CN113069882A

CN113069882A - Gas purification oil separation equipment

Info

Publication number: CN113069882A
Application number: CN202110353438.8A
Authority: CN
Inventors: 林俊新
Original assignee: Individual
Current assignee: Shanghai Juzong Industrial Co ltd
Priority date: 2021-04-01
Filing date: 2021-04-01
Publication date: 2021-07-06
Anticipated expiration: 2041-04-01
Also published as: CN113069882B

Abstract

The invention relates to gas purification equipment, in particular to gas purification oil separation equipment which comprises an adsorption mechanism and an oil separation mechanism, wherein the equipment can enable gas to be fully contacted with an adsorption material, can separate oil in the gas by utilizing the equipment, can effectively prevent harm caused by blockage, and is connected with the oil separation mechanism.

Description

Gas purification oil separation equipment

Technical Field

The invention relates to gas purification equipment, in particular to gas purification oil separation equipment.

Background

In the gas purification, if the gas contains oil, the oil needs to be separated, and the traditional purification equipment has the phenomena of insufficient adsorption, insufficient oil-gas separation and the like in the process of treating the gas, so the gas purification oil separation equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a gas purification oil separation device, which can make gas and an adsorption material fully contact, can separate oil in the gas by utilizing the device, and can effectively prevent harm caused by blockage.

In order to solve the technical problem, the invention relates to a gas purification device, and particularly relates to a gas purification oil separation device which comprises an adsorption mechanism and an oil separation mechanism, wherein the gas and an adsorption material can be fully contacted with each other, the oil in the gas can be separated by the device, and the device can effectively prevent harm caused by blockage.

The adsorption mechanism is connected with the oil separation mechanism.

As a further optimization of the technical scheme, the adsorption mechanism of the gas purification oil separation equipment comprises a base, an auxiliary support, an air inlet pipe, a bearing seat, a belt pulley, a belt, an eccentric box with a hollow shaft, an air outlet pipe, a belt pulley I, a transmission shaft, a belt pulley II, a belt I, a spiral with a bulge, a motor belt pulley, a motor, a bearing seat I, a seat with a threaded hole, a gate, a screw, a unthreaded hole, a limiting rod, a seat with two holes, a pulling seat, a limiting plate with square holes, a square column, a spring, a connecting plate, a wind wheel and a filter plate, wherein the base is connected with the auxiliary support, the air inlet pipe and the air outlet pipe are both connected with the auxiliary support, the base is connected with the bearing seat, the belt pulley is in friction connection with the belt pulley I, the eccentric box with the hollow shaft is in rotation connection with the bearing seat, the belt pulley is connected with, the air outlet pipe is rotationally connected with an eccentric box with a hollow shaft, a belt pulley I is connected with a transmission shaft, the transmission shaft is connected with a belt pulley II, the belt pulley II is frictionally connected with a belt I, a screw with a bulge is arranged on the transmission shaft, the belt I is frictionally connected with a motor belt pulley, the motor belt pulley is connected with a motor, the motor is connected with a base, a bearing seat I is connected with the base, the bearing seat I is rotationally connected with the transmission shaft, a seat with a threaded hole is connected with the eccentric box with the hollow shaft, a gate is hinged with the eccentric box with the hollow shaft, the screw is in threaded connection with a seat with the threaded hole, the screw is provided with a light hole, the light hole is in sliding connection with a limiting rod, the limiting rod is in sliding connection with a seat with a double-hole seat, the seat with a gate is abutted against a limiting plate with a square hole, a limiting plate with, the spring both ends are connected respectively on taking square hole limiting plate and gate, and the connecting plate links to each other with the square column, and the connecting plate links to each other with the gag lever post, and wind wheel and filter all link to each other with taking the hollow shaft eccentric case.

