CN112642177A

CN112642177A - Enhanced gas-liquid separator

Info

Publication number: CN112642177A
Application number: CN202011435709.6A
Authority: CN
Inventors: 马玉帅; 田鹏
Original assignee: Inner Mongolia Haitai Technology Co Ltd
Current assignee: Inner Mongolia Haitai Technology Co Ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2021-04-13

Abstract

The invention discloses a reinforced gas-liquid separator which comprises a tank body, a separation cavity, a servo motor and a bubble filter screen, wherein the separation cavity is fixed inside the tank body, and a buffer is fixed at the bottom end inside a buffer shell. The water conveying pipe is provided with three sections, wherein the two sections of water conveying pipes collect liquid in the filter shell and transmit the liquid to the third section of water conveying pipe, and the third section of water conveying pipe transmits the liquid back to the inside of the separation cavity, so that the separation efficiency is improved.

Description

Enhanced gas-liquid separator

Technical Field

The invention relates to the technical field of gas-liquid separators, in particular to an enhanced gas-liquid separator.

Background

With the continuous progress of the times, the technological level of the people is continuously developed, the purity of liquid used in some industries is high, a gas-liquid separator is needed to separate internal gas, so that the use efficiency is not affected, and a special intensified gas-liquid separator is used;

however, in the conventional gas-liquid separator in the market, the discharged air contains a large amount of moisture and is lost, so that a reinforced gas-liquid separator has been developed to solve the above problems.

Disclosure of Invention

The present invention is directed to an intensified gas-liquid separator to solve the problem of loss caused by the large amount of moisture contained in the discharged air in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a reinforced gas-liquid separator comprises a tank body, a separation cavity, a servo motor and a bubble filter screen, wherein the separation cavity is fixed inside the tank body, the servo motor is installed on the measuring side of the separation cavity, the bubble filter screen is installed inside the separation cavity, installation structures are arranged on two sides inside the separation cavity, a water inlet is fixed at the top end of the tank body, a connecting pipe is installed at the top end of the water inlet, fixed structures are fixed on two sides of the top end of the water inlet, a swing wheel is movably connected inside the separation cavity, an outlet pipe is fixed on one side inside the tank body, a filtering structure is fixed on one side of the separation cavity and comprises a filtering shell, a filtering core, a liquid outlet and a water conveying pipe, the filtering shell is fixed on the top end of one side of the separation cavity, the filtering core is fixed inside the filtering shell, and the liquid outlet is arranged at the, the bottom of filter core extends to the inside of liquid outlet, the bottom mounting of crossing the filter shell has the raceway, and the bottom of raceway and the bottom fixed connection of disengagement chamber one side, the bottom mounting of the jar body has the buffering shell, and the top and the bottom of buffering shell one end all are fixed with observation glass, the inside bottom mounting of buffering shell has the buffer.

Preferably, the filter element is provided with two, and the outer diameter of the filter element is larger than the inner diameter of the liquid outlet.

Preferably, the mounting structure includes first ejector pad, installation cavity, spacing spring, fixed chamber, slipmat and fixed block, the installation cavity all sets up in the inside both sides of bubble filter screen, the inside one side of installation cavity is fixed with spacing spring, and one side of spacing spring is fixed with first ejector pad, one side of first ejector pad is fixed with the slipmat, the fixed block all is fixed in the both sides on separation intracavity inside top, the inside of fixed block is provided with fixed chamber.

Preferably, the number of the first push blocks is two, and the first push blocks form a telescopic structure at one side inside the installation cavity through limiting springs.

Preferably, fixed knot constructs including fixing stud, second ejector pad, blotter, movable block and swing arm, the movable block all is fixed in the bottom of water inlet both sides, the inside swing joint of movable block has the swing arm, and one side threaded connection on swing arm top has fixing stud, fixing stud's bottom mounting has the second ejector pad, and the bottom mounting of second ejector pad has the blotter.

Preferably, two swing arms are arranged, and the swing arms are symmetrically distributed around the vertical center line of the water inlet.

