CN215691783U - Compressor condensation method tertiary oil gas recovery device for gas station - Google Patents

Abstract

The utility model discloses a tertiary oil gas recovery device by a compressor condensation method for a gas station, and relates to the technical field of oil gas treatment and related devices thereof. The refrigerator comprises a clip box, a first refrigeration box and a second refrigeration box are sequentially arranged in the clip box from left to right, a cover plate is connected to the upper surface of the clip box, a first suction assembly is arranged in the middle of the upper surface of the cover plate, the first suction assembly comprises a second connecting pipe and a first vacuum pump, one end of the second connecting pipe connected to the first surface of the first vacuum pump is connected with the upper end surface of a third connecting pipe connected to the middle of the upper surface of the first refrigeration box, and a second suction assembly is arranged on one side of the rear portion of the upper surface of the cover plate. According to the utility model, through the arrangement of the first refrigeration box, the second refrigeration box and the second suction assembly, people can operate the first refrigeration box and the second refrigeration box in the device to carry out multi-stage cooling on oil gas, and people can operate the second suction assembly in the device to carry out circulating cooling treatment on the oil gas.

Description

Compressor condensation method tertiary oil gas recovery device for gas station

Technical Field

The utility model belongs to the technical field of oil gas treatment and related devices thereof, and particularly relates to a compressor condensation method tertiary oil gas recovery device for a gas station.

Background

The gas station is that the car can the raw materials supply place, and wherein, gas station website stores petrol and diesel oil, in order to increase the utilization ratio of petrol and diesel oil, people can control cubic oil gas recovery unit and carry out recovery processing to oil gas, and compressor condensation method cubic oil gas recovery unit belongs to one of the oil gas recovery processing device, but it still has following drawback in the in-service use:

1. the existing three-time oil gas recovery device for a gas station by using a compressor condensation method can only carry out unipolar cooling on oil gas, so that the compounds cooled and liquefied in the oil gas are low;

2. the existing three-time oil gas recovery device for a gas station by using a compressor condensation method can not realize cooling during circulation of oil gas, so that a user can not repeatedly cool the oil gas according to actual needs.

Therefore, the existing tertiary oil gas recovery device by using a compressor condensation method for a gas station cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a compressor condensation method tertiary oil gas recovery device for a gas station, which solves the problems that the existing compressor condensation method tertiary oil gas recovery device for the gas station cannot carry out multi-stage cooling on oil gas and cannot carry out circulating cooling on the oil gas by arranging a first refrigeration box, a second refrigeration box and a second suction assembly structure.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a tertiary oil gas recovery device by a compressor condensation method for a gas station, which comprises a clip box, wherein a first refrigeration box and a second refrigeration box are sequentially arranged in the clip box from left to right, the upper surface of the clip box is connected with a cover plate, the middle part of the upper surface of the cover plate is provided with a first suction assembly, the first suction assembly comprises a second connecting pipe and a first vacuum pump, one end of the second connecting pipe connected with one surface of the first vacuum pump is connected with the upper end surface of a third connecting pipe connected with the middle part of the upper surface of the first refrigeration box, the first connecting pipe connected with the other surface of the first vacuum pump is connected with a sixth connecting pipe connected with one side surface of the second refrigeration box, one side of the rear part of the upper surface of the cover plate is provided with a second suction assembly, the second suction assembly comprises a fourth connecting pipe and a second vacuum pump, one end of the fourth connecting pipe connected with one surface of the second vacuum pump is connected with a fifth connecting pipe connected with the middle part of the upper surface of the second refrigeration box, one end of a seventh connecting pipe connected with the other surface of the second vacuum pump is connected to the oil inlet pipe connected with the surface of one side of the first refrigeration box, and the rear side of the circumferential surface of the seventh connecting pipe is connected with an exhaust pipe.

Furthermore, one end of the circumferential surface of the exhaust pipe is connected with a third valve, one end, close to the oil inlet pipe, of the circumferential surface of the seventh connecting pipe is connected with a second valve, specifically, the existence of the third valve controls whether gas can be discharged from the exhaust pipe, and the existence of the second valve controls whether oil gas in the seventh connecting pipe can enter the oil inlet pipe.

