CN216397509U - Solid-waste distributed mobile energy station - Google Patents

Abstract

A solid waste distributed mobile energy station relates to the technical field of energy regeneration equipment, and a crushing mechanism, a conveying mechanism, a waste gasification mechanism and a gas combustion mechanism are sequentially arranged in a box body from left to right; according to the solid waste distributed mobile energy station, collected waste is crushed through the crushing mechanism, so that later-stage pyrolysis and gasification are facilitated, the crushed waste is transported through the conveying mechanism, the crushed waste is heated and gasified through the waste gasification mechanism, hot gas generated during heating is conveyed into the gas combustion mechanism for secondary combustion, harmful substances in gas are removed, the temperature of the gas is increased, the heated gas is used for generating electricity through the Stirling generator, energy generated by the Stirling generator is stored through the internal power supply, the heated gas is treated and discharged through the waste gas treatment mechanism, energy regeneration is performed while the waste is treated, the utilization rate of the waste is increased, and waste of resources is avoided.

Description

Solid-waste distributed mobile energy station

Technical Field

The utility model relates to the technical field of energy regeneration equipment, in particular to a solid waste distributed mobile energy station.

Background

People's quality of life is better and better, and population quantity is more and more, and the domestic solid rubbish that produces is also more and more, can cause certain pollution to the environment around when these rubbish are directly abandoned, and the partial rubbish inside these rubbish can be retrieved and recycled simultaneously, directly abandons the waste that causes the resource.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the background art, the utility model discloses a solid waste distributed mobile energy station, collected waste is crushed through a crushing mechanism, later-stage pyrolysis and gasification are facilitated, the crushed waste is transported through a conveying mechanism, the crushed waste is heated and gasified through a waste gasification mechanism, hot gas generated during heating is conveyed into a gas combustion mechanism for secondary combustion, harmful substances in gas are removed, the temperature of the gas is increased, the heated gas generates electricity through a Stirling generator, energy generated by the Stirling generator is stored through an internal power supply, the heated gas is treated and discharged through a waste gas treatment mechanism, energy regeneration is performed while the waste is treated, the utilization rate of the waste is improved, and waste of resources is avoided.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a solid waste distributed mobile energy station comprises a box body, wherein a crushing mechanism, a conveying mechanism, a waste gasification mechanism and a gas combustion mechanism are sequentially arranged in the box body from left to right, the feed end of the crushing mechanism is positioned on the box body, the discharge end of the crushing mechanism is connected with the feed end of the conveying mechanism, the discharge end of the conveying mechanism is connected with the feed end of the waste gasification mechanism, the exhaust end of the waste gasification mechanism is connected with the gas inlet end of the gas combustion mechanism, a waste gas treatment mechanism is arranged in the box body, the gas inlet end of the waste gas treatment mechanism is connected with the gas outlet end of the gas combustion mechanism, the gas supply pipelines of the gas combustion mechanism and the waste gas treatment mechanism are provided with Stirling generators, the output end of the Stirling generator is electrically connected with the input end of an internal power supply, the internal power supply is located in the box body, and one side of the box body is connected with the box cover through a connecting shaft.

The crushing mechanism comprises a crushing box, a positioning frame, a first gear, a second gear, a third gear, a guide plate, a first guide frame, a motor, a second guide frame, a cutting knife, a limiting column, a rotating rod, a crushing roller, a driving plate, a driving disc and a transmission rod, wherein the crushing box is positioned in the box and is fixedly connected, the positioning frame is arranged in the crushing box, the feeding end of the positioning frame penetrates through the crushing box and the box, two discharging ports are arranged in the positioning frame, the first guide frame and the second guide frame are fixedly connected in the two discharging ports respectively, the first guide frame is connected with the two rotating rods in a rotating manner, the crushing roller is fixedly connected on the rotating rods, one end of each rotating rod penetrates through the first guide frame and is connected with the third gear, one of the third gears is connected with the motor, the second gear is rotatably connected on the positioning frame, and is meshed with one of the third gears, rotate on the locating rack and be connected with two transfer lines, fixedly connected with drives the disc on the transfer line, and fixedly connected with eccentric rod between two drive discs, it is connected with the drive board to rotate on the eccentric rod, the one end of drive board with cut the sword and rotate and be connected, one of them transfer line passes locating rack and first gear connection, first gear is connected with the meshing of second gear, two sets of spacing posts of fixedly connected with in the locating rack, the quantity of every spacing post of group is two, it is located between two spacing posts and contact connection to cut the sword, it is located between first leading rack and the second leading rack to cut the sword, fixedly connected with guide plate in the locating rack, the position of guide plate is corresponding with the position of first leading rack, the discharge end of guide plate and second leading rack all is corresponding with conveying mechanism's feed end.

