TH96895B - Rotary compressor - Google Patents

Abstract

Page 1 of 1 page Summary of the invention Return flow of coolant compressed by the upper cylinder through the fluid passage port. The coolant is suppressed by the flow resistance in the channel of the coolant flowing through the channel path. The refrigerant is reduced and the efficiency of the compressor deteriorates. Rotation is prevented in a rotary compressor. The coolant path is linked to a concavity of the lower discharge chamber while at least part of those overlapping the concave portion of the discharge chamber The lower outlet has been positioned between the lower impeller groove and the first insertion port in The lower cylinder is designed with a number of channels arranged between the propeller grooves. The upper part and the primary insertion port in the upper cylinder and the sectional area of The cross section closest to the lower impeller groove and upper impeller groove of the bulk channel will Smallest when compared to the sectional area of other channel cross sections.

Claims (1)

Page 1 of 3 Claims 1. A rotary compressor including a cylindrical compressor frame arranged in it. A hermetically sealed barrier is provided with an outlet pipe through which the coolant is discharged. The top of which is provided with an upper inlet pipe and a lower inlet pipe with suction. Coolant in the lower part of the side surface of those, the reservoir, which is connected to the inlet pipe section. The upper and lower inlet pipes are fixed to the side sections of the compressor/motor frame which It is housed in the compressor frame and compression unit which is positioned below the motor. In the compressor frame, which is driven by a motor, sucks and presses the coolant from the tank. Stay through the upper inlet pipe and lower inlet pipe and release the coolant from the outlet pipe. and wherein the compression unit includes an annular upper cylinder and an annular lower stroking cylinder. A ring, upper end plate which blocks the upper side of the upper cylinder and the lower end plate. which blocks the lower side of the lower cylinder, the center divider plate which is placed between upper cylinder and lower cylinder and blocking the lower side of the upper cylinder and on the upper side of the lower cylinder, the axis of rotation is supported by a section bearing unit. The main bearing is provided on the upper end plate and the sub-bearing unit is provided on the upper end plate. The bottom is rotated by a motor, the upper asymmetrical section and lower asymmetrical section are arranged. To have a phase difference from each other in the axis of rotation, the upper piston has been adjusted to Fits the upper asymmetrical part rotating between the internal circumferential surfaces of the upper cylinder. and created an upper cylinder chamber in the upper cylinder, a lower piston which was adjusted to fit The lower asymmetrical part rotates between the internal circumferential surface of the lower cylinder and Creates a lower cylinder chamber in the lower cylinder, upper impeller which extends from the section impeller groove. The upper cylinder is provided in the upper cylinder chamber, supporting the upper piston and Divided upper cylinder chamber into upper inlet chamber and upper compression chamber, impeller section which extends from the lower impeller groove provided in the lower cylinder in the cylinder chamber. The bottom supports the lower piston and divides the lower cylinder chamber into the lower inlet chamber and The lower compression chamber, the upper end plate covering element which covers the upper end plate form a closed chamber. Covers the upper end plate between the upper end plate and the upper end plate covering piece and has a channel. Release of the upper end plate covering part that provides the upper end plate covering chamber and the interior of the The compressor frame is linked to each other, the lower end plate is enclosed. the lower end plate and creates a lower end plate enclosure chamber between the lower end plate and the piece The lower end plate covering, upper discharge port which is provided on the upper end plate and Page 2 of 3 pages It provides an upper compression chamber and an upper end plate enclosure chamber to be connected to each other, a lower discharge port is provided on the lower end plate and provides a partial compression chamber. The lower chamber and lower end plate enclosures are linked to each other and the chambers route the casting fluid. cold which passes through the lower end plate, lower cylinder, intermediate sectional plate, section cylinder upper and upper end plate and associated with the lower end plate enclosure chamber and plate enclosure chamber. At the upper end, the compressor comprising: an upper discharge valve which opens and closes the upper discharge port; Lower discharge valve which opens and closes the lower discharge passage. The recess housing the upper discharge valve is provided on the upper end plate and is extended. in the shape of the groove from the position of the upper discharge funnel and The recess housing the lower discharge valve has been provided on the lower end plate and is extended. in the shape of a groove from the position of the lower discharge port, wherein the lower end plate covering member is formed in the plate shape, wherein the concavity of the lower discharge chamber is formed on the lower end plate to be superimposed. crush The lower discharge port on the side of the lower discharge valve housing concave, whereby the lower end plate enclosure chamber is designed as the concave portion of the lower discharge valve. bottom and the recess that houses the lower discharge valve, whereby the recess of the lower discharge chamber in the lower end plate is constructed within the range It is similar to a propeller between the lines connecting the center of the primary insertion channel and the center. of secondary insertion channels adjacent to each other among a large number of channels Insertion into which the clamping member closing the lower end plate, lower end plate, lower cylinder, intermediate divider plate, upper cylinder, upper end plate and part The upper end plate has been inserted and has been arranged on the circumference around the axis of rotation to Through the lower end plate, lower cylinder, intermediate sectioning plate, upper cylinder. and the upper end plate and center of the sub-bearing unit, where the coolant path is designed into a number of channels which are linked to The concave portion of the chamber gives off the lower portion, while at least part of those that overlap the concave portion of The lower ejection chamber is positioned between the lower impeller groove and the sequence insertion cavity. first in the lower cylinder and is positioned between the upper impeller groove and the insertion port. first in the upper cylinder and Page 3 of 3 pages where in a plurality of channels the area is a section of the cross section of the channel which closest to the lower impeller groove and the upper impeller groove is the smallest compared to the area of It is a cross section of another channel. 2. The rotary compressor according to claim 1, wherein the area is the segmental section of the channel cross section closest to the section impeller groove. The lower and upper impeller grooves on each of the lower cylinder and upper cylinder are small. the greatest when compared to the sectional area of the cross-section of other channels. 3. The rotary compressor of claim 1 or 2, wherein each of the plurality of channels is a circular orifice 4. The rotary compressor of claims 1 to 3, wherein the sectional area of each of the cross sections of the plurality of channels is The maximum dimensions that do not interfere with other mechanical parts are each of the lower end plate, lower cylinder, intermediate sectioning plate, upper cylinder and upper end plate.