Further, the side surface through connection that the time shape case is close to the oil feed trachea has the second transparent plate, and the side surface through connection that the time shape case kept away from the oil feed trachea has first transparent plate, and the vertical baffle is connected at the inside preceding lateral wall middle part of time shape case, and specifically, the existence of second transparent plate, convenient to use person observe the second refrigeration case, and the existence of first transparent plate, convenient to use person observe first refrigeration case.

Further, the standing groove has been seted up to the equal bilateral symmetry in both sides around the upper surface of time shape case, the equal symmetric connection in two surfaces has the shape of falling L shape board around first refrigeration case and the second refrigeration case, the downside of the shape of falling L shape board surface and the inboard lower surface contact of standing groove, the lower surface middle part of first refrigeration case and second refrigeration case all is connected with the discharge pipe, specifically, the existence of standing groove, convenient to use person confirms the position between the shape of falling L shape board and the time shape case, the existence of discharge pipe, the liquid that is used for discharging first refrigeration case and the liquefaction of second refrigeration case.

Further, the lower side of the outer surface of the paper-clip box is connected with a second paper-clip frame, an upper opening box is arranged right below the paper-clip box, the upper side of the outer surface of the upper opening box is connected with a first paper-clip frame, the upper surface of the first paper-clip frame is in contact with the lower surface of the second paper-clip frame, and particularly, the first paper-clip frame and the second paper-clip frame are used for connecting the paper-clip box and the upper opening box.

Further, the inside upside of upper shed case is provided with filtering component, and the upper surface inboard of upper shed case is opened and is equipped with back the shape recess, and filtering component includes back shape frame body and mesh board, and the inside of returning the shape frame body is inlayed and is had the mesh board, returns the shape frame body and is located the inboard of returning the shape recess, specifically, returns the existence of shape recess, and convenient to use person confirms the position between shape frame body and the upper shed case, and the existence of mesh board is used for filtering liquid.

Further, four corners of the lower surface of the upper opening box are provided with supporting components, each supporting component comprises a supporting column and a connecting block, the upper surface of the connecting block connected with the upper end face of each supporting column is connected to the four corners of the lower surface of the upper opening box, and specifically, the supporting columns are used for supporting the upper opening box.

Further, a discharge pipe is connected to a middle portion of a lower surface of the upper opening tank, and a first valve is connected to a circumferential surface of the discharge pipe, and specifically, the presence of the discharge pipe for discharging the liquid inside the upper opening tank controls whether the liquid inside the upper opening tank can be discharged from the discharge pipe.

The utility model has the following beneficial effects:

1. the utility model is provided with a first refrigeration box and a second refrigeration box, the first refrigeration box and the second refrigeration box are sequentially arranged in the clip box from left to right, the upper surface of the clip box is connected with a cover plate, the middle part of the upper surface of the cover plate is provided with a first suction assembly, the first suction assembly comprises a second connecting pipe and a first vacuum pump, one end of the second connecting pipe connected with one surface of the first vacuum pump is connected with the upper end surface of a third connecting pipe connected with the middle part of the upper surface of the first refrigeration box, a first connecting pipe connected with the other surface of the first vacuum pump is connected with a sixth connecting pipe connected with one side surface of the second refrigeration box, the design enables the first refrigeration box and the second refrigeration box in the device to respectively condense oil gas, and then make the device can carry out cooling treatment many times to oil gas, and make the device cool off oil gas under different temperatures.

2. According to the utility model, through the arrangement of the second suction assembly structure, one side of the rear part of the upper surface of the cover plate is provided with the second suction assembly, the second suction assembly comprises a fourth connecting pipe and a second vacuum pump, one end of the fourth connecting pipe connected with one surface of the second vacuum pump is connected with a fifth connecting pipe connected with the middle part of the upper surface of the second refrigeration box, one end of a seventh connecting pipe connected with the other surface of the second vacuum pump is connected with the oil inlet pipe connected with one side surface of the first refrigeration box, and the rear side of the circumferential surface of the seventh connecting pipe is connected with the exhaust pipe.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a right side schematic view from above of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is a schematic top view of the outer appearance of the present invention from the left;