Compared with the prior art, the invention has the beneficial effects that: the reinforced gas-liquid separator not only realizes the filtration of discharged moisture and improves the separation efficiency, but also realizes the convenient installation of a bubble filter screen, improves the use convenience, strengthens the connection between a connecting pipe and a water inlet and improves the connection tightness;

(1) the water conveying pipe is provided with three sections, wherein the two sections of water conveying pipes collect liquid in the filtering shell and transmit the liquid to the third section of water conveying pipe, and the third section of water conveying pipe transmits the liquid back to the inside of the separation cavity, so that the separation efficiency is improved;

(2) the installation structure is arranged, so that the bubble filter screen is convenient to install, when the bubble filter screen needs to be installed, the anti-slip pads on two sides are pushed inwards, the anti-slip pads push the first push block, the first push block extrudes the limiting spring to one side, the limiting spring is compressed towards the inside of the installation cavity under the stress, then the first push block is placed into the fixed cavity, at the moment, the limiting spring expands outwards to push the first push block, the first push block pushes the anti-slip pads, the anti-slip pads and the fixed cavity are fixed, the installation of the bubble filter screen is completed, and therefore the convenience in use is improved;

(3) realized strengthening being connected of connecting pipe and water inlet through being provided with fixed knot structure, the leakproofness between connecting pipe and the water inlet is comparatively important when carrying out work, with butt joint between connecting pipe and the water inlet, to one side upset swing arm after that, screw up fixing stud after that, fixing stud promotes the second ejector pad, the second ejector pad extrudees the blotter downwards, the blotter promotes the connecting pipe, it is more inseparable to make between connecting pipe and the water inlet fixed to the leakproofness of connecting has been improved.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

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

FIG. 3 is an enlarged partial cross-sectional view taken at A in FIG. 1 according to the present invention;

fig. 4 is a schematic front view of a partial cross-sectional structure of the mounting structure of the present invention.

In the figure: 1. a tank body; 2. a separation chamber; 3. a servo motor; 4. a mounting structure; 401. a first push block; 402. a mounting cavity; 403. a limiting spring; 404. a fixed cavity; 405. a non-slip mat; 406. a fixed block; 5. a bubble filter screen; 6. a connecting pipe; 7. a fixed structure; 701. fixing the stud; 702. a second push block; 703. a cushion pad; 704. a movable block; 705. a swing arm; 8. a water inlet; 9. a filter structure; 901. a filter shell; 902. a filter element; 903. a liquid outlet; 904. a water delivery pipe; 10. an air outlet pipe; 11. a swinging wheel; 12. observing glass; 13. a buffer shell; 14. a buffer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown: a reinforced gas-liquid separator comprises a tank body 1, a separation cavity 2, a servo motor 3 and a bubble filter screen 5, wherein the separation cavity 2 is fixed inside the tank body 1, the servo motor 3 is installed on the measuring side of the separation cavity 2, the type of the servo motor 3 can be EDSMT-2T, the input end of the servo motor 3 is electrically connected with the output end of a control panel through a wire, the bubble filter screen 5 is installed inside the separation cavity 2, installation structures 4 are arranged on the two sides inside the separation cavity 2, a water inlet 8 is fixed at the top end of the tank body 1, a connecting pipe 6 is installed at the top end of the water inlet 8, fixed structures 7 are fixed on the two sides of the top end of the water inlet 8, a swing wheel 11 is movably connected inside the separation cavity 2, an air outlet pipe 10 is fixed on one side inside the tank body 1, a filter structure 9 is fixed on one side of the separation cavity 2, and a, observation glass 12 is fixed at the top end and the bottom end of one end of the buffer shell 13, and a buffer 14 is fixed at the bottom end inside the buffer shell 13;

the filtering structure 9 comprises a filtering shell 901, two filtering cores 902, a liquid outlet 903 and a water conveying pipe 904, wherein the filtering shell 901 is fixed at the top end of one side of the separation cavity 2, the filtering core 902 is fixed inside the filtering shell 901, the liquid outlet 903 is arranged at the bottom end of the filtering shell 901, the bottom end of the filtering core 902 extends to the inside of the liquid outlet 903, the water conveying pipe 904 is fixed at the bottom end of the filtering shell 901, the bottom end of the water conveying pipe 904 is fixedly connected with the bottom end of one side of the separation cavity 2, and the outer diameter of each filtering core 902 is larger than the inner diameter of the liquid;

specifically, as shown in fig. 1, when the structure is used, firstly, gas separated from the inside needs to be filtered when being discharged, so as to prevent moisture in the inside from being discharged, the gas enters the inside of the filter shell 901 from the inside of the separation cavity 2, then the gas passes through the inside of the filter element 902, the moisture in the gas is separated by the filter element 902 in the passing process, then the separated moisture slowly accumulates and flows into the inside of the liquid outlet 903 from the bottom of the filter element 902, then the liquid enters the inside of the water conveying pipe 904 through the liquid outlet 903, the water conveying pipe 904 is provided with three sections, wherein the two sections of water conveying pipes 904 collect the liquid in the inside of the filter shell 901 and transmit the liquid to the third section of water conveying pipe 904, and the third section of water conveying pipe 904 transmits the liquid back to the inside of the separation cavity 904, so as to improve the separation efficiency;

