TH59386B - Rotary vane compressor - Google Patents

Abstract

DC60 (02/06/54) To ensure that the lubricating oil is supplied on a stable basis to the operating chamber and sliding parts such as the sides and ends of the impeller, regardless of the pressure conditions at the time of operation, oil suction holes 6a through which the lubricating oil is sucked from the sealed housing bottom are provided in parallel with the rotation of the shaft 6 for power transmission to the compression member 11 arranged at the center of the shaft. Lubrication holes 6b drilled through the inside and outside of the shaft are provided in the shaft 6 in close proximity to at least one end surface of the roller 7, and lubrication grooves 10 are formed on the end surface of the cylinder block 5 in at least one bearing so as to be coupled to the lubrication holes 6b and the lubrication grooves. A blade 8a is formed on one side of the impeller 8 sliding slide, the impeller grooves so as to be coupled to the lubrication grooves at a predetermined rotation phase and coupled to the compression chamber at a rotation phase where the blades 8 extend from the impeller grooves 7 towards the outer circumference of the rollers. To ensure that the lubricant is supplied on a stable basis to the operating chamber and sliding parts such as the sides and ends of the impeller, regardless of the pressure conditions at the time of operation, oil suction holes 6a through which the lubricant is drawn from the sealed housing bottom are provided synchronously with the rotation of the shaft 6 for power transmission to the compression member 11 arranged at the center of the shaft. Lubrication holes 6b drilled through the inside and outside of the shaft are provided in the shaft 6 in proximity to at least one end surface of the roller 7, and lubrication grooves 10 are formed on the end surface of the cylinder block 5 in at least one bearing so as to engage the lubrication holes 6b and the lubrication grooves. A blade 8a is formed on one side of the impeller 8 sliding slide, the impeller grooves so as to engage the lubrication grooves at a predetermined rotation phase and are engaged with the compression chamber at a rotation phase such that the blades 8 extend from the impeller grooves 7 towards the outer circumference of the rollers.

Claims (5)

(All) rights which will not appear on the advertisement page: EDIT 29/12/2016 1. Revolving impeller compressor that is included: sealed housing. Pressing parts, which are arranged in such a sealed housing and which compress the refrigerant and the drive-motor parts. Which are arranged in the aforementioned hermetically sealed housing and which transmit power Provide such compression parts Where the compression parts include the shaft which is driven in a revolving way by the part. Drive - such motor The rollers are arranged together on the same axis as the center axis of the shaft. It and will rotate simultaneously with the said shaft. Cylinder, which will have an internal circumferential surface for Such rollers are formed in a cylindrical shape and which have the center axis of the surface along the The internal circumference is tilted in relation to the center axis of the shaft. Two bearings which block both end surfaces of the cylinder. Impeller, which will slide repeatedly over and over In the impeller grooves formed in the rollers during the compression process and the blocking of the formed compression chamber. The roller and the cartridge are hit by the gun along the internal circumference surface of the cylinder. Said to a certain number of operating rooms And the oil feeding method for feeding the accumulated lubricant. It is placed in the bottom of the sealed housing, to the press chamber, and where the feeding path is an oil hole, which is located at the center of the shaft of the shaft. It turns out to opposite ends of the drive part - the motor for sucking oil. Lubricated from the bottom of the sealed housing by turning the shaft. Lubrication holes which will be formed In such a shaft, positioned near the buttocks to at least one end surface of the said roller to be welded to the suction hole. Such oil A groove lubricates the bearing end surfaces, which are formed at one or more end surfaces. The cylinder block of the said bearing to be attached to the lubrication hole. And lubrication groove Impeller, which is formed on one surface of the sliding face of the impeller in order to be welded to the groove. Lubricate the bearing end surfaces at a predetermined rotation phase and to interrupt the It is connected to the bearing end surface lubrication groove and attached to the said compression chamber at the It revolves around where the impeller protrudes from the impeller groove toward the outer circumference of the roller. 