CN117732194A - Efficient plate-type regeneration gas cooler with integrated separator function for carbon capture - Google Patents

Abstract

The invention discloses a high-efficiency plate type regenerated gas cooler with an integrated separator function for carbon capture, which belongs to the technical field of condensation and filtration devices and comprises a condensation box, wherein two U-shaped plates and two sealing plates are respectively connected to the inner wall of the condensation box, a same heat exchange core body is connected between the two U-shaped plates and the two sealing plates, and a cleaning device with a scraping plate and a dredging block and a filter plate are connected between the U-shaped plates and the sealing plates, which are positioned at one side of a process water inlet. According to the invention, the external water source is filtered through the filter plate, so that water entering the heat exchange core is filtered first, the heat exchange core is prevented from being blocked, the filter plate can be cleaned through the scraping plate and the dredging block of the cleaning device, and the filter plate is prevented from being blocked by impurities when being used for a long time; the device can also clean impurities in the demister and condensed water in the condensing box, prolongs the service life, and is convenient to maintain.

Description

Efficient plate-type regeneration gas cooler with integrated separator function for carbon capture

Technical Field

The invention belongs to the technical field of condensation filtering devices, and particularly relates to a high-efficiency plate type regenerated gas cooler with an integrated separator function for carbon capture.

Background

With the increase of global industrialization and energy consumption, the discharge amount of room gases such as carbon dioxide is continuously increased, so that climate change and global warming are caused, and in order to slow down the speed of the climate change, the reduction of greenhouse gas discharge has become a global common concern, and in many high-discharge industries such as coal-fired power plants, petrochemical industry and the like, measures are required to be taken to reduce the discharge, and carbon dioxide trapping technology can provide an emission reduction scheme for the industries.

However, in the practical use process, some traditional condensing devices generally use water sources to perform water delivery cooling, and because the used water sources are not pure condensed water, impurities in the water easily block the heat exchange core body, so that the circulation effect of the heat exchange core body and the cooling effect on gas are affected.

Disclosure of Invention

According to the defects of the prior art, the invention aims to provide the efficient plate type regenerated gas cooler with the integrated separator function for carbon capture, impurities in water can be filtered through the filter plate, the heat exchange core is prevented from being blocked, and the filter plate can be ensured not to be blocked by the impurities after long-time use.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the high-efficiency plate type regenerated gas cooler with the integrated separator function for carbon capture comprises a condensing box, wherein the inner wall of the condensing box is respectively connected with two U-shaped imitation plates and two sealing plates, the same heat exchange core body is connected between the two U-shaped imitation plates and the two sealing plates, the outer wall of the condensing box is respectively communicated with a process water inlet and a process water outlet, the top of the condensing box is communicated with a gas inlet, and a cleaning device and a filter plate are connected between the U-shaped imitation plates and the sealing plates, which are positioned at one side of the process water inlet;

the cleaning device comprises a driving motor, an output shaft of the driving motor is connected with a reciprocating screw rod, a thread seat is connected with an outer wall thread of the reciprocating screw rod, a scraping plate is connected to one side of the thread seat, a sliding sleeve seat is connected to the other side of the scraping plate, a long sliding rod is connected to the sliding sleeve seat in a sliding mode, connecting rods are connected to one side of the sliding sleeve seat and one side of the thread seat, one end of each connecting rod is connected with the same dredging plate, a plurality of built-in grooves are formed in one side of the dredging plate, a dredging block is connected to one side of the built-in groove in a sliding mode, a first spring is connected to one side of the dredging block, and the other end of the first spring is connected to one side of the built-in groove.

The two ends of the long slide bar are respectively connected with two sides of the inner wall of the condensing box, the inner wall of the condensing box is embedded with a bearing, the bearing is rotationally connected with a rotating shaft, one end of the rotating shaft is connected with one end of the reciprocating screw rod, one side of the driving motor is fixedly arranged on one side of the outer wall of the condensing box, and an output shaft of the driving motor extends into the condensing box.

