the plan view, the shape of the opening 11 is almost triangular as shown in FIG. 2, and in another embodiment, as shown in FIG. Can be configured in any shape.

The length of the opening (11) L ₂ is a block that is longer than the length of the cut-out (6), to maintain a large gas pressure application shaft.

The suction valve mechanism of the reciprocating compressor according to the present invention is configured as described above, and its operation will be described below.

First, the piston moves by a swash plate operating in conjunction with the rotation of the rotational shaft (not shown), and when the suction stroke comes from the compression stroke, the length of the opening 11 formed at the upper end of the free end side of the suction valve portion 2a is about Since it is 3 millimeters or more, the overcompressed gas trapped in the opening 11 is re-expanded as the intake valve portion 2a starts to open, and the gas flow at the time of re-expansion (arrows in FIGS. 2 and 4). The free end 2aA of the intake valve portion 2a is easily peeled off from the valve plate 3, and this gas flow and the suction pressure are synergistic even at the engine low speed. ) Is surely valve-opened without accompanying bending state and vibration.

Therefore, the intake valve portion 2a is bent at the center thereof as in the prior art, making it difficult to peel off from the valve plate 3, and extremely flexible valve opening operation is obtained.

According to the experimental results, if the length of the cutout portion 6 on the cylinder block 1 side was, for example, 3 millimeters, the effect was obtained when the length L ₂ of the opening 11 was about 3 millimeters or more. And the more sufficient effect of the longer length is acquired.

In addition, in the case of another embodiment shown in FIG. 5, since the gas flow is generated from two directions as indicated by arrows, a more reliable valve opening operation can be obtained.

Since the suction valve mechanism of the reciprocating compressor according to the present invention is configured as described above, the following effects can be obtained.

Since the length of the opening formed in the upper portion of the free end of the suction valve portion is larger than the radial length of the cutout portion on the cylinder block side, the suction valve is caused by the gas flow generated at the time of re-expansion of the overcompressed gas remaining in the opening at the start of the suction stroke. An upright action force in a direction falling from the valve plate acts on the free end side of the negative portion, and as a result of the upward action with the suction pressure, the peeling from the valve plate of the suction valve portion is ensured, a flexible valve opening is performed, and an abnormal sound due to the suction pulsation Occurrence can be completely prevented.

Therefore, the abnormal sound by the vibration of the intake valve at the low speed of engine (for example, idling) can be prevented, and the reliability of a compressor can be improved.

Claims (3)

A reciprocating type consisting of a cylinder block having a cylinder bore into which a piston reciprocating under power from a drive shaft is fitted, a housing in which a discharge chamber and a suction chamber are separated, and a valve plate and a suction valve body held tightly by the block and the housing. In the compressor, an intake valve portion serving as an opening / closing opening of a suction hole provided at a position opposed to the cylinder bore of the valve plate is formed in the intake valve body as a cutout groove, and the intake valve portion free short axis of the cutout groove is An opening in communication with the cutout formed in the cylinder block is provided, and the length of the opening is made larger than the radial length of the cutout. The intake valve mechanism of a reciprocating compressor according to claim 1, wherein the opening has a configuration that is substantially triangular. The intake valve mechanism of claim 1, wherein the opening has a substantially arcuate configuration.