CN114288715A - Gas-liquid-solid separation three-way pipe - Google Patents

Abstract

The invention belongs to the field of three-way pipes, and particularly relates to a gas-liquid-solid separation three-way pipe which comprises a first pipeline, wherein a fourth pipeline is connected to the upper part of the middle of the first pipeline, a communicating pipe is arranged inside the fourth pipeline, one side, far away from the first pipeline, of one end, positioned inside the fourth pipeline, of the communicating pipe is rotatably connected with a turbofan, the other end of the communicating pipe is connected to the inside of a solid collecting box, the solid collecting box is connected to one end of the first pipeline, a pressure display is arranged on the same side of one end, far away from the solid collecting box, of the first pipeline and the fourth pipeline, and a second pipeline and a third pipeline are respectively connected to one side, far away from the fourth pipeline, of the two ends of the first pipeline. The three-way pipe can collect gas from a gas-liquid-solid three-phase mixture through the upper second pipeline, collect liquid from the lower third pipeline and collect solid in the solid collecting box.

Description

Gas-liquid-solid separation three-way pipe

Technical Field

The invention belongs to the field of three-way pipes, and particularly relates to a gas-liquid-solid separation three-way pipe.

Background

The pipe joint with three openings is called a three-way pipe. The three-way pipe is widely used in pipe networks for conveying liquid and gas. When a valve needs to be arranged in a certain section of pipeline, if liquid impurities in the pipeline are more and contain silt or other solids, or when gas in the gas pipeline needs to be collected independently, the solids can possibly stay on a sealing surface of the valve due to the fact that the common three-way pipe does not have a gas-liquid-solid separation function, the sealing performance of the valve is affected, and the gas can also continuously exist in the pipeline.

Disclosure of Invention

The invention aims to provide a gas-liquid-solid separation three-way pipe aiming at the problems in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a solid three-way pipe of gas-liquid separation, includes first pipeline, the middle top of first pipeline is connected with the fourth pipeline, the inside of fourth pipeline is equipped with communicating pipe, communicating pipe is located the inside one end of fourth pipeline is kept away from one side of first pipeline is rotated and is connected with the turbofan, the other end of communicating pipe is connected to the inside of solid-state collection box, the solid-state collection box is connected the one end of first pipeline, first pipeline is kept away from the one end of solid-state collection box with fourth pipeline homonymy is equipped with pressure display, keep away from at the both ends of first pipeline one side of fourth pipeline is connected with second pipeline and third pipeline respectively.

Preferably, first pipeline is close to the inside of second pipeline one end is equipped with a plurality of condensation plates, condensation plate below fixed connection cold clot, the top of condensation plate is equipped with the thin choked flow passageway in the thick both ends in middle, sliding connection kickboard in the choked flow passageway, the kickboard is close to below lateral wall department and is equipped with out the air slot, top lateral wall department is equipped with the confinement and warns the mechanism in the choked flow passageway, the top of choked flow passageway is equipped with the piston piece, the inside of piston piece is equipped with the ninth pipeline, the exit of ninth pipeline by the inside separation of first pipeline, the third spring is connected to the top of piston piece, the third spring is located inside the second pipeline.

Preferably, the mechanism of restricting and warning includes pressure display, pressure display connects pressure detector, pressure detector connects the eighth pipeline, eighth pipeline intercommunication twelfth pipeline, be equipped with the fourth spring in the space that the one end of twelfth pipeline is connected, fourth spring coupling bearing plate, bearing plate sliding seal connects the inner wall of first pipeline, bearing plate keeps away from the one end of fourth spring is equipped with the bracing piece, the bracing piece rotates connects the bearing wheel, be equipped with the fifth spring in the space that the other end of twelfth pipeline is connected, fifth spring coupling grip block.

Preferably, one side of the first pipeline, which is far away from the fourth pipeline, is provided with a separation plate, a separation channel is arranged in the side wall of the first pipeline, the side wall of the first pipeline and the inside of the separation plate are provided with a plurality of speed reducing plates, a first chute for flow stopping is arranged below each speed reducing plate, the flow stopping plates are connected in the first chute in a sliding mode, a filter plate is arranged below each first chute, and the filter plate separates the first pipeline from the inside of the third pipeline.