The inner wall of the built-in groove is provided with two limiting grooves, limiting blocks are slidably connected in the two limiting grooves, and one side of each limiting block is connected with one side of the dredging block.

The filter both sides all seted up the spread groove, and spread groove and connecting rod outer wall sliding connection, the filter is located dredge the board and scrapes and sweep between the board, and the filter both sides laminate mutually with dredge board one side and scrape and sweep board one side respectively.

The condensing box one side intercommunication have the gas outlet, the gas outlet inner wall is equipped with vibrator, vibrator includes the fixed section of thick bamboo, has seted up the movable groove in the fixed section of thick bamboo, sliding connection has the movable block in the movable groove, the movable block is embedded to be equipped with the demister, the standing groove has been seted up to movable groove one side, sliding connection has short slide bar in the standing groove, short slide bar outer wall cover is equipped with the second spring, the movable block opposite side is connected with two squeeze bars, squeeze bar one end stretches out outside the fixed section of thick bamboo and is connected with the squeeze block, squeeze bar outer wall connection has the barrier plate.

The two ends of the second spring are respectively connected to one side of the moving block and one side of the inner wall of the moving groove, the other end of the short sliding rod is connected with one side of the moving groove, the outer wall of the fixed cylinder is connected with the inner wall of the gas outlet, and one side of the blocking plate is attached to one side of the inner wall of the fixed cylinder.

The bottom of the condensing box is connected with a bottom box.

The bottom box bottom be connected with the mounting panel, mounting panel bottom fixed mounting has servo motor, servo motor output shaft stretches into the bottom box in and is connected with the action wheel, action wheel one side meshing has from the driving wheel, and be connected with the diaphragm between the condenser inner wall, diaphragm bottom rotates and is connected with the rotary rod, the rotary rod outer wall runs through from driving wheel and rather than fixed connection, the rotary rod outer wall is connected with two upper connecting rods and a plurality of fixed cover respectively, upper connecting rod one side is connected with the scraper blade, upper scraper blade one side is laminated with the condenser inner wall mutually, fixed cover sliding connection has lower connecting rod, lower connecting rod outer wall connection has the limiting plate, limiting plate one side is connected with the third spring, the third spring other end is connected with one side in the fixed cover, and two corresponding lower connecting rod one end is connected with same lower scraper blade, lower scraper blade one side is laminated with the bottom box inner wall mutually.

The bottom of the lower scraping plate is connected with a long collecting plate, one side of the long collecting plate is hinged with a short collecting plate, one side of the short collecting plate opposite to the long collecting plate is respectively connected with a fixing plate, the same fourth spring is connected between the two corresponding fixing plates, and the bottom of the long collecting plate and the bottom of the short collecting plate are attached to the bottom of the inner wall of the bottom box.

The bottom box bottom communicate and have the comdenstion water export, the bottom box bottom is connected with a plurality of landing legs, and landing leg bottom is equipped with the rubber pad, and the rubber pad surface is equipped with anti-skidding burr.

The invention has the beneficial effects that:

1. according to the invention, the external water source is filtered through the filter plate, so that the water entering the heat exchange core body is filtered first, and the heat exchange core body is prevented from being blocked; the cleaning device who sets up filters the back at the filter to external water source, can drive reciprocating screw through driving motor and rotate, and then make the screw thread seat drive scrape sweep the board and remove for scrape sweep board to filter one side, simultaneously drive the mediation board through the connecting rod and remove, and then make the mediation board drive the mediation piece and remove, stretch into the inside impurity of clearance when making the mediation piece aim at the filter sieve mesh through first spring, and then can not be blocked by impurity when guaranteeing the filter and use for a long time, influence the filter effect.

2. According to the invention, the vibration device is arranged, when the upper scraping plate rotates, the extrusion block can drive the extrusion rod to move inwards, so that the moving block extrudes the second spring, when the upper scraping plate continuously rotates, the moving block is driven to reset through the resilience force of the second spring, and the extrusion rod is driven to move, so that the blocking plate impacts the inner wall of the fixed cylinder, vibration is generated, and the problem that the foam remover is blocked due to long-time use and the air outlet efficiency is avoided.

