CN212079644U - Screw compressor - Google Patents

Abstract

The utility model relates to a screw compressor, which comprises a compressor body, a rod-shaped shaft, a bearing seat and a bearing; the compressor body is provided with a compression cavity; the rod-shaped shaft is rotatably arranged; the bearing seat is provided with a bearing cavity, and the bearing cavity is arranged in a sealing manner; the bearing seat is provided with a fluid inlet and a fluid outlet, and the fluid inlet and the fluid outlet are both communicated with the bearing cavity; the rod-shaped shaft penetrates through the bearing seat, and the end part of the rod-shaped shaft is positioned in the bearing cavity; the bearing is positioned in the close bearing cavity, and the bearing is sleeved at the end part of the rod-shaped shaft and is arranged on the bearing seat; the rod-shaped shaft is rotatably provided through the bearing. The utility model discloses can increase substantially the life of compressor bearing and complete machine, can effectual reduction bearing, mechanical seal's operating temperature, improve bearing, mechanical seal's lubricated condition.

Description

Screw compressor

Technical Field

The utility model relates to a screw compressor.

Background

Screw compressors are the most central components in the system and are of great importance. The screw compressor has different requirements due to wide application range, different industries and different media, but in most industries, after long-term use, the screw compressor is found to be frequently damaged due to certain special working conditions, and most of the damages are caused by poor lubrication and ultrahigh failure of bearing temperature, for example, the system temperature in a temperature-raising system is usually higher and reaches 100-200 ℃. The bearing and the mechanical seal in the compressor generally have working temperature not higher than 90 ℃, and need sufficient lubricating grease or lubricating oil for lubrication, so the bearing and the mechanical seal are very easy to lose effectiveness and damage under the environment, so that the compressor unit vibrates greatly and has abnormal sound, and even the compressor is blocked. The bearing life under normal operating conditions can typically reach 8-10 ten thousand hours, while in current temperature-elevating systems the bearing life of compressors is typically 2 ten thousand hours, or even less. In addition, certain dangers exist in some industries, for example, in oil gas recovery systems in petrochemical industry and treatment of industrial gases such as methane, natural gas and the like, a treatment medium is generally flammable and explosive gas, and the rising of the temperature of a bearing and a mechanical seal is a great potential safety hazard; in the application of the special industry, the service life of the unit is ensured as much as possible, and the failure rate of the machine is reduced as much as possible, so that the danger is reduced and the economic efficiency is increased.

Therefore, how to optimize the solution of screw compressor bearing lubrication and cooling and improve the screw compressor service life becomes a subject to be researched in the field.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the present invention is to provide a screw compressor with a long service life in order to overcome the deficiencies in the prior art.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

screw compressor, characterized in that the screw compressor comprises:

the compressor comprises a compressor body, a compressor body and a compressor body, wherein the compressor body is provided with a compression cavity;

a rod-shaped shaft rotatably provided;

the bearing seat is provided with a bearing cavity, and the bearing cavity is arranged in a sealing manner; the bearing seat is provided with a fluid inlet and a fluid outlet, and the fluid inlet and the fluid outlet are both communicated with the bearing cavity;

a bearing;

the rod-shaped shaft penetrates through the bearing seat, and the end part of the rod-shaped shaft is positioned in the bearing cavity; the bearing is positioned in the close bearing cavity, and the bearing is sleeved at the end part of the rod-shaped shaft and is arranged on the bearing seat; the rod-shaped shaft is rotatably provided through the bearing.

According to one technical scheme of the utility model, the bearing seat comprises a bearing seat main body, the bearing cavity is arranged on the bearing seat main body, and two ends of the bearing seat are respectively connected with a mechanical sealing seat and a sealing plate; the mechanical seal seat and the seal plate respectively seal two ends of the bearing cavity, and the mechanical seal is sleeved on the rod-shaped shaft and connected with the mechanical seal seat; the rod-shaped shaft penetrates through the mechanical seal seat.

