CN217873805U - Bearing air supply system - Google Patents

Abstract

The utility model provides a bearing air supply system. The bearing air supply system comprises a bypass pipeline, one end of the bypass pipeline is communicated with an air outlet of the evaporator, and the other end of the bypass pipeline is communicated with a liquid outlet of the evaporator; an injection device. The utility model provides a bearing air supply system, utilize the gaseous state refrigerant and/or the liquid refrigerant of induction apparatus with evaporimeter department to deliver to the bearing department of compressor, realize the real time control to the temperature and/or the pressure of bearing department, guarantee the stable safe operation of bearing, reduce motor cooling load, guarantee the life of compressor, gaseous state refrigerant or the liquid refrigerant of evaporimeter are selected according to the temperature control of bearing department, thereby realize the reliable regulation to the temperature, refrigerant flow controls in the evaporimeter is acquireed to induction apparatus according to the air feed pressure of bearing department, avoid bearing department pressure too high and influence bearing operating stability, further improve the reliability of bearing and compressor.

Description

Bearing air supply system

Technical Field

The utility model relates to a compression equipment technical field, especially a bearing air supply system.

Background

In a static pressure air suspension bearing air supply system, whether the air supply temperature and pressure are stable or not depends on whether the bearing can stably run or not and guarantees the service life. When the temperature of the supplied air is too high, on one hand, the viscosity of the refrigerant is reduced, and the lubricating effect of the air film of the refrigerant is reduced, so that the abrasion of the bearing is increased, and the service life of the bearing is reduced; on the other hand, the bearing which is originally at a high temperature due to high-speed operation continues to be heated, and the load of cooling the motor is increased. In addition, too high air supply pressure can make the bearing operation unstable, cause the bearing damage, reduce bearing life. However, in the existing air supply system, a liquid refrigerant is pumped out from the bottom of a condenser by a pump and is sent to an air storage tank, the liquid refrigerant is heated and evaporated by an electric heater in the air storage tank to form a high-temperature high-pressure gaseous refrigerant, the high-temperature high-pressure gaseous refrigerant directly flows from the air storage tank to a compressor bearing through two paths of air inlet pipes for radial air inlet and axial air inlet respectively to support and lubricate the compressor bearing, the temperature and the pressure of the refrigerant at the compressor bearing cannot be adjusted, and the problems that the working stability of the bearing is reduced and the service life of the bearing is reduced are caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems that the working stability of a bearing is reduced and the service life of the bearing is reduced in the prior art, the bearing air supply system which introduces a refrigerant of an evaporator to adjust the temperature and/or the pressure of the refrigerant is provided.

The utility model provides a bearing air supply system, is applied to in the refrigerant heat transfer circulation, refrigerant heat transfer circulation includes compressor, evaporimeter and gas holder, bearing air supply system still includes:

one end of the bypass pipeline is communicated with an exhaust port of the evaporator, and the other end of the bypass pipeline is communicated with a liquid outlet of the evaporator;

the main injection port of the injection device is communicated with the gas supply port of the gas storage tank, the injected port of the injection device is communicated with the bypass pipeline, and the outlet of the injection device is communicated with the compressor.

The bearing air supply system further comprises a first on-off mechanism and a second on-off mechanism, the first on-off mechanism is arranged between the bypass pipeline and the exhaust port of the evaporator, and the second on-off mechanism is arranged between the bypass pipeline and the liquid discharge port of the evaporator.

The bearing air supply system further comprises a temperature detection device, the temperature detection device is arranged on the compressor, and the temperature detection device is electrically connected with the first on-off mechanism and/or the second on-off mechanism.

The compressor comprises a radial bearing and an axial thrust bearing, the temperature detection device comprises a first temperature detection mechanism and a second temperature detection mechanism, the first temperature detection mechanism is used for detecting the air supply temperature of the axial thrust bearing, the second temperature detection mechanism is used for detecting the air supply temperature of the radial bearing, and the first on-off mechanism can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism; and/or the second switching-off mechanism can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism.