the mounting structure 4 comprises a first push block 401, a mounting cavity 402, limiting springs 403, two fixing cavities 404, anti-slip pads 405 and fixing blocks 406, the mounting cavity 402 is arranged on two sides inside the bubble filter screen 5, the limiting springs 403 are fixed on one side inside the mounting cavity 402, the first push block 401 is fixed on one side of the limiting springs 403, the anti-slip pads 405 are fixed on one side of the first push block 401, the fixing blocks 406 are fixed on two sides of the top end inside the separation cavity 2, the fixing cavities 404 are arranged inside the fixing blocks 406, the number of the first push blocks 401 is two, and the first push block 401 forms a telescopic structure on one side inside the mounting cavity 402 through the limiting springs 403;

specifically, as shown in fig. 1 and 4, when the structure is used, firstly, when the bubble screen 5 needs to be installed, the anti-slip pads 405 on two sides are pushed inwards, the anti-slip pads 405 push the first push blocks 401, the first push blocks 401 push the limiting springs 403 to one side, the limiting springs 403 are stressed to compress the installation cavity 402, then the first push blocks 401 are placed in the fixed cavity 404, the limiting springs 403 expand outwards to push the first push blocks 401, the first push blocks 401 push the anti-slip pads 405, the anti-slip pads 405 and the fixed cavity 404 are fixed, and the installation of the bubble screen 5 is completed, so that the convenience in use is improved;

the fixed structure 7 comprises a fixed stud 701, a second pushing block 702, a buffer pad 703, a movable block 704 and a swinging arm 705, the movable block 704 is fixed at the bottom ends of two sides of the water inlet 8, the swinging arm 705 is movably connected inside the movable block 704, one side of the top end of the swinging arm 705 is in threaded connection with the fixed stud 701, the second pushing block 702 is fixed at the bottom end of the fixed stud 701, the buffer pad 703 is fixed at the bottom end of the second pushing block 702, two swinging arms 705 are arranged, and the swinging arms 705 are symmetrically distributed about the vertical center line of the water inlet 8;

specifically, as shown in fig. 1, 2 and 3, when the structure is used, firstly, the sealing performance between the connecting pipe 6 and the water inlet 8 is important when the work is performed, the connecting pipe 6 is butted with the water inlet 8, then the swing arm 705 is turned to one side, then the fixing stud 701 is screwed, the fixing stud 701 pushes the second push block 702, the second push block 702 presses the cushion 703 downwards, and the cushion 703 pushes the connecting pipe 6, so that the connection between the connecting pipe 6 and the water inlet 8 is fixed more tightly, and the sealing performance of the connection is improved.

The working principle is as follows: when the reinforced gas-liquid separator is used, the reinforced gas-liquid separator is externally connected with a power supply, firstly, the bubble filter screen 5 is installed, the anti-slip pads 405 on two sides are pushed inwards, the anti-slip pads 405 push the first push block 401, the first push block 401 pushes the limiting spring 403 to one side, the limiting spring 403 is stressed to compress the inside of the installation cavity 402, then the first push block 401 is placed into the inside of the fixed cavity 404, the limiting spring 403 expands outwards to push the first push block 401, the first push block 401 pushes the anti-slip pads 405, the anti-slip pads 405 and the fixed cavity 404 are fixed, and the installation of the bubble filter screen 5 is completed;

secondly, when the device works, the tightness between the connecting pipe 6 and the water inlet 8 is important, the connecting pipe 6 is butted with the water inlet 8, the swing arm 705 is turned over to one side, the fixing stud 701 is screwed, the fixing stud 701 pushes the second push block 702, the second push block 702 downwards extrudes the buffer pad 703, and the buffer pad 703 pushes the connecting pipe 6, so that the connecting pipe 6 and the water inlet 8 are fixed more tightly;

