JPH09280167A - Valve plate device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the sticking of a valve element, with a high valve function kept. SOLUTION: A suction chamber 100 and a discharge chamber 110 are adjoiningly arranged via a valve plate 12 in a cylinder block 20, and a suction hole 101 and a discharge hole 111 are formed in accordance with a cylinder 25 on the valve plate. A suction valve 102 and a delivery valve 112 are provided with contacting the valve plate so as to open/close these suction and delivery holes, and a valve retainer 113, for limiting the opening directional movement of the delivery valve, is fixed to the valve plate. At least the surface of the valve plate is made of resin.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a valve plate device that can be used in a compressor or the like of an automobile air conditioner.

[0002]

2. Description of the Related Art A compressor called a piston reciprocating compressor may be used as a compressor for a conventional automobile air conditioner. An example of the compressor has a structure as shown in FIG. That is, a cylindrical casing 10 having a cylinder block 20 having a plurality of cylinders 25 formed therein.
A crank chamber 30 formed inside the casing 10 adjacent to the cylinder block 20 by the casing 10 and the front housing 11, and a plurality of pistons 26 that reciprocate in a plurality of cylinders 25.
And a cylinder head having a suction chamber 100 that is disposed adjacent to the cylinder block 20 via the valve plate 12 and that supplies a refrigerant gas to the plurality of cylinders 25, and a discharge chamber 110 that discharges the compressed refrigerant gas from the plurality of cylinders. 90 and.

A suction hole 101 and a discharge hole 11 are formed in the valve plate 12.
1 is formed. Further, a suction valve 102 and a discharge valve 112 are provided in contact with the valve plate 12 so as to open and close the suction hole 101 and the discharge hole 111. A valve retainer 113 that restricts the movement of the discharge valve 112 in the opening direction is fixed to the valve plate 12. Valve plate 1
2, the intake valve 102, the discharge valve 112, and the valve retainer 113 together form a valve plate device.

On the other hand, a rotary spindle 40 is inserted through the front housing 11. A cam rotor 50 is attached to the inner end of the crank chamber 30 of the rotary main shaft 40. A planet plate 60 faces the cam rotor 50, and the planet plate 60 swings as the cam rotor 50 rotates.

Inside the cylinder block 20, there is a support receiving hole 21 at the center thereof and a plurality of cylinders 25 around it.
(Only one is shown in the figure) and
A planet plate support 70 is axially supported in the support receiving hole 21 via a key 80 such that the planet plate support 70 cannot rotate in the axial direction. Inside the cylinder 25, a piston 26 is installed so as to be able to reciprocate. The piston 26 is connected to the planet plate 60 via a piston rod 27, and reciprocates inside the cylinder 25 according to the swing of the planet plate 60.

The cam rotor 50 of the planet plate 60
An oscillating gear 61, which is a bevel gear for preventing rotation, is fixed to the surface on the opposite side, and a concave portion 62 for receiving the spherical body 73 is formed in the central portion thereof.
On the other hand, a fixed gear 72, which is a bevel gear that meshes with the oscillating gear 61, is provided at the tip of the planet plate support 70, and a recess 71 for receiving the sphere 73 is similarly provided in the center thereof. Has been formed.

[0007]

In such a conventional valve plate device for a compressor, the intake valve, the discharge valve, the valve plate, etc. are all manufactured by using a flat metal, and the valve mechanism is formed by the contact between the metal members. Was configured. Therefore, intake valve, discharge valve,
If the surface roughness of the valve plate is not good, leakage will occur at the valve part,
Deterioration of valve performance. However, conversely, if the surface roughness is improved,
Since the oil contained in the refrigerant gas intervenes in the valve plate device, sticking of the valve element occurs, which causes an increase in seating sound between the intake valve and the discharge valve and the valve plate and an increase in vibration of the compressor due to overcompression. turn into.

Therefore, an object of the present invention is to provide a valve plate device which prevents sticking of a valve body while maintaining high valve performance.

Another object of the present invention is to provide a compressor capable of reducing noise caused by sticking of a valve element and vibration due to overcompression.

[0010]

According to the present invention, a valve having a discharge hole and a suction hole formed corresponding to a cylinder provided in a cylinder block and arranged between the cylinder block and the cylinder head. A plate, a discharge valve arranged on the cylinder head side of the valve plate to open and close the discharge hole, and a valve retainer arranged on the cylinder head side of the discharge valve to limit movement of the discharge valve in the opening direction. A valve plate device including a suction valve arranged on the cylinder block side of the valve plate to open and close the suction hole, wherein at least one of the valve plate, the discharge valve, and the suction valve is
A valve plate device is obtained in which at least the surfaces of the portions that are in contact with each other are made of resin.

Further, according to the present invention, a cylinder block having a cylinder, a cylinder head having an intake chamber and a discharge chamber, a valve plate device arranged between the cylinder block and the cylinder head, and a piston arranged in the cylinder. And a drive mechanism for driving the piston, a compressor characterized by using the above-mentioned valve plate device as the valve plate device is obtained.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION A valve plate device according to an embodiment of the present invention will be described below. FIG. 1 is a partially cutaway sectional view showing a main part when the valve plate device is used in a compressor, and the same components as those in FIG. 4 are designated by the same reference numerals.