The bearing gas supply system further comprises a flow regulating mechanism, and the flow regulating mechanism is arranged between the injection device and the bypass pipeline.

The bearing gas supply system further comprises a pressure detection device, the pressure detection device is arranged on the compressor, and the pressure detection device is electrically connected with the flow regulating mechanism.

The injection device comprises a first injection mechanism and a second injection mechanism, and the compressor comprises a radial bearing and an axial thrust bearing;

the main injection port of the first injection mechanism is communicated with the gas supply port of the gas storage tank, the injected port of the first injection mechanism is communicated with the bypass pipeline, and the outlet of the first injection mechanism is communicated with the axial thrust bearing;

and the main injection port of the second injection mechanism is communicated with the liquid supply port of the gas storage tank, the injected port of the second injection mechanism is communicated with the bypass pipeline, and the outlet of the second injection mechanism is communicated with the radial bearing.

The bearing gas supply system further comprises a first throttling mechanism and a second throttling mechanism, the first throttling mechanism is arranged between the injection port of the first injection mechanism and the bypass pipeline, and the second throttling mechanism is arranged between the injection port of the second injection mechanism and the bypass pipeline.

The pressure detection device comprises a first pressure detection mechanism and a second pressure detection mechanism, the first pressure detection mechanism is used for detecting the air supply pressure of the axial thrust bearing, the second pressure detection mechanism is used for detecting the air supply pressure of the radial bearing, the first throttling mechanism is electrically connected with the first pressure detection mechanism, and the second throttling mechanism is electrically connected with the second pressure detection mechanism.

The control method of the bearing air supply system comprises the following steps of:

step S101, acquiring a real-time temperature T0 of a bearing of a compressor, and determining whether the T0 is in a preset temperature area X;

and S102, if the T0 is in the preset temperature area X and the T0 is larger than a first preset value T1, opening the first on-off mechanism and closing the second on-off mechanism.

The bearing air supply system further includes a pressure detection device, the pressure detection device is disposed on the compressor, and the pressure detection device is electrically connected to the flow rate adjustment mechanism, in step S102, the bearing air supply system further includes:

step S201, acquiring real-time air supply pressure A0 at a bearing of a compressor, and comparing the real-time air supply pressure A0 with a preset pressure value A1;

and step S202, if A0 is larger than A1, increasing the opening of the flow regulating mechanism.

After step S101, the method further includes:

and if the T0 is larger than the Xmax, the second on-off mechanism is started, and the first on-off mechanism is closed, wherein the Xmax is the maximum value in the preset temperature area X.

If T0 is greater than Xmax, then the second on-off mechanism is opened, and after the first on-off mechanism is closed, the method further comprises the following steps:

acquiring real-time pressure A0 at a bearing of the compressor, and comparing the real-time pressure A0 with a preset pressure value A1;

and if A0 is larger than A1, increasing the opening degree of the flow regulating mechanism.

The injection device comprises a first injection mechanism, and the compressor comprises an axial thrust bearing; first draw penetrate the owner of mechanism draw the mouth with the air supply mouth intercommunication of gas holder, first draw penetrate the mechanism draw the mouth with bypass line intercommunication, first draw penetrate the export of mechanism with axial thrust bearing position intercommunication, bearing air supply system still includes first throttling mechanism, first throttling mechanism set up in first draw penetrate the mechanism draw the mouth with between the bypass line, pressure measurement device includes first pressure measurement mechanism, first pressure measurement mechanism is used for detecting the air feed pressure of axial thrust bearing department, first throttling mechanism with first pressure measurement mechanism electricity is connected, control method still includes:

acquiring air supply pressure a0 at an axial thrust bearing of the compressor, and comparing the a0 with axial preset pressure a 1;

and if a0 is larger than a1, adjusting the opening degree of the first throttling mechanism.