As a further optimization of the technical scheme, the oil separation mechanism of the gas purification oil separation device comprises a water tank, a vertical inlet pipe, an auxiliary support, a hydraulic cylinder, a gate movable tank, a flanged inlet pipe, a one-way valve, an air outlet, an oil storage tank, an oil outlet pipe, a sliding seat, a plug, a buzzer, a socket, a drainage plate, a safety cavity, a piston, a reset spring, a sliding rod, a hydraulic rod, a gate I and a communication pipe, wherein the water tank is connected with a base, the water tank is connected and communicated with the vertical inlet pipe, the vertical inlet pipe is connected and communicated with the air outlet pipe, the auxiliary support is connected with the water tank, the auxiliary support is connected with the hydraulic cylinder, the gate movable tank is connected and communicated with the flanged inlet pipe, the one-way valve is connected with the water tank, the air outlet is connected and communicated with the water tank, the oil storage tank, the plug links to each other with the slide bar, slide bar and oil storage tank sliding connection, slide bar and sliding seat sliding connection, bee calling organ links to each other with the socket, the socket links to each other with the water tank, the drainage board links to each other with the water tank, all be equipped with the insurance chamber on drainage board and the water tank, be equipped with the check valve in the insurance chamber, the piston links to each other with the slide bar, reset spring overlaps on the slide bar, reset spring both ends are connected respectively on piston and oil storage tank, the hydraulic stem links to each other with the pneumatic cylinder, hydraulic stem and auxiliary stay sliding connection, hydraulic stem and gate movable box sliding connection, the hydraulic stem links to each other with gate I, gate I and gate movable box sliding connection, communicating pipe links to each other and communicates with the gate movable box, communicating pipe links to each other and communicates with the water tank.

As a further optimization of the technical scheme, the material with the convex spiral of the gas purification oil separation equipment is stainless steel.

The gas purification oil separation equipment has the beneficial effects that:

according to the gas purification oil separation equipment, the gas can be fully contacted with the adsorption material, the oil in the gas can be separated by the equipment, and the equipment can effectively prevent harm caused by blockage.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a gas purification oil separation device according to the present invention.

Fig. 2 is a schematic structural diagram of a gas purification oil separation device according to the present invention.

Fig. 3 is a schematic structural diagram of a gas purification oil separation device according to the present invention.

Fig. 4 is a schematic structural diagram of a gas purification oil separation device according to a fourth embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a gas purification oil separation device according to a fifth embodiment of the present invention.

Fig. 6 is a first schematic structural diagram of an adsorption mechanism 1 of a gas purification oil separation apparatus according to the present invention.

Fig. 7 is a schematic structural diagram of an adsorption mechanism 1 of a gas purification oil separation apparatus according to a second embodiment of the present invention.

Fig. 8 is a third schematic structural diagram of the adsorption means 1 of the gas purification oil separation apparatus of the present invention.

Fig. 9 is a first schematic structural diagram of an oil separating mechanism 2 of a gas purification oil separating apparatus according to the present invention.

Fig. 10 is a second schematic structural view of an oil separating means 2 of a gas purification oil separating apparatus according to the present invention.

Fig. 11 is a third schematic structural view of an oil separating mechanism 2 of a gas purification oil separating apparatus according to the present invention.

Fig. 12 is a fourth schematic structural view of an oil separating mechanism 2 of a gas purification oil separating apparatus according to the present invention.

Fig. 13 is a fifth schematic structural view of the oil separating means 2 of the gas purification oil separating apparatus of the present invention.

In the figure: an adsorption mechanism 1; a base 1-1; 1-2 of auxiliary support; 1-3 of an air inlet pipe; 1-4 of a bearing seat; 1-5 of belt pulleys; 1-6 parts of a belt; 1-7 of an eccentric case with a hollow shaft; 1-8 parts of an air outlet pipe; pulley I1-9; 1-10 parts of a transmission shaft; pulley II 1-11; belt I1-12; 1-13 of a spiral with a bulge; 1-14 motor belt pulleys; 1-15 of a motor; bearing seats I1-16; 1-17 of a threaded hole seat; 1-18 of gates; screws 1-19; 1-20 of a light hole; 1-21 parts of a limiting rod; 1-22 with a double-hole seat; 1-23 parts of a pull seat; 1-24 limiting plates with square holes; 1-25 of square column; springs 1-26; connecting plates 1-27; 1-28 of wind wheel; 1-29 parts of a filter plate; an oil separation means 2; 2-1 of a water tank; a vertical inlet pipe 2-2; 2-3 of auxiliary support; 2-4 of a hydraulic cylinder; 2-5 of a gate movable box; 2-6 of a water inlet pipe with a flange; 2-7 of a one-way valve; 2-8 of air outlet; 2-9 parts of an oil storage tank; 2-10 parts of an oil outlet pipe; 2-11 of a sliding seat; 2-12 parts of a plug; 2-13 parts of a buzzer; 2-14 of the socket; 2-15 parts of a drainage plate; 2-16 parts of a safety cavity; 2-17 of a piston; 2-18 of a return spring; 2-19 slide bars; 2-20 parts of hydraulic rod; a gate I2-21; and communicating pipes 2-22.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present invention relates to a gas purification apparatus, and more specifically, to a gas purification oil separation apparatus including an adsorption means 1 and an oil separation means 2, which can sufficiently contact a gas and an adsorbent, and can separate oil in the gas, thereby effectively preventing the risk of clogging.

