CN107720751A - Carbon molecular sieve production system - Google Patents

Abstract

The invention discloses carbon molecular sieve production system, including set gradually extrusion device, break device, activation furnace and conveying device；Described extrusion device has rotary porous plate, can quickly adjust the diameter of production carbon molecules grating；Carbon molecules grating is broken into shaping carbon molecular sieve by the described device that breaks by the shear constitution that upper platform body and lower platform body are formed；Described activation furnace will be molded carbon molecular sieve and shaping carbon molecular sieve adjusted into hole under the protection of inert gas, form finished product carbon molecular sieve, and the wherein inwall of revolving drum is provided with perturbation action and is easy to the fixed block and sliding shoe of discharging；The conveying device of the present invention is provided with the air supply duct for drying up scorching air, by finished product carbon molecular sieve and air insulated, prevents its moisture absorption.The present invention have production flexibly, the product size of production is unified, activation effect is good and the activation convenient feature of furnace discharge, and the present invention can carry out sufficiently anti-moisture absorption protection to finished product carbon molecular sieve.

Description

Carbon molecular sieve production system

Technical field

The present invention relates to a kind of carbon molecular sieve production system.

Background technology

Carbon molecular sieve is a kind of new adsorbent that last century the seventies grow up, and is a kind of excellent nonpolar carbon Cellulosic material.Carbon molecular sieve is mainly made up of crystallization charcoal and amorphous carbon, therefore has highly developed pore structure and special table Face characteristic.Due to the high reactivity of special microcellular structure and nano-space and adsorption and enrichment and reactivity worth, carbon Molecular sieve is widely used in the every field such as the hydrogen manufacturing of industry nitrogen, sewage disposal.

In the preparation process of carbon molecular sieve, wherein several processes are that binding agent is added after raw material is milled, then through squeezing Semi-finished product are carbon molecules grating to bar mechanism into strips, and carbon molecules grating is broken into cylindrical pellet and is molded carbon molecules on demand again Sieve, shaping carbon molecular sieve adjust hole to form finished product carbon molecular sieve by activation furnace activation again.The production system of existing carbon molecular sieve, Extrusion device therein is mostly the labyrinth of twin-screw, and needs more commutation when producing the carbon molecules grating of different-diameter Corresponding porous plate, relatively time-consuming；Meanwhile cutting-off device therein generally will be large-sized by the drum of built-in marume plate Carbon molecules grating is interrupted, and the carbon molecular sieve to target size then is filtered out into drum, the product of this structure production by screen cloth Size disunity, cause product accumulated in adsorption tower caused by space it is uneven, decline assimilation effect；In addition, wherein Activation furnace due to lacking perturbation mechanism, activation when carbon molecular sieve easily accumulate, can not fully be connect by overstocked carbon molecular sieve Protective gas is touched, causes activation effect to decline.The discharging of this activation furnace will be also relatively difficult, it is necessary to which operating personnel will using instrument Carbon molecular sieve is transferred out.More unfortunate, in existing production system, finished product carbon molecular sieve is before packing only by common Conveyer belt carries out cooling processing.Because carbon molecular sieve has preferable hygroscopicity, the finished product carbon molecular sieve meeting during conveying Moisture in moisture absorption air, causes product quality to decline, and this conveyer belt also can not be by carbon molecules caused by process before Sieve chip screens out.

Therefore, there is production underaction, the product size disunity of production, activation in existing carbon molecular sieve production system Effect is poor and activation device discharges the problem of difficult, while finished product carbon molecular sieve cannot sufficiently dry aspect before packing Protection.

The content of the invention

It is an object of the present invention to provide carbon molecular sieve production system.The present invention has the product chi that production is flexible, produces Very little unification, activation effect is good and activates the convenient feature of furnace discharge, and the present invention can be carried out fully to finished product carbon molecular sieve Anti- moisture absorption protection.