The injection device comprises a second injection mechanism, and the compressor comprises a radial bearing; the second draws draw the mechanism draw the mouth with the feed liquor mouth intercommunication of gas holder, the second draw the mechanism draw the mouth with bypass line intercommunication, the second draw the mechanism draw the export with journal bearing position intercommunication, bearing air supply system still includes second throttling mechanism, second throttling mechanism set up in the second draw the mechanism draw the mouth with draw between the bypass line, pressure measurement device includes second pressure measurement mechanism, second pressure measurement mechanism is used for detecting the air feed pressure of journal bearing department, second throttling mechanism with second pressure measurement mechanism electricity is connected, control method still includes:

acquiring air supply pressure b0 at an axial thrust bearing of the compressor, and comparing the b0 with axial preset pressure b 1;

and if b0 is larger than b1, adjusting the opening degree of the second throttling mechanism.

The utility model provides a bearing air supply system, utilize the gaseous state refrigerant and/or the liquid refrigerant of induction apparatus with evaporimeter department to send the bearing department of compressor, realize the real time control to the temperature and/or the pressure of bearing department, guarantee the stable safe operation of bearing, reduce motor cooling load, guarantee the life of compressor, gaseous state refrigerant or the liquid refrigerant of evaporimeter is selected according to the temperature control of bearing department, thereby realize the reliable regulation to the temperature, the air feed pressure according to bearing department acquires the interior refrigerant flow of evaporimeter and controls to induction apparatus, avoid bearing department pressure too high and influence bearing operating stability, further improve the reliability of bearing and compressor.

Drawings

Fig. 1 is a schematic structural diagram of a bearing air supply system according to an embodiment of the present invention;

in the figure:

1. a compressor; 2. an evaporator; 3. a gas storage tank; 4. a bypass line; 5. a first on-off mechanism; 6. a second on-off mechanism; 7. a first injection mechanism; 8. a second injection mechanism; 9. a first throttle mechanism; 10. and a second throttling mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The bearing air supply system shown in fig. 1 is applied to a refrigerant heat exchange cycle, the refrigerant heat exchange cycle includes a compressor 1, an evaporator 2 and an air storage tank 3, the refrigerant heat exchange cycle further includes a condenser, a high-temperature high-pressure liquid refrigerant in the condenser is pumped into the air storage tank 3, and an electric heater in the air storage tank 3 heats and evaporates the high-temperature high-pressure liquid refrigerant into a high-temperature high-pressure gaseous refrigerant; the high temperature high pressure gaseous state refrigerant after the heating is under the pressure differential effect of gas holder 3, compressor 1, by gas holder 3 through radial intake pipe, axial inlet duct flow to compressor 1 in, the high temperature high pressure gaseous state refrigerant forms one deck air film around the bearing in compressor 1, supports and lubricated effect to the bearing, lets the bearing steady operation. The bearing air supply system further comprises: one end of the bypass pipeline 4 is communicated with an exhaust port of the evaporator 2, and the other end of the bypass pipeline 4 is communicated with a liquid discharge port of the evaporator 2; and a main injection port of the injection device is communicated with the gas supply port of the gas storage tank 3, an injected port of the injection device is communicated with the bypass pipeline 4, and an outlet of the injection device is communicated with the compressor 1. Gaseous refrigerant and/or liquid refrigerant at the evaporator 2 are/is delivered to the bearing of the compressor 1 by the injection device, so that the temperature and/or pressure of the bearing can be controlled in real time, the bearing can operate stably and safely, the cooling load of the motor can be reduced, and the service life of the compressor 1 can be ensured.

At bearing air supply system during operation, ejector can acquire gaseous state refrigerant and/or liquid refrigerant in the evaporimeter 2 through bypass line 4, and be drawn the bearing department of penetrating to compressor 1 under the air feed effect of gas holder 3, thereby can utilize gaseous state refrigerant and/or liquid refrigerant in the evaporimeter 2 and the refrigerant in the gas holder 3 to mix, reach the purpose of adjusting refrigerant temperature and/or refrigerant pressure, the realization is to the regulation of bearing department temperature and pressure, guarantee the stable safe operation of bearing, reduce motor cooling load, guarantee compressor 1's life.