According to the utility model discloses a technical scheme, fluid inlet sets up in the bearing frame main part.

According to the utility model discloses a technical scheme, still be provided with fluid channel in the bearing frame main part, fluid channel one end with fluid inlet intercommunication, the other end and bearing chamber intercommunication.

According to the utility model discloses a technical scheme, fluid passage is opposite with mechanical seal and/or bearing position to make the fluid directly spout mechanical seal and/or bearing through fluid passage.

According to the utility model discloses a technical scheme, the fluid outlet is in on the shrouding.

According to one aspect of the present invention, the screw compressor further comprises a fluid supply device for inputting fluid into the bearing cavity through the fluid inlet.

According to one technical scheme of the utility model, the supply device comprises a storage tank, a motor, a pump and a supply pipe, and also comprises a filter and/or a heat exchanger; the motor drives the pump to work, and the pump sequentially conveys the fluid in the storage tank to the filter and/or the heat exchanger through the supply pipe and conveys the fluid into the bearing cavity through the fluid inlet.

According to one technical scheme of the utility model, the heat exchanger is provided with a heat exchange cavity; and a fan is arranged on one side of the heat exchanger and is driven to rotate by a motor.

According to one technical scheme of the utility model, a plurality of inlets are arranged on the compressor body, the supply device further comprises a supply row, the supply row is provided with one or more supply inlets and a plurality of supply outlets, and the plurality of supply outlets are communicated with the supply inlets; the supply inlet communicates with the heat exchanger through a supply tube and the supply outlet communicates with the fluid inlet and the inlet through a supply tube.

According to the utility model discloses a technical scheme, recovery unit includes recovery tube and storage tank, the recovery tube intercommunication the fluid outlet with the storage tank.

According to a technical scheme of the utility model, the recovery device further comprises a recovery row, the recovery row is provided with a plurality of recovery inlets and one or more recovery outlets, and the recovery inlets are communicated with the recovery outlets; the compressor body is provided with an outlet; the outlet of the compressor body and the fluid outlet on the bearing seat are communicated with the recovery inlet of the recovery row, and the recovery outlet of the recovery row is communicated with the storage tank.

The utility model adopts the technical proposal that: the whole system comprises a fluid supply unit and a compressor fluid unit, wherein the fluid supply unit comprises a motor, a pump, a storage tank, a filter, a fan, a heat exchange device, a supply pipe and a supply row. The compressor fluid system unit comprises a bearing seat, a sealing plate, a rod-shaped shaft, a mechanical seal and a mechanical seal seat. The system is driven by a motor to drive a pump, the pump pumps fluid in a storage tank into a heat exchanger after passing through a filter, the fluid which enters a compressor system can be ensured to be clean and free of impurities, the temperature of the fluid is reduced under the action of a fan and the heat exchanger, the fluid after the temperature is reduced enters a supply row through a supply pipeline and is distributed to a bearing seat of the compressor, a fluid channel is arranged on the bearing seat, the fluid can be directly sprayed to a mechanical seal and a bearing position so as to supply the fluid at the first time, the fluid can not lack of the fluid in the compressor, the fluid enters the compressor to take away heat generated by the bearing, the mechanical seal and the like and fully lubricate the bearing of the compressor and the mechanical seal, and a recovery pipe arranged on a seal plate returns to the recovery row and returns to the storage tank so as to realize circulation of the whole set of fluid supply system and realize lubrication. In operation, the fan can carry out the frequency conversion automatically according to the height of fluid temperature and adjust, carries out thermostatic control. For special requirements, the fluid can be cooled or heated secondarily according to the temperature of the fluid, so that secondary cooling or waste heat recovery is facilitated.