Preferably, the turbofan is fixedly connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, a first rotating shaft is fixedly connected below the second bevel gear, the first rotating shaft is communicated with the inside of the solid-state collecting box below, the first rotating shaft is positioned in a fifth pipeline of a pipeline inside the communicating pipe, a fourth bevel gear is fixedly connected to the middle position of the first rotating shaft, the fourth bevel gear is meshed with a third bevel gear, the third bevel gear is fixedly connected with a first threaded rod, the first threaded rod is in threaded connection with a spoiler, the first rotating shaft is positioned below the fourth bevel gear and in threaded connection with a piston plate, the piston plate is in sliding sealing connection with the inner side wall of the solid-state collecting box, a motor is connected below the first rotating shaft, a seventh pipeline is arranged below the piston plate, and the seventh pipeline is communicated with a sixth pipeline, the sixth pipeline is communicated with the solid collecting mechanism, a first opening is arranged below the solid collecting box, and the first opening and the inner side wall of the solid collecting box are locked by a locking mechanism.

Preferably, the locking mechanism comprises a first extrusion block located inside the side wall of the solid-state collection box, the first extrusion block is connected with a locking block, the locking block is far away from one end, fixedly connected with a first spring, of one end of the first extrusion block, the other end of the first spring is connected into the outer side wall of the first opening, a second extrusion block is located above the seventh pipeline and is arranged at the horizontal position of the original state of the piston plate, the second extrusion block is slidably connected with a groove in the outer side wall of the first opening, and a second spring is arranged in the groove.

Preferably, the solid collecting mechanism comprises a piston rod, the piston rod is slidably connected with a groove in the upper wall of the solid collecting box, a tenth pipeline is arranged in the piston rod and can be communicated with a first through hole in the middle of a first blocking block, the first blocking block is slidably connected with the groove in one end of the piston rod far away from the sixth pipeline, a third extrusion block is slidably connected below the first blocking block and is slidably connected with a second chute of another groove in one end of the piston rod far away from the sixth pipeline, a second blocking block is arranged at one end of the piston rod far away from the sixth pipeline, an eleventh pipeline is arranged inside the second blocking block and can be communicated with a third through hole, a first solid scraper is connected below the third through hole and is slidably connected with a fourth chute arranged on the inner side wall of the piston rod, and a fourth through hole is formed above the first solid scraper, a second solid scraper is arranged below the fourth through hole and is in sliding connection with a third sliding groove formed in the side wall of the first solid scraper.

Preferably, a first opening is arranged below the solid collecting mechanism, and the first opening is connected with the inside of the solid storage box.

Has the advantages that:

1. the invention can control only gas to pass through and liquid to overflow or not to pass through by arranging the special-shaped pipeline and the special-shaped floating plate, and simultaneously, the invention is provided with the confining and warning mechanism to prevent the floating plate from being lifted and turned over by the liquid and display the internal liquid pressure;

2. the turbofan is arranged, so that the pipeline can be prevented from being blocked by solids in the inlet pipeline, and meanwhile, a part of power is provided for collecting the solids;

3. the solid collecting mechanism is arranged in the solid collecting box, so that the solid in the mixture can be separately collected into the solid storing box.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is an enlarged view of FIG. 3 at B;

fig. 5 is an enlarged view of fig. 3 at C.

In the figure, a first pipeline 10, a second pipeline 11, a third pipeline 12, a solid state collection box 13, a fourth pipeline 14, a turbofan 15, a pressure display 16, a communication pipe 17, a first bevel gear 18, a second bevel gear 19, a first rotating shaft 20, a fifth pipeline 21, a third bevel gear 22, a fourth bevel gear 23, a first threaded rod 24, a spoiler 25, a piston plate 26, a sixth pipeline 27, a motor 28, a seventh pipeline 29, a first extrusion block 30, a locking block 31, a first spring 32, a filter plate 33, a second spring 34, a second extrusion block 35, a first chute 36, a decelerator plate 37, a separation channel 38, a separation plate 39, a condenser plate 40, a condensation block 41, a choke channel 42, a floating plate 43, an air outlet groove 44, a piston block 45, a pressure detector 46, an eighth pipeline 47, a ninth pipeline 48, a third spring 49, a piston rod 50, a tenth pipeline 51, a first choke block 52, a first through hole 53, The device comprises a second blocking block 54, a second chute 55, a third extrusion block 56, an eleventh pipeline 57, a third through hole 58, a first solid scraper 59, a fourth through hole 60, a second solid scraper 61, a third chute 62, a fourth chute 63, a pressure bearing wheel 64, a support rod 65, a pressure bearing plate 66, a fourth spring 67, a twelfth pipeline 68, a clamping block 69, a fifth spring 70, a solid storage box 71 and a first opening 72.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to fig. 1-5, a solid three-way pipe for gas-liquid separation comprises a first pipeline 10, a fourth pipeline 14 is connected to the upper portion of the middle of the first pipeline 10, a communicating pipe 17 is arranged inside the fourth pipeline 14, one side, far away from the first pipeline 10, of one end, located inside the fourth pipeline 14, of the communicating pipe 17 is rotatably connected with a turbofan 15, the other end of the communicating pipe 17 is connected to the inside of a solid collecting box 13, the solid collecting box 13 is connected to one end of the first pipeline 10, one end, far away from the solid collecting box 13, of the first pipeline 10 is provided with a pressure display 16 on the same side as the fourth pipeline 14, and one side, far away from the fourth pipeline 14, of the two ends of the first pipeline 10 is respectively connected with a second pipeline 11 and a third pipeline 12.