Specifically, the bearing air supply system further comprises a first on-off mechanism 5 and a second on-off mechanism 6, wherein the first on-off mechanism 5 is arranged between the bypass pipeline 4 and the exhaust port of the evaporator 2, and the second on-off mechanism 6 is arranged between the bypass pipeline 4 and the liquid discharge port of the evaporator 2. Whether gaseous refrigerant in the evaporimeter 2 gets into bypass pipeline 4 can be controlled to first on-off mechanism 5, and whether liquid refrigerant in the evaporimeter 2 gets into bypass pipeline 4 can be controlled to second on-off mechanism 6, and wherein first on-off mechanism 5 and second on-off mechanism 6 are opened simultaneously, avoid gaseous refrigerant and liquid refrigerant in the evaporimeter 2 to reduce the heat transfer effect of evaporimeter 2 through bypass pipeline 4 intercommunication.

The bearing air supply system further comprises a temperature detection device, the temperature detection device is arranged on the compressor 1, and the temperature detection device is electrically connected with the first on-off mechanism 5 and/or the second on-off mechanism 6. The temperature of the bearing of the compressor 1 is detected and judged by using the temperature detection device, and the gaseous refrigerant in the evaporator 2 or the liquid refrigerant in the evaporator 2 is determined to be needed according to the judgment result, when the gaseous refrigerant in the evaporator 2 is selected, because the gaseous refrigerant in the evaporator 2 is in a low-temperature and low-pressure state, when the gaseous refrigerant is mixed with the refrigerant in the gas storage tank 3, the sensible heat of the gaseous refrigerant in the evaporator 2 can cool the refrigerant in the gas storage tank 3, and the purpose of adjusting the temperature of the refrigerant entering the compressor 1 is realized. When the liquid refrigerant in the evaporator 2 is selected, the liquid refrigerant is heated by the refrigerant in the gas storage tank 3 and becomes a gaseous refrigerant when being mixed with the refrigerant in the gas storage tank 3, and the latent heat of the liquid refrigerant can cool the refrigerant in the gas storage tank 3 in the process (the cooling amplitude is larger than that of the gaseous refrigerant), so that the purpose of adjusting the temperature of the refrigerant entering the compressor 1 is realized.

The compressor 1 comprises a radial bearing and an axial thrust bearing, the temperature detection device comprises a first temperature detection mechanism and a second temperature detection mechanism, the first temperature detection mechanism is used for detecting the air supply temperature of the axial thrust bearing, the second temperature detection mechanism is used for detecting the air supply temperature of the radial bearing, and the first on-off mechanism 5 can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism; and/or the second switching mechanism 6 can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism. Respectively detecting the actual temperature of the radial bearing and the actual temperature of the axial thrust bearing, when the actual temperature of the radial bearing or the axial thrust bearing is higher than a preset temperature value, adjusting the working states of the first on-off mechanism 5 and the second on-off mechanism 6 to mix liquid refrigerant with the refrigerant in the air storage tank 3, and greatly reducing the temperature of the refrigerant entering the radial bearing or the axial thrust bearing, so that the radial bearing and the axial thrust bearing achieve the effect of greatly reducing the temperature; only when the actual temperature of the radial bearing and the axial thrust bearing is in the corresponding safe operation temperature area, the temperature is controlled by mixing the gaseous refrigerant and the refrigerant in the gas storage tank 3, so that the radial bearing and the axial thrust bearing are in the corresponding set temperature values to work.

