CN211204504U - A kind of compressor - Google Patents

Abstract

The utility model discloses a compressor, including the compressor body, be equipped with compressor arrangement in the compressor body, the bottom is equipped with the oil groove that is used for providing lubricating oil for compressor arrangement in the compressor body, and the oil groove outside is around being equipped with the refrigerant circulating pipe, and when circulating system used as heating system, high temperature high pressure medium released heat to the oil groove through the refrigerant circulating pipe around establishing on the oil groove, and when circulating system used as refrigerating system, the low temperature low pressure refrigerant gas that comes from the circulation system evaporimeter cooled down the temperature to the lubricating oil in the oil groove, the utility model discloses need not adopt electric heating device to heat lubricating oil to practiced thrift the electric energy consumption of electric heating, reduced the energy consumption of compressor; when the compressor is used as a refrigerating system, the oil groove is cooled by a refrigerant, so that the problem of overheat shutdown of the compressor is avoided.

Description

A kind of compressor

Technical Field

The utility model belongs to the technical field of the energy, a compressor is related to.

Background

Compressors (e.g., scroll compressors, rotary compressors, etc.) typically include a compression mechanism, a drive shaft, and a motor. The drive shaft is supported by bearings in a bearing housing and is driven for rotation by a motor. Rotation of the drive shaft in turn moves movable components of the compression mechanism (e.g., the orbiting scroll of a scroll compressor, the rotors of a rotary compressor, etc.) to compress a working fluid (e.g., refrigerant).

Each movable component of the compressor (e.g., the orbiting scroll of a scroll compressor, the rotor of a rotary compressor, bearings, etc.) requires lubrication with a lubricating oil to maintain the operational stability and reliability of each movable component and the overall compressor. Therefore, the lubricating oil circulation system of the compressor is an important component of the compressor. The compressor is mainly applied to a refrigeration system and is regarded as the heart of the refrigeration system

When the compressor is operated, lubricating oil is conveyed from the oil pool to movable components such as a motor of the compressor under the action of pressure difference or an oil pumping mechanism so as to lubricate each component to maintain the normal operation of the movable components, and finally, the lubricating oil returns to the oil pool. In winter, the temperature of lubricating oil itself is low, the viscosity of lubricating oil is big, solidification phenomenon appears easily in the lubricating oil, the lubricating oil is difficult to movable parts such as the motor of effectual transport to the compressor, the means that adopts at present adds to establish electric heater unit and heats lubricating oil in the outside of oil bath and guarantees that lubricating oil does not solidify and reduce viscidity, though the reliable operation of compressor can be guaranteed to the electric heating measure, but the structure is complicated, must control electric heating temperature and process, guarantee promptly that lubricating oil does not solidify, avoid compressor motor overheated again, will cause great electric energy consumption, thereby make the energy consumption increase of compressor. In summer, the problem of overhigh temperature is often caused by continuous work of the compressor, the temperature of lubricating oil in an oil pool is continuously increased, and the problem of lubrication failure is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome prior art not enough, provide a compressor simple structure, lubricated effectual, guarantee the compressor reliable operation.

The utility model discloses a realize through following technical scheme:

a compressor comprises a compressor body, wherein a compression device is arranged in the compressor body, and an oil groove for providing lubricating oil for the compression device is arranged at the bottom end in the compressor body; the compressor body is provided with a first refrigerant inlet and outlet and a second refrigerant inlet and outlet, a refrigerant circulating pipe is wound outside the oil groove, one end of the refrigerant circulating pipe is connected with the second refrigerant inlet and outlet, when the compressor is connected into the circulating system, the first refrigerant inlet and outlet is communicated with a condenser refrigerant pipeline, and the other end of the refrigerant circulating pipe is communicated with an evaporator refrigerant pipeline.

Furthermore, the outer side of the oil groove is provided with a limiting groove for limiting the refrigerant circulating pipe, and the refrigerant circulating pipe is wound in the limiting groove in a lap mode.

Furthermore, the outer side of the refrigerant circulating pipe is provided with a protective cover fixedly connected with the edge of the limiting groove.

Furthermore, the protective cover is externally connected with radiating fins.

Further, the protective cover and the heat radiating fins are made of an aluminum plate.