The utility model provides a screw compressor both can be for providing the fluid of cooling usefulness in the compressor body, still sets up the independent endless feed system and provide the fluid of lubrication, cooling usefulness for bearing and mechanical seal. Drive pump and fan through the motor, extract the fluid in the storage tank, carry to filter, heat exchanger, filter the fluid clean with the cooling back, get into and supply with the row, then distribute to the compressor bearing frame, through the fluid runner on the bearing frame, directly spout on mechanical seal and the bearing to from the recovery tube on the shrouding, arrange back to the storage tank through retrieving, realize cyclic utilization. According to the principle, the set of fluid supply device has the advantages of independent self-circulation, high reliability, high safety and high automation integration degree. Through experiment and a large amount of practices verification, the utility model discloses the life of compressor bearing and complete machine is greatly improved, can effectual reduction bearing, mechanical seal's operating temperature, improves bearing, mechanical seal's lubricated condition to can carry out and use in the higher environment of wide-range, multimedium, air supply requirement. The utility model discloses can be used to relate to screw industrial gas compressor, screw air compressor, screw oil gas compressor, screw vapor compressor, screw expansion compressor and other screw compressors. Through experimental detection, the utility model provides a helical-lobe compressor during operation, the stability of bearing is 36-60 degrees, and life is 100000 hours.

Drawings

FIG. 1 is a schematic view of a screw compressor according to the present invention;

FIG. 2 is a schematic partial sectional view of a screw compressor according to the present invention;

FIG. 3 is a schematic view of a partial screw compressor according to the present invention;

fig. 4 is a schematic view of a compressor body structure of a screw compressor according to the present invention;

FIG. 5 is a schematic view of the components within the compressor housing of the screw compressor of the present invention;

fig. 6 is a schematic structural view of one of the rod-shaped shafts and the bearing seat of the screw compressor according to the present invention;

FIG. 7 is a cross-sectional view of FIG. 6;

FIG. 8 is a partial component structure view of the rod shaft and bearing housing;

FIG. 9 is a schematic view of a fluid supply device and a fluid recovery device of a screw compressor according to the present invention;

fig. 10 is a flow diagram of a screw compressor system according to the present invention.

Detailed Description

As shown in fig. 1 to 4, a screw compressor 100, comprising a compressor block 101 and a rod-shaped shaft 6, said compressor block 101 being provided with compression chambers (not shown in the figures). The compressor body 101 is further provided with an inlet 103 and an outlet (not shown). Both the inlet 103 and the outlet communicate with the compression chamber. The inlet 103 is used to supply a cooling and/or lubricating fluid, such as lubricating oil, to the compression chambers. The outlet is used for discharging cooling and/or lubricating fluid in the compression cavity. The location and number of inlets 103 and outlets may be determined based on the location and number of components within the compression chamber that require cooling and lubrication. In the example shown, a plurality of inlets 103 and a plurality of outlets are provided, respectively. The compressor block 101 is provided with eight opposite openings (not shown in the figure). Every two openings are a pair, and each pair of openings are oppositely arranged in the same direction.

As shown in fig. 1, 2, and 5 to 8, the screw compressor 100 of the present invention further includes a bearing housing 11. The bearing housing 11 comprises a housing body 111, said housing body 111 being provided with a bearing cavity 112. The two ends of the bearing seat main body 111 are respectively connected with a mechanical sealing seat 12 and a sealing plate 4. The mechanical seal holder 12 and the closing plate 4 seal the bearing cavity 112 from both ends, respectively. A step 113 is provided in the bearing cavity 112. The outer ring of the bearing 7 is arranged at the step 113, and the bearing pressing plate 71 encapsulates the bearing 7 at the step 113.

The bearing housing body 111 is provided with a fluid inlet 10 and a fluid passage 9. The fluid passage 9 communicates with the fluid inlet 10 at one end and with the bearing chamber 112 at the other end. The opening of the fluid channel 9 in the bearing cavity 112 is located opposite the mechanical seal 8 and/or the bearing 7 so that fluid fed through the fluid channel 9 can be directly sprayed towards the mechanical seal 8 and/or the bearing 7. The specific orientation and opening position of the fluid channel 9 may be determined depending on the position of the mechanical seal 8 and the bearing 7. The shape of the plate 4 is determined by the shape of the bearing cavity 112, in the example shown the plate 4 is circular. The closure plate 4 is provided with a fluid outlet 5. The fluid outlet 5 communicates with the bearing chamber 112. Fluid within the bearing cavity 112 may be discharged through the fluid outlet 5.