The bearing gas supply system further comprises a flow regulating mechanism, and the flow regulating mechanism is arranged between the injection device and the bypass pipeline 4. Utilize flow control mechanism to adjust the refrigerant flow that gets into in the induction apparatus, control reaches the air feed pressure of bearing department, when air feed pressure is too big, increase the refrigerant flow, the flow with the low pressure refrigerant in the evaporimeter 2 increases, the high pressure refrigerant use amount in the gas holder 3 under the condition of the same refrigerant volume reduces, can effectual reduced pressure, when air feed pressure is too little, turn down the refrigerant flow, reduce the use amount of low pressure refrigerant in the evaporimeter 2, thereby increase the use amount of the high pressure refrigerant in the gas holder 3, can effectual increase pressure. The bearing gas supply system further comprises a pressure detection device, wherein the pressure detection device is arranged on the compressor 1, and the pressure detection device is electrically connected with the flow regulating mechanism. And acquiring the air supply pressure at the bearing by using a pressure detection device.

The injection device comprises a first injection mechanism 7 and a second injection mechanism 8, and the compressor 1 comprises a radial bearing and an axial thrust bearing; the main injection port of the first injection mechanism 7 is communicated with the air supply port of the air storage tank 3, the injected port of the first injection mechanism 7 is communicated with the bypass pipeline 4, and the outlet of the first injection mechanism 7 is communicated with the axial thrust bearing; the main injection port of the second injection mechanism 8 is communicated with the liquid supply port of the gas storage tank 3, the injected port of the second injection mechanism 8 is communicated with the bypass pipeline 4, and the outlet of the second injection mechanism 8 is communicated with the radial bearing. A first injection mechanism 7 is utilized to guide the refrigerant in the evaporator 2 to the axial thrust bearing, and a second injection mechanism 8 is utilized to guide the refrigerant in the evaporator 2 to the radial bearing, so that the air supply of the radial bearing and the air supply of the axial thrust bearing are respectively controlled.

Specifically, the bearing air supply system further comprises a first throttling mechanism 9 and a second throttling mechanism 10, the first throttling mechanism 9 is arranged between an injection port of the first injection mechanism 7 and the bypass pipeline 4, and the second throttling mechanism 10 is arranged between an injection port of the second injection mechanism 8 and the bypass pipeline 4. The refrigerant quantity sent to the axial thrust bearing is adjusted by the first throttling mechanism 9, so that the purpose of adjusting the air supply pressure at the axial thrust bearing is achieved, and the refrigerant quantity sent to the radial bearing is adjusted by the second throttling mechanism 10, so that the purpose of adjusting the air supply pressure at the radial bearing is achieved.

The pressure detection device comprises a first pressure detection mechanism and a second pressure detection mechanism, the first pressure detection mechanism is used for detecting the air supply pressure of the axial thrust bearing, the second pressure detection mechanism is used for detecting the air supply pressure of the radial bearing, the first throttling mechanism 9 is electrically connected with the first pressure detection mechanism, and the second throttling mechanism 10 is electrically connected with the second pressure detection mechanism. The first throttling mechanism 9 is controlled and adjusted according to the air supply pressure of the axial thrust bearing, and the second throttling mechanism 10 is controlled and adjusted according to the air supply pressure of the radial bearing.

Another aspect of the utility model provides a control method of foretell bearing air supply system, bearing air supply system still includes first on-off mechanism 5 and second on-off mechanism 6, first on-off mechanism 5 set up in bypass pipeline 4 with between the gas vent of evaporimeter 2, second on-off mechanism 6 set up in bypass pipeline 4 with between the leakage fluid dram of evaporimeter 2, control method includes:

s101, acquiring real-time temperature T0 of a bearing of a compressor 1, and determining whether the T0 is in a preset temperature area X;

and S102, if the T0 is in the preset temperature area X and the T0 is larger than a first preset value T1, opening the first on-off mechanism 5 and closing the second on-off mechanism 6.

When the real-time temperature T0 of the bearing is in the preset temperature area X, the fact that the bearing can be in the safe operation temperature range at the moment is shown, and the bearing can work normally without adjustment at the moment; in order to further improve the reliability of the bearing, when T0 is greater than T1, it indicates that the temperature of the bearing still has a bad influence on the bearing, that is, the temperature does not reach the optimal working temperature of the bearing, and then the gaseous refrigerant in the evaporator 2 is used to perform a small amount of temperature adjustment on the refrigerant in the gas storage tank 3. And when T0 is less than or equal to T1, the current working state can be maintained.