Technical scheme：Carbon molecular sieve production system, including set gradually extrusion device, break device, work Change stove and conveying device；

Described extrusion device includes base, and base is provided with extrusion barrel, a screw rod is provided with extrusion barrel, extrusion barrel Afterbody is provided with feed pipe, and the head of extrusion barrel is provided with rotary porous plate, valve is provided between extrusion barrel and rotary porous plate Door；The different hole group in multiple apertures is evenly distributed with described rotary porous plate, and the rotary rotated seat of porous plate is consolidated It is scheduled on base；

The described device that breaks includes the neat device that sets gradually and breaks platform；The described platform that breaks includes frame, machine Frame is provided with feeding roller group, and feed roller group is connected with the first motor；It is described feeding roller group side by be provided with it is spaced under Stage body, the top of lower platform body are provided with lifter plate, and the lower surface of lifter plate is provided with the upper platform body coordinated with lower platform body；Described leave from office Body is provided with the positioning code block being uniformly arranged；The lower section of described lower platform body is provided with discharging supporting plate；

Described activation furnace includes revolving drum, and revolving drum inwall is provided with helical guideway, is interval with helical guideway more Individual fixed block, each fixed block side side are provided with corresponding sliding shoe；Described fixed block is provided with groove, and sliding shoe is provided with The projection being engaged with groove；Described sliding shoe is connected with steel wire rope, and one end of steel wire rope is connected with back-moving spring, steel wire rope The other end is provided with driving lever, and described back-moving spring and driving lever are separately positioned on the both ends of revolving drum；Returning where described driving lever Material slide is additionally provided with rotating cylinder end face；

Described conveying device includes support frame, and support frame is provided with conveyer belt, is provided with air supply duct above conveyer belt, send Wind pipeline is provided with valve, and blower fan, drying device and heater are sequentially provided with along airflow direction on the pipeline of air supply duct； The top of described air supply duct is provided with cover body, and cover body is provided with the second feed hopper in the initiating terminal of transporting direction；Described is defeated The end of the transporting direction of band is sent to be provided with pail pack.

In foregoing carbon molecular sieve production system, the lower section of described rotary porous plate is provided with positioning seat and locator card Block；For rotary porous plate towards the projection corresponding with hole group is additionally provided with the end face of positioning seat, underbump is provided with neck；Institute The positioning seat stated is provided with chute, and chute is provided with the stopper slot being engaged with projection；Described positioning wedged block is provided with and card The projection that groove is engaged.

In foregoing carbon molecular sieve production system, it is additionally provided with described base and is provided with mobile station provided with guide rail, guide rail, Mobile station is provided with screw motor, and the top of mobile station is fixed with screw rod through bearing, and screw rod is through transmission device and screw motor phase Connect, be connected with screw mandrel below mobile station, screw mandrel is connected with lead screw motor.

In foregoing carbon molecular sieve production system, the both ends of described lifter plate are provided with assistant support, and assistant support, which is provided with, to be slided Groove, the both ends of lifter plate are provided with the projection being engaged with chute, and the top of assistant support is provided with the second motor, and the second motor is provided with Flywheel, flywheel are connected through rope with lifter plate；The top of described lifter plate is provided with tuning bar, and tuning bar is provided with tuning Hole, described rope pass through tuning hole.

In foregoing carbon molecular sieve production system, described neat device includes the second frame, and the second frame is provided with more Root live-roller, it is provided between live-roller and divides row code block；The 3rd motor is provided with by the side of described frame.

In foregoing carbon molecular sieve production system, panel is provided with described driving lever, panel is provided with and is engaged with driving lever Slideway, and described slideway carries bending place.

In foregoing carbon molecular sieve production system, described revolving drum both ends are connected with hollow shaft, and hollow shaft is located at support On bearing, the hollow shaft of revolving drum one end is connected with the first gas check, and the first gas check is connected with admission line, air inlet pipe Road is connected with source of the gas；The hollow shaft of the revolving drum other end is connected with the second gas check, and the second gas check is connected with escape pipe Road；Described revolution drum outer wall is provided with roller, and the top of revolving drum is provided with power transmission shaft, and power transmission shaft is provided with what is be engaged with roller Drive, described power transmission shaft are connected with motor；Heater is provided with below described revolving drum.