3. According to the invention, the driving wheel can be driven to rotate through the rotation of the arranged servo motor, so that the driven wheel rotates, the driven wheel drives the rotating rod to rotate, and the upper scraping plate and the lower scraping plate are driven to move through the upper connecting rod and the fixed cylinder, so that the upper scraping plate and the lower scraping plate scrape condensed water attached to the inner part of the condensing tank and the inner wall of the bottom tank respectively, the condensed water can be collected in time, and the phenomenon that the device cannot be normally used due to the fact that water stains corrode inner parts when the device is not used is avoided.

Drawings

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

FIG. 2 is a schematic cross-sectional elevation view of the present invention;

FIG. 3 is an enlarged schematic view of the portion A in FIG. 2;

FIG. 4 is an enlarged schematic view of the portion B in FIG. 2;

FIG. 5 is an enlarged schematic view of the portion C in FIG. 2;

FIG. 6 is a schematic view of a cleaning apparatus according to the present invention;

FIG. 7 is an enlarged schematic view of the portion D of FIG. 6;

fig. 8 is a schematic structural view of a filter plate according to the present invention.

In the figure: 1. a gas inlet; 2. a condensing box; 3. a process water inlet; 4. a condensed water outlet; 5. a support leg; 6. a bottom box; 7. a gas outlet; 8. a cleaning device; 801. a dredging plate; 802. a long slide bar; 803. a connecting rod; 804. a sliding sleeve seat; 805. a sweep plate; 806. a driving motor; 807. a screw seat; 808. a reciprocating screw rod; 809. a built-in groove; 810. a limit groove; 811. a first spring; 812. dredging blocks; 813. a limiting block; 9. a vibration device; 901. a fixed cylinder; 902. a demister; 903. a moving groove; 904. extruding a block; 905. an extrusion rod; 906. a blocking plate; 907. a moving block; 908. a placement groove; 909. a short slide bar; 910. a second spring; 10. a process water outlet; 11. an upper scraping plate; 12. a rotating rod; 13. a mounting plate; 14. a servo motor; 15. a driving wheel; 16. driven wheel; 17. a lower scraper; 18. an upper connecting rod; 19. a cross plate; 20. a lower connecting rod; 21. a limiting plate; 22. a fixed sleeve; 23. a third spring; 24. a fixing plate; 25. a short collection plate; 26. a fourth spring; 27. a long collection plate; 28. a filter plate; 29. a connecting groove; 30. a U-shaped imitation plate; 31. and (5) sealing the plate.

Detailed Description

Embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings.

As shown in fig. 1-8, the efficient plate-type regenerated gas cooler with the integrated separator function for carbon capture comprises a condensing box 2, wherein the inner wall of the condensing box 2 is respectively connected with two U-shaped plates 30 and two sealing plates 31, a heat exchange core body is connected between the two U-shaped plates 30 and the two sealing plates 31, the outer wall of the condensing box 2 is respectively communicated with a process water inlet 3 and a process water outlet 10, the top of the condensing box 2 is communicated with a gas inlet 1, and a cleaning device 8 and a filter plate 28 are connected between the U-shaped plates 30 and the sealing plates 31 which are positioned at one side of the process water inlet 3;

the cleaning device 8 comprises a driving motor 806, an output shaft of the driving motor 806 is connected with a reciprocating screw rod 808, an outer wall of the reciprocating screw rod 808 is in threaded connection with a threaded seat 807, one side of the threaded seat 807 is connected with a scraping plate 805, the other side of the scraping plate 805 is connected with a sliding seat 804, a long sliding rod 802 is in sliding connection with the sliding seat 804 in a sliding manner, one side of the sliding seat 804 and one side of the threaded seat 807 are both connected with connecting rods 803, one end of each connecting rod 803 is connected with one dredging plate 801, one side of each dredging plate 801 is provided with a plurality of built-in grooves 809, a dredging block 812 is in sliding connection with the built-in groove 809, one side of each dredging block 812 is connected with a first spring 811, and the other end of each first spring 811 is connected with one side of the built-in groove 809.