The bearing air supply system further includes a pressure detection device, the pressure detection device is disposed on the compressor 1, and the pressure detection device is electrically connected to the flow rate adjustment mechanism, in step S102, the bearing air supply system further includes:

step S201, acquiring real-time air supply pressure A0 at a bearing of the compressor 1, and comparing the real-time air supply pressure A0 with a preset pressure value A1;

and step S202, if A0 is larger than A1, increasing the opening degree of the flow regulating mechanism. The amount of the low-pressure refrigerant in the evaporator 2 is increased by increasing the opening degree of the flow rate adjusting mechanism, and the supply pressure can be reduced with the same amount of the refrigerant after mixing with the high-pressure refrigerant in the gas tank 3.

After step S101, the method further includes:

if T0 is greater than Xmax, and the actual temperature at the bearing is higher than the safe operation temperature range at the moment, the second on-off mechanism 6 is opened, and the first on-off mechanism 5 is closed, wherein Xmax is the maximum value in the preset temperature area X. The low-temperature liquid refrigerant is mixed with the refrigerant in the air storage tank 3, and the temperature is greatly reduced by utilizing the temperature and the phase change of the liquid refrigerant, so that the actual temperature of the bearing is reduced to the temperature range of safe operation.

If T0 is greater than Xmax, the method further includes, after the second opening/closing mechanism 6 is opened and the first opening/closing mechanism 5 is closed:

acquiring real-time pressure A0 at a bearing of the compressor 1, and comparing the real-time pressure A0 with a preset pressure value A1;

and if A0 is larger than A1, increasing the opening degree of the flow regulating mechanism. The amount of the low-pressure refrigerant in the evaporator 2 is increased by increasing the opening degree of the flow rate adjusting mechanism, and the supply pressure can be reduced with the same amount of the refrigerant after mixing with the high-pressure refrigerant in the gas tank 3.

The injection device comprises a first injection mechanism 7, and the compressor 1 comprises an axial thrust bearing; first draw the owner of penetrating mechanism 7 draw the mouth with the air supply mouth intercommunication of gas holder 3, first draw penetrate 7 draw penetrate the mouth with 4 intercommunications of bypass line, first draw penetrate 7 the export of mechanism with thrust bearing position intercommunication axially, bearing air supply system still includes first throttle mechanism 9, first throttle mechanism 9 set up in first draw penetrate 7 draw penetrate the mouth with between the bypass line 4, pressure measurement device includes first pressure measurement mechanism, first pressure measurement mechanism is used for detecting the air feed pressure of thrust bearing department axially, first throttle mechanism 9 with first pressure measurement mechanism electricity is connected, control method still includes:

acquiring air supply pressure a0 at an axial thrust bearing of the compressor 1, and comparing the a0 with axial preset pressure a 1;

if a0 > a1, the opening degree of the first throttle mechanism 9 is adjusted.

The injection device comprises a second injection mechanism 8, and the compressor 1 comprises a radial bearing; the second draws draw the mechanism 8 draw the main draw mouthful with the feed liquor mouth intercommunication of gas holder 3, the second draw the mechanism 8 draw mouthful with 4 intercommunications of bypass line, the second draw the mechanism 8 export with the journal bearing position intercommunication, bearing gas supply system still includes second throttle mechanism 10, second throttle mechanism 10 set up in the second draw the mechanism 8 draw mouthful with between the bypass line 4, pressure measurement device includes second pressure measurement mechanism, second pressure measurement mechanism is used for detecting the air feed pressure of journal bearing department, second throttle mechanism 10 with second pressure measurement mechanism electricity is connected, control method still includes:

acquiring air supply pressure b0 at an axial thrust bearing of the compressor 1, and comparing the b0 with axial preset pressure b 1;

if b0 > b1, the opening degree of the second throttle mechanism 10 is adjusted.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (9)