In foregoing carbon molecular sieve production system, the outside of described revolving drum is provided with cladding power transmission shaft, revolving drum and added The heat resistant hood of thermal, the side that heat resistant hood is right against material slide are provided with feed hopper and discharging hopper.

In foregoing carbon molecular sieve production system, described conveyer belt is provided with protecting wire net in the both sides of transporting direction, and conveys The lower section of band is provided with dust hopper.

Compared with prior art, extrusion device of the invention has rotary porous plate, by rotary porous plate not The carbon molecules grating of different-diameter is produced with the hole group in aperture.When needing to change the carbon molecules grating diameter of production, rotation Turn hole group of the rotary porous plate using corresponding diameter.Meanwhile cutting-off device of the invention passes through upper platform body and leave from office The shear constitution that body is formed interrupts carbon molecules grating, and the length of the shaping carbon molecular sieve of output is the interval between lower platform body Width.This to interrupt simple in construction easy-to-use, while the shaping carbon molecular sieve size of output is also very unified.

The present invention is provided with the structure of helical guideway, fixed block and sliding shoe on revolving drum inwall, and sliding shoe is connected with steel Cord and sliding shoe can slide under the drive of steel wire rope on helical guideway.When turning round heating, sliding shoe, which is in, retracts Position, now sliding shoe and fixed block may be regarded as the projection on revolving drum inwall, it to carbon molecular sieve have the function that disturbance, Prevent carbon molecular sieve from accumulating, it is fully activated；Heating terminate after, sliding shoe steel wire rope drive lower slider, sliding shoe and Fixed block forms complete flight, rotates revolving drum, carbon molecular sieve moves under the guiding of flight to discharging opening, thus complete Into finished product carbon molecular sieve self-emptying.

The present invention is provided with air supply duct and nozzle in conveying device, and hot-air is dried in product feeding packaging by spraying It is isolated with room air before bucket, prevents product moisture absorption；Meanwhile jet can also effectively remove carbon point caused by preceding process Son sieve chip, ensures that product quality is unified.

To sum up, the present invention is with production is flexible, the product size of production is unified, activation effect is good and it is convenient to activate furnace discharge The characteristics of, and the present invention can carry out sufficiently anti-moisture absorption to finished product carbon molecular sieve and protect.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the structural representation of extrusion device；

Fig. 3 is the structural representation of rotary porous plate；

Fig. 4 is the structural representation of positioning seat；

Fig. 5 is the structural representation of locating piece；

Fig. 6 is the enlarged diagram at A in Fig. 2；

Fig. 7 is the structural representation for breaking device；

Fig. 8 is to break the front schematic view at device assistant support；

Fig. 9 is the top view of lower platform body；

Figure 10 is the top view of neat device；

Figure 11 is the structural representation of activation furnace；

Figure 12 is the schematic diagram for the end face that revolving drum is provided with driving lever；

Figure 13 is the schematic diagram of movable block retracted mode；

Figure 14 is the schematic diagram that movable block stretches out state；

Figure 15 is the schematic diagram in revolving drum when movable block stretches out；

Figure 16 is the schematic cross-section of movable block；

Figure 17 is the structural representation of conveying device.

Reference：1000- extrusion devices, 1100- bases, 1110- extrusion barrels, 1111- feed pipes, 1112- valves, 1113- heaters, 1120- screw rods, 1121- screw motors, 1130- guide rails, 1140- mobile stations, 1150- screw mandrels, 1151- silks Bar motor, the rotary porous plates of 1200-, 1201- holes group, 1202- projections, 1203- necks, 1204- rotating seats, 1210- positioning Seat, 1211- chutes, 1212- stopper slots, 1220- positioning wedged blocks, 1221- are raised.