The both ends of long slide bar 802 are connected respectively in condensing box 2 inner wall both sides, and condensing box 2 inner wall inlays and is equipped with the bearing, and the bearing internal rotation is connected with the pivot, and pivot one end is connected with reciprocating screw 808 one end, and driving motor 806 one side fixed mounting is in condensing box 2 outer wall one side and its output shaft stretches into in the condensing box 2.

Two spacing grooves 810 are formed in the inner wall of the built-in groove 809, a limiting block 813 is slidably connected in each of the two spacing grooves 810, one side of the limiting block 813 is connected with one side of the dredging block 812, connecting grooves 29 are formed in two sides of the filter plate 28, the connecting grooves 29 are slidably connected with the outer wall of the connecting rod 803, the filter plate 28 is located between the dredging plate 801 and the scraping plate 805, and two sides of the filter plate 28 are respectively attached to one side of the dredging plate 801 and one side of the scraping plate 805.

By providing the cleaning device 8, the external water source is filtered through the filter plate 28, so that impurities in the water are filtered. After filtering for a period of time, the driving motor 806 drives the reciprocating screw 808 to rotate, and the reciprocating screw 808 drives the screw seat 807 to move, so that the screw seat 807 drives the scraping plate 805 to move. The sliding sleeve seat 804 slides on the outer wall of the long sliding rod 802 during movement, so that the scraping and sweeping plate 805 is more stable during movement, and the phenomenon that the operation is influenced due to blocking caused by offset is avoided.

When the scraping plate 805 moves, one side of the filter plate 28 can be scraped, meanwhile, the connecting rod 803 on one side of the sliding sleeve seat 804 and the threaded seat 807 drives the dredging plate 801 to move, and then the dredging plate 801 drives the dredging block 812 to move, when the dredging block 812 is aligned with the sieve holes of the filter plate 28, the dredging block 812 stretches out of the built-in groove 809 and stretches into the sieve holes through the elastic force of the first spring 811, and then the inside of the sieve holes is cleaned, the dredging block 812 can reset along with the movement and enters the subsequent sieve holes in the moving process, and the continuous cleaning is performed, so that the filter plate 28 is ensured not to be blocked by impurities when being used for a long time. By arranging the limiting block 813 to slide in the limiting groove 810, the dredging block 812 is prevented from being excessively slid out to be blocked in the sieve holes of the filter plate 28.

The condensing box 2 one side intercommunication has gas outlet 7, gas outlet 7 inner wall is equipped with vibrator 9, vibrator 9 includes fixed cylinder 901, the fixed cylinder 901 is interior to have seted up the movable groove 903, sliding connection has movable block 907 in the movable groove 903, the movable block 907 is embedded to be equipped with the demister 902, standing groove 908 has been seted up to movable groove 903 one side, sliding connection has short slide bar 909 in the standing groove 908, short slide bar 909 outer wall cover is equipped with second spring 910, the movable block 907 opposite side is connected with two squeeze bars 905, squeeze bar 905 one end stretches out outside the fixed cylinder 901 and is connected with squeeze block 904, squeeze bar 905 outer wall connection has baffle 906.

Two ends of the second spring 910 are respectively connected to one side of the moving block 907 and one side of the inner wall of the moving groove 903, the other end of the short slide bar 909 is connected to one side of the moving groove 903, the outer wall of the fixed cylinder 901 is connected to the inner wall of the gas outlet 7, and one side of the blocking plate 906 is attached to one side of the inner wall of the fixed cylinder 901. The outer wall of the condensing box 2 is respectively communicated with a process water inlet 3 and a process water outlet 10, the top of the condensing box 2 is communicated with a gas inlet 1, and the bottom of the condensing box 2 is connected with a bottom box 6.