Further, the inside that first pipeline 10 is close to second pipeline 11 one end is equipped with a plurality of condensation plates 40, condensation plate 40 below fixed connection cold clot 41, the top of condensation plate 40 is equipped with thick both ends thin choked flow passageway 42 in the middle, sliding connection kickboard 43 in the choked flow passageway 42, kickboard 43 is close to below lateral wall department and is equipped with air outlet groove 44, upper side lateral wall department is equipped with and closes and warning mechanism in the choked flow passageway 42, the top of choked flow passageway 42 is equipped with piston block 45, the inside of piston block 45 is equipped with ninth pipeline 48, the exit of ninth pipeline 48 is by the inside separation of first pipeline 10, third spring 49 is connected to the top of piston block 45, third spring 49 is located inside second pipeline 11.

Further, it includes pressure display 16 to close up and warn the mechanism, pressure display 16 connects pressure detector 46, pressure detector 46 connects eighth pipeline 47, eighth pipeline 47 communicates twelfth pipeline 68, be equipped with fourth spring 67 in the space that the one end of twelfth pipeline 68 is connected, fourth spring 67 connects bearing plate 66, bearing plate 66 sliding seal connects the inner wall of first pipeline 10, the one end that fourth spring 67 was kept away from to bearing plate 66 is equipped with bracing piece 65, bracing piece 65 rotates and connects bearing wheel 64, be equipped with fifth spring 70 in the space that the other end of twelfth pipeline 68 is connected, fifth spring 70 connects grip block 69.

Further, a partition plate 39 is arranged on one side, away from the fourth pipeline 14, of the first pipeline 10, a partition channel 38 is arranged in the partition plate 39 and the side wall of the first pipeline 10, a plurality of speed reducing plates 37 are arranged inside the side wall of the first pipeline 10 and the partition plate 39, a first chute 36 for blocking flow is arranged below the speed reducing plates 37, a flow blocking plate 25 is connected in the first chute 36 in a sliding mode, a filter plate 33 is arranged below the first chute 36, and the first pipeline 10 is separated from the inside of the third pipeline 12 through the filter plate 33.

Further, the turbofan 15 is fixedly connected with a first bevel gear 18, the first bevel gear 18 is meshed with a second bevel gear 19, a first rotating shaft 20 is fixedly connected below the second bevel gear 19, the first rotating shaft 20 is communicated with the inside of the solid collecting box 13 below, the first rotating shaft 20 is positioned in a fifth pipeline 21 of the pipeline inside the communicating pipe 17, a fourth bevel gear 23 is fixedly connected at the middle position of the first rotating shaft 20, the fourth bevel gear 23 is meshed with a third bevel gear 22, the third bevel gear 22 is fixedly connected with a first threaded rod 24, the first threaded rod 24 is in threaded connection with a spoiler 25, the first rotating shaft 20 is positioned below the fourth bevel gear 23 and is in threaded connection with a piston plate 26, the piston plate 26 is in sliding sealing connection with a motor 28 below the first rotating shaft 20 of the solid collecting box 13, a seventh pipeline 29 is arranged below the piston plate 26, the seventh pipeline 29 is communicated with a sixth pipeline 27, the sixth pipeline 27 is communicated with the solid collecting mechanism, a first opening 72 is arranged below the inside of the solid collecting box 13, and the first opening 72 and the inner side wall of the solid collecting box 13 are locked by a locking mechanism.