Conveying mechanism includes mounting bracket and band conveyer, the mounting bracket is located between rubbing crusher constructs and the waste gasification mechanism and fixed connection, install band conveyer in the mounting bracket, band conveyer's feed end is corresponding with rubbing crusher constructs's discharge end, band conveyer's discharge end is corresponding with waste gasification mechanism's feed end.

The waste gasification mechanism comprises a gasification box, a dust baffle, a flow guide pipe, a rotating block, a movable rod, a first electric telescopic rod, a second electric igniter, a connecting frame, a limiting plate, a pushing plate and a collection box, wherein the gasification box is positioned in the box body and is fixedly connected with the box body, the feeding end of the gasification box corresponds to the discharging end of the conveying mechanism, the movable rod is arranged in the gasification box, the limiting plate is rotatably connected to the movable rod, the two second electric telescopic rods are two in number, the rotating blocks are respectively and fixedly connected to the two ends of the second electric telescopic rod, the rotating blocks are positioned in the connecting frame and are rotatably connected with the connecting frame, the connecting frames at the two ends of the second electric telescopic rods are respectively positioned on the inner walls of the limiting plate and the gasification box, the second electric igniters which are arranged at equal intervals are arranged on the limiting plate, and the limiting plate is positioned at the upper side of the discharging end of the gasification box, two electric telescopic handle of fixedly connected with on the inner wall of gasification box, fixedly connected with slurcam is served in first electric telescopic handle's the flexible, install in the box and collect the box, the feed end of collecting the box is corresponding with the discharge end of gasification box, install the dust board in the gasification box, the dust board is located the upside of gasification box feed end, the gasification box passes through honeycomb duct and gas combustion mechanism intercommunication, the air inlet of honeycomb duct is located the upside of dust board.

Gas combustion mechanism includes bracing piece, burning box, air duct, division board and first electric igniter, bracing piece equidistance is arranged and is box and fixed connection, the top fixedly connected with burning box of bracing piece, the top internal surface fixedly connected with division board of burning box, install first electric igniter in the burning box, the burning box passes through air duct and exhaust-gas treatment mechanism intercommunication, install stirling generator on the air duct.

The waste gas treatment mechanism includes that filter cartridge, closing plate, active carbon place box and blast pipe, the filter cartridge is located the box and fixed connection, be equipped with the joint groove on the filter cartridge, the joint has the active carbon to place the box in the joint inslot joint, sliding connection has the closing plate on the active carbon places the box, the gas vent of filter cartridge passes through the gas vent intercommunication of blast pipe with the box.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

according to the solid waste distributed mobile energy station, collected waste is crushed through the crushing mechanism, so that later-stage pyrolysis and gasification are facilitated, the crushed waste is transported through the conveying mechanism, the crushed waste is heated and gasified through the waste gasification mechanism, hot gas generated during heating is conveyed into the gas combustion mechanism for secondary combustion, harmful substances in gas are removed, the temperature of the gas is increased, the heated gas is used for generating electricity through the Stirling generator, energy generated by the Stirling generator is stored through the internal power supply, the heated gas is treated and discharged through the waste gas treatment mechanism, energy regeneration is performed while the waste is treated, the utilization rate of the waste is increased, and waste of resources is avoided.