2000- breaks device, the neat devices of 2100-, 2110- frames, 2120- live-rollers, the motors of 2121- the 3rd, 2130- Divide row code block, 2200- breaks platform, 2210- frames, 2220- feeding roller groups, the motors of 2221- first, 2230- lower platform bodys, 2231- Position code block, 2240- lifter plates, 2241- upper platform bodies, 2242- projections, 2250- discharging supporting plates, 2260- assistant supports, 2261- cunnings Groove, 2262- tuning bars, 2263- tunings hole, the motors of 2270- second, 2271- flywheels, 2272- ropes, 2300- carbon molecules gratings.

3000- activation furnaces, 3100- revolving drums, 3101- material slides, 3102- rollers, 3110- helical guideways, 3120- are solid Determine block, 3121- grooves, 3130- sliding shoes, 3131- projections, 3140- steel wire ropes, 3141- back-moving springs, 3142- driving levers, 3143- Panel, 3144- slideways, 3145- bending places.

3200- hollow shafts, 3210- spring bearings, the gas checks of 3220- first, 3221- admission lines, the gas of 3230- second Close device, 3231- outlet pipes, 3300- power transmission shafts, 3310- drives, 3320- motors, 3400- heaters, 3500- gas Source, 3600- heat resistant hoods, 3610- feed hoppers, 3620- discharging hoppers.

4100- support frames, 4110- conveyer belts, 4111- protecting wire nets, 4120- cover bodies, the feed hoppers of 4121- second, 4130- collection Dirt hopper, 4200- air supply ducts, 4210- valves, 4220- blower fans, 4230- drying devices, 4240- heaters, 4300- bags Barrelling.

Embodiment

With reference to embodiment, the invention will be further described, but is not intended as the foundation limited the present invention.

Embodiment：Carbon molecular sieve production system, form as shown in figure 1, including set gradually extrusion device 1000, break Device 2000, activation furnace 3000 and conveying device.

As shown in Fig. 2 described extrusion device includes base 1100, base 1100 is provided with extrusion barrel 1110, extrusion barrel A screw rod 1120 is provided with 1110, the afterbody of extrusion barrel 1110 is provided with feed pipe 1111, and the head of extrusion barrel 1110 is provided with Rotary porous plate 1200, valve 1112 is provided between extrusion barrel 1110 and rotary porous plate 1200；It is as shown in figure 3, described Rotary porous plate 1200 on be evenly distributed with the different hole group 1201 in multiple apertures, and rotary porous plate 1200 is rotated Seat 1204 is fixed on base 1100.

As shown in fig. 7, the described device 2000 that breaks includes the neat device 2100 that sets gradually and breaks platform 2200；Institute The platform 2200 that breaks stated includes frame 2210, and frame 2210 is provided with feeding roller group 2220, and feeding roller group 2220 is connected with the One motor 2221；Spaced lower platform body 2230 is provided with by the side of the feeding roller group 2220, the top of lower platform body 2230 is set There is lifter plate 2240, the lower surface of lifter plate 2240 is provided with the upper platform body 2241 coordinated with lower platform body 2230；As shown in Figure 10, institute The lower platform body 2230 stated is provided with the positioning code block 2231 being uniformly arranged；The lower section of described lower platform body 2230 is provided with discharging supporting plate 2250。

As shown in figure 11, described activation furnace includes revolving drum 3100, and the inwall of revolving drum 3100 is provided with helical guideway 3110, multiple fixed blocks 3120 are interval with helical guideway 3110, corresponding cunning is provided with by each side of fixed block 3120 Motion block 3130；Described fixed block 3120 is provided with groove 3121, and sliding shoe 3130 is provided with the projection being engaged with groove 3121 3131；Described sliding shoe 3130 is connected with steel wire rope 3140 (as shown in figure 16), and one end of steel wire rope 3140 is connected with reset Spring 3141, the other end of steel wire rope 3140 are provided with driving lever 3142, and described back-moving spring 3141 and driving lever 3142 are set respectively At the both ends of revolving drum 3100；Material slide 3101 is additionally provided with the end face of revolving drum 3100 where described driving lever 3142.

