CN211202304U - Compressor cylinder structure - Google Patents

Abstract

The utility model provides a compressor cylinder structure, includes cylinder body (1), sets up blade groove (2) on cylinder body (1), and sets up aspiration channel (3) of blade groove (2) one side, cylinder body on be equipped with centre bore (4), aspiration channel (3) including radially running through horizontal passageway (31) of cylinder body (1) to and perpendicular passageway (32) of running through cylinder body (1) perpendicularly, horizontal passageway (31) and perpendicular passageway (32) intercommunication, perpendicular passageway (32) establish handing-over department at horizontal passageway (31) and centre bore (4), horizontal passageway intercommunication have side passageway (33), side passageway (33) and centre bore (4) intercommunication. The utility model discloses having increaseed the cylinder and to the refrigerant suction volume for refrigerant inflow speed can promote the cold room ability that has the compressor of cylinder body, thereby promotes the efficiency ratio.

Description

Compressor cylinder structure

Technical Field

The utility model relates to a cylinder field especially relates to a compressor cylinder structure.

Background

Air conditioners are common electric appliances in families and offices, and energy efficiency of the air conditioners is a key consideration for purchasing by consumers. The compressor is used as a core component of the air conditioner, the improvement of the energy efficiency ratio of the compressor becomes a key part in the competition of the refrigeration industry, and the compressor meets the requirements of energy conservation and environmental protection advocated by the modern society. In the existing compressor, the refrigeration capacity of the compressor is not more and more satisfied with the development requirement under the condition of consuming the same power (namely, consuming the same electric quantity), and the improvement of the energy efficiency ratio of the compressor is very important.

In the air suction and exhaust mode of the existing commercial rotary compressor pump, an air suction channel is arranged in a cylinder body of the rotary compressor pump. The pump is a sealed refrigerant compression space formed by parts of an upper support, a lower support, a cylinder body, a shaft, a ring and blades, in the space, if the cylinder body is designed as a suction channel, the amount of refrigerant entering the sealed space is constant, the amount of refrigerant compressed in the sealed compression space is also constant, the corresponding cooling room capacity, the consumed power and the energy efficiency ratio are constant, and the energy efficiency ratio cannot be improved. In order to improve the energy efficiency ratio and have a better refrigeration effect under the same power consumption, the cold room capability needs to be improved under the condition that the consumed power is not changed, or the improvement of the cold room capability is more than the improvement of the consumed power, and enterprises need to develop a novel air cylinder structure to improve the energy efficiency ratio of the compressor urgently.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the energy efficiency ratio of the existing compressor is low, the speed of the air cylinder sucking the refrigerant is slow, the utility model provides a compressor air cylinder structure.

The utility model provides a compressor cylinder structure, includes the cylinder body, sets up the blade groove on the cylinder body, and sets up the inspiratory channel of blade groove one side, the cylinder body on be equipped with the centre bore, the inspiratory channel including radially lining up the horizontal channel of cylinder body to and link up the perpendicular passageway of cylinder body perpendicularly, horizontal channel and perpendicular passageway intercommunication, perpendicular passageway establish in handing-over department of horizontal channel and centre bore, horizontal channel intercommunication have the side passageway, side passageway and centre bore intercommunication.

Preferably, the centerlines of the horizontal and vertical channels overlap.

Preferably, the lateral channels communicate with the vertical channels.

Preferably, a connecting channel is arranged at the joint of the vertical channel and the side channel on the cylinder body, and the connecting channel is communicated with the vertical channel and the side channel.

Preferably, the surface of one side of the side channel adjacent to the vertical channel is the inner wall of the vertical channel.

Preferably, one side of the vertical channel, which is far away from the side channel, is provided with a groove, and the groove vertically penetrates through the cylinder body.

Preferably, the included angle between the air inlet directions of the side channels and the horizontal channel is an acute angle.

Preferably, the number of the vertical channels is 1-4.

The utility model increases the suction volume of the refrigerant, accelerates the inflow speed of the refrigerant, and can improve the cold room capability of the compressor with the cylinder body, thereby improving the energy efficiency ratio; compared with the existing single channel, the multiple channels (the vertical channel, the horizontal channel and the side channel) enable the refrigerant to flow more smoothly, and the power consumed by the refrigerant flowing is reduced; if some channels in the multiple channels are leaked, compared with the leakage of a single channel, the risk caused by refrigerant leakage is lower, and the influence on the performance of the compressor product is smaller; the connecting channel and the groove design enlarge the flowing space of the refrigerant, thereby improving the flowing speed of the refrigerant.