FIG. 4 is an exploded view of the connection of the clip case, the first refrigeration case and the second refrigeration case of the present invention;

fig. 5 is an exploded view of the connection of the upper open box and the filter assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an upper open box; 11. a discharge pipe; 111. a first valve; 12. a first frame of a shape; 13. a clip-shaped groove; 2. a first pumping assembly; 21. a first connecting pipe; 22. a second connecting pipe; 23. a third connecting pipe; 24. a first vacuum pump; 3. a support assembly; 31. a support pillar; 32. connecting blocks; 4. a second pumping assembly; 41. a fourth connecting pipe; 42. a fifth connecting pipe; 43. a sixth connecting pipe; 44. a seventh connecting pipe; 45. a second valve; 46. a second vacuum pump; 5. an exhaust pipe; 51. a third valve; 6. a cover plate; 7. a box with a shape of Chinese character 'hui'; 71. a first transparent plate; 72. a second frame; 73. a second transparent plate; 74. a vertical partition plate; 75. a placement groove; 8. a filter assembly; 81. a clip body; 82. a mesh plate; 9. a first refrigeration case; 91. an inverted L-shaped plate; 92. an oil inlet pipe; 93. a discharge pipe; 10. a second refrigeration case.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-5, the present invention relates to a tertiary oil gas recovery device by a compressor condensation method for a gas station, which comprises a clip box 7, a first refrigeration box 9 and a second refrigeration box 10 are sequentially arranged inside the clip box 7 from left to right, the models of the first refrigeration box 9 and the second refrigeration box 10 are FYL-YS-128, the clip box 7 is known and disclosed in the prior art, a cover plate 6 is connected to the upper surface of the clip box 7, a first suction assembly 2 is arranged in the middle of the upper surface of the cover plate 6, the first suction assembly 2 comprises a second connecting pipe 22 and a first vacuum pump 24, one end of the second connecting pipe 22 connected to one surface of the first vacuum pump 24 is connected to the upper end surface of a third connecting pipe 23 connected to the middle of the upper surface of the first refrigeration box 9, a first connecting pipe 21 connected to the other surface of the first vacuum pump 24 is connected to a sixth connecting pipe 43 connected to one side surface of the second refrigeration box 10, a second suction assembly 4 is arranged on one side of the rear part of the upper surface of the cover plate 6, the second suction assembly 4 comprises a fourth connecting pipe 41 and a second vacuum pump 46, one end of the fourth connecting pipe 41 connected with one surface of the second vacuum pump 46 is connected with a fifth connecting pipe 42 connected with the middle part of the upper surface of the second refrigeration box 10, one end of a seventh connecting pipe 44 connected with the other surface of the second vacuum pump 46 is connected with an oil inlet pipe 92 connected with one side surface of the first refrigeration box 9, an exhaust pipe 5 is connected with the rear side of the circumferential surface of the seventh connecting pipe 44, specifically, oil gas enters the inside of the first refrigeration box 9 from the oil inlet pipe 92 for cooling, so that liquefied liquid in the first refrigeration box 9 is discharged from a discharge pipe 93, the non-liquefied oil gas enters the inside of the second connecting pipe 22 through the suction of the first vacuum pump 24, and then the oil gas in the second connecting pipe 22 enters the inside of the third connecting pipe 23, then, the oil gas inside the third connecting pipe 23 enters the inside of the first connecting pipe 21, then the oil gas inside the first connecting pipe 21 enters the inside of the sixth connecting pipe 43, then the oil gas inside the sixth connecting pipe 43 enters the inside of the second refrigeration box 10 for cooling, so that the liquid liquefied inside the second refrigeration box 10 is discharged from the discharge pipe 93;

the non-liquefied oil gas is pumped by the second vacuum pump 46, enters the inside of the fourth connecting pipe 41 through the fifth connecting pipe 42, then the oil gas inside the fourth connecting pipe 41 enters the inside of the seventh connecting pipe 44, and then, when the user opens the third valve 51 and simultaneously closes the second valve 45, the gas inside the seventh connecting pipe 44 is discharged from the exhaust pipe 5; when the user closes the third valve 51 and at the same time opens the second valve 45, the oil gas inside the seventh connection pipe 44 flows back into the inside of the oil gas inlet pipe 92. When the device works, the stable temperatures of the first refrigeration box 9 and the second refrigeration box 10 are different