As shown in figure 17, described conveying device includes support frame 4100, and support frame 4100 is provided with conveyer belt 4110, defeated The top of band 4110 is sent to be provided with air supply duct 4200, air supply duct 4200 is provided with valve 4210, on the pipeline of air supply duct 4200 Blower fan 4220, drying device 4230 and heater 4240 are sequentially provided with along airflow direction；Described air supply duct 4200 Top is provided with cover body 4120, and cover body 4120 is provided with the second feed hopper 4121 in the initiating terminal of transporting direction；Described conveyer belt The end of 4110 transporting direction is provided with pail pack 4300.

The lower section of described rotary porous plate 1200 is provided with positioning seat 1210 and positioning wedged block 1220；Rotary porous plate 1200 towards the projection 1202 corresponding with hole group 1201 is additionally provided with the end face of positioning seat 1210, and the lower section of projection 1202 is provided with card Groove 1203；As shown in figure 4, described positioning seat 1210 is provided with chute 1211, chute 1211 is provided with to match with projection 1202 The stopper slot 1212 of conjunction；As shown in figure 5, described positioning wedged block 1220 is provided with the projection 1221 being engaged with neck 1203. The cooperation of rotary porous plate 1200 and positioning seat 1210 is as shown in Figure 6.

It is additionally provided with described base 1100 and is provided with mobile station 1140, mobile station provided with guide rail 1130, guide rail 1130 1140 are provided with screw motor 1121, and the top of mobile station 1140 is fixed with screw rod 1120 through bearing, and screw rod 1120 fills through transmission Put and be connected with screw motor 1121, the lower section of mobile station 1140 is connected with screw mandrel 1150, and screw mandrel 1150 is connected with lead screw motor 1151。

As shown in figure 8, the both ends of described lifter plate 2240 are provided with assistant support 2260, assistant support 2260 is provided with chute 2261, the both ends of lifter plate 2240 are provided with the projection 2242 being engaged with chute 2261, and the top of assistant support 2260 is provided with second Motor 2270, the second motor 2270 are provided with flywheel 2271, and flywheel 2271 is connected through rope 2272 with lifter plate 2240；It is described The top of lifter plate 2240 be provided with tuning bar 2262, tuning bar 2262 is provided with tuning hole 2263, and described rope 2272 is worn Toning is to hole 2263.

As shown in figure 9, described neat device 2100 includes the second frame 2110, the second frame 2110 is provided with more biographies Roller 2120 is moved, is provided between live-roller 2120 and divides row code block 2130；The 3rd motor 2121 is provided with by the side of described frame 2210.

As shown in figure 12, panel 3143 is provided with described driving lever 3142, panel 3143 is provided with to match with driving lever 3142 The slideway 3144 of conjunction, and described slideway 3144 carries bending place 3145.

The described both ends of revolving drum 3100 are connected with hollow shaft 3200, and hollow shaft 3200 is located on spring bearing 3210, return The hollow shaft 3200 of the one end of rotating cylinder 3100 is connected with the first gas check 3220, and the first gas check 3220 is connected with admission line 3221, admission line 3221 is connected with source of the gas 3500；The hollow shaft 3200 of the other end of revolving drum 3100 is connected with the second airtight dress 3230 are put, the second gas check 3230 is connected with outlet pipe 3231；The described outer wall of revolving drum 3100 is provided with roller 3102, returns The top of rotating cylinder 3100 is provided with power transmission shaft 3300, and power transmission shaft 3300 is provided with the drive 3310 being engaged with roller 3102, institute The power transmission shaft 3300 stated is connected with motor 3320；The described lower section of revolving drum 3100 is provided with heater 3400.

The outside of described revolving drum 3100 is provided with the resistance to of cladding power transmission shaft 3300, revolving drum 3100 and heater 3400 Hot cover body 3600, the side that heat resistant hood 3600 is right against material slide 3101 are provided with feed hopper 3610 and discharging hopper 3620。

Described conveyer belt 4110 is provided with protecting wire net 4111 in the both sides of transporting direction, and the lower section of conveyer belt 4110 is provided with collection Dirt hopper 4130.