Further, the locking mechanism comprises a first squeezing block 30 located inside the side wall of the solid-state collecting box 13, the first squeezing block 30 is connected with a locking block 31, one end, far away from the first squeezing block 30, of the locking block 31 is fixedly connected with one end of a first spring 32, the other end of the first spring 32 is connected into the outer side wall of the first opening 72, a second squeezing block 35 is arranged above the seventh pipeline 29 and located at the horizontal position of the original state of the piston plate 26, the second squeezing block 35 is connected with a groove in the outer side wall of the first opening 72 in a sliding mode, and a second spring 34 is arranged in the groove.

Further, the solid collecting mechanism comprises a piston rod 50, the piston rod 50 is slidably connected with a groove in the upper wall of the solid collecting box 13, a tenth pipeline 51 is arranged inside the piston rod 50, the tenth pipeline 51 can be communicated with a first through hole 53 positioned in the middle of a first blocking block 52, the first blocking block 52 is slidably connected with the groove in one end of the piston rod 50 far away from the sixth pipeline 27, a third extrusion block 56 is slidably connected below the first blocking block 52, the third extrusion block 56 is slidably connected with another groove second chute 55 in one end of the piston rod 50 far away from the sixth pipeline 27, one end of the piston rod 50 far away from the sixth pipeline 27 is provided with a second blocking block 54, an eleventh pipeline 57 is arranged inside the second blocking block 54, the eleventh pipeline 57 can be communicated with a third through hole 58, a first solid scraper 59 is connected below the third through hole 58, the first solid scraper 59 is slidably connected with a fourth chute 63 arranged on the inner side wall of the piston rod 50, a fourth through hole 60 is arranged above the first solid scraper 59, a second solid scraper 61 is arranged below the fourth through hole 60, and the second solid scraper 61 is connected with a third chute 62 arranged in the side wall of the first solid scraper 59 in a sliding manner.

Further, a first opening 72 is provided below the solids collection mechanism, and the first opening 72 is connected to the inside of the solids storage box 71.

Principle of operation

Initial state: the spoiler 25 is located in a horizontal position of the second pressing block 35.

After the mixture enters the fourth pipeline 14 from the outside, the turbofan 15 is rotated by the turbofan 15 to break up the solid, gas and liquid in the mixture, the gas moves upwards from the space of the plurality of condensation plates 40, the water vapor in the mixture returns to the liquid again through the condensation of the condensation plates 40 and the cold block 41, the gas enters the upper part of the flow blocking channel 42 through the gas outlet groove 44 on the floating plate 43 and is collected, when the gas reaches a certain pressure, the piston block 45 is jacked upwards, the gas enters the second pipeline 11 through the ninth pipeline 48, and the gas is collected through the outlet of the second pipeline 11.

The liquid will pass through the channels between the speed reducers 37 to the lower side, and at the same time, the solids in the liquid will be primarily precipitated through the speed reducers 37 and fall to the side close to the first opening 72, and the liquid passes through the filter plate 33 and then enters the third pipe 12, and the liquid is collected through the outlet of the third pipe 12.

The solids are primarily precipitated by the speed reducing plate 37 and a part of the filtered solids enters the solids storage box 71 through the first opening 72, the other part of the filtered solids stays on the filter plate 33, the first bevel gear 18 is rotated by the continuous rotation of the turbofan 15, the first rotating shaft 20 is rotated by the rotation of the second bevel gear 19 engaged with the first bevel gear 18, the fourth bevel gear 23 is rotated by the rotation of the first rotating shaft 20, the third bevel gear 22 engaged with the fourth bevel gear 23 is rotated by the rotation of the fourth bevel gear 23, the first threaded rod 24 is driven to rotate by the rotation of the third bevel gear 22, the flow blocking plate 25 in threaded connection with the first threaded rod 24 is pushed out along the first chute 36, the piston plate 26 in threaded connection with the first rotating shaft 20 is pushed down by the rotation of the first rotating shaft, the hydraulic oil in the sealed space below the piston plate 26 enters the piston plate 26 through the seventh pipeline 29 and then enters the eleventh pipeline 57 through the tenth pipeline 51, the piston rod 50 is pushed to move towards one end of the partition plate 39, when the spoiler 25 and the piston rod 50 simultaneously reach the partition plate 39, the spoiler 25 blocks the liquid and prevents the liquid above from continuously flowing downwards, meanwhile, the second blocking block 54 contacts the partition plate 39 and is pressed inwards by the partition plate 39, so that the eleventh pipeline 57 is communicated with the third through hole 58 and the fourth through hole 60, hydraulic oil enters, the first solid scraper 59 is pushed out downwards along the fourth chute 63, the second solid scraper 61 is pushed out downwards along the third chute 62, the first solid scraper 59 contacts the third pressing block 56 when moving downwards, the third pressing block 56 is pressed inwards along the second chute 55, the third pressing block 56 presses the first blocking block 52 upwards until the second solid scraper 61 contacts the filter plate 33, the first through hole 53 is not communicated with the tenth pipeline 51, the motor 28 is started to rotate the first rotating shaft 20 in the reverse direction, the first rotating shaft 20 lifts the piston plate 26 upwards and returns the piston rod 50 inwards, the solids collection mechanism pushes the solids on the filter plate 33 back towards the first opening 72, and simultaneously, the fourth bevel gear 23 and the third bevel gear 22 are selectively installed in opposite directions to withdraw the flow blocking plate 25 inwards, so that the liquid continuously flows downwards, and the process of collecting the solids into the solids storage box 71 is completed.