Drawings

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

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

FIG. 3 is a cross-sectional view of the present invention;

1. a box body; 2. a connecting shaft; 3. a gas combustion mechanism; 301. a support bar; 302. a combustion box; 303. an air duct; 304. a partition plate; 305. a first electric igniter; 4. a Stirling generator; 5. an internal power supply; 6. an exhaust gas treatment mechanism; 601. a filter cartridge; 602. a closing plate; 603. an active carbon placing box; 604. an exhaust pipe; 7. a waste gasification mechanism; 701. a gasification box; 702. a dust guard; 703. a flow guide pipe; 704. rotating the block; 705. a movable rod; 706. a first electric telescopic rod; 707. a second electric telescopic rod; 708. a second electric igniter; 709. a connecting frame; 710. a limiting plate; 711. a push plate; 712. a collection box; 8. a conveying mechanism; 801. a mounting frame; 802. a belt conveyor; 9. a crushing mechanism; 901. a crushing box; 902. a positioning frame; 903. a first gear; 904. a second gear; 905. a third gear; 906. a baffle; 907. a first dredging frame; 908. a motor; 909. a second dredging frame; 910. cutting knife; 911. a limiting column; 912. rotating the rod; 913. a crushing roller; 914. driving the plate; 915. driving the disc; 916. a transmission rod; 10. and a box cover.

Detailed Description

The present invention will be explained in detail by the following examples, which are disclosed for the purpose of protecting all technical improvements within the scope of the present invention.

Combine figures 1~3 a solid useless distributing type portable energy source station, including box 1, rubbing crusher mechanism 9, conveying mechanism 8, waste gasification mechanism 7 and gas combustion mechanism 3 are installed from left to right in proper order in the box 1, the feed end of rubbing crusher mechanism 9 is located box 1, the discharge end of rubbing crusher mechanism 9 is connected with the feed end of conveying mechanism 8, the discharge end of conveying mechanism 8 is connected with the feed end of waste gasification mechanism 7, smashes rubbish through rubbing crusher mechanism 9, carries the rubbish after smashing to waste gasification mechanism 7 in through conveying mechanism 8, carries out pyrolysis gasification to waste gasification mechanism 7, the exhaust end of waste gasification mechanism 7 is connected with the inlet end of gas combustion mechanism 3, install exhaust treatment mechanism 6 in the box 1, the inlet end of exhaust treatment mechanism 6 is connected with the end of giving vent to anger of gas combustion mechanism 3, install stirling generator 4 on the gas supply line of gas combustion mechanism 3 and exhaust-gas treatment mechanism 6, the output of stirling generator 4 is connected with internal power source 5's input electricity, internal power source 5 is located box 1, one side of box 1 is passed through connecting axle 2 and is connected with case lid 10, and box 1 is located the loading truck, and the distributed mobile energy station that is useless for the loading truck supplies power, and the equipment that the distributed mobile energy station that gives up of solid useless of simultaneous control goes on working.

The crushing mechanism 9 comprises a crushing box 901, a positioning frame 902, a first gear 903, a second gear 904, a third gear 905, a guide plate 906, a first guide frame 907, a motor 908, a second guide frame 909, a cutting knife 910, a limiting column 911, a rotating rod 912, crushing rollers 913, a driving plate 914, a driving disc 915 and a driving rod 916, wherein the crushing box 901 is positioned in the box body 1 and fixedly connected, the positioning frame 902 is installed in the crushing box 901, the feeding end of the positioning frame 902 penetrates through the crushing box 901 and the box body 1, two discharging ports are arranged in the positioning frame 902, the first guide frame 907 and the second guide frame 909 are fixedly connected in the two discharging ports respectively, the first guide frame 907 is rotatably connected with the two rotating rods 912, the crushing rollers 913 are fixedly connected on the rotating rod 912, one end of the rotating rod 912 penetrates through the first guide frame 907 to be connected with the third gear 905, and one of the third gears 905 is connected with the motor 908, the positioning frame 902 is rotatably connected with a second gear 904, the second gear 904 is in meshing connection with one third gear 905, the positioning frame 902 is rotatably connected with two transmission rods 916, the transmission rods 916 are fixedly connected with driving disks 915, an eccentric rod is fixedly connected between the two driving disks 915, the eccentric rod is rotatably connected with a driving plate 914, one end of the driving plate 914 is rotatably connected with cutting blades 910, one transmission rod 916 penetrates through the positioning frame 902 to be connected with a first gear 903, the first gear 903 is in meshing connection with the second gear 904, two groups of limiting columns 911 are fixedly connected in the positioning frame 902, the number of each group of limiting columns 911 is two, the cutting blades 910 are positioned between the two limiting columns 911 and in contact connection, the cutting blades 910 are positioned between the first guide frame 907 and a second guide frame 909, and a guide plate 906 is fixedly connected in the positioning frame 902, the position of the guide plate 906 corresponds to the position of the first guide frame 907, and the discharge ends of the guide plate 906 and the second guide frame 909 correspond to the feed end of the conveying mechanism 8.

