TH37443A - Fluid Compressors - Google Patents

Abstract

DC60 (17/06/46) Fluid Compressors It consists of a sealing cover, oil storage tank. Built into the inner bottom of the hermetically sealed enclosure. In the condition that was installed For holding oil Slippery and compression mechanism Which has a spiral blade structure Encapsulated in a sealing enclosure, the compression mechanism consists of a cylinder, rotating assembly. That are arranged in the barrel to perform eccentric motion. And a spiral impeller that is inserted between the rotating assembly And a cylinder for setting the scope of the compression chamber That are separated by a number of compressed air compressors that still contain Electric motor unit That is encapsulated within a sealed enclosure in connection with working with the compression mechanism. The compression mechanism has a vertical structure. In which the fluid will be compressed and transported In the direction perpendicular in the installed condition The compression mechanism provides a suction section for the fluid to be compressed underneath the rotating assembly. The rotating assembly provides a correct end face. Set the position on the side of the suction section. To set the boundary of the surface Which is supported by the bearings and the thrust surface of the rotating assembly Will be dipped in lubricant That is supplied from the compressor oil storage tank compressed fluid It consists of a sealing cover, oil storage tank. Built into the inner bottom of the hermetically sealed enclosure. In the condition that was installed For holding oil Slippery and compression mechanism Which has a spiral blade structure Encapsulated in a sealing enclosure, the compression mechanism consists of a cylinder, rotating assembly. That are arranged in the barrel to perform eccentric motion. And a spiral impeller that is inserted between the rotating assembly And a cylinder for setting the scope of the compression chamber That are separated by a number of compressed air compressors that still contain Electric motor unit That is encapsulated within a sealed enclosure in connection with working with the compression mechanism. The compression mechanism has a vertical structure. In which the fluid will be compressed and transported In the direction perpendicular in the installed condition The compression mechanism provides a suction section for the fluid to be compressed underneath the rotating assembly. The rotating assembly provides a correct end face. Set the position on the side of the suction section. To define the crystal surface boundary Which is supported by the bearings and the thrust surface of the rotating assembly Will be dipped in lubricant Being supplied from the oil storage tank

Claims (6)

1. Compressors compressing fluid which consists of A sealed holster with an inner bottom. Oil storage tank, built in such an inner bottom for storing lubricant in That was installed vertically of the fluid compression compressor. A unit of an electric motor encapsulated on one end in a sealing enclosure and an encapsulated mechanical unit on the other end in a sealing enclosure. And there is a helical spiral impeller structure encapsulated in a sealed enclosure. The unit of the compression mechanism consists of a cylinder. The upper bearing is installed to The upper end face of the lower bearing cylinder is mounted to the lower end face of the cylinder. The rotating shaft passes through the cylinder. And will be sustained top and bottom dob bearing As mentioned in order to rotate Rotating assemblies arranged in such a cylinder And lead to movement Eccentric by the rotation of the rotating shaft. And a circular impeller that is inserted between The rotating assembly And such a cylinder for setting the scope A number of separated compression chambers where the compression engine unit absorbs the fluid to be compressed into one of the The recording chambers were positioned at one end of the section. And serves to transfer fluid towards Another compression chamber at the other end of that section while compressing the fluid. Where the compression mechanism is structured vertically In which the fluid will be compressed and transported In the direction perpendicular to which the unit of the compression mechanism provides a suction section For the fluid to be compressed To the part under the rotating assembly, where the rotating assembly is located on the surface Along the circumference, there is a spiral groove where the spiral impeller rotates around the groove, thus separating the space between the said rotating assembly and the cylinder. Into a working compartment, a number of such rotating assemblies will perform a revolving motion Against the barrel And is provided with a positioned end face on the side of the suction section for defining the pushing face. Which will be sustained by the bottom bearing And the mechanism of Oldham that was overlapped To prevent the cylinder from spinning spontaneously around the axis of the part, the Oldham mechanism is arranged at the end of the rotating assembly on the side of the surface suction fluid section. Such pushing of the rotating assembly And Oldham's mechanics are dipped in oil. The lubrication is supplied from the tank. 2. The compressor compresses the fluid according to claim 1, in which the unit of such compression mechanism will be Placed under the cover for such a seal. And the bearing is built with an oil pilot channel where the lubricant in the oil reservoir is piloted to the thrust surface of the rotating assembly through such a channel. 3. Compressors compressing fluid according to claim 2, which still consists of a dispensing mechanism. Oil for supplying oil to the unit of such a compression mechanism. Where the said oil supply mechanism will be arranged To be immersed in lubricant In the said oil storage tank 4. Compressors compressing fluid according to claim 1, which the electric motor unit will Was placed under the cover for such a seal. And has a rotating shaft that extends from the top end face of Such electric motor unit And is attached to the unit of the compression mechanism 5. The compressor compresses the fluid according to claim 4, which the unit of the said compression mechanism has The part in which the lubricating oil is stored by the bearing below. In that section And pushed surface Such of the rotating assembly is immersed in lubricant. 6. Compressors compressing fluid according to claim 1, which the suction part will Assembled with suction pipe That was connected to the side of the cylinder.