The adsorption mechanism 1 is connected with the oil separation mechanism 2.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the present embodiment further describes the present embodiment, where the adsorption mechanism 1 includes a base 1-1, an auxiliary support 1-2, an air inlet pipe 1-3, a bearing seat 1-4, a belt pulley 1-5, a belt 1-6, an eccentric box with a hollow shaft 1-7, an air outlet pipe 1-8, a belt pulley I1-9, a transmission shaft 1-10, a belt pulley II1-11, a belt I1-12, a spiral with protrusions 1-13, a motor belt pulley 1-14, a motor 1-15, a bearing seat I1-16, a seat with threaded holes 1-17, a gate 1-18, a screw 1-19, a light hole 1-20, 1-21 parts of a limiting rod, 1-22 parts of a seat with double holes, 1-23 parts of a pull seat, 1-24 parts of a limiting plate with square holes, 1-25 parts of a square column, 1-26 parts of a spring, 1-27 parts of a connecting plate, 1-28 parts of a wind wheel and 1-29 parts of a filter plate, wherein a base 1-1 is connected with an auxiliary support 1-2, an air inlet pipe 1-3 and an air outlet pipe 1-8 are connected with the auxiliary support 1-2, the base 1-1 is connected with a bearing seat 1-4, a belt pulley 1-5 is in friction connection with a belt 1-6, the belt 1-6 is in friction connection with a belt pulley I1-9, an eccentric box 1-7 with a hollow shaft is in rotation connection with the bearing seat 1-4, the belt pulley 1-5 is connected with an eccentric box 1-7 with the hollow shaft, an air outlet pipe 1-8 is rotatably connected with an eccentric box 1-7 with a hollow shaft, a belt pulley I1-9 is connected with a transmission shaft 1-10, the transmission shaft 1-10 is connected with a belt pulley II1-11, the belt pulley II1-11 is frictionally connected with a belt I1-12, a spiral 1-13 with a bulge is arranged on the transmission shaft 1-10, a belt I1-12 is frictionally connected with a motor belt pulley 1-14, a motor belt pulley 1-14 is connected with a motor 1-15, the motor 1-15 is connected with a base 1-1, a bearing seat I1-16 is connected with the base 1-1, a bearing seat I1-16 is rotatably connected with the transmission shaft 1-10, a seat 1-17 with a threaded hole is connected with the eccentric box 1-7 with the hollow shaft, a gate 1-18 is hinged with the eccentric box 1-7 with the hollow shaft, the screw 1-19 is in threaded connection with the threaded hole seat 1-17, the screw 1-19 is provided with a unthreaded hole 1-20, the unthreaded hole 1-20 is in sliding connection with the limiting rod 1-21, the limiting rod 1-21 is in sliding connection with the double-hole seat 1-22, the double-hole seat 1-22 is connected with the gate 1-18, the pulling seat 1-23 is pressed against the limiting plate 1-24 with the square hole, the limiting plate 1-24 with the square hole is connected with the gate 1-18, the square column 1-25 is connected with the pulling seat 1-23, the square column 1-25 is in sliding connection with the limiting plate 1-24 with the square hole, the spring 1-26 is sleeved on the square column 1-25, two ends of the spring 1-26 are respectively connected with the limiting plate 1-24 with the square hole and the gate 1-18, the connecting plate 1-27 is connected with the square column 1-25, the connecting plates 1-27 are connected with the limiting rods 1-21, the wind wheels 1-28 and the filter plates 1-29 are connected with the eccentric boxes 1-7 with hollow shafts, the motor belt pulleys 1-14 are driven to rotate by the operation of the motors 1-15, the motor belt pulleys 1-14 drive the belt pulleys II1-11 to rotate by the belts I1-12, the belt pulleys II1-11 drive the transmission shafts 1-10 to rotate, the transmission shafts 1-10 drive the belt pulleys I1-9 to rotate, the belt pulleys I1-9 drive the belt pulleys 1-5 to rotate by the belts 1-6, the belt pulleys 1-5 drive the eccentric boxes 1-7 with hollow shafts to rotate, and the eccentric boxes 1-7 with hollow shafts form eccentric force due to self eccentric structures during rotation, the active carbon in the eccentric box 1-7 with the hollow shaft rotates along with the rotation, the air inlet pipeline connected with the air inlet pipe 1-3 is connected with the eccentric box 1-7 with the hollow shaft, the air wheel 1-28 is driven to rotate when the eccentric box 1-7 with the hollow shaft rotates, the air wheel 1-28 is driven to suck air into the eccentric box 1-7 with the hollow shaft, the air is fully contacted with the active carbon, the air is filtered by the filter plate 1-29 and then enters the vertical inlet pipe 2-2 through the air outlet pipe 1-8 to enter the water tank 2-1, when the active carbon in the eccentric box 1-7 with the hollow shaft needs to be replaced, the pull seat 1-23 is pulled to drive the square column 1-25 to move, the square column 1-25 drives the limiting rod 1-21 to move through the connecting plate 1-27, the limiting rod 1-21 slides out from the unthreaded hole 1-20 to remove, the screws 1-19 are then unscrewed to open the gates 1-18 so that the activated carbon can be replaced.