The bottom of the bottom box 6 is connected with a mounting plate 13, a servo motor 14 is fixedly arranged at the bottom of the mounting plate 13, an output shaft of the servo motor 14 stretches into the bottom box 6 and is connected with a driving wheel 15, one side of the driving wheel 15 is meshed with a driven wheel 16, a transverse plate 19 is connected between the inner walls of the condensing box 2, a rotary rod 12 is rotatably connected at the bottom of the transverse plate 19, the outer wall of the rotary rod 12 penetrates through the driven wheel 16 and is fixedly connected with the driven wheel 16, two upper connecting rods 18 and a plurality of fixing sleeves 22 are respectively connected with the outer wall of the rotary rod 12, one side of each upper connecting rod 18 is connected with an upper scraping plate 11, one side of each upper scraping plate 11 is attached to the inner wall of the condensing box 2, a lower connecting rod 20 is connected in a sliding manner in each fixing sleeve 22, one side of each limiting plate 21 is connected with a third spring 23, the other end of each third spring 23 is connected with one side of the fixing sleeves 22, one end of each corresponding lower connecting rod 20 is connected with one lower scraping plate 17, and one side of each lower scraping plate 17 is attached to the inner wall of the bottom box 6.

The bottom of the lower scraping plate 17 is connected with a long collecting plate 27, one side of the long collecting plate 27 is hinged with a short collecting plate 25, one side of the short collecting plate 25 opposite to the long collecting plate 27 is respectively connected with a fixed plate 24, the same fourth spring 26 is connected between the two corresponding fixed plates 24, and the bottoms of the long collecting plate 27 and the short collecting plate 25 are respectively attached to the bottom of the inner wall of the bottom box 6. The bottom of the bottom tank 6 is communicated with the condensed water outlet 4, the bottom of the bottom tank 6 is connected with a plurality of supporting legs 5, rubber pads are arranged at the bottoms of the supporting legs 5, and anti-skid convex lines are arranged on the surfaces of the rubber pads.

Through setting up vibrator 9, make extrusion piece 904 inwards remove through last scraper blade 11 rotation contact, and then make extrusion piece 904 drive extrusion pole 905 remove, extrusion pole 905 drive movable block 907 remove for extrusion second spring 910 when the movable block 907 removes makes second spring 910 produce the resilience force. By providing the short slide bar 909, the second spring 910 is prevented from shaking during compression, and the resilience is affected. When the upper scraping plate 11 is separated from the extrusion block 904, the rebound force of the second spring 910 drives the moving block 907 to reset, so that the moving block 907 drives the extrusion rod 905 to move, and the blocking plate 906 impacts the inner wall of the fixed cylinder 901, so as to generate vibration, remove the foam blocked in the foam remover 902, and avoid the foam blocking the foam remover 902, thereby influencing the air outlet efficiency.

Through setting up servo motor 14, it rotates to drive action wheel 15 through servo motor 14 output shaft, action wheel 15 drives from driving wheel 16 rotation, and then make from driving wheel 16 drive rotary rod 12 at diaphragm 19 bottom rotation, then drive upper scraper blade 11 through last connecting rod 18 and remove the comdenstion water of sweeping the condenser tank 2 inner wall, drive down connecting rod 20 through fixed cylinder 901 and rotate and then drive down scraper blade 17 and remove, make down scraper blade 17 scrape the comdenstion water that the inner wall of bottom tank 6 is attached, and down scraper blade 17 can drive long collecting plate 27 and short collecting plate 25 scrape the comdenstion water that the bottom is attached in the bottom tank 6 and get, make the comdenstion water can in time obtain collecting, shrink through third spring 23, make down connecting rod 20 drive down scraper blade 17 shrink, and then can change bottom tank 6 as required, the suitability of device is improved. The fourth spring 26 is also arranged to facilitate replacement of the bottom case 6, and by contraction of the fourth spring 26, the short collecting plate 25 can rotate by hinging to bypass the output shaft when contacting the output shaft of the servo motor 14 in the rotation process.