Conveying mechanism 8 includes mounting bracket 801 and band conveyer 802, mounting bracket 801 is located between rubbing crusher mechanism 9 and the waste gasification mechanism 7 and fixed connection, install band conveyer 802 in mounting bracket 801, the feed end of band conveyer 802 is corresponding with rubbing crusher mechanism 9's discharge end, the discharge end of band conveyer 802 is corresponding with waste gasification mechanism 7's feed end.

The waste gasification mechanism 7 comprises a gasification box 701, a dust baffle 702, a flow guide pipe 703, rotating blocks 704, a movable rod 705, a first electric telescopic rod 706, a second electric telescopic rod 707, a second electric igniter 708, a connecting frame 709, a limiting plate 710, a pushing plate 711 and a collection box 712, wherein the gasification box 701 is positioned in the box body 1 and fixedly connected with the same, the feeding end of the gasification box 701 corresponds to the discharging end of the conveying mechanism 8, the movable rod 705 is installed in the gasification box 701, the limiting plate 710 is rotatably connected to the movable rod 705, the number of the second electric telescopic rods 707 is two, the rotating blocks 704 are respectively and fixedly connected to the two ends of the second electric telescopic rod 707, the rotating blocks 704 are positioned in the connecting frame 709 and rotatably connected to the connecting frame 709, the connecting frames 709 at the two ends of the second electric telescopic rods 707 are respectively positioned on the inner walls of the limiting plate 710 and the gasification box 701, the second electric igniters 708 arranged at equal intervals are installed on the limiting plate 710, limiting plate 710 is located the upside of gasification box 701 discharge end, two electric telescopic handle 706 of fixedly connected with on the inner wall of gasification box 701, fixedly connected with slurcam 711 is served in first electric telescopic handle 706's the flexible, install in the box 1 and collect box 712, the feed end of collecting box 712 is corresponding with the discharge end of gasification box 701, install dust board 702 in the gasification box 701, dust board 702 is located the upside of gasification box 701 feed end, gasification box 701 passes through honeycomb duct 703 and 3 intercommunications of gas combustion mechanism, the air inlet of honeycomb duct 703 is located the upside of dust board 702.

Gas combustion mechanism 3 includes bracing piece 301, burning box 302, air duct 303, division board 304 and electric igniter 305, bracing piece 301 equidistance is arranged and is fixed connection in the box 1, bracing piece 301's top fixedly connected with burning box 302, the top internal surface fixedly connected with division board 304 of burning box 302, install electric igniter 305 in the burning box 302, burning box 302 passes through air duct 303 and 6 intercommunications of exhaust-gas treatment mechanism, install stirling generator 4 on the air duct 303.

Waste gas treatment mechanism 6 includes that filter cartridge 601, closing plate 602, active carbon place box 603 and blast pipe 604, filter cartridge 601 is located box 1 and fixed connection, be equipped with the joint groove on the filter cartridge 601, the joint inslot joint has the active carbon to place box 603, sliding connection has closing plate 602 on the box 603 is placed to the active carbon, the gas vent of filter cartridge 601 passes through blast pipe 604 and box 1's gas vent intercommunication.