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present embodiment further describes the present embodiment, where the oil separation mechanism 2 includes a water tank 2-1, a vertical inlet pipe 2-2, an auxiliary support 2-3, a hydraulic cylinder 2-4, a gate movable tank 2-5, a flanged inlet pipe 2-6, a check valve 2-7, an air outlet 2-8, an oil storage tank 2-9, an oil outlet pipe 2-10, a sliding seat 2-11, a plug 2-12, a buzzer 2-13, a socket 2-14, a drainage plate 2-15, a relief cavity 2-16, a piston 2-17, a return spring 2-18, a sliding rod 2-19, a hydraulic rod 2-20, a plunger 2-13, a plunger 2-14, A gate I2-21, a communicating pipe 2-22, a water tank 2-1 connected with a base 1-1, a water tank 2-1 connected with and communicated with a vertical inlet pipe 2-2, a vertical inlet pipe 2-2 connected with and communicated with an outlet pipe 1-8, an auxiliary support 2-3 connected with the water tank 2-1, an auxiliary support 2-3 connected with a hydraulic cylinder 2-4, a gate movable tank 2-5 connected with and communicated with a flanged inlet pipe 2-6, a one-way valve 2-7 connected with the water tank 2-1, an air outlet 2-8 connected with and communicated with the water tank 2-1, an oil storage tank 2-9 connected with and communicated with an outlet pipe 2-10, a sliding seat 2-11 connected with the oil storage tank 2-9, the plug 2-12 is connected with the slide bar 2-19, the slide bar 2-19 is connected with the oil storage tank 2-9 in a sliding way, the slide bar 2-19 is connected with the sliding seat 2-11 in a sliding way, the buzzer 2-13 is connected with the socket 2-14, the socket 2-14 is connected with the water tank 2-1, the drainage plate 2-15 and the water tank 2-1 are both provided with a safety cavity 2-16, the safety cavity 2-16 is internally provided with a one-way valve 2-7, the piston 2-17 is connected with the slide bar 2-19, the reset spring 2-18 is sleeved on the slide bar 2-19, the two ends of the reset spring 2-18 are respectively connected with the piston 2-17 and the oil storage tank 2-9, the hydraulic rod 2-20 is, the hydraulic rod 2-20 is connected with the auxiliary support 2-3 in a sliding mode, the hydraulic rod 2-20 is connected with the gate movable box 2-5 in a sliding mode, the hydraulic rod 2-20 is connected with the gate I2-21, the gate I2-21 is connected with the gate movable box 2-5 in a sliding mode, the communicating pipe 2-22 is connected and communicated with the gate movable box 2-5, the communicating pipe 2-22 is connected and communicated with the water tank 2-1, the transmission shaft 1-10 is connected with the water tank 2-1 in a rotating mode, the transmission shaft 1-10 is connected with the oil storage tank 2-9 in a rotating mode, a flange-equipped water inlet pipe 2-6 is externally connected with a water pipe capable of adding water before the equipment is used, when water in the water tank 2-1 needs to be added, the hydraulic rod 2-20 is driven to move through the hydraulic cylinder 2-4, the, water in an external water receiving pipe enters a water tank 2-1 through a flanged water inlet pipe 2-6, a gate movable box 2-5 and a communicating pipe 2-22, the water level is controlled to be flush with the lower edge of a drainage plate 2-15, when gas enters the water tank 2-1, oil floats on the water, the gas is discharged from an air outlet 2-8, the drainage plate 2-15 is arranged to effectively contact the gas with the water, so that the oil floats and is separated, if the pressure in the water tank 2-1 is high, a one-way valve 2-7 is flushed to release the pressure, a transmission shaft 1-10 can drive a spiral 1-13 with a bulge to rotate when rotating, because the spiral structure of the spiral 1-13 with the bulge can drive the oil to move towards the direction of the oil storage tank 2-9, when the spiral 1-13 with the bulge rotates, the spiral flange can be added to facilitate oil to be scraped and then conveyed, the oil falls into the oil storage tank 2-9, the piston 2-17 is driven to move downwards along with the accumulation of the oil and then is discharged from the oil outlet pipe 2-10; the device can effectively prevent harm caused by blockage, if the oil outlet pipe 2-10 is blocked, oil cannot be discharged, the piston 2-17 can continue to move downwards, the piston 2-17 can drive the plug 2-12 to be inserted into the socket 2-14, the plug 2-12 is connected with the socket 2-14, and the buzzer 2-13 is connected with a power supply to give an alarm, so that blockage is reminded.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present embodiment further describes the first embodiment, in which the material of the raised spirals 1 to 13 is stainless steel.