1. The utility model provides a bearing air supply system, is applied to in the refrigerant heat transfer circulation, refrigerant heat transfer circulation includes compressor (1), evaporimeter (2) and gas holder (3), its characterized in that: the bearing air supply system further comprises:

one end of the bypass pipeline (4) is communicated with an exhaust port of the evaporator (2), and the other end of the bypass pipeline (4) is communicated with a liquid discharge port of the evaporator (2);

the main injection port of the injection device is communicated with the gas supply port of the gas storage tank (3), the injected port of the injection device is communicated with the bypass pipeline (4), and the outlet of the injection device is communicated with the compressor (1).

2. The bearing gas supply system according to claim 1, wherein: the bearing air supply system further comprises a first on-off mechanism (5) and a second on-off mechanism (6), wherein the first on-off mechanism (5) is arranged between the bypass pipeline (4) and an exhaust port of the evaporator (2), and the second on-off mechanism (6) is arranged between the bypass pipeline (4) and a liquid discharge port of the evaporator (2).

3. A bearing gas supply system according to claim 2, wherein: the bearing air supply system further comprises a temperature detection device, the temperature detection device is arranged on the compressor (1), and the temperature detection device is electrically connected with the first on-off mechanism (5) and/or the second on-off mechanism (6).

4. A bearing gas supply system according to claim 3, wherein: the compressor (1) comprises a radial bearing and an axial thrust bearing, the temperature detection device comprises a first temperature detection mechanism and a second temperature detection mechanism, the first temperature detection mechanism is used for detecting the air supply temperature of the axial thrust bearing, the second temperature detection mechanism is used for detecting the air supply temperature of the radial bearing, and the first on-off mechanism (5) can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism; and/or the second switching-off mechanism (6) can be controlled according to the detection result of the first temperature detection mechanism and/or the detection result of the second temperature detection mechanism.

5. The bearing gas supply system according to claim 1, wherein: the bearing gas supply system further comprises a flow adjusting mechanism, and the flow adjusting mechanism is arranged between the injection device and the bypass pipeline (4).

6. The bearing gas supply system according to claim 5, wherein: the bearing gas supply system further comprises a pressure detection device, the pressure detection device is arranged on the compressor (1), and the pressure detection device is electrically connected with the flow regulating mechanism.

7. The bearing gas supply system according to claim 6, wherein: the injection device comprises a first injection mechanism (7) and a second injection mechanism (8), and the compressor (1) comprises a radial bearing and an axial thrust bearing;

the main injection port of the first injection mechanism (7) is communicated with the gas supply port of the gas storage tank (3), the injected port of the first injection mechanism (7) is communicated with the bypass pipeline (4), and the outlet of the first injection mechanism (7) is communicated with the axial thrust bearing;

the main injection port of the second injection mechanism (8) is communicated with the liquid supply port of the gas storage tank (3), the injected port of the second injection mechanism (8) is communicated with the bypass pipeline (4), and the outlet of the second injection mechanism (8) is communicated with the radial bearing.

8. The bearing gas supply system according to claim 7, wherein: the bearing gas supply system further comprises a first throttling mechanism (9) and a second throttling mechanism (10), wherein the first throttling mechanism (9) is arranged between the first injection mechanism (7) and the bypass pipeline (4) through an injection port, and the second throttling mechanism (10) is arranged between the second injection mechanism (8) and the bypass pipeline (4) through an injection port.

9. The bearing gas supply system according to claim 8, wherein: the pressure detection device comprises a first pressure detection mechanism and a second pressure detection mechanism, the first pressure detection mechanism is used for detecting the air supply pressure of the axial thrust bearing, the second pressure detection mechanism is used for detecting the air supply pressure of the radial bearing, the first throttling mechanism (9) is electrically connected with the first pressure detection mechanism, and the second throttling mechanism (10) is electrically connected with the second pressure detection mechanism.

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