finally, water to be separated enters from the inside of the connecting pipe 6, the water to be separated enters into the separation cavity 2, the bubble filter screen 5 filters internal bubbles of the water to be separated, then the servo motor 3 is started to drive the swinging wheel 11 to rotate so as to separate air in the water to be separated, the gas separated from the inside needs to be filtered when being discharged, internal moisture is prevented from being discharged, the gas enters into the inside of the filter shell 901 from the inside of the separation cavity 2, then the gas passes through the inside of the filter element 902, the moisture in the gas is separated by the filter element 902 in the passing process, then the separated moisture is slowly accumulated and flows into the inside of the liquid outlet 903 from the bottom of the filter element 902, then the liquid enters into the inside of the water conveying pipe 903 through the liquid outlet 903, the water conveying pipe 904 is provided with three sections, wherein the two sections of water conveying pipe 904 collect the liquid in the inside of the filter shell 901 and transmit the liquid to the third section of, the third section of water conveying pipe 904 conveys the liquid back to the inside of the separation cavity 2, the separated water enters the inside of the buffer shell 13, the observation glass 12 can observe the water, and the buffer 14 buffers the water, so that the liquid separated by the gas-liquid separator can be stored in a controllable and visible range of an operator as much as possible, the labor intensity of the operator is reduced, and the use work of the gas-liquid separator is finally completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an intensive vapour and liquid separator, includes jar body (1), separation chamber (2), servo motor (3) and bubble filter screen (5), its characterized in that: the separation tank is characterized in that a separation chamber (2) is fixed inside the tank body (1), a servo motor (3) is installed on the measuring side of the separation chamber (2), a bubble filter screen (5) is installed inside the separation chamber (2), installation structures (4) are arranged on two sides inside the separation chamber (2), a water inlet (8) is fixed at the top end of the tank body (1), a connecting pipe (6) is installed at the top end of the water inlet (8), fixing structures (7) are fixed on two sides of the top end of the water inlet (8), a swing wheel (11) is movably connected inside the separation chamber (2), an air outlet pipe (10) is fixed on one side inside the tank body (1), a filtering structure (9) is fixed on one side of the separation chamber (2), and the filtering structure (9) comprises a filter shell (901), a filter core (902), a liquid outlet (903) and a water conveying pipe (904), the filter shell (901) is fixed at the top end of one side of the separation cavity (2), a filter element (902) is fixed inside the filter shell (901), a liquid outlet (903) is formed in the bottom end of the filter shell (901), the bottom end of the filter element (902) extends to the inside of the liquid outlet (903), a water delivery pipe (904) is fixed at the bottom end of the filter shell (901), the bottom end of the water delivery pipe (904) is fixedly connected with the bottom end of one side of the separation cavity (2), a buffer shell (13) is fixed at the bottom end of the tank body (1), observation glass (12) is fixed at the top end and the bottom end of one end of the buffer shell (13), and a buffer (14) is fixed at the bottom end of the inside of the buffer shell (13).

2. The enhanced gas-liquid separator of claim 1, wherein: mounting structure (4) include first ejector pad (401), installation cavity (402), spacing spring (403), fixed chamber (404), slipmat (405) and fixed block (406), installation cavity (402) all sets up in the inside both sides of bubble filter screen (5), the inside one side of installation cavity (402) is fixed with spacing spring (403), and one side of spacing spring (403) is fixed with first ejector pad (401), one side of first ejector pad (401) is fixed with slipmat (405), fixed block (406) all are fixed in the both sides on the inside top in separation chamber (2), the inside of fixed block (406) is provided with fixed chamber (404).

3. The enhanced gas-liquid separator of claim 2, wherein: the number of the first push blocks (401) is two, and the first push blocks (401) form a telescopic structure at one side inside the installation cavity (402) through limiting springs (403).

4. The enhanced gas-liquid separator of claim 1, wherein: fixed knot constructs (7) including fixing stud (701), second ejector pad (702), blotter (703), movable block (704) and swing arm (705), movable block (704) all are fixed in the bottom of water inlet (8) both sides, the inside swing joint of movable block (704) has swing arm (705), and one side threaded connection on swing arm (705) top has fixing stud (701), the bottom mounting of fixing stud (701) has second ejector pad (702), and the bottom mounting of second ejector pad (702) has blotter (703).

5. The enhanced gas-liquid separator according to claim 4, wherein: two swing arms (705) are arranged, and the swing arms (705) are symmetrically distributed around the vertical center line of the water inlet (8).

6. The enhanced gas-liquid separator of claim 1, wherein: the filter element (902) is provided with two, and the outer diameter of the filter element (902) is larger than the inner diameter of the liquid outlet (903).