The working principle of the device is as follows: the equipment can make gas fully contact with an adsorption material, the motor belt pulleys 1-14 are driven to rotate by the operation of the motors 1-15, the motor belt pulleys 1-14 can drive the belt pulleys II1-11 to rotate by the belts I1-12, the belt pulleys II1-11 can drive the transmission shafts 1-10 to rotate, the transmission shafts 1-10 can drive the belt pulleys I1-9 to rotate, the belt pulleys I1-9 can drive the belt pulleys 1-5 to rotate by the belts 1-6, the belt pulleys 1-5 can drive the hollow shaft eccentric boxes 1-7 to rotate, the hollow shaft eccentric boxes 1-7 can form eccentric force due to the eccentric structures of the belt pulleys, the activated carbon contained in the hollow shaft eccentric boxes 1-7 can rotate along with the rotation, and the air inlet pipeline connected with the air inlet pipe 1-3 is connected with the air inlet pipe, when the eccentric case 1-7 with the hollow shaft rotates, the wind wheel 1-28 is driven to rotate, the wind wheel 1-28 is driven to suck gas into the eccentric case 1-7 with the hollow shaft, after fully contacting with the active carbon, the active carbon is filtered by the filter plate 1-29 and then enters the vertical inlet pipe 2-2 through the air outlet pipe 1-8 to enter the water tank 2-1, when the active carbon in the eccentric box 1-7 with the hollow shaft needs to be replaced, pulling the pull seat 1-23 to drive the square column 1-25 to move, the square column 1-25 can drive the limiting rod 1-21 to move through the connecting plate 1-27, the limiting rod 1-21 can slide out from the unthreaded hole 1-20 to remove the limitation on the screw 1-19, then the screws 1-19 are unscrewed to open the gates 1-18, so that the activated carbon can be replaced; the device can separate oil in gas by utilizing the oil, the flange water inlet pipe 2-6 is externally connected with a water pipe which can be added with water before the device is used, when water in the water tank 2-1 needs to be added, the hydraulic cylinder 2-4 drives the hydraulic rod 2-20 to move, the hydraulic rod 2-20 can pull the gate I2-21, so that the water in the external water inlet pipe enters the water tank 2-1 through the flange water inlet pipe 2-6, the gate movable box 2-5 and the communicating pipe 2-22, the water level is controlled to be flush with the lower edge of the drainage plate 2-15, when the gas enters the water tank 2-1, the oil floats on the water, the gas is discharged from the air outlet 2-8, the drainage plate 2-15 can effectively contact the gas with the water, the oil floats, the separation is realized, if the pressure in the water tank 2-1 is large enough to open the check valve 2-7 for pressure relief, the transmission shaft 1-10 can drive the spiral with the bulge 1-13 to rotate when rotating, the spiral structure of the spiral with the bulge 1-13 can drive oil to move towards the direction of the oil storage tank 2-9, when the spiral with the bulge 1-13 rotates, the flange of the spiral can be beneficial to scraping the oil and then conveying the oil, the oil can fall into the oil storage tank 2-9, the piston 2-17 can be driven to move downwards along with the accumulation of the oil and then the oil is discharged from the oil outlet pipe 2-10; the device can effectively prevent harm caused by blockage, if the oil outlet pipe 2-10 is blocked, oil cannot be discharged, the piston 2-17 can continue to move downwards, the piston 2-17 can drive the plug 2-12 to be inserted into the socket 2-14, the plug 2-12 is connected with the socket 2-14, and the buzzer 2-13 is connected with a power supply to give an alarm, so that blockage is reminded.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a gas purification oil separation equipment, includes adsorption device (1), oil separation mechanism (2), its characterized in that: the adsorption mechanism (1) is connected with the oil separation mechanism (2).