When the distributed mobile energy station for fixing wastes is used, a worker sends wastes into the positioning frame 902, the small wastes are crushed by the crushing roller 913, the longer and larger wastes are cut and crushed by the cutting knife 910, so that the wastes at the later stage are convenient to treat, the motor 908 drives one of the first gears 903 to rotate, one of the first gears 903 drives the other first gear 903 to rotate, the crushing roller 903 is driven to rotate, the small wastes are crushed, one of the first gears 903 drives the third gear 906 to rotate by the second gear 905, the third gear 906 drives the driving plate 914 to move up and down by the driving rod 916 and the driving disc 915, the cutting knife 910 is driven by the driving plate 914 to move up and down, the moving track 911 of the cutting knife 910 is limited by the limiting column, and the longer and larger wastes are cut and crushed by the cutting knife 910, broken garbage falls onto a belt conveyor 802, the garbage is conveyed to a limiting plate 710 in a gasification box 701 through the belt conveyor 802, the garbage is ignited through a second electric igniter 708 on the limiting plate 710 to pyrolyze and gasify the garbage, gas generated during garbage pyrolysis enters a gas combustion mechanism 3 through a guide pipe 703, sundries carried in the gas are blocked through a dust blocking plate 702 to prevent the sundries carried in the gas in the later period from influencing the secondary combustion in the later period, the gas is ignited again through a first electric igniter 305 in the gas combustion mechanism 3 to carry out pyrolysis and decomposition on harmful substances in the gas, meanwhile, the temperature of the gas is increased, the gas entering the combustion box 302 is blocked through a partition plate 304 to enable the gas to enter a waste gas treatment mechanism 6 through a guide pipe 303 after being combusted, and the heated gas can pass through a Stirling generator 4 in the process of entering the waste gas treatment mechanism 6, hot gas can drive stirling generator 4 and carry out the power generation of working, the electric energy that produces stirling generator 4 through internal power source 5 is stored, carry out desulfurization treatment to gas through the active carbon in exhaust-gas treatment mechanism 6, normally discharge, the rubbish burning finishes the back, drive limiting plate 710 through second electric telescopic handle 707 and remove, make the rubbish residue after the burning on the limiting plate 710 drop to collecting box 712 in, collect, conveniently carry out the burning next time, drive catch plate 711 through first electric telescopic handle 706 and remove, make the rubbish that does not enter into collecting box 712 in, the staff opens case lid 10, place the box 603 with the active carbon and take out from filter box 601, open closure plate 602, place the active carbon in the box 603 and change the active carbon.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. The utility model provides a useless distributing type of solid moves energy station, includes box (1), characterized by: install rubbing crusher structure (9), conveying mechanism (8), waste gasification mechanism (7) and gas combustion mechanism (3) from left to right in proper order in box (1), the feed end of rubbing crusher structure (9) is located box (1), the discharge end of rubbing crusher structure (9) is connected with the feed end of conveying mechanism (8), the discharge end of conveying mechanism (8) is connected with the feed end of waste gasification mechanism (7), the exhaust end of waste gasification mechanism (7) is connected with the inlet end of gas combustion mechanism (3), install exhaust treatment mechanism (6) in box (1), the inlet end of exhaust treatment mechanism (6) is connected with the end of giving vent to anger of gas combustion mechanism (3), install stirling generator (4) on the gas supply pipeline of gas combustion mechanism (3) and exhaust treatment mechanism (6), the output end of the Stirling generator (4) is electrically connected with the input end of the internal power supply (5), the internal power supply (5) is located in the box body (1), and one side of the box body (1) is connected with the box cover (10) through the connecting shaft (2).

2. The solid waste distributed mobile energy station of claim 1, wherein: the crushing mechanism (9) comprises a crushing box (901), a positioning frame (902), a first gear (903), a second gear (904), a third gear (905), a guide plate (906), a first guide frame (907), a motor (908), a second guide frame (909), a cutting knife (910), a limiting column (911), a rotating rod (912), a crushing roller (913), a driving plate (914), a driving disc (915) and a transmission rod (916), wherein the crushing box (901) is positioned in the box body (1) and fixedly connected, the positioning frame (902) is arranged in the crushing box (901), the feeding end of the positioning frame (902) penetrates through the crushing box (901) and the box body (1), two discharging openings are formed in the positioning frame (902), the first guide frame (907) and the second guide frame (909) are fixedly connected in the two discharging openings respectively, and the first guide frame (907) and the second guide frame (909) are rotatably connected with the two discharging openings, the grinding roller (913) is fixedly connected to the rotating rod (912), one end of the rotating rod (912) penetrates through the first guide frame (907) to be connected with the third gear (905), one of the third gears (905) is connected with the motor (908), the positioning frame (902) is rotatably connected with the second gear (904), the second gear (904) is meshed with one of the third gears (905), the positioning frame (902) is rotatably connected with two transmission rods (916), the transmission rods (916) are fixedly connected with driving discs (915), an eccentric rod is fixedly connected between the two driving discs (915), the eccentric rod is rotatably connected with a driving plate (914), one end of the driving plate (914) is rotatably connected with the cutting knife (910), one of the transmission rods (916) penetrates through the positioning frame (902) to be connected with the first gear (903), and the first gear (903) is meshed with the second gear (904), two sets of spacing post (911) of fixedly connected with in locating rack (902), the quantity of every group spacing post (911) is two, it connects to cut sword (910) to be located between two spacing posts (911) and contact, it dredges between guide frame (909) to cut sword (910) to be located first dredging guide frame (907) and second, fixedly connected with guide plate (906) in locating rack (902), the position of guide plate (906) and the position of first dredging guide frame (907) are corresponding, the stock outlet that guide plate (906) and second dredged guide frame (909) all is corresponding with the feed end of conveying mechanism (8).

