TH68623B - Fully enclosed compactor and cooling loop device - Google Patents

Abstract

New requests, improvements In the sealed compactor according to the pattern The front end of the impeller in the direction of sliding is in the Contact with the perimeter surface of the roller. One pair of impeller side surfaces will be in contact. Sliding against the barrel Another pair of impeller side surfaces will be in sliding contact with the closing part. The cylinder chamber is separated into the suction chamber and the compression chamber. Amorphous carbon layer One with a thickness of Ta and a vicker's hardness of HVa is created on the front end surface of the propeller, a second amorphous carbon layer with a thickness of Tb and a vicker's hardness of HVb is created. Up on one pair of the propeller side surfaces. A third amorphous carbon layer with a thickness of Tc and a vicker's hardness of HVc is created on another pair of the vane side surfaces, the thickness and hardness of the vickers of the first amorphous carbon layer. Up to three will be in the subsequent relationship Ta >Tc; Tb >Tc; HVa >HVb; And HVb> HVc --------------------------------------------- ------:

Claims (4)

Disclaimer (all) which will not appear on the advertisement page. : ------ 20/06/2018 ------ (OCR) Page 1 of 2 pages Disclaimer 1. The fully enclosed compactor has a sealed chamber that gathers the electric motor part and the mechanical part. compress Which is driven by the electric motor part to compress the working fluid, which The compression mechanism consists of: a cylinder consisting of an impeller groove built into the cylinder; A closed piece to cover both ends of the cylinder to form a cylinder chamber inside the cylinder; The rollers are connected to the electric motor part and are placed in the cylinder chamber where the rollers can be driven. Eccentric rotation; And the propeller that is sliding in the blade groove and has a front end surface in the direction of the In contact with the peripheral surface of the roller, one pair of the lateral surfaces of the impeller will be in contact Sliding against the barrel And another pair of impeller side surfaces will be in sliding contact with the parts. Closed to divide the cylinder chamber into the suction chamber and the compression chamber, where the first amorphous carbon layer with the thickness of Ta and the Vickers hardness, of the HVa, is formed on the front end surface of the impeller, A second amorphous carbon layer with a thickness of Tb and a vickers hardness of HVb is formed on one pair of the propeller side surface, an amorphous carbon layer with Tc thickness and hardness. Vickers' HVc's will be built on another piece. One pair of impeller side surfaces The first amorphous carbon layer and the second amorphous carbon layer are chiseled with layers. Amorphous carbon containing tungsten and an amorphous carbon layer without metal but containing Carbon and hydrogens, amorphous carbon layers are composed of amorphous carbon layers. With tungsten only, and the thickness and hardness of the first to third amorphous carbon layer Vickers are The relationship is as follows: Ta> Tc; Tb> Tc; HVa &gt;HVc; And HVb> HVc 2. Compactors according to claim 1, where the Ta thickness of the first amorphous carbon layer and the Tb thickness of the tried amorphous carbon layer is machined to satisfy 2 (formula ) m &lt; Tb &lt; Ta and Tc thickness of the third amorphous carbon layer are chiseled to satisfy 0 &lt; Tc &lt; 1 mum 3. Compactor according to claim 1, where the roller will Fit the eccentric part of the shaft. Rotate the protrusion from the electric motor part, page 2 of the number 2, page 4. Compressors according to claim 3, where the parts are closed as a bearing. 5. Compressors according to claim 1, where the rear end of the impeller is pushed by a spring. 6. Press according to claim 5, where the cylinder chamber is separated into compression chamber and Suction chamber by impeller 7. Compressors according to claim 3, where the rear end of the impeller is pushed by a spring. 8. Compressors according to claim 7, where the cylinder chamber is separated into compression chamber and Suction chamber by impeller 9. The device to create a cooling loop consists of: a fully enclosed compressor according to claim 1; Condenser connected to the compressor; The expansion device connected to the condenser; And an evaporator connected between the expansion device and the compressor 1 0. The cooling loop device consists of: a sealed compressor according to claim 2; Condenser connected to the compressor; The expansion device connected to the condenser; And the evaporator connected between the expansion device and the compressor. ------------ Revised 16/01/2017 1. The fully enclosed compactor has a fully enclosed chamber that gathers the electric motor part and the compression mechanism part. Which is driven by the electric motor part to compress the working fluid, which The compression mechanism consists of: a cylinder consisting of an impeller groove built into the cylinder; A closed piece to cover both ends of the cylinder to form a cylinder chamber inside the cylinder; The rollers are connected to the electric motor part and are placed in a cylinder chamber where the rollers can Eccentric rotation; And the propeller that is sliding in the blade groove and has a front end surface in the direction of the In contact with the peripheral surface of the roller, one pair of the lateral surfaces of the impeller will be in contact Sliding against the barrel And another