The present invention relates to a reciprocating compressor.
Patent Document No. 1 teaches a reciprocating compressor comprising a cylinder block provided with cylinder bores, pistons fitted in the cylinder bores, a front housing opposing one of the end faces of the cylinder block to cooperate with the cylinder block and thereby form a crank chamber accommodating a piston driving mechanism, a valve plate opposing the other one of the end faces of the cylinder block and provided with suction holes and discharge holes communicating with the cylinder bores, a rear housing provided with a suction chamber and a discharge chamber and opposing the other one of the end faces of the cylinder block with the valve plate inserted between them, strap-shaped suction valves fitted on the end face of the valve plate opposing the cylinder block to abut the valve plate, thereby opening and closing the suction holes at tip portions, discharge valves fitted on the end face of the valve plate opposing the rear housing to open and close the discharge holes, and through-bolts passed through the front housing, the crank chamber, the cylinder block, the valve plate and the rear housing to assemble them as a unitary body, wherein the valve plate is roughened at the portions around the suction holes to be abutted by the suction valves to decrease adhesion of lubrication oil existing between the suction valves and the valve plate, thereby preventing the adhesion of the suction valves to the valve plate to prevent delayed opening of the suction valves, enhance the performance of the compressor, and prevent self-excited vibration of the suction valves.
Patent Document No. 1: Japanese Patent Laid-Open Publication No. 2007-064196
The technology of the Patent Document No. 1 is aimed at decreasing adhesion of lubrication oil existing between the suction valves and the valve plate, thereby decreasing the resistance force against the opening of the suction valves.
The present invention takes a different viewpoint from that of the conventional technology in that delayed opening of the suction valves is prevented by decreasing the resistance force against the opening of the suction valves. An object of the present invention is to provide a technology for increasing force for promoting the opening of the suction valves to prevent delayed opening of suction valves.
In accordance with the present invention, there is provided a reciprocating compressor comprising a cylinder block provided with cylinder bores, pistons fitted in the cylinder bores, a front housing opposing one of the end faces of the cylinder block to cooperate with the cylinder block and thereby form a crank chamber accommodating a piston driving mechanism, a valve plate opposing the other one of the end faces of the cylinder block and provided with suction holes and discharge holes communicating with the cylinder bores, a rear housing provided with a suction chamber and a discharge chamber and opposing the other one of the end faces of the cylinder block with the valve plate inserted between them, strap-shaped suction valves fitted on the end face of the valve plate opposing the cylinder block to abut the valve plate, thereby opening and closing the suction holes at tip portions, discharge valves fitted on the end face of the valve plate opposing the rear housing to open and close the discharge holes, and through-bolts passed through the front housing, the crank chamber, the cylinder block, the valve plate and the rear housing to assemble them as a unitary body, wherein the valve plate is provided with grooves extending from holes for accommodating the through-bolts to portions abutting the suction valves on the end face opposing the cylinder block.
In the reciprocating compressor in accordance with the present invention, crank chamber pressure is applied to the surfaces of the suction valves abutting the valve plate through holes for accommodating the through-bolts and the grooves formed in the valve plate to force the suction valves in the direction of opening. Thus, force for promoting the opening of the suction valves increases, delayed opening of the suction valves is prevented, the performance of the compressor is enhanced, and self-excited vibration of the suction valves is prevented.
In accordance with a preferred embodiment of the present invention, the grooves extend beyond the portions opposing the roots of the suction valves to the portions near the suction holes.
When the grooves extend beyond the portions opposing the roots of the suction valves to the portions near the suction holes, the area of the suction valves receiving the crank chamber pressure increases to increase the force for promoting the opening of the suction valves.
In accordance with the present invention, there is provided a reciprocating compressor wherein force for promoting the opening of the suction valves is increased to prevent delayed opening of suction valves.
A reciprocating compressor in accordance with a preferred embodiment of the present invention will be described.
As shown in
The rotation shaft 5, the rotor 6, the link member 7, the swash plate 8 and the shoes 9 constitute a piston driving mechanism.
The cylinder bores 2a, the pistons 10, the suction holes 11a, the discharge holes 11b, the suction valves 13, the discharge valves 14 and pairs of shoes 9 are distanced from each other in the circumferential direction.
The suction chamber 12a communicates with the evaporator of a car air conditioner through a suction port 16. The discharge chamber 12b communicates with the condenser of the car air conditioner through a discharge port. The evaporator, the condenser, the car air conditioner and the discharge port are not shown in
The rotation shaft 5 is directly connected to a car engine through a power transmission device 17 at one end protruding out of the crank chamber 3. The car engine is not shown in
As shown in
As shown in
In the variable displacement swash plate compressor 1, the rotation shaft 5 is rotated by the car engine, the swash plate 8 rotates synchronously with the rotation of the rotation shaft 5, and the pistons 10 reciprocally move. Synchronously with the reciprocal movement of the pistons 10, coolant gas returns to the compressor from the evaporator of the car air conditioner, flows into the cylinder bores 2a through the suction port 16, the suction chamber 12a, the suction holes 11a and the suction valves 13, becomes compressed in the cylinder bores 2a, and flows out of the compressor 1 to the condenser of the car air conditioner through the discharge holes 11b, the discharge valves 14, the discharge chamber 12b and the discharge port.
In the variable displacement swash plate compressor 1, crank chamber pressure is applied on the surfaces of the suction valves 13 abutting the valve plate 11 through the holes 2b formed in the cylinder block 2 and accommodating the through-bolts, holes 18b formed in the circular thin plate 18 and accommodating the through-bolts, holes 11c formed in the valve plate 11 and accommodating the through-bolts, and pressure induction passages formed by the grooves 11d formed in the end face of the valve plate 11 opposing the cylinder block 2 and the circular thin plate 18 abutting the valve plate 11. The crank chamber pressure applied on the suction valves 13 forces the suction valves 13 in the opening direction. In the conventional reciprocating compressor, only the forces due to the differential pressure between the suction chamber pressure and the cylinder bore pressure applied on the portions of the suction valves 13 opposing the suction holes 11a operate on the suction valves 13 to push them open. In the variable displacement swash plate compressor 1, in addition to the forces due to the aforementioned differential pressure, forces due to the differential pressure between the crank chamber pressure and the cylinder bore pressure applied on the portions of the suction valves 13 opposing the grooves 11d are also applied on the suction valves 13 to push the suction valves 13 open. Thus, force for promoting the opening of the suction valves becomes larger than that in the conventional reciprocating compressor, delayed opening of the suction valves 13 is prevented, the performance of the compressor is enhanced, and the self-excited vibration of the suction valves 13 is prevented.
When the grooves 11d extend beyond the portions opposing the roots of the suction valves 13 to the portions near the suction holes 11a, the area of the portions of the suction valves 13 receiving the crank chamber pressure increases to increase the forces for pushing the suction valves 13 open.
When the discharge chamber 12b is disposed at the radial center and the suction chamber 12a is disposed at radial periphery to surround the discharge chamber 12b, it is possible, as shown in
The present invention can be widely used in various kinds of reciprocating compressors including swash plate compressors, wobble plate compressors, etc.
Number | Date | Country | Kind |
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2008-087337 | Mar 2008 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2009/054650 | 3/11/2009 | WO | 00 | 9/28/2010 |