2. A rotary compressor that includes: a sealed housing. Compression parts, which are arranged in the aforementioned housings and which compress the refrigerant and the drive-motor parts, which are placed in the housings that are sealed and which will Transmit power Provide such compression parts Where the compression parts include the shaft which is driven in a revolving way by the part. Drive - such motor The rollers are arranged in unison with the center axis of the shaft. It and will rotate simultaneously with the said shaft. Cylinder, which will have an internal circumferential surface for Such rollers formed in a cylindrical shape and which have the center axis of the surface along the The internal circumference that can be tilted in relation to the center axis of the shaft. Two bearings which block both end surfaces of the cylinder. Impeller, which will slide repeatedly over and over In the impeller grooves formed in the rollers during the compression process and the blocking of the formed compression chamber. By the roller and the bearing along the inner circumferential surface of the cylinder. Said to a certain number of operating rooms And the oil feeding method for feeding the accumulated lubricant. It is placed in the bottom of the sealed housing, to the press chamber, and where the way of feeding there is an oil suction hole, which is located at the center of the shaft of the said shaft and Turns out to the opposite ends of the drive part - such a motor for Suck the lubricant from the bottom of the sealed housing by rotating the shaft. Lubrication holes, which will be Formed in such a shaft located close to one or more end surfaces of such rollers in order to bond. With the aforementioned oil suction holes Lubrication grooves, which are formed at one or more end surfaces of such rollers in order to Welded to the said lubrication hole And the impeller lubrication groove, which will be formed on one surface of the sliding surface The impeller slides in order to connect to the said lubrication groove at a predetermined rotation phase. And in order to interrupt the connection of the lubrication groove and connect it to the compression chamber at the phase The rotation where the impeller protrudes from the said impeller groove toward the outer circumference. 3. The rotary vane compressor is also included: a sealed housing. Pressing parts which are arranged in such a sealed housing and which compress the refrigerant and the drive-motor parts. Which are arranged in the a sealed case and therefore transmit power Provide such compression parts Where the compression parts include the shaft which is driven in a revolving way by the part. Drive - such motor The rollers are arranged together on the same axis as the center axis of the shaft. It and will rotate simultaneously with the said shaft. Cylinder, which will have an internal circumferential surface for Covers such rollers that are formed in a cylindrical shape and which have the center axis of the surface along the The internal circumference that the ball is tilted is skewed relative to the center axis of the shaft. Two bearings which block both end surfaces of the cylinder. Impeller, which will slide repeatedly over and over In the impeller grooves formed in the rollers during the compression process and the blocking of the formed compression chamber. By the roller and the bearing along the inner circumferential surface of the cylinder. As mentioned to a certain number of laboratories And the oil feed method for feeding the accumulated lubricant. It is placed in the bottom of the aforementioned housings, to the press chamber, and where the feeding path is provided with an oil slide, which is positioned at the center of the shaft of the said shaft and It opens to opposite ends of the drive part - the motor for sucking oil. Lubricate from the bottom of the housing where the ball is sealed by rotating the shaft. Lubrication holes which will be formed In such a shaft, located close to one or more of the end surfaces of such rollers to be welded to the suction hole. Such oil A lubrication groove that is formed at one or more end surfaces of such rollers to be bonded. With such lubrication holes And impeller lubrication grooves, which are formed on one surface of the sliding face surface of The impeller in order to be welded to the said lubrication groove at a predetermined rotation phase and welded. Attached to the compression chamber at the revolving phase, where the impeller protrudes from the said impeller groove towards The outer circumference of the roller. And the welding groove, which is placed in the impeller at the Which is at the inner end rather than the impeller lubrication groove and will not connect to the compression chamber even in During the compression process where the impeller extends from the impeller groove towards the circumference. Outside of the roller The bonding groove protrudes from one of the sliding surfaces of the impeller. It is attached to another sliding surface and is bonded to the said lubrication groove at a predetermined rotation phase. 4. One to three claims 1 to 3 propeller-driven compressors that The impeller lubrication groove is formed in the side of the impeller. Which will not be performed at the tried reaction force By the edge along the outer circumference of the impeller groove in accordance with the refrigerant pressure during Compression process 5. Rotary vane compressor of any one of the rights 1 to 4 Where volume Of the lubrication groove, the impeller is optimally made into 0.01 to 1 percent of the suction volume of the Such compression parts -------------- 1. Rotary vane compressor consisting of: a sealed housing Pressing parts, which are housed in a sealed housing and which compress the refrigerant and drive-motor components. Which are arranged in the aforementioned hermetically sealed housing and which transmit power Provide such compression parts Where the compression parts include the shaft which is driven in a revolving way by the part. Drive - such motor The rollers, which are arranged on the same axis as the center axis of the said shaft. And will turn around and combine with the shaft Cylinder, which will have an internal circumferential surface for