Furthermore, the refrigerant circulating pipe is a copper pipe.

Furthermore, a four-way reversing valve for converting the flow direction of the refrigerant is arranged on the refrigerant circulating pipe.

Compared with the prior art, the utility model discloses following profitable technological effect has:

the utility model discloses a compressor, around being equipped with the refrigerant circulating pipe outside the compressor oil groove, when the circulation system used as heating system, the low temperature low pressure refrigerant gas that comes from the condenser of circulation system becomes high temperature high pressure medium through getting into the compressor from first refrigerant access & exit and doing work after, then releases heat to the oil groove through the refrigerant circulating pipe around establishing on the oil groove, high temperature high pressure refrigerant passes through the refrigerant circulating pipe with heat transfer to the compressor body, and then can be with heat transfer to the oil groove, heat the lubricating oil in the oil groove, avoid cold weather, the problem that lubricating oil solidification and viscidity grow appears; the heat generated by the compressor is mostly from the motor inside the compressor, and the oil groove part has no source for generating heat, so that the temperature distribution of the compressor on the shell of the compressor is not uniform when the compressor works, and the refrigerant circulating pipe positioned outside the compressor is beneficial to conducting the heat of the motor part with more heat to the oil groove part with less heat, thereby ensuring that the temperature distribution of the whole machine body of the compressor is more uniform.

When the circulation system uses as refrigerating system, the low temperature low pressure refrigerant gas that comes from the circulation system evaporimeter gets into the compressor from second refrigerant access & exit after refrigerant circulating pipe circulation, and low temperature refrigerant passes through the refrigerant circulating pipe and transmits cold volume to the compressor body, and then can cool down the temperature to the lubricating oil in the oil groove, avoids hot high temperature weather, appears the lubricating oil high temperature, leads to the problem that the compressor shut down.

Compared with the prior art, the utility model does not need to adopt an electric heating device to heat the lubricating oil, thereby saving the electric energy consumption of electric heating and reducing the energy consumption of the compressor; when the compressor is used as a refrigerating system, the oil groove is cooled by a refrigerant, so that the problem of overheat shutdown of the compressor is avoided.

Drawings

Fig. 1 is an overall schematic view of the present invention;

FIG. 2 is a schematic diagram of the present invention applied in a refrigeration system;

the compressor comprises a compressor body 1, a compression device 2, an oil groove 3, a refrigerant circulating pipe 4, a first refrigerant inlet and outlet 5, a second refrigerant inlet and outlet 6, a boss 7, a protective cover 8, a condenser 9, an expansion valve 10, an evaporator 11 and a compressor 12.

Detailed Description

The present invention will be described in further detail with reference to the following specific examples, which should not be construed as limiting the invention.

As shown in fig. 1, a compressor comprises a compressor body 1, a compression device 2 is arranged in the compressor body 1, and an oil groove 3 for providing lubricating oil for the compression device 2 is arranged at the inner bottom end of the compressor body 1; the arrangement of the compression device 2 and the oil groove 3 is the same as the structure inside the conventional compressor body 1.

The compressor body 1 is provided with a first refrigerant inlet and outlet and a second refrigerant inlet and outlet, a refrigerant circulating pipe 4 is wound outside the oil groove 3, one end of the refrigerant circulating pipe 4 is connected with a second refrigerant inlet and outlet 6, when the compressor is connected into a circulating system, the first refrigerant inlet and outlet 5 is communicated with a refrigerant pipeline of the condenser 9, the other end of the refrigerant circulating pipe 4 is communicated with a refrigerant pipeline of the evaporator 11, and the refrigerant circulating pipe 4 is a copper pipe; the compressor is a driven fluid machine that raises low-pressure gas into high-pressure gas, and is the heart of the refrigeration system. The refrigerant circulation pipe 4 is provided with a four-way reversing valve for switching the refrigerant flow direction, thereby realizing the switching between cooling and heating of the compressor, and the four-way reversing valve is widely applied to the compressor at present and will not be described herein.