The bearing housing body 111 is provided at the opening for sealing the opening thereat and supporting the rod-like shaft 6. The utility model discloses in, the opening part that the tip of every shaft-like 6 that needs bearing 7 to support was located all can set up bearing frame 11. In the example shown in the figures, there are five openings provided with bearing seats 11. The embodiment is described by taking the bearing seat 11 at one of the openings as an example. The bearing seat main body 111 is arranged at the opening, one end of the bearing seat main body is positioned in the compression cavity, and the other end of the bearing seat main body is exposed out of the compression cavity. The bearing housing main body 111 is provided with a flange 113. The screws pass through the flange 113 and are connected to the compressor block 101. The screw connects the bearing housing main body 111 with the compressor block 101. One end of the bearing housing body 111 to which the closing plate 4 is attached is exposed to the outside of the compression chamber. The closure plate 4 is located outside the compression chamber.

The screw compressor 100 of the present invention is also provided with a rod shaft 6. The rod shaft 6 is rotatably provided. In the utility model, the number of the rod-shaped shafts 6 can be one or more. Corresponding structures can also be provided on the rod-shaped shaft 6, depending on the desired function. For example, in the present invention, one rotor 105 and two star wheels 106 are provided. In the example shown in the figures, three rod-like shafts 6 are provided. One of the shaft rods 6 is used for mounting the rotor 105, and the other two shaft rods 6 are used for mounting the star wheel 106. Two star wheels 106 are respectively provided on both sides of the rotor 105, and the rotor 105 is engaged with the two star wheels 106.

The rod-shaped shaft 6 passes through the mechanical seal holder 12 and ends in the bearing cavity 112. The inner ring of the bearing 7 is sleeved on the end part of the rod-shaped shaft 6. The rod shaft 6 is connected to the bearing housing main body 111 through a bearing 7 so as to be rotatable relative thereto. The shaft 6 is also sleeved with a mechanical seal 8. The mechanical seal 8 is used to seal a gap between the rod-shaped shaft 6 and the mechanical seal holder 12. The closing plate 4 seals one end of the bearing cavity 112, and the mechanical seal seat 12 and the mechanical seal 8 seal the other end of the bearing cavity 112.

The other end of the rod-like shaft 6 to which the rotor 105 is attached is also connected to an output shaft (not shown) of the first motor 107. The first electric motor 107 drives the rod shaft 6 and the rotor 105 in rotation, which in turn drives the star 106 in rotation. By means of the engagement of the rotor 105 with the star 106, both can compress air when they rotate.

As shown in fig. 9 and 10, the screw compressor 100 of the present invention further includes a fluid supply device and a fluid recovery device. The fluid supply means is used to feed fluid into the bearing chamber 112 and/or the compression chamber via the fluid inlet 10. The fluid recovery device is used to recover fluid discharged from the bearing cavity 112 and/or the compression cavity. According to the technical scheme of the utility model, supply device includes storage tank 18, motor 19, pump 20 and supply pipe 15. The tank 18 communicates with the fluid inlet 10 via a supply pipe 15. The supply pipe 15 is provided with a pump 20. The motor 19 drives the pump 20 to operate. When the pump 20 is operated, the fluid in the tank 18 is delivered to the fluid inlet 10 through the supply pipe 15, and then delivered to the bearing cavity 112 through the fluid passage 9 to be sprayed to the mechanical seal 8 and/or the bearing 7. A supply line 14 is attached to the path of the supply pipe 15. The supply row 14 is provided with at least one supply inlet and a plurality of supply outlets. Supply row 14 may distribute one fluid into multiple fluid outputs. The supply pipes 15 are provided in plural numbers, some of the supply pipes 15 are communicated with the fluid inlet 10, and some of the supply pipes 15 are communicated with the inlet 103 of the compressor body 101. The fluid in the reservoir 18, after being distributed in more than one way by one or more supply lines 15 through the supply row 14, may be delivered to a plurality of different locations in the compression chamber 13 and the bearing chamber 112, respectively.