Operation principle：Material enters extrusion barrel 1110, band of the screw rod 1120 in screw motor 1121 from feed pipe 1111 Rotation can be connected between screw rod 1120 and screw motor 1121 by way of belt transmission under dynamic, it is defeated to the head of extrusion barrel 1110 Simultaneously pressing materials are sent, now valve 1112 is closed.

Lead screw motor 1151 drives screw mandrel 1150 to rotate, and screw mandrel 1150 drives mobile station 1140 in guide rail 1130 towards remote again The direction movement of extrusion barrel 1110.Thus, shape between the head of screw rod 1120 in mobile station 1140 and the head of extrusion barrel 1110 Into certain space material.Screw rod 1120 continues rotation pressing materials, makes in combination with heater 1113 in material Bubble overflows, and makes material finer and close.

During extrusion, valve 1112 is opened, and screw rod 1120 rotates extruded material, while in lead screw motor 1151, leading screw 1150 Under drive with mobile station 1140, screw rod 1120 moves to close to the direction of extrusion barrel 1110, forms further squeezing effect. Material forms the strip semi-finished product of certain diameter by the hole group on rotary porous plate 1200.

When needing to change the diameter of production product, positioning wedged block 1220 is removed first, is rotated further by rotary porous plate 1200. Rotary porous plate 1200 is provided with projection 1202, and projection 1202 and hole group 1201 correspond and be distributed in rotary porous plate The both sides in the center of circle, the lower section of projection 1202 are provided with neck 1203.Chute 1211 on projection 1202 and positioning seat 1210 and spacing Groove 1212 is engaged, and the width of chute 1211 is slightly less than stopper slot 1212.When the projection 1202 of the rotary bottom of porous plate 1200 When slipping into stopper slot 1212, illustrate that the hole group 1201 on the rotary top of porous plate 1200 corresponding with the projection 1202 has been gone to Target location, thus complete the Primary Location of hole group 1201.Then positioning wedged block 1220 is slipped into rotary porous plate again 1200 lower sections, are entirely limited rotary porous plate 1200 by the cooperation of projection 1221 and neck 1203, it is not rotated.

Carbon molecules grating falls on neat device 2100, and under the drive of the 3rd motor 2121, live-roller 2120 divides carbon Sub- grating forwards transportation, after undue row code block 2130, carbon molecules grating just breaks platform with more neat posture entrance 2200。

Under the drive of the first motor 2221, carbon molecules grating is continued forwards transportation until it rides over by feeding roller group 2220 In lower platform body 2230.Then the flywheel driven 2271 of the second motor 2270 rotates, then is driven by rope 2272 on lifter plate 2240 Lower motion.The spacing cooperation by projection 2242 and chute 2261 of lifter plate 2240 is realized.When lifter plate 2240 falls, Upper platform body 2241 on lifter plate 2240 forms the structure of a shearing with lower platform body 2230, will by the deadweight of lifter plate 2240 Carbon molecules grating interrupts, and the length for being molded carbon molecular sieve is the interval width between lower platform body 2230 and lower platform body 2230 itself Width and lower platform body 2230 between interval width it is consistent, the shaping carbon molecular sieve size of such output is relatively same.Into Type carbon molecular sieve falls into discharging supporting plate 2250 and flows to activation furnace 3000.

The position of revolving drum 3100 is adjusted, material slide 3101 is in top and feed hopper 3610 relatively, opens thing Expect slide 3101, fed into revolving drum 3100.It is molded after the completion of carbon molecular sieve is fed and closes material slide 3101, begins to warm up Activation procedure.(hypothetically stretching helical guideway 3110, fixed block 3120 and sliding shoe 3130) is as shown in figure 13, true before heating Protect driving lever 3142 and be in released position, be i.e. sliding shoe 3130 is in retracted position, sliding shoe 3130 and fixed block 3120 not shape Into complete flight.

During heating, hollow shaft of the protective gas through left side in the first gas check 3220 and figure of the conveying of source of the gas 3500 3200 enter revolving drum, then the hollow shaft 3200 through right side in figure is discharged from outlet pipe 3231.