When the piston plate 26 moves downwards next time, when the piston plate 26 is separated from the second squeezing block 35, the second spring 34 pushes the second squeezing block 35 outwards, when the piston plate 26 reaches the bottom of the solid collecting box 13, the piston plate 26 squeezes the first squeezing block 30 inwards, the first squeezing block 30 squeezes the locking block 31 inwards, the solid storing box 71 is separated from the side wall of the solid collecting box 13, and the solid storing box 71 is taken down to collect the solid in the solid storing box and then is placed back again.

When the mixture flowing into the fourth pipe 14 is excessive, the liquid overflows upwards to jack up the floating plate 43 upwards, the air outlet groove 44 in the side wall of the floating plate 43 is blocked to prevent the liquid from entering the position above the flow blocking channel 42, the floating plate 43 extrudes the pressure bearing wheel 64, the pressure bearing wheel 64 extrudes the pressure bearing plate 66, so that the clamping block 69 is ejected outwards by the internal hydraulic oil to clamp the floating plate 43, the floating plate 43 is prevented from being swallowed and overturned by the liquid, meanwhile, the hydraulic oil extrudes the pressure detector 46 through the eighth pipe 47, the pressure detector 46 transmits information to the pressure display 16 to display the internal hydraulic pressure, and a warning is given when a certain pressure is reached.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. The utility model provides a gas-liquid-solid separation tee bend, includes first pipeline (10), its characterized in that: the middle top of first pipeline (10) is connected with fourth pipeline (14), the inside of fourth pipeline (14) is equipped with communicating pipe (17), communicating pipe (17) are located keep away from the inside one end of fourth pipeline (14) one side of first pipeline (10) is rotated and is connected with turbofan (15), the other end of communicating pipe (17) is connected to the inside of solid-state collection box (13), solid-state collection box (13) is connected the one end of first pipeline (10), keep away from in first pipeline (10) the one end of solid-state collection box (13) with fourth pipeline (14) homonymy is equipped with pressure display (16), keep away from at the both ends of first pipeline (10) one side of fourth pipeline (14) is connected with second pipeline (11) and third pipeline (12) respectively.

2. The gas-liquid-solid separation tee of claim 1, wherein: a plurality of condensing plates (40) are arranged inside one end of the first pipeline (10) close to the second pipeline (11), a cold coagulation block (41) is fixedly connected below the condensing plate (40), a flow blocking channel (42) with thick middle and thin two ends is arranged above the condensing plate (40), the flow resisting channel (42) is connected with a floating plate (43) in a sliding way, an air outlet groove (44) is arranged at the position of the floating plate (43) close to the lower side wall, a locking and warning mechanism is arranged on the inner upper side wall of the flow blocking passage (42), a piston block (45) is arranged above the flow blocking passage (42), a ninth pipe (48) is arranged inside the piston block (45), the outlet of the ninth pipe (48) is blocked by the inside of the first pipe (10), a third spring (49) is connected above the piston block (45), and the third spring (49) is positioned inside the second pipeline (11).

3. The gas-liquid-solid separation tee of claim 2, wherein: the mechanism of limiting and warning includes pressure display (16), pressure display (16) connect pressure detector (46), eighth pipeline (47) is connected in pressure detector (46), eighth pipeline (47) intercommunication twelfth pipeline (68), be equipped with fourth spring (67) in the space that the one end of twelfth pipeline (68) is connected, bearing plate (66) is connected in fourth spring (67), bearing plate (66) sliding seal connects the inner wall of first pipeline (10), bearing plate (66) are kept away from the one end of fourth spring (67) is equipped with bracing piece (65), bracing piece (65) rotate and connect bearing wheel (64), be equipped with fifth spring (70) in the space that the other end of twelfth pipeline (68) is connected, grip block (69) is connected in fifth spring (70).