2. A gas cleaning oil separation apparatus according to claim 1, characterized in that: the adsorption mechanism (1) comprises a base (1-1), an auxiliary support (1-2), an air inlet pipe (1-3), a bearing seat (1-4), a belt pulley (1-5), a belt (1-6), an eccentric box with a hollow shaft (1-7), an air outlet pipe (1-8), a belt pulley I (1-9), a transmission shaft (1-10), a belt pulley II (1-11), a belt I (1-12), a spiral with protrusions (1-13), a motor belt pulley (1-14), a motor (1-15), a bearing seat I (1-16), a threaded hole seat (1-17), a gate (1-18), a screw (1-19), a unthreaded hole (1-20), a limiting rod (1-21), a seat with double holes (1-22), A pull seat (1-23), a limit plate with square holes (1-24), a square column (1-25), a spring (1-26), a connecting plate (1-27), a wind wheel (1-28) and a filter plate (1-29), wherein the base (1-1) is connected with an auxiliary support (1-2), an air inlet pipe (1-3) and an air outlet pipe (1-8) are both connected with the auxiliary support (1-2), the base (1-1) is connected with a bearing seat (1-4), a belt pulley (1-5) is in friction connection with a belt (1-6), the belt (1-6) is in friction connection with a belt pulley I (1-9), an eccentric case with a hollow shaft (1-7) is rotationally connected with the bearing seat (1-4), and the belt pulley (1-5) is connected with the eccentric case with the hollow shaft (1-7), an air inlet pipe (1-3) is rotatably connected with an eccentric box (1-7) with a hollow shaft, an air outlet pipe (1-8) is rotatably connected with the eccentric box (1-7) with the hollow shaft, a belt pulley I (1-9) is connected with a transmission shaft (1-10), the transmission shaft (1-10) is connected with a belt pulley II (1-11), the belt pulley II (1-11) is in friction connection with a belt I (1-12), a spiral (1-13) with a bulge is arranged on the transmission shaft (1-10), the belt I (1-12) is in friction connection with a motor belt pulley (1-14), the motor belt pulley (1-14) is connected with a motor (1-15), the motor (1-15) is connected with a base (1-1), and a bearing seat I (1-16) is connected with the base (1-1), the bearing seats I (1-16) are rotatably connected with the transmission shafts (1-10), the threaded hole seats (1-17) are connected with the eccentric boxes (1-7) with the hollow shafts, the gates (1-18) are hinged with the eccentric boxes (1-7) with the hollow shafts, the screws (1-19) are in threaded connection with the threaded hole seats (1-17), the screws (1-19) are provided with unthreaded holes (1-20), the unthreaded holes (1-20) are in sliding connection with the limiting rods (1-21), the limiting rods (1-21) are in sliding connection with the double-hole seats (1-22), the double-hole seats (1-22) are connected with the gates (1-18), the pull seats (1-23) are abutted against the square-hole limiting plates (1-24), the square-hole limiting plates (1-24) are connected with the gates (1-18), the square column (1-25) is connected with the pull seat (1-23), the square column (1-25) is in sliding connection with the limit plate (1-24) with the square hole, the spring (1-26) is sleeved on the square column (1-25), two ends of the spring (1-26) are respectively connected with the limit plate (1-24) with the square hole and the gate (1-18), the connecting plate (1-27) is connected with the square column (1-25), the connecting plate (1-27) is connected with the limit rod (1-21), and the wind wheel (1-28) and the filter plate (1-29) are connected with the eccentric box (1-7) with the hollow shaft.