Motor 3400 drives rotary shaft 3300 to rotate by Chain conveyer, and rotary shaft 3300 is again through drive 3310 and roller 3102 cooperation drives revolving drum rotation.

After activation terminates, the bending place 3145 that driving lever 3142 is pushed to slideway 3144 locks, and driving lever 3142 drives steel wire rope 3140, steel wire rope 3140 drives sliding shoe 3130 to slide, and sliding shoe 3130 and fixed block 3120 form complete flight, such as schemes (hypothetically helical guideway 3110, fixed block 3120 and sliding shoe 3130 are stretched) shown in 14 and Figure 15.Open material slide 3101, revolving drum 3100 is rotated, finished product carbon molecular sieve skids off under the guiding of above-mentioned flight from discharging hopper 3620.

Finished product carbon molecular sieve falls on conveyer belt 4110 through the second feed hopper 4121 on cover body 4120 and transported forward It is defeated.Meanwhile blower fan 4220 blasts air, after drying device 4230 and heater 4240, the drying hot-air of formation Conveyer belt 4110 is blowed to through air supply duct 4200 and valve 4210.Thus, before carbon molecular sieve is admitted to pail pack 4300 always It is enclosed in dry air, the phenomenon of moisture absorption is significantly reduced.

In addition, air blowing can also remove caused carbon molecular sieve chip in preceding manufacturing procedure, the mistake through protecting wire net 4111 Filter, complete finished product carbon molecular sieve are retained on conveyer belt 4110, and chip falls into dust hopper 4130.

Claims (9)

1. carbon molecular sieve production system, it is characterised in that：Including set gradually extrusion device (1000), break device (2000), activation furnace (3000) and conveying device (4000)；

Described extrusion device includes base (1100), and base (1100) is provided with extrusion barrel (1110), and extrusion barrel (1110) is interior Provided with a screw rod (1120), the afterbody of extrusion barrel (1110) is provided with feed pipe (1111), and the head of extrusion barrel (1110) is set There is rotary porous plate (1200), valve (1112) is provided between extrusion barrel (1110) and rotary porous plate (1200)；It is described Rotary porous plate (1200) on be evenly distributed with the different hole group (1201) in multiple apertures, and rotary porous plate (1200) Rotated seat (1204) is fixed on base (1100)；

The described device (2000) that breaks includes the neat device (2100) that sets gradually and breaks platform (2200)；Described breaks Platform (2200) includes frame (2210), and frame (2210) is provided with feeding roller group (2220), and feeding roller group (2220) is connected with First motor (2221)；Spaced lower platform body (2230), lower platform body are provided with by the side of the feeding roller group (2220) (2230) top is provided with lifter plate (2240), and the lower surface of lifter plate (2240) is provided with appears on the stage with what lower platform body (2230) coordinated Body (2241)；Described lower platform body (2230) is provided with the positioning code block (2231) being uniformly arranged；Described lower platform body (2230) Lower section be provided with discharging supporting plate (2250)；

Described activation furnace includes revolving drum (3100), and revolving drum (3100) inwall is provided with helical guideway (3110), and spiral is led Multiple fixed blocks (3120) are interval with rail (3110), corresponding sliding shoe is provided with by each fixed block (3120) side (3130)；Described fixed block (3120) is provided with groove (3121), and sliding shoe (3130) is provided with what is be engaged with groove (3121) Projection (3131)；Described sliding shoe (3130) is connected with steel wire rope (3140), and one end of steel wire rope (3140) is connected with reset Spring (3141), the other end of steel wire rope (3140) are provided with driving lever (3142), described back-moving spring (3141) and driving lever (3142) both ends of revolving drum (3100) are separately positioned on；On revolving drum (3100) end face where described driving lever (3142) also Provided with material slide (3101)；

Described conveying device includes support frame (4100), and support frame (4100) is provided with conveyer belt (4110), conveyer belt (4110) top is provided with air supply duct (4200), and air supply duct (4200) is provided with valve (4210), air supply duct (4200) On pipeline blower fan (4220), drying device (4230) and heater (4240) are sequentially provided with along airflow direction；Described send The top of wind pipeline (4200) is provided with cover body (4120), and cover body (4120) is provided with the second feed hopper in the initiating terminal of transporting direction (4121)；The end of the transporting direction of described conveyer belt (4110) is provided with pail pack (4300).