The heat exchanger 3 and the filter 16 are also provided on the transfer route of the supply pipe 15. The heat exchanger 3 is used to exchange heat for the fluid in order to deliver fluid at a suitable temperature into the compression chamber and/or the bearing chamber 112. The heat exchanger 3 may be implemented using a conventional structure. In the example shown in the figure, the heat exchanger 3 structure is provided with heat exchange chambers (not shown in the figure). A fan 17 is arranged on one side of the heat exchanger 3, and the fan 17 is driven to rotate by a second motor 19. The fan 17 blows air towards the heat exchanger 3 which may reduce the temperature of the fluid inside the heat exchanger 3. The filter 16 may filter foreign substances such as foreign substances in the fluid.

The fluid recovery device comprises a recovery pipe 2, and the recovery pipe 2 is used for communicating the fluid outlet 5 and an outlet on the compressor body 101 with the storage tank 18. The recovery pipe 2 is provided with a recovery row 1. The recovery row 1 is provided with a plurality of recovery inlets and one or more recovery outlets, and the recovery inlets are communicated with the recovery outlets. The outlet of the compressor body 101 and the fluid outlet 5 of the bearing seat are communicated with the recovery inlet of the recovery row 1 through a recovery pipe 2, and the recovery outlet of the recovery row 1 is communicated with the storage tank 18. The recovery pipes 2 connected from different positions are collected together by the bus bar 1 and recovered into the storage tank 18.

The utility model can adopt proper fluid, such as lubricating oil, heat exchange oil and the like, according to the required functions. The method of using the fluid as lubricating oil is described below. The tank 18 stores lubricating oil therein. The motor 19 drives the pump 20 to work, and the pump 20 pumps the lubricating oil in the storage tank 18 into the heat exchanger 3 after passing through the filter 16, so that the oil entering the compressor system is clean and free of impurities. Under the action of the fan 17, the lubricating oil with reduced temperature enters the supply row 14 through the supply pipe 15 and is distributed to the bearing seat 11 of the compressor, and the bearing seat main body 111 is provided with a fluid channel 9 which can directly spray the lubricating oil to the mechanical seal 8 and the bearing 7 so as to supply the lubricating oil for the first time without causing the lack of the lubricating oil for the compressor. After lubricating oil enters the compressor to take away heat generated by the bearing 7, the mechanical seal 8 and the like and fully lubricate the bearing 7 and the mechanical seal 8, the lubricating oil returns to the recovery row 1 through the recovery pipe 2 arranged on the sealing plate 4 and returns to the storage tank 18, so that the circulation of the whole set of lubricating oil supply system is realized, and the lubrication and the cooling of the bearing 7 and the mechanical seal 8 of the compressor are realized.

The utility model provides a screw compressor both can be for providing the fluid of cooling usefulness in the compressor body, still sets up the independent endless feed system and provide the fluid of lubrication, cooling usefulness for bearing and mechanical seal. Drive pump and fan through the motor, extract the fluid in the storage tank, carry to filter, heat exchanger, filter the fluid clean with the cooling back, get into and supply with the row, then distribute to the compressor bearing frame, through the fluid runner on the bearing frame, directly spout on mechanical seal and the bearing to from the recovery tube on the shrouding, arrange back to the storage tank through retrieving, realize cyclic utilization. According to the principle, the set of fluid supply device has the advantages of independent self-circulation, high reliability, high safety and high automation integration degree. Through experiment and a large amount of practices verification, the utility model discloses the life of compressor bearing and complete machine is greatly improved, can effectual reduction bearing, mechanical seal's operating temperature, improves bearing, mechanical seal's lubricated condition to can carry out and use in the higher environment of wide-range, multimedium, air supply requirement. The utility model discloses can be used to relate to screw industrial gas compressor, screw air compressor, screw oil gas compressor, screw vapor compressor, screw expansion compressor and other screw compressors. Through experimental detection, the utility model provides a helical-lobe compressor during operation, the stability of bearing is 36-60 degrees, and life is 100000 hours.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (12)

