TH52214B - Air compressor Freezing equipment and refrigerators - Google Patents

Abstract

The DC60 air compressor, freezer, and refrigerator unit improves the efficiency of the internal storage without sacrificing compressor reliability due to reduced oil flow. This air compressor, freezer, and refrigerator unit uses hydrocarbon refrigerants, with a rotor concave face on the compressor side of the rotor, and bearings extending into the concave face. The electric drive is an inverter-driven motor capable of varying rotations. The rotor utilizes permanent magnets, and the compressor height has been minimized. This air compressor, freezer, and refrigerator unit improves the efficiency of the internal storage without sacrificing compressor reliability due to reduced oil flow. This air compressor, freezer, and refrigerator unit uses hydrocarbon refrigerants, with a rotor concave face on the compressor side of the rotor, and bearings extending into the concave face. The electric drive is an inverter-driven motor capable of varying rotations. The rotor utilizes permanent magnets, and the compressor height has been minimized.

Claims (5)

An air compressor encompassing an electrically driven assembly comprising a stator and rotor, and an air compressor assembly driven by the electrically driven assembly in a sealed container, the machinery consisting of said air compressor assembly and said electrically driven assembly is supported flexibly by means of support materials to the sealed container, and is a reciprocating compressor having a compression chamber and a piston moving back and forth in the compression chamber, a shaft having a main shaft and cam members, and bearings supporting said main shaft members. The rotor is bolted to said main shaft members. The machinery is of the hydrocarbon refrigerant type, which allows for a large cylinder volume to compensate for the low freezing capacity per unit volume when compared to R134a. The rotor has a rotor recess on the side of the air compressor assembly, a bearing protrudes on the rotor recess. The electrically driven assembly is an inverter motor rotating at a variable speed. and a permanent magnet is used in the rotor. 2. The air compressor of claim 1, wherein the hydrocarbon refrigerant is R600a, the oil filled and sealed is mineral oil or alkylbenzene. 3. The air compressor of claim 1 or 2, wherein said electrically driven component is of the type of winding terminals wound around electrically insulated wires at a plurality of protrusions of the stator iron core, the stator is fixed to form the stator. 4. The air compressor of claim 3, wherein said air compressor component has a cylinder having an air compression chamber, said cylinder having legs formed to mount the electrically driven component, and said legs of the cylinder are mounted on a stator iron core wound at a plurality of protrusions. 5. The air compressor of any one of claims 1 to 4, wherein said permanent magnet is a permanent magnet made of a rare earth metal. 6. The air compressor of any one of claims 1 to 5, wherein the distance between the centers of the The center of gravity of the upper and lower directions of the compressor and the attachment face of the legs of said compressor to the support material is shorter than the distance between said center of gravity and the bottom face of said support material. 7. The compressor of any one of claims 1 to 6, wherein the attachment face of the legs attached to the lower container and the flexible material is at the top of the bottom face of said support material. 8. The compressor of claim 7, wherein the height of said flexible material is greater than the distance between said attachment face and said bottom of said lower container. 9. The compressor of claim 6 or 7, wherein said legs have an adhesion face which adheres to a sealed container, has an upward bend and an adhesion face which engages the flexible material. 1 0. The compressor of any one of claims 6 to 8, wherein said legs have ridges spanning at least two positions of said adhesion face, said bend. and said additional face 1 1. The air compressor of claim 1, mounted on a refrigerator such that said sealed container has an upper container and a lower container, wherein said lower container is fitted with a plurality of legs having a concave part made of flexible material, the flexible material being fitted to said concave part such that the height of said flexible material is greater than the distance from the mounting face of said air compressor to the bottom of said air compressor 1 2. The air compressor of claim 1 1, which is attached by means of an insertion to the bottom of said flexible material by means of a surround or a part of said recess 1 3. The air compressor of claims 1 to 1 2, any one of which has a bulging part formed in the form of a concave or convex part with a curvature less than the surround of said sealed container at the bottom of said sealed container 1 4. The air compressor of claim 1 3, wherein said bulging part has a bulging part on the legs for support 1 5. The compressor of claim 1.3, wherein said bulging portion has a bulging portion for support in the vicinity of the connection between the lower face of the support material and said closed container. 1 6. The compressor of claim 6. or 7, wherein the lower container has a bulging portion formed in the form of a concave or convex portion with a curvature less than the perimeter of the closed container at the lower container of the closed container, and said bulging portion is installed in the vicinity of the connection between the legs of said compressor and said closed container. 1 7. The compressor of claims 1.1 to 1.6, wherein the height from the bottom of said lower container to the top of said upper container is not more than 140 mm. 1 8. The compressor of any one of claims 1. to 1.7, wherein the height from the mounting face 19. The compressor of claim 1, having an oil trap which prevents oil from flowing out of said compressor body. 20. The compressor of claim 19, having an upper shell and a lower shell which are separated into two parts, upper and lower, after packing the curved parts inside, said upper shell and said lower shell are hermetically welded together at the shell joining. The inlet pipe being constructed on the lower shell side opens at the compressor body at a face nearly level with the face of the inner wall of said lower shell. 2 1. The air compressor according to claim 1 9. or 2 0., in which a refrigerant is inserted and sealed in the freezing cycle, being a refrigerant of lower specific gravity than said oil, in a state where said refrigerant is in a liquid state 2. 2. The air compressor according to claim 21, wherein the said refrigerant is R600a and the said oil is mineral oil 2. 3. A freezer having an insulated housing, having a freezer circuit forming one refrigerant path with an insulated housing, wherein a compressor, distiller, pressure reducer, and vaporizer are respectively installed in the insulated housing, and the compressor is installed according to claims 1. to 2. 2. any one of the following: 2. 4. A refrigerator having an insulated housing, having a freezing cycle forming one refrigerant path with an insulated housing, wherein a compressor, distiller, depressurizer, and vaporizer are respectively installed in the insulated housing, and the compressor is installed according to claims 1. to 2. any one of the following: 2. 5. A refrigerator equipped with a freezing device according to claim 23.