pair of impeller side surfaces will be in sliding contact with the parts. In order to divide the cylinder chamber into the suction chamber and the compression chamber, the first amorphous carbon layer with Ta thickness and HVa vickers hardness is formed on the front end surface of the impeller, the A second morphology with thickness Tb and Vicker's hardness of HVb is formed on one pair of the propeller lateral surface, third amorphous carbon layer with thickness Tc and Vick hardness. The HVc is created. On another pair of impeller side surfaces Vickers' thickness and hardness of the first amorphous carbon layer and the thickness and Vickers hardness of the second amorphous carbon layer was coated with the amorphous carbon layer at Contains tungsten and an amorphous carbon layer, does not contain metals and consists of Carbon and hydrogen Vickers thickness and hardness of the third amorphous carbon layer were Formed only with an amorphous carbon layer containing tungsten. And the vickers thickness and hardness of the first to third amorphous carbon layers are The relationship is as follows: Ta> Tc; Tb> Tc; HVa &gt;HVc; And HVb> HVc 2. The compactor according to claim 1 is such that the thickness Ta of the first amorphous carbon layer and the thickness Tb of the second amorphous carbon layer is formed to satisfy 2 (formula) m (formula ) Tb <Ta and Tc thickness of the third amorphous carbon layer are formed to satisfy 0 &lt; Tc (formula) 1 ((formula) m). 3. The compressor according to claim 1 is the type in which the rollers fit into the eccentric part of the rotating shaft extending from the electric motor section 4. The compressor according to claim 3 is the type in which the parts are closed as a bearing. 5. The compressor according to claim 1 is a type in which the rear end of the impeller is pushed by a spring. 6. The compressor according to claim 5 is a type in which the cylinder chamber is divided into the compression chamber and the compression chamber. Suction by the impeller 7. The compressor according to claim 3 is a type in which the rear end of the impeller is pushed by a spring. 8. The compressor according to claim 7 is a type where the cylinder chamber is separated into the compression chamber. And the suction chamber by the impeller 9. The device creates a cooling loop consisting of: a compressor according to claim 1; Condenser connected to the compressor; The expansion device connected to the condenser; And an evaporator connected between the expansion device and the compressor 1 0. The cooling loop device consists of: compressor according to claim 2; Condenser connected to the compressor; The expansion device connected to the condenser; And an evaporator connected between the expansion device and the compressor. --------------------------- Renovation request 1. The fully enclosed compressor has a hermetically sealed chamber that gathers the electric motor part and the mechanical part. Compress Driven by the electric motor part to compress the working fluid, the compression mechanism part consists of: a cylinder consisting of an impeller groove built into the cylinder; A closed piece to cover both ends of the cylinder to form a cylinder chamber inside the cylinder; The rollers are connected to the electric motor part and are placed in a cylinder chamber where the rollers can Eccentric rotation; And the propeller that is sliding in the blade groove and has a front end surface in the direction of the sliding contact With the peripheral surface of the roller, one pair of the impeller lateral surface is in sliding contact with the cylinder, and the other pair of the impeller side surface is in sliding contact with the blocking element. Divide the cylinder chamber into the suction chamber and the compression chamber, where the first amorphous carbon layer with the thickness of Ta and the hardness of the HVa vickers is formed on the front end surface of the rotor, the amorphous carbon layer. A second with a thickness of Tb and a vickers hardness of HVb is formed on one pair of the propeller side surface, a third amorphous carbon layer with a thickness of Tc and a vickers hardness. The HVc's will be built on top of one more pair. Of the impeller side surface And the thickness and hardness of the vickers of the first to amorphous carbon layer Three have a subsequent relationship: Ta &gt;Tc; Tb> Tc; HVa &gt;HVc; And HVb> HVc 2. The compressor according to claim 1, is such that the Ta thickness of the first amorphous carbon layer and the Tb thickness of the second amorphous carbon layer is formed to satisfy 2. (Formula) m (formula) Tb <TA p --------------------------------------- - <Evaporator connected between the expansion device and the compressor and the expansion device connected to the condenser; Condenser connected to the compressor; 2; The compressor according to the claim that Cooling loop forming device consists of: 1 0. Evaporator connected between the expansion device and the compressor. The expansion device connected to the condenser; 1; 9. Vacuum chamber by impeller It is a type in which the cylinder chamber is separated into the compression chamber and 7, the compressor according to claim 8. It is a type in which the rear end of the impeller is pushed by springs 3, 7. 5, 6. 1, 5. It's the type that the closed parts are bearing. 4.Rotate the protrusion from the electric motor part. It is such that the roller will fit into the eccentric part of the shaft 3. ((formula) m) 1 (formula) Tc <0 of the third amorphous carbon layer is formed to meet the thickness>.