Drawings

Fig. 1 is a first schematic view of a cylinder according to a first embodiment of the present invention;

fig. 2 is a schematic view of a cylinder according to a first embodiment of the present invention;

fig. 3 is a schematic view of a cylinder according to a second embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

The first embodiment is as follows:

referring to fig. 1-2, a compressor cylinder structure, including cylinder body 1, set up blade groove 2 on cylinder body 1, and set up the inspiratory channel 3 in blade groove 2 one side, be equipped with centre bore 4 on the cylinder body 1, inspiratory channel 3 includes the horizontal passageway 31 that radially link up cylinder body 1, and link up cylinder body 1's vertical passageway 32 perpendicularly, horizontal passageway 31 and vertical passageway 32 intercommunication, vertical passageway 32 establishes in the handing-over department of horizontal passageway 31 with centre bore 4, horizontal passageway 31 intercommunication has side passageway 33, side passageway 33 and centre bore 4 intercommunication. The included angle between the air inlet directions of the side channels 33 and the horizontal channels 31 is an acute angle, 1-4 vertical channels 32 are arranged, referring to fig. 1, one vertical channel 32 is arranged, referring to fig. 2, and two vertical channels 32 are arranged. The vertical passage 32 and the side passage 33 increase the absorption amount and the absorption speed of the cylinder body to the refrigerant, thereby improving the energy efficiency ratio. The centerlines of the horizontal channel 31 and the vertical channel 32 overlap. The cross section of the vertical channel is circular or square.

The side channel 33 is communicated with the vertical channel 32, a connecting channel 5 is arranged at the joint of the vertical channel 32 and the side channel 33 on the cylinder body 1, and the connecting channel 5 is communicated with the vertical channel 32 and the side channel 33.

The side of the vertical channel 32 far from the side channel 33 is provided with a groove 321, the groove 321 vertically penetrates through the cylinder body 1, and the groove 321 increases the suction speed of the suction channel 3 to the refrigerant.

Example two:

referring to fig. 3, the present embodiment is substantially the same as the first embodiment except that: the side channel 33 is communicated with the vertical channel 32, the surface of one side of the side channel 33 adjacent to the vertical channel 32 is the inner wall of the vertical channel 32, and at the moment, the width of the joint of the horizontal channel 31 and the vertical channel 32 is smaller than that of the joint of the vertical channel 32 and the central hole 4, so that the absorption capacity and the absorption speed of the cylinder body 1 to the refrigerant are greatly improved.

The utility model provides a compressor cylinder structure, suction channel 3 include horizontal channel 31 and vertical channel 32, and horizontal channel 31 side is equipped with the side passageway 33 that communicates with it, and the refrigerant is behind horizontal channel 31 flowing through, and in vertical channel 32 and the side passageway 33 got into the centre bore, increased the refrigerant volume absorbed quantity, improved cylinder body to the absorption rate of refrigerant, reduced power simultaneously, finally improved the energy efficiency ratio.

The utility model increases the suction volume of the refrigerant, accelerates the inflow speed of the refrigerant, and can improve the cold room capability of the compressor with the cylinder body, thereby improving the energy efficiency ratio; compared with the existing single channel, the multiple channels (the vertical channel, the horizontal channel and the side channel) enable the refrigerant to flow more smoothly, and the power consumed by the refrigerant flowing is reduced; if some channels in the multiple channels are leaked, compared with the leakage of a single channel, the risk caused by refrigerant leakage is lower, and the influence on the performance of the compressor product is smaller; the connecting channel and the groove design enlarge the flowing space of the refrigerant, thereby improving the flowing speed of the refrigerant.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides a compressor cylinder structure, includes cylinder body (1), sets up blade groove (2) on cylinder body (1), and sets up suction channel (3) of blade groove (2) one side, cylinder body on be equipped with centre bore (4), its characterized in that: the suction channel (3) including radially running through horizontal passageway (31) of cylinder body (1) to and run through vertical channel (32) of cylinder body (1) perpendicularly, horizontal passageway (31) and vertical channel (32) communicate, vertical channel (32) establish in the handing-over department of horizontal passageway (31) and centre bore (4), horizontal passageway intercommunication have side passageway (33), side passageway (33) and centre bore (4) communicate.

2. A compressor cylinder structure according to claim 1, characterized in that: the center lines of the horizontal channel (31) and the vertical channel (32) are overlapped.

3. A compressor cylinder structure according to claim 1, characterized in that: the side channels (33) are communicated with the vertical channels (32).

4. A compressor cylinder structure according to claim 3, characterized in that: a connecting channel (5) is arranged at the joint of the vertical channel (32) and the side channel (33) on the cylinder body (1), and the connecting channel (5) is communicated with the vertical channel (32) and the side channel (33).

5. A compressor cylinder structure according to claim 3, characterized in that: the surface of one side of the side channel (33) adjacent to the vertical channel (32) is the inner wall of the vertical channel (32).

6. A compressor cylinder structure according to claim 1, characterized in that: a groove (321) is formed in one side, away from the side channel (33), of the vertical channel (32), and the groove (321) vertically penetrates through the cylinder body (1).

7. A compressor cylinder structure according to claim 1, characterized in that: the included angle between the air inlet directions of the side channel (33) and the horizontal channel (31) is an acute angle.

8. A compressor cylinder structure according to claim 1, characterized in that: the number of the vertical channels (32) is 1-4.

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