The working principle is as follows:

when the scraper is used, an external water source is connected into the process water inlet 3, then the external water source is filtered through the filter plate 28, the driving motor 806 drives the reciprocating screw rod 808 to rotate, and then the reciprocating screw rod 808 drives the thread seat 807 to move, so that the thread seat 807 drives the scraper 805 to reciprocate left and right, and the scraper 805 scrapes one side of the filter plate 28.

Meanwhile, the dredging plate 801 is driven to move through the connecting rod 803, the dredging plate 801 drives the dredging block 812 to move, when the dredging block 812 is aligned with the sieve holes of the filter plate 28, the dredging block 812 is driven to slide out of the built-in groove 809 through the first spring 811, and then impurities inside the sieve holes can be cleaned along with advancing and stretching into the sieve holes, so that the blockage of the impurities is avoided, and the filtering is influenced.

Then drive action wheel 15 through driving motor 806 rotates, and then makes from driving wheel 16 drive rotary rod 12 rotation, drives upper scraper blade 11 through last connecting rod 18 and removes and scrape the comdenstion water of sweeping the inner wall of condensing tank 2, and fixed cylinder 901 drives down connecting rod 20 rotation simultaneously and makes lower scraper blade 17 remove for lower scraper blade 17 scrapes the comdenstion water that the inner wall of bottom box 6 is attached, avoids the comdenstion water to produce the water stain and influences interior part.

Finally, the extrusion block 904 is extruded through the upper scraping plate 11, so that the extrusion block 904 drives the extrusion rod 905 to move, the moving block 907 moves, the second spring 910 is extruded, the extrusion block 904 is separated from the upper scraping plate 11, the second spring 910 drives the moving block 907 to reset, the extrusion rod 905 drives the blocking plate 906 to impact the inner wall of the fixed cylinder 901, vibration is generated, foam in the foam remover 902 is broken through vibration, and the foam is prevented from blocking the foam remover 902 to reduce the air outlet efficiency.

Claims (10)

1. A high-efficient board-like regeneration gas cooler for integrated separator function of carbon entrapment, including condensation tank (2), its characterized in that: the inner wall of the condensing box (2) is respectively connected with two U-shaped imitation plates (30) and two sealing plates (31), the same heat exchange core body is connected between the two U-shaped imitation plates (30) and the two sealing plates (31), the outer wall of the condensing box (2) is respectively communicated with a process water inlet (3) and a process water outlet (10), the top of the condensing box (2) is communicated with a gas inlet (1), and a cleaning device (8) and a filter plate (28) are connected between the U-shaped imitation plates (30) positioned at one side of the process water inlet (3) and the sealing plates (31);

cleaning device (8) are including driving motor (806), driving motor (806) output shaft has reciprocating lead screw (808), reciprocating lead screw (808) outer wall threaded connection has screw seat (807), screw seat (807) one side is connected with scrapes and sweeps board (805), scrape and sweep board (805) opposite side and be connected with sliding sleeve seat (804), sliding sleeve seat (804) sliding connection has long slide bar (802), sliding sleeve seat (804) one side all is connected with connecting rod (803) with screw seat (807) one side, and two connecting rod (803) one end is connected with same mediation board (801), a plurality of built-in grooves (809) have been seted up to mediation board (801) one side, and sliding connection has mediation piece (812) in built-in groove (809), mediation piece (812) one side is connected with first spring (811), the other end of first spring (811) is connected with built-in groove (809) one side.

2. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture of claim 1, wherein: the two ends of the long slide bar (802) are respectively connected to two sides of the inner wall of the condensing box (2), a bearing is embedded in the inner wall of the condensing box (2), a rotating shaft is rotationally connected to the bearing, one end of the rotating shaft is connected with one end of the reciprocating screw rod (808), one side of the driving motor (806) is fixedly arranged on one side of the outer wall of the condensing box (2), and an output shaft of the driving motor extends into the condensing box (2).

3. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture of claim 1, wherein: two limit grooves (810) are formed in the inner wall of the built-in groove (809), limit blocks (813) are slidably connected in the two limit grooves (810), and one side of each limit block (813) is connected with one side of each dredging block (812).

4. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture of claim 1, wherein: the filter (28) both sides all seted up spread groove (29), and in spread groove (29) with connecting rod (803) outer wall sliding connection, filter (28) are located between mediation board (801) and scrape sweep board (805), and filter (28) both sides laminate mutually with mediation board (801) one side and scrape sweep board (805) one side respectively.

5. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture of claim 1, wherein: the condensing box (2) one side intercommunication have gas outlet (7), gas outlet (7) inner wall is equipped with vibrator (9), vibrator (9) are including fixed section of thick bamboo (901), set up in fixed section of thick bamboo (901) and remove groove (903), sliding connection has movable block (907) in movable groove (903), movable block (907) are embedded to be equipped with demister (902), standing groove (908) have been seted up to movable groove (903) one side, sliding connection has short slide bar (909) in standing groove (908), short slide bar (909) outer wall cover is equipped with second spring (910), movable block (907) opposite side is connected with two squeeze bars (905), squeeze bar (905) one end stretches out outside fixed section of thick bamboo (901) and is connected with squeeze piece (904), squeeze bar (905) outer wall connection has barrier plate (906).

6. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture as recited in claim 5, wherein: the two ends of the second spring (910) are respectively connected to one side of the moving block (907) and one side of the inner wall of the moving groove (903), the other end of the short sliding rod (909) is connected with one side of the moving groove (903), the outer wall of the fixed cylinder (901) is connected with the inner wall of the gas outlet (7), and one side of the blocking plate (906) is attached to one side of the inner wall of the fixed cylinder (901).

7. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture of claim 1, wherein: the bottom of the condensing box (2) is connected with a bottom box (6).

8. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture as recited in claim 7, wherein: the utility model provides a bottom box (6) bottom be connected with mounting panel (13), mounting panel (13) bottom fixed mounting has servo motor (14), servo motor (14) output shaft stretches into in bottom box (6) and is connected with action wheel (15), action wheel (15) one side meshing has from driving wheel (16), and be connected with diaphragm (19) between condensation chamber (2) inner wall, diaphragm (19) bottom rotation is connected with rotary rod (12), rotary rod (12) outer wall runs through from driving wheel (16) and rather than fixed connection, rotary rod (12) outer wall is connected with two upper connecting rod (18) and a plurality of fixed cover (22) respectively, upper connecting rod (18) one side is connected with scraper blade (11), upper scraper blade (11) one side is laminated with condensation chamber (2) inner wall mutually, fixed cover (22) sliding connection has lower connecting rod (20), lower connecting rod (20) outer wall connection has limiting plate (21), limiting plate (21) one side is connected with third spring (23), the other end is connected with one side in fixed cover (22), and two corresponding lower connecting rod (20) one end is connected with same scraper blade (17) down, lower scraper blade (17) one side is laminated with bottom box (6).

9. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture as recited in claim 8, wherein: the bottom of the lower scraping plate (17) is connected with a long collecting plate (27), one side of the long collecting plate (27) is hinged with a short collecting plate (25), one side of the short collecting plate (25) opposite to the long collecting plate (27) is respectively connected with a fixed plate (24), the same fourth spring (26) is connected between the two corresponding fixed plates (24), and the bottoms of the long collecting plate (27) and the short collecting plate (25) are respectively attached to the bottom of the inner wall of the bottom box (6).

10. The high efficiency plate regenerant gas cooler integrated with separator function for carbon capture as recited in claim 7, wherein: the bottom of the bottom box (6) is communicated with a condensate outlet (4), the bottom of the bottom box (6) is connected with a plurality of supporting legs (5), rubber pads are arranged at the bottoms of the supporting legs (5), and anti-skid convex patterns are arranged on the surfaces of the rubber pads.