3. The solid waste distributed mobile energy station of claim 1, wherein: conveying mechanism (8) include mounting bracket (801) and band conveyer (802), mounting bracket (801) are located between rubbing crusher structure (9) and waste gasification mechanism (7) and fixed connection, install band conveyer (802) in mounting bracket (801), the feed end of band conveyer (802) is corresponding with the discharge end of rubbing crusher structure (9), the discharge end of band conveyer (802) is corresponding with the feed end of waste gasification mechanism (7).

4. The solid waste distributed mobile energy station of claim 1, wherein: the waste gasification mechanism (7) comprises a gasification box (701), a dust blocking plate (702), a flow guide pipe (703), a rotating block (704), a movable rod (705), a first electric telescopic rod (706), a second electric telescopic rod (707), a second electric igniter (708), a connecting frame (709), a limiting plate (710), a pushing plate (711) and a collection box (712), wherein the gasification box (701) is positioned in the box body (1) and fixedly connected with the box body, the feeding end of the gasification box (701) corresponds to the discharging end of the conveying mechanism (8), the movable rod (705) is installed in the gasification box (701), the limiting plate (710) is rotatably connected on the movable rod (705), the two electric telescopic rods (707) are provided, the rotating blocks (704) are respectively and fixedly connected with the two ends of the second electric telescopic rod (707), the rotating blocks (704) are positioned in the connecting frame (709) and rotatably connected, the connecting frames (709) at the two ends of the second electric telescopic rod (707) are respectively positioned on the inner walls of the limiting plate (710) and the gasification box (701), the second electric igniters (708) arranged at equal intervals are arranged on the limiting plate (710), the limiting plate (710) is positioned on the upper side of the discharge end of the gasification box (701), two first electric telescopic rods (706) are fixedly connected on the inner wall of the gasification box (701), the telescopic end of each first electric telescopic rod (706) is fixedly connected with a pushing plate (711), a collection box (712) is arranged in the box body (1), the feed end of the collection box (712) corresponds to the discharge end of the gasification box (701), a dust baffle plate (702) is arranged in the gasification box (701), the dust baffle plate (702) is positioned on the upper side of the feed end of the gasification box (701), and the gasification box (701) is communicated with the gas combustion mechanism (3) through a guide pipe (703), the air inlet of the draft tube (703) is positioned on the upper side of the dust baffle plate (702).

5. The solid waste distributed mobile energy station of claim 1, wherein: gas combustion mechanism (3) are including bracing piece (301), burning box (302), air duct (303), division board (304) and electric igniter (305), bracing piece (301) equidistance is arranged and box (1) in and fixed connection, the top fixedly connected with burning box (302) of bracing piece (301), the top internal surface fixedly connected with division board (304) of burning box (302), install first electric igniter (305) in burning box (302), burning box (302) are through air duct (303) and exhaust-gas treatment mechanism (6) intercommunication, install stirling generator (4) on air duct (303).

6. The solid waste distributed mobile energy station of claim 1, wherein: waste gas treatment mechanism (6) include filter box (601), closing plate (602), activated carbon and place box (603) and blast pipe (604), filter box (601) are located box (1) and fixed connection, be equipped with the joint groove on filter box (601), the joint inslot joint has activated carbon to place box (603), sliding connection has closing plate (602) on activated carbon places box (603), the gas vent of filter box (601) passes through the gas vent intercommunication of blast pipe (604) and box (1).

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