As shown in fig. 2, when the air conditioner is used as a heating system, a low-temperature and low-pressure refrigerant that enters the compressor through the first refrigerant inlet/outlet 5 is compressed by the compression device 2, and then a high-temperature and high-pressure refrigerant is discharged to the second refrigerant inlet/outlet 6 to provide power for the refrigeration cycle. Because the oil groove 3 belongs to a part of the compressor body 1, the oil groove 3 is formed at the bottom of the shell of the compressor body 1, and a high-temperature and high-pressure refrigerant transfers heat to the compressor body 1 through the refrigerant circulating pipe 4, so that the heat can be transferred to the oil groove 3 to heat lubricating oil in the oil groove 3, and in winter, an electric heating device is not needed to heat the lubricating oil, thereby saving the electric energy consumption of the electric heating and reducing the energy consumption of the compressor.

As shown in fig. 2, the operation process of the compressor in the refrigeration system is as follows: a condenser, an expansion valve and an evaporator are respectively arranged on a refrigerant circulating pipe 4 between a first refrigerant inlet and outlet 5 and an oil groove 3 along the flowing direction of refrigerants, low-temperature and low-pressure refrigerant gas from an evaporator of a circulating system enters a compressor from a second refrigerant inlet and outlet after being circulated by the refrigerant circulating pipe, cold energy is transmitted to a compressor body by the low-temperature refrigerant through the refrigerant circulating pipe and then flows into the compressor, and the refrigerant is circulated to release the cold energy to cool down the lubricating oil in the oil groove.

Preferably, as shown in fig. 1, in order to save the length of the refrigerant circulating pipe 4 wound on the compressor body 1, the refrigerant circulating pipe 4 is wound only outside the oil groove 3; in addition, the upper end and the lower end of the position of the oil groove 3 on the outer side of the compressor body 1 are respectively provided with an annular boss 7, so that a limiting groove for limiting the refrigerant circulating pipe 4 is formed, and the refrigerant circulating pipe 4 is arranged in the limiting groove in a laminating and winding manner, so that the refrigerant circulating pipe 4 is prevented from falling off in the vibration process of the compressor body 1 or an external device. In order to form the protective effect on the refrigerant circulating pipe 4 wound outside the oil groove 3, a protective cover 8 fixedly connected with the edge of the limiting groove is arranged outside the refrigerant circulating pipe 4, the protective cover 8 is respectively connected with the lug boss 7 through screws, the protective cover 8 is externally connected with radiating fins, the protective cover 8 and the radiating fins are made of aluminum plates, and the heat exchange efficiency of the refrigerant circulating pipe 4 is improved.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is intended to be covered by the claims.

Claims (7)

1. A compressor is characterized by comprising a compressor body (1), wherein a compression device (2) is arranged in the compressor body (1), and an oil groove (3) for providing lubricating oil for the compression device (2) is arranged at the inner bottom end of the compressor body (1); the compressor is characterized in that a first refrigerant inlet and outlet (5) and a second refrigerant inlet and outlet (6) are formed in the compressor body (1), a refrigerant circulating pipe (4) is wound on the outer side of the oil groove (3), one end of the refrigerant circulating pipe (4) is connected with the second refrigerant inlet and outlet (6), when the compressor is connected into a circulating system, the first refrigerant inlet and outlet (5) is communicated with a refrigerant pipeline of the condenser (9), and the other end of the refrigerant circulating pipe (4) is communicated with a refrigerant pipeline of the evaporator (11).

2. The compressor according to claim 1, wherein a limiting groove for limiting the refrigerant circulating pipe (4) is formed on the outer side of the oil groove (3), and the refrigerant circulating pipe (4) is wound in the limiting groove in a stacked manner.

3. A compressor according to claim 2, characterized in that the coolant circulation pipe (4) is provided at its outer side with a protective cover (8) fixedly connected to the edge of the limiting groove.

4. A compressor according to claim 3, characterized in that the protective cover (8) is externally connected with heat dissipating fins.

5. A compressor according to claim 4, characterized in that the protective cover (8) and the fins are made of aluminium sheet.

6. A compressor according to claim 4, characterized in that the coolant circulation pipe (4) is a copper pipe.

7. A compressor according to claim 6, characterized in that the refrigerant circulation pipe (4) is provided with a four-way reversing valve for reversing the refrigerant flow direction.

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