RU2220384C2 - Motor-compressor - Google Patents

Abstract

FIELD: compressor arrangements of motor-compressor units. SUBSTANCE: motor-compressor has compressor and electric motor, which are installed in cylindrical body having sealed ends. Disc with groove is installed in boring formed in each body end and filled with elastomeric sealant. Groove is made by ring put on disc. Disc is fixed against pulling out thereof as a result of inner pressure by split keys or ring spring located into boring groove. Each body end may be closed by lid having nipple closed by rubber cup. EFFECT: possibility of motor-compressor using under high pressure, simplified electric motor assembling and disassembling. 2 cl, 1 dwg

Description

 The invention relates to hermetic structures and assemblies intended for use in vapor compression refrigeration machines, mainly using working substances with low critical temperatures (for example, carbon monoxide).

 Semi-hermetic sealless compressors are known in which the supporting structure is a common molded compressor casing with an electric motor closed by end caps on bolts (see "Symbol" represents "," Refrigeration ", 4, 2000, p. 24).

 The main significant disadvantages of the known design are unacceptability for use with working materials with low critical temperatures and, accordingly, high working pressures due to poor tensile work of casting materials (cast iron, aluminum alloys, etc.), as well as the need to use bolted connections powerful flanges.

 Hermetic compressor motors are also known, in which the electric motor and compressor comprise a single supporting structure installed in a thin-walled sealed steel shell (see US Patent 4,529,575).

 The main significant drawback of this design is the inability to use a thin-walled shell for high pressures.

 The closest analogue of the claimed invention is a motor compressor containing a compressor with an electric motor installed in a cylindrical housing with sealed ends (see Krinitsky D.G., Burdanov N.G. New developments in the field of screw and scroll compressors, "Refrigeration", 9 , 2000, p. 12).

 The main and significant drawback of the known technical solution is the lack of the possibility of dismantling the electric motor or compressor when using carbon dioxide as the working fluid, when at equal volumes of the shell the aggregate power will be 4-5 times more than for Freon 134a, which is very important for cars of such power.

 The technical result of the present invention is a combination of the possibility of using a sealed motor-compressor for high pressures and ease of installation and dismantling of the electric motor and compressor.

 The technical result is achieved in that in a motor compressor containing a compressor with an electric motor installed in a cylindrical body with sealed ends, according to the invention, a disk with a groove formed by the disk and a ring worn on it and filled with a chevron or elastomeric seal is installed in each end bore of the body moreover, the disk is fixed from pushing out by internal pressure by crackers or a flat ring spring inserted into the groove of the end bore.

 Each end of the cylindrical body can be closed with a lid with a nozzle equipped with a rubber cap.

 From the patent technical literature, as well as from the practice of operating refrigeration equipment at the filing date of the application, it is not known about the similar claimed sealed construction of the motor-compressor. The presented new set of essential features in the claims when implemented in practice solves the problem and allows to achieve a new positive result. Moreover, each of the new essential features affects the implementation of the task and, together with the known essential features, provides a complete implementation of the task of the invention.

 The proposed design of the motor-compressor was tested at a stand in the research laboratory of thermophysics of AKMA OJSC (Astrakhan plant of forging and pressing equipment).

 The invention is illustrated by a general view drawing with end seals shown in section. A disk 2 is installed on the lower end bore of the cylindrical body 1 with a groove formed by the disk and a ring 3 worn on it and filled with a chevron or elastomeric seal 4, fixed from pushing out by internal pressure by crackers or a flat ring spring inserted into the groove of the end bore.

 To control the tightness of the seals, each end of the cylindrical body 1 can be closed by a cover 6 with a pipe 7 equipped with a rubber cap 8.

 The motor compressor operates as follows: in working condition, the cylindrical body 1 experiences excessive pressure, tending to push the disk 2 outward, fixed from pushing out by internal pressure by crackers or a flat annular spring 5, inserted into the groove of the end bore, and the chevron or elastomeric seal 4, clamped in the groove of the disk 2, formed by the disk and the ring 3 worn on it, seals the joint "disk-boring".

 In the event of a leak in the seals, the rubber cap 8, worn on the nozzle 7 of the cover 6, is inflated, indicating a depressurization.

 Using the proposed design of the motor-compressor will allow you to raise the current power limit for the use of hermetic motor-compressors to 15 kW of installed power and even more, providing compactness, low metal consumption and ease of installation and dismantling of the motor and compressor.

Claims (2)

1. A motor compressor comprising a compressor with an electric motor installed in a cylindrical housing with sealed ends, characterized in that in each end bore of the housing there is a disk with a groove formed by the disk and a ring worn on it and filled with a chevron or elastomeric seal, the disk being fixed from pushing out internal pressure with crackers or a flat ring spring inserted into the groove of the end bore. 2. The motor compressor according to claim 1, characterized in that each end of the cylindrical body is closed by a lid with a pipe equipped with a rubber cap.