2. carbon molecular sieve production system according to claim 1, it is characterised in that：Described rotary porous plate (1200) Lower section be provided with positioning seat (1210) and positioning wedged block (1220)；End of the rotary porous plate (1200) towards positioning seat (1210) The projection (1202) corresponding with hole group (1201) is additionally provided with face, neck (1203) is provided with below projection (1202)；Described Positioning seat (1210) is provided with chute (1211), and chute (1211) is provided with the stopper slot being engaged with projection (1202) (1212)；Described positioning wedged block (1220) is provided with the projection (1221) being engaged with neck (1203).

3. carbon molecular sieve production system according to claim 1, it is characterised in that：It is additionally provided with described base (1100) Provided with guide rail (1130), guide rail (1130) is provided with mobile station (1140), and mobile station (1140) is provided with screw motor (1121), The top of mobile station (1140) is fixed with screw rod (1120) through bearing, and screw rod (1120) is through transmission device and screw motor (1121) It is connected, screw mandrel (1150) is connected with below mobile station (1140), screw mandrel (1150) is connected with lead screw motor (1151).

4. carbon molecular sieve production system according to claim 1, it is characterised in that：The both ends of described lifter plate (2240) Provided with assistant support (2260), assistant support (2260) is provided with chute (2261), and the both ends of lifter plate (2240) are provided with and chute (2261) projection (2242) being engaged, the top of assistant support (2260) are provided with the second motor (2270), the second motor (2270) Flywheel (2271) is provided with, flywheel (2271) is connected through rope (2272) with lifter plate (2240)；Described lifter plate (2240) top is provided with tuning bar (2262), and tuning bar (2262) is provided with tuning hole (2263), described rope (2272) Through tuning hole (2263).

5. carbon molecular sieve production system according to claim 1, it is characterised in that：Described neat device (2100) includes Second frame (2110), the second frame (2110) are provided with more live-rollers (2120), a point row are provided between live-roller (2120) Code block (2130)；The 3rd motor (2121) is provided with by the side of described frame (2210).

6. carbon molecular sieve production system according to claim 1, it is characterised in that：Described driving lever (3142) place is provided with face Plate (3143), panel (3143) are provided with the slideway (3144) being engaged with driving lever (3142), and described slideway (3144) band There is bending place (3145).

7. carbon molecular sieve production system according to claim 1, it is characterised in that：Described revolving drum (3100) both ends connect Hollow shaft (3200) is connected to, hollow shaft (3200) is located on spring bearing (3210), the hollow shaft of revolving drum (3100) one end (3200) the first gas check (3220) is connected with, the first gas check (3220) is connected with admission line (3221), air inlet pipe Road (3221) is connected with source of the gas (3500)；The hollow shaft (3200) of revolving drum (3100) other end is connected with the second gas check (3230), the second gas check (3230) is connected with outlet pipe (3231)；Described revolving drum (3100) outer wall is provided with roller (3102), the top of revolving drum (3100) is provided with power transmission shaft (3300), and power transmission shaft (3300) is provided with to match with roller (3102) The drive (3310) of conjunction, described power transmission shaft (3300) are connected with motor (3320)；Set below described revolving drum (3100) There is heater (3400).

8. carbon molecular sieve production system according to claim 7, it is characterised in that：The outside of described revolving drum (3100) Heat resistant hood (3600) provided with cladding power transmission shaft (3300), revolving drum (3100) and heater (3400), heat resistant hood (3600) side for being right against material slide (3101) is provided with feed hopper (3610) and discharging hopper (3620).

9. carbon molecular sieve production system according to claim 1, it is characterised in that：Described conveyer belt (4110) is transporting The both sides in direction are provided with protecting wire net (4111), and the lower section of conveyer belt (4110) is provided with dust hopper (4130).