1. Field of the Invention
The present invention relates to a swash plate-type compressor for use in an automobile air conditioning system.
2. Description of Related Art
As disclosed in Published Patent Application No. US2003-000376, a swash plate-type compressor for use in an automobile air conditioning system includes a rotatable swash plate and a piston connected to the swash plate via shoes, such that the piston reciprocates in company with each rotation of the swash plate. The swash plate secures efficient lubrication to prevent seizure of swash plate surfaces sliding against the shoes when the compressor is working under a heavy load. Therefore, the swash plate includes layers of a sintered metal on the swash plate surfaces which slide against the shoes and layers of a resin on the layers of the sintered metal.
Accordingly, the layers of the resin are joined securely with the layers of the sintered metal, which sintered metal layers have fine pits and lands on surfaces of themselves. Consequently, a superior sliding-contact against the shoes may be achieved and seizure of the swash plate surfaces sliding against the shoes may be prevented from occurring at an early stage of compressor operation.
Nevertheless, the layers of the resin do not have a high degree of abrasion resistance when compared with the layers of the sintered metal. Thus, the layers of the resin may be worn away by abrasion at an early stage of compressor operation. Therefore, clearances for forming films of oil in between the swash plate and shoes may become much too large. Such clearances may cause tracking between the swash plate and shoes, and in a worst case, they may cause the swash plate surfaces sliding against shoes to seize.
Therefore, a need has arisen for a swash plate-type compressor for use in an automobile air conditioning system that overcomes these and other shortcomings of the related art. A technical advantage of the present invention is that it achieves a superior sliding-contact and prevents seizure of the swash plate surface sliding against at least one shoe.
In an embodiment of this invention, a swash plate-type compressor comprises a rotatable swash plate and a piston. The piston is connected to the swash plate via at least one shoe and reciprocates in company with each rotation of the swash plate. The swash plate has a layer of a sintered metal impregnated with a resin on at least a swash plate surface sliding against the at least one shoe. A surface of the impregnated layer is ground.
In another embodiment of this invention, a method for manufacturing a swash plate-type compressor is described. The compressor comprises a rotatable swash plate and a piston. The piston is connected to the swash plate via at least one shoe and reciprocates in company with each rotation of the swash plate. The method comprises the steps of sintering a metal on the swash plate surface, impregnating a resin in a layer of the sintered metal, hardening the resin, and grinding the surface of the impregnated layer.
Other objects, features, and advantages of embodiments of this invention will be apparent to, and understood by, persons of ordinary skill in the art from the following description of preferred embodiments with reference to the accompanying drawings.
Embodiments of the invention now are described with reference to the accompanying figures, which are given by way of example only and are not intended to limit the present invention.
Referring to
Compressor 100 comprises a drive shaft 11 extending across crank chamber 3 and penetrating through crank chamber 3. Drive shaft 11 is supported rotatably by front housing 4 and central bore 1b of cylinder block 2.
A swash plate 12 made from a ferrous alloy is fixed rotatably to drive shaft 11 within crank chamber 3. A plurality of pairs of shoes 13 slidably abut peripheral portions of swash plate 12 and are positioned to leave a space therebetween. Each of the pairs of shoes 13 are held in place within a holding portion (not shown) formed at a tail portion 14a of a piston 14. A head portion 14b of piston 14 is inserted slidably into cylinder bore 1a.
In compressor 100, drive shaft 11 is driven by an external power source (not shown), swash plate 12 also is rotated by rotating of drive shaft 11. Piston 14 is connected to swash plate 12 via shoes 13 and reciprocates in company with each rotation of swash plate 12. Refrigerant returned to compressor 100 from an external refrigeration circuit (not shown) is drawn into cylinder bore 1a via the suction port, suction chamber 9, a suction hole through valve plate 7, and suction valve 6, and is returned again into the external refrigeration circuit as a result of the compression in compressor 100 via discharge hole through valve plate 7, discharge valve 8, discharge chamber 10, and the discharge port.
As shown in
As shown in
In this embodiment, shoes 13 are made from a ferrous alloy, and metal layers 16 are made from a copper alloy or an aluminum alloy. Thus, the material of layers 16 differs from the material of shoes 13. Therefore, seizure between layers 16 and shoes 13 is prevented from occurring at an early stage of compressor operation.
Further, thermosetting resins and thermoplastic resins are suitable for resin 15. Because thermosetting resin exhibits superior heat resistance and mechanical intensity, and thermoplastic resin exhibits superior heat resistance, either resin is suitable for use for swash plate surfaces sliding against shoes 13. As an example, any of or combinations chosen from an epoxy resin, a phenol resin, a polyimideamide resin, a polyimide resin, a polyetheretherketone resin may be suitable as resin 15 impregnated within sintered metal layers 16.
In addition, a solid lubricant may be added to the metal forming layers 16. The addition of such a solid lubricant may achieve a superior slide-contact and prevent seizure of swash plate surfaces sliding against shoes 13. As an example, any of or combinations chosen from graphite, molybdenum disulfide, tungsten disulfide, boron nitride, antimony oxide, indium, stannum, argentum, and plumbum may be suitable as the solid lubricant.
Moreover, a solid lubricant may be added to resin 15. The addition of such a solid lubricant may achieve superior slide-contact and prevent seizure of swash plate surfaces sliding against shoes 13. As an example, any of or combinations chosen from polytetrafluoroethylene resin, graphite, molybdenum disulfide, tungsten disulfide, boron nitride, antimony oxide, indium, stannum, argentum, and plumbum may be suitable as the solid lubricant.
Further, it is not necessarily that layers 16 of the sintered metal impregnated with resin 15 be formed on both sides of swash plate surfaces sliding against shoes 13. Layer 16 of the sintered metal impregnated with resin 15 may be formed on one side surface of swash plate 12 sliding against shoe 13, and layer 16 of the sintered metal, which is not impregnated with resin 15, may be formed on the other side surface of swash plate 12 sliding against the other shoe 13. Moreover, layer 16 of the sintered metal impregnated with resin 15 may be formed on one side surface of swash plate 12 sliding against shoe 13, and resin 15 may be pressed on the other side surface of swash plate 12 sliding against shoe 13. Alternatively, layer 16 of the sintered metal impregnated with resin 15 may be formed on one side surface of swash plate 12 sliding against shoe 13, and another arbitrary treatment, by which a superior sliding-contact against shoe 13 may be achieved, and seizure of the swash plate surface sliding against shoe 13 may be prevented, may be adapted.
Although embodiments of the present invention have been described in detail herein, the scope of the invention is not limited thereto. It will be appreciated by those skilled in the art that various modifications may be made without departing from the scope of the invention. Accordingly, embodiments disclosed herein are only exemplary. It is to be understood that the scope of the invention is not be limited thereby, but is to be determined by the claims, which follow.
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