As shown in fig. 1, one end of the circumferential surface of the exhaust pipe 5 is connected to a third valve 51, and one end of the circumferential surface of the seventh connecting pipe 44, which is close to the oil inlet pipe 92, is connected to a second valve 45, specifically, when gas needs to be discharged, the user opens the third valve 51, and at the same time, closes the second valve 45, so that the gas inside the seventh connecting pipe 44 is discharged from the exhaust pipe 5; when the gas discharge is not required, the user closes the third valve 51 and, at the same time, opens the second valve 45, so that the gas inside the seventh connection pipe 44 enters the inside of the gas inlet pipe 92.

Wherein as shown in fig. 1, 2, 3, 4, a side surface of the clip box 7 close to the oil inlet pipe 92 is connected with the second transparent plate 73 in a penetrating manner, a side surface of the clip box 7 far away from the oil inlet pipe 92 is connected with the first transparent plate 71 in a penetrating manner, the vertical partition plate 74 is connected in the middle of the front side wall of the clip box 7, the left and right symmetrical arrangement of the front and back sides of the upper surface of the clip box 7 is provided with the placement groove 75, the front and back surfaces of the first refrigeration box 9 and the second refrigeration box 10 are connected with the inverted L-shaped plate 91 in a symmetrical manner, the lower side of the outer surface of the inverted L-shaped plate 91 is in lower surface contact with the inner side of the placement groove 75, the middle of the lower surfaces of the first refrigeration box 9 and the second refrigeration box 10 is connected with the discharge pipe 93, specifically, the liquid liquefied by the first refrigeration box 9 and the second refrigeration box 10 is discharged from the discharge pipe 93.

As shown in fig. 2, a second loop-shaped frame 72 is connected to a lower side of an outer surface of the loop-shaped box 7, an upper opening box 1 is disposed right below the loop-shaped box 7, a first loop-shaped frame 12 is connected to an upper side of the outer surface of the upper opening box 1, an upper surface of the first loop-shaped frame 12 contacts a lower surface of the second loop-shaped frame 72, specifically, a user uses an external bolt to lock and connect the second loop-shaped frame 72 to an upper surface of the first loop-shaped frame 12, so that the loop-shaped box 7 is connected to the upper opening box 1.

As shown in fig. 5, the upper side of the inside of the upper opening box 1 is provided with the filter assembly 8, the inner side of the upper surface of the upper opening box 1 is provided with the square-shaped groove 13, the filter assembly 8 comprises a square-shaped frame body 81 and a mesh plate 82, the mesh plate 82 is embedded in the square-shaped frame body 81, the square-shaped frame body 81 is located inside the square-shaped groove 13, and specifically, the liquid discharged from the discharge pipe 93 falls into the inside of the upper opening box 1 through the mesh plate 82.

As shown in fig. 1, 2 and 3, the supporting components 3 are arranged at four corners of the lower surface of the upper opening box 1, each supporting component 3 comprises a supporting column 31 and a connecting block 32, the upper surface of the connecting block 32 connected to the upper end surface of the supporting column 31 is connected to the four corners of the lower surface of the upper opening box 1, the middle part of the lower surface of the upper opening box 1 is connected to a discharge pipe 11, a first valve 111 is connected to the circumferential surface of the discharge pipe 11, and specifically, a user opens the first valve 111, so that the liquid in the upper opening box 1 is discharged from the discharge pipe 11; on the contrary, the liquid inside the upper opening tank 1 is not allowed to be discharged from the discharge pipe 11.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (8)