Covers such rollers that are formed in a cylindrical shape and which have the center axis of the surface along the The internal circumference is tilted in relation to the center axis of the shaft. Two bearings which block both end surfaces of the cylinder. Propeller, which will slide repeatedly In the impeller grooves that are formed in the rollers during the compression process and the separation of the compression chamber along the surface. Along the aforementioned internal circumference of the said cylinder formed by such rollers and bearings The above is a number of laboratories. The inlet is through through which the refrigerant will flow to Such laboratory The outlet through which the refrigerant is pressed in the aforementioned laboratory is released and the oil feed path for the lubricant that is accumulated in the bottom of the housing. Where it is sealed to the compression chamber and where the oil feed path is, there is an oil suction hole which is positioned at the center of the shaft of the shaft and opens to opposite ends. Of driving parts - such motor for sucking oil Lubricate from the bottom of the sealed housing by turning the shaft. Lubrication holes which will be formed In the shaft located close to at least one end surface of the said roller in order to penetrate through holes. The inside and outside of the shaft The bearing end surface lubrication grooves, which are formed at the end surface. The cylinder block of one or more of the aforementioned bearings in order to be joined to the said hole and the impeller grease groove, which is formed on one of the sliding faces of the impeller groove in order to Will connect It is attached to the said lubrication groove that has a predetermined rotation and is connected to the said compression chamber. At the rotational phase where the impeller protrudes from the impeller groove towards the outer circumference. Of such rollers 2. Rotary vane compressor consisting of: sealed housing The compression parts, which are placed in the hermetically sealed housing and which compress the refrigerant and the drive-motor parts, are placed in the hermetically sealed housing and which will Transmit power Provide such compression parts Where the compression parts include the shaft, which is driven in a revolving motion by the part. Drive - such motor The rollers, which are arranged on the same axis as the center axis of the said shaft. And will turn around and combine with the said shaft Cylinder, which will have an internal circumferential surface for Covers such rollers that are formed in a cylindrical shape, which have the center axis of the surface along the The inner circumference that was arranged in an incline. In relation to the center axis of the said shaft Two bearings which block both end surfaces of the cylinder. Propeller, which will slide repeatedly In the impeller grooves that are formed in the rollers during the compression process and the separation of the compression chamber along the surface. Along the aforementioned internal circumference of the cylinder a hole is formed by the said roller and bearing. The above is a number of laboratories. The inlet is through through which the refrigerant will flow to Such laboratory The outlet through which the refrigerant compressed in the aforementioned laboratory is released and the lubricant feed oil barrier is deposited in the bottom of the housing. Where it is sealed to the compression chamber and where the oil feed path is, there is an oil suction hole which is positioned at the center of the shaft of the shaft and opens to opposite ends. Of driving parts - such motors for Suck lubricated from the airtight of the sealed housing by rotating the shaft. Lubrication holes, which will be It is formed in the shaft at a location close to one or more of the end surfaces of the roller in order to bore a hole through it. Along the inside and outside of the shaft The lubrication groove is formed in the ball bearing at the end surface. Of one or more of the above bearings in order to fit into the said lubrication hole. And fan lubrication groove, which It is formed on one surface of the sliding face of the impeller groove in order to be welded into the groove. It is lubricated at a predetermined rotation phase and is attached to the compression chamber at the rotational phase where the impeller protrudes from the impeller groove towards the outer circumference. Of such rollers 3. The rotary vane compressor of claim 2 is also equipped with a welded groove. Which are arranged in the impeller at a position which is in the inner end rather than the lubrication groove of the said impeller and It is not connected to the compression chamber, even during the compression process where the impeller protrudes from the The impeller groove is directed towards the outer circumference of the roller. The groove of the said stick protruding From one sliding surface of the impeller to another, and bonded to the lubrication groove. Said at a predetermined rotation phase 4. Rotary vane compressors of claim 1 to 3, where the impeller lubrication groove is formed in the side of the impeller. Which will not be acted at citing the tried reaction By the edge along the outer circumference of the impeller groove in accordance with the refrigerant pressure during Compression process 5. Rotary vane compressor of any of the 1st to 4th Proposition Where volume The impeller lubrication groove is properly made to 0.01 to 1 percent of the suction volume of the Such compression parts