In FIG. 1, a plurality of cylinders 25 are formed in a cylinder block 20, and a reciprocating piston 26 is provided therein. A cylinder head 90 having a suction chamber 100 and a discharge chamber 110 is disposed adjacent to the cylinder block 20 via a valve plate 12. A suction hole 101 and a discharge hole 111 are formed in the valve plate 12. The suction valve 102 and the discharge valve 112 are arranged so as to open and close the suction hole 101 and the discharge hole 111.
It is provided in contact with 2. In addition, the discharge valve 112
A valve retainer 113 that restricts the movement of the valve in the opening direction is fixed to the valve plate 12. Intake valve 102 and discharge valve 112
All are iron (Fe) -based or stainless steel (SU
It is made from S) type material.

As the valve plate 12, as shown in FIG. 2 (A), the surface of a core plate 12a made of a metal material such as iron (Fe) or aluminum is formed by a resin film 1 such as Teflon.
Those coated with 2b can be used. Resin film 12b
The coating may be provided on at least a portion of the surface of the valve plate 12 that contacts the intake valve 102 and the discharge valve 112. It goes without saying that the resin film 12b may be applied to the entire surface of the valve plate 12 instead of a part thereof. The resin film 12b may contain molybdenum, graphite or the like. An annular groove 301 may be formed around the suction hole 101 or the discharge hole 111 of the valve plate 12 at a position where the suction valve 102 and the discharge valve 112 come into contact. 300 may be formed.

As the valve plate 12, as shown in FIG. 2 (B), a metal core plate 12a and two resin thin plates 13a, 13 are provided.
Sandwich sandwiches with b or insert molding may be used. An annular groove 301 is formed in each of the resin thin plates 13a and 13b.

As shown in FIG. 2C, the valve plate 12 may be entirely formed of a resin plate 305. Here, the annular groove 301 is formed on the upper and lower surfaces of the resin plate 305 as in the case of FIG. 2B.

Although at least the surface of the valve plate 12 is made of resin in the above description, at least the surface of the intake valve 102 or the discharge valve 112 on the valve body side may be made of resin, or the valve body itself may be made of resin. In particular, by applying a resin coating to the discharge valve 112, noise due to collision between the discharge valve 112 and the valve retainer 113 can be prevented. Needless to say, at least the surfaces of both the valve plate and the valve body may be made of resin.

FIG. 3 is a graph of vibration measurement data comparing the vibration levels of the compressor manufactured by the applicant company with and without the application of the present invention. The horizontal axis of the figure shows the rotation speed (rpm) of the compressor, and the vertical axis shows the vibration level (dB). In the figure, the solid line graph shows the conventional example, and the broken line graph shows the case of the present invention. From the same figure, it is understood that in the case of the present invention, the vibration level is reduced in all rotation speed regions as compared with the conventional example.

[0019]

As described above, according to the present invention,
By interposing the resin between the valve and the valve plate, excessive sticking of the valve to the valve plate is reduced, the surface roughness is improved and the sealing property is improved. Therefore, it is possible to reduce conventional seating noise due to sticking and noise and vibration of the compressor due to over-compression.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a main part of a compressor including a valve plate device according to an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing a main part of a valve plate device of the compressor shown in FIG.

FIG. 3 is a graph of vibration measurement data comparing the axial vibration levels of compressors.

FIG. 4 is a sectional view showing a conventional compressor.

[Explanation of symbols]

 Reference Signs List 10 casing 11 front housing 12 valve plate 12a core plate 12b resin film 13a resin thin plate 13b resin thin plate 20 cylinder block 25 cylinder 26 piston 90 cylinder head 100 suction chamber 101 suction hole 102 suction valve 110 discharge chamber 111 discharge hole 112 discharge valve 113 valve Retainer 301 Annular groove 305 Resin plate

Claims (6)

[Claims] 1. A valve plate having a discharge hole and a suction hole formed corresponding to a cylinder provided in a cylinder block and arranged between the cylinder block and a cylinder head, and the cylinder head of the valve plate. On the cylinder block side of the valve plate; A valve plate device including a suction valve arranged to open and close the suction hole, wherein at least one of the valve plate, the discharge valve, and the suction valve is made of resin on at least a surface of a portion in contact with each other Is a valve plate device. 2. The valve plate device according to claim 1, wherein at least one of the valve plate, the discharge valve, and the suction valve is a core plate whose surface is coated with a resin film. 3. The valve plate device according to claim 1, wherein the valve plate includes two resin plates and a core plate between the resin plates. 4. The valve plate is made of resin.
The described valve plate device. 5. The valve plate apparatus according to claim 1, wherein at least the contact portions of the valve plate with the intake valve and the discharge valve are coated with a resin film. 6. A cylinder block having a cylinder, a cylinder head having a suction chamber and a discharge chamber, a valve plate device arranged between the cylinder block and the cylinder head, and a piston arranged in the cylinder.
A compressor including a drive mechanism for driving the piston, wherein the valve plate device according to any one of claims 1 to 5 is used as the valve plate device.