1. Screw compressor, characterized in that the screw compressor comprises:

the compressor comprises a compressor body, a compressor body and a compressor body, wherein the compressor body is provided with a compression cavity;

a rod-shaped shaft rotatably provided;

the bearing seat is provided with a bearing cavity, and the bearing cavity is arranged in a sealing manner; the bearing seat is provided with a fluid inlet and a fluid outlet, and the fluid inlet and the fluid outlet are both communicated with the bearing cavity;

a bearing;

the rod-shaped shaft penetrates through the bearing seat, and the end part of the rod-shaped shaft is positioned in the bearing cavity; the bearing is positioned in the bearing cavity, and the bearing is sleeved at the end part of the rod-shaped shaft and is arranged on the bearing seat; the rod-shaped shaft is rotatably provided through the bearing.

2. The screw compressor of claim 1, wherein the bearing housing comprises a bearing housing body, the bearing cavity being disposed on the bearing housing body, the bearing housing having a mechanical seal and a seal plate attached to each end; the mechanical seal seat and the seal plate respectively seal two ends of the bearing cavity, and the mechanical seal is sleeved on the rod-shaped shaft and connected with the mechanical seal seat; the rod-shaped shaft penetrates through the mechanical seal seat.

3. The screw compressor of claim 2, wherein the fluid inlet is disposed on the bearing housing body.

4. The screw compressor of claim 2 or 3, wherein the bearing housing body is further provided with a fluid passage, one end of the fluid passage communicating with the fluid inlet and the other end communicating with the bearing cavity.

5. The screw compressor of claim 4, wherein the fluid passage is positioned opposite the mechanical seal and/or bearing such that fluid is directed through the fluid passage toward the mechanical seal and/or bearing.

6. The screw compressor of claim 2 wherein said fluid outlet is on said closure plate.

7. The screw compressor of claim 1 further comprising a fluid supply for inputting fluid into said bearing cavity through said fluid inlet.

8. The screw compressor of claim 7, wherein said supply means comprises a tank, a motor, a pump and a supply pipe, further comprising a filter and/or a heat exchanger; the motor drives the pump to work, and the pump sequentially conveys the fluid in the storage tank to the filter and/or the heat exchanger through the supply pipe and conveys the fluid into the bearing cavity through the fluid inlet.

9. The screw compressor of claim 8, wherein the heat exchanger is provided with a heat exchange cavity; and a fan is arranged on one side of the heat exchanger and is driven to rotate by a motor.

10. The screw compressor of claim 7, wherein a plurality of inlets are provided on the compressor block, the supply further comprising a supply bank provided with one or more supply inlets and a plurality of supply outlets in communication with the supply inlets; the supply inlet communicates with the heat exchanger through a supply tube and the supply outlet communicates with the fluid inlet and the inlet through a supply tube.

11. The screw compressor of claim 1, further comprising a recovery device comprising a recovery tube and a tank, the recovery tube communicating the fluid outlet with the tank.

12. The screw compressor of claim 11, wherein the recovery device further comprises a recovery row provided with a plurality of recovery inlets and one or more recovery outlets, the recovery inlets communicating with the recovery outlets; the compressor body is provided with an outlet; the outlet of the compressor body and the fluid outlet on the bearing seat are communicated with the recovery inlet of the recovery row, and the recovery outlet of the recovery row is communicated with the storage tank.

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