4. The gas-liquid-solid separation tee of claim 1, wherein: first pipeline (10) is inside to be kept away from one side of fourth pipeline (14) is equipped with division board (39), division board (39) with be in the lateral wall of first pipeline (10) separating channel (38), first pipeline (10) lateral wall with the inside of division board (39) is equipped with a plurality of speed reduction boards (37), the below of speed reduction board (37) is equipped with and is used for choked first spout (36), sliding connection spoiler (25) in first spout (36), the below of first spout (36) is equipped with filter (33), filter (33) will first pipeline (10) with the inside of third pipeline (12) is separated.

5. The gas-liquid-solid separation tee of claim 1, wherein: the turbofan (15) is fixedly connected with a first bevel gear (18), the first bevel gear (18) is meshed with a second bevel gear (19), a first rotating shaft (20) is fixedly connected below the second bevel gear (19), the first rotating shaft (20) is communicated with the inside of the solid collecting box (13) below, the first rotating shaft (20) is positioned in a fifth pipeline (21) of a pipeline inside the communicating pipe (17), a fourth bevel gear (23) is fixedly connected at the middle position of the first rotating shaft (20), the fourth bevel gear (23) is meshed with a third bevel gear (22), the third bevel gear (22) is fixedly connected with a first threaded rod (24), the first threaded rod (24) is in threaded connection with a spoiler (25), and the first rotating shaft (20) is positioned below the fourth bevel gear (23) and is in threaded connection with a piston plate (26), piston plate (26) sliding seal connects the inside wall of solid-state collection box (13) motor (28) is connected to the below of first rotation axis (20), the below of piston plate (26) is equipped with seventh pipeline (29), seventh pipeline (29) intercommunication sixth pipeline (27), sixth pipeline (27) intercommunication solid collection mechanism, the inside below of solid-state collection box (13) is equipped with first opening (72), first opening (72) with the inside wall of solid-state collection box (13) is locked by locking mechanical system.

6. The gas-liquid-solid separation tee of claim 5, wherein: locking mechanical system is including being located box (13) is collected to solid-state first extrusion piece (30) inside of lateral wall, locking block (31) is connected to first extrusion piece (30), locking block (31) are kept away from the one end of the first spring (32) of one end fixed connection of first extrusion piece (30), the other end of first spring (32) is connected in the lateral wall of first opening (72), the top of seventh pipeline (29) is located the horizontal position department of piston plate (26) original state is equipped with second extrusion piece (35), second extrusion piece (35) sliding connection recess in the lateral wall of first opening (72) is equipped with second spring (34) in the recess.

7. The gas-liquid-solid separation tee of claim 5, wherein: the solid collecting mechanism comprises a piston rod (50), the piston rod (50) is connected with a groove in the upper wall of the solid collecting box (13) in a sliding manner, a tenth pipeline (51) is arranged in the piston rod (50), the tenth pipeline (51) can be communicated with a first through hole (53) in the middle of a first blocking block (52), the first blocking block (52) is connected with the groove in one end, far away from the sixth pipeline (27), of the piston rod (50) in a sliding manner, a third extruding block (56) is connected below the first blocking block (52) in a sliding manner, the third extruding block (56) is connected with a second sliding groove (55) in another groove in one end, far away from the sixth pipeline (27), of the piston rod (50) in one end, far away from the sixth pipeline (27), a second blocking block (54) is arranged, and an eleventh pipeline (57) is arranged in the second blocking block (54), the eleventh pipeline (57) can communicate third through hole (58), first solid scraper (59) is connected to the below of third through hole (58), first solid scraper (59) sliding connection fourth spout (63) that the inside wall of piston rod (50) set up, first solid scraper (59) top is equipped with fourth through hole (60), fourth through hole (60) below is equipped with second solid scraper (61), second solid scraper (61) sliding connection third spout (62) that set up in first solid scraper (59) lateral wall.

8. The gas-liquid-solid separation tee of claim 7, wherein: a first opening (72) is arranged below the solid collecting mechanism, and the first opening (72) is connected with the inside of the solid storage box (71).

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