3. A gas cleaning oil separation apparatus according to claim 1, characterized in that: the oil separation mechanism (2) comprises a water tank (2-1), a vertical inlet pipe (2-2), an auxiliary support (2-3), a hydraulic cylinder (2-4), a gate movable box (2-5), a flanged water inlet pipe (2-6), a one-way valve (2-7), an air outlet (2-8), an oil storage box (2-9), an oil outlet pipe (2-10), a sliding seat (2-11), a plug (2-12), a buzzer (2-13), a socket (2-14), a drainage plate (2-15), a safety cavity (2-16), a piston (2-17), a reset spring (2-18), a sliding rod (2-19), a hydraulic rod (2-20), a gate I (2-21) and a communicating pipe (2-22), the water tank (2-1) is connected with the base (1-1), the water tank (2-1) is connected and communicated with the vertical inlet pipe (2-2), the vertical inlet pipe (2-2) is connected and communicated with the air outlet pipe (1-8), the auxiliary support (2-3) is connected with the water tank (2-1), the auxiliary support (2-3) is connected with the hydraulic cylinder (2-4), the gate movable box (2-5) is connected and communicated with the water inlet pipe (2-6) with a flange, the one-way valve (2-7) is connected with the water tank (2-1), the air outlet (2-8) is connected and communicated with the water tank (2-1), the oil storage tank (2-9) is connected and communicated with the oil outlet pipe (2-10), a sliding seat (2-11) is connected with an oil storage tank (2-9), a plug (2-12) is connected with a sliding rod (2-19), the sliding rod (2-19) is connected with the oil storage tank (2-9) in a sliding way, the sliding rod (2-19) is connected with the sliding seat (2-11) in a sliding way, a buzzer (2-13) is connected with a socket (2-14), the socket (2-14) is connected with a water tank (2-1), a drainage plate (2-15) is connected with the water tank (2-1), a safety cavity (2-16) is arranged on each of the drainage plate (2-15) and the water tank (2-1), a one-way valve (2-7) is arranged in each safety cavity (2-16), a piston (2-17) is connected with the sliding rod (2-19), a return spring (2-18) is sleeved on the sliding rod (2-19), two ends of a return spring (2-18) are respectively connected to a piston (2-17) and an oil storage tank (2-9), a hydraulic rod (2-20) is connected with a hydraulic cylinder (2-4), the hydraulic rod (2-20) is in sliding connection with an auxiliary support (2-3), the hydraulic rod (2-20) is in sliding connection with a gate movable tank (2-5), the hydraulic rod (2-20) is connected with a gate I (2-21), the gate I (2-21) is in sliding connection with the gate movable tank (2-5), a communicating pipe (2-22) is connected and communicated with the gate movable tank (2-5), the communicating pipe (2-22) is connected and communicated with a water tank (2-1), a transmission shaft (1-10) is in rotating connection with the water tank (2-1), and the transmission shaft (1-10) is in rotating connection with the oil storage tank (2-9).

4. A gas cleaning oil separation apparatus according to claim 2, characterized in that: the material of the spiral (1-13) with the bulges is stainless steel.