1. Filling station is with compressor condensation method cubic vapor recovery system device, including returning shape case (7), its characterized in that: a first refrigerating box (9) and a second refrigerating box (10) are sequentially arranged in the clip box (7) from left to right, the upper surface of the clip box (7) is connected with a cover plate (6), a first suction assembly (2) is arranged in the middle of the upper surface of the cover plate (6), the first suction assembly (2) comprises a second connecting pipe (22) and a first vacuum pump (24), one end of the second connecting pipe (22) connected with one surface of the first vacuum pump (24) is connected with the upper end surface of a third connecting pipe (23) connected with the middle of the upper surface of the first refrigerating box (9), a first connecting pipe (21) connected with the other surface of the first vacuum pump (24) is connected with a sixth connecting pipe (43) connected with one side surface of the second refrigerating box (10), a second suction assembly (4) is arranged on one side of the rear portion of the upper surface of the cover plate (6), the second suction assembly (4) comprises a fourth connecting pipe (41) and a second vacuum pump (46), one end of the fourth connecting pipe (41) connected to one surface of the second vacuum pump (46) is connected with a fifth connecting pipe (42) connected to the middle of the upper surface of the second refrigeration box (10), one end of a seventh connecting pipe (44) connected to the other surface of the second vacuum pump (46) is connected to an oil inlet pipe (92) connected to one side surface of the first refrigeration box (9), and an exhaust pipe (5) is connected to the rear side of the circumferential surface of the seventh connecting pipe (44).

2. The tertiary oil and gas recovery device by compressor condensation for a gasoline station as claimed in claim 1, wherein a third valve (51) is connected to one end of the circumferential surface of the exhaust pipe (5), and a second valve (45) is connected to one end of the circumferential surface of the seventh connecting pipe (44) close to the oil inlet pipe (92).

3. The tertiary oil and gas recovery device by the compressor condensation method for the gas station as claimed in claim 1, wherein a second transparent plate (73) is connected to one side surface of the rectangular box (7) close to the gas inlet pipe (92) in a penetrating manner, a first transparent plate (71) is connected to one side surface of the rectangular box (7) far away from the gas inlet pipe (92) in a penetrating manner, and a vertical partition plate (74) is connected to the middle of the front side wall in the interior of the rectangular box (7).

4. The tertiary oil-gas recovery device by using the compressor condensation method for the gas station as claimed in claim 3, wherein the front and rear sides of the upper surface of the square-shaped tank (7) are symmetrically provided with the placing grooves (75), the front and rear surfaces of the first refrigeration tank (9) and the second refrigeration tank (10) are symmetrically connected with inverted L-shaped plates (91), the lower sides of the outer surfaces of the inverted L-shaped plates (91) are in contact with the inner side lower surfaces of the placing grooves (75), and the middle parts of the lower surfaces of the first refrigeration tank (9) and the second refrigeration tank (10) are connected with the discharge pipes (93).

5. The tertiary oil and gas recovery device by the compressor condensation method for the gasoline station as claimed in claim 4, wherein a second loop-shaped frame (72) is connected to the lower side of the outer surface of the loop-shaped box (7), an upper opening box (1) is arranged right below the loop-shaped box (7), a first loop-shaped frame (12) is connected to the upper side of the outer surface of the upper opening box (1), and the upper surface of the first loop-shaped frame (12) is in contact with the lower surface of the second loop-shaped frame (72).

6. The tertiary oil and gas recovery device by the compressor condensation method for the gas station as claimed in claim 5, wherein a filter assembly (8) is arranged on the upper side of the inside of the upper opening box (1), a square groove (13) is formed in the inner side of the upper surface of the upper opening box (1), the filter assembly (8) comprises a square frame body (81) and a mesh plate (82), the mesh plate (82) is embedded in the square frame body (81), and the square frame body (81) is located on the inner side of the square groove (13).

7. The tertiary oil and gas recovery device by the compressor condensation method for the gas station as claimed in claim 6, wherein the supporting members (3) are arranged at four corners of the lower surface of the upper opening box (1), each supporting member (3) comprises a supporting column (31) and a connecting block (32), and the upper surfaces of the connecting blocks (32) connected with the upper end surfaces of the supporting columns (31) are connected to the four corners of the lower surface of the upper opening box (1).

8. The tertiary oil and gas recovery device by compressor condensation for gasoline stations as claimed in claim 7, wherein the middle of the lower surface of the upper open tank (1) is connected with a discharge pipe (11), and the circumferential surface of the discharge pipe (11) is connected with a first valve (111).

Images