CN209173943U - A kind of active carbon in-place regeneration device - Google Patents
A kind of active carbon in-place regeneration device Download PDFInfo
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- CN209173943U CN209173943U CN201821945479.6U CN201821945479U CN209173943U CN 209173943 U CN209173943 U CN 209173943U CN 201821945479 U CN201821945479 U CN 201821945479U CN 209173943 U CN209173943 U CN 209173943U
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- stainless steel
- room
- fixedly connected
- steel heating
- rectangular stainless
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Abstract
The utility model relates to active carbon regenerating technology fields, especially a kind of active carbon in-place regeneration device, room is heated including rectangular stainless steel, rectangular stainless steel heating chamber interior walls are equipped with copper cylindricality liner, solid spindle is fixedly connected in the middle part of the copper cylindricality liner one side, input and output material pipeline is fixedly connected in the middle part of copper cylindricality liner another side, the solid spindle top is fixed with driven wheel, the rectangular stainless steel heating ceiling Middle face side is fixed with rotary electric machine, driving wheel is fixed on the output shaft of the rotary electric machine, the driving wheel and driven wheel are connected with driving belt jointly, the rotary electric machine side is equipped with air-heater, the air-heater air outlet is fixedly connected with blast pipe, shedding mechanism is equipped with below the rectangular stainless steel heating room.The utility model can be such that saturated activity charcoal is heated evenly when regenerating, and the adsorption capacity after saturated activity charcoal can be made to regenerate is strong.
Description
Technical field
The utility model relates to active carbon regenerating technology field more particularly to a kind of active carbon in-place regeneration devices.
Background technique
The regeneration of active carbon is exactly with either physically or chemically under the premise of not destroying its original structure, removal is adsorbed in
The adsorbate of activated carbon capillary restores its absorption property, so as to the process of reuse.
Multi-purpose hot recycling method makes to restore its absorption property, hot recycling method active carbon high-temp when the general regeneration for carrying out active carbon
Thermal regeneration method is to be heat-treated by heating to carbon leaching material, carbonizes the organic matter of activated carbon adsorption at high temperature and divides
Solution eventually becomes gas evolution, so that active carbon be made to be regenerated, high-temperature thermal regeneration is removing the same of the organic matter of charcoal absorption
When, the inorganic salts for being deposited on carbon surface can also be removed, and generate the new micropore of charcoal, obtain the activity of charcoal basic extensive
Again, the case where being easy to appear uneven heating when heating to saturated activity charcoal causes the recovery of saturated activity charcoal to be not thorough, influences
It recycles.
Utility model content
Purpose of the utility model is to solve exist in the prior art saturated activity charcoal heating when uneven heating lack
Point, and a kind of active carbon in-place regeneration device proposed.
To achieve the goals above, the utility model adopts the technical scheme that
A kind of active carbon in-place regeneration device is designed, including rectangular stainless steel heats room, the rectangular stainless steel heats room
Through there is the bearing being firmly connected with it in the middle part of two sidewalls, rectangular stainless steel heating chamber interior walls level is equipped in copper cylindricality
Gallbladder, the copper cylindricality liner one side middle part are fixedly connected with the solid spindle being fixedly connected with bearing, copper cylindricality liner
It is fixedly connected in the middle part of another side and its internal input and output material pipeline, input and output material pipeline top is fixedly connected with and be connected to bearing
Portion is threaded with sealing cover, and the sealing cover side is equipped with the off-gas outlet being located on input and output material pipeline, described solid
Shaft top is fixed with driven wheel, and the rectangular stainless steel heating ceiling Middle face side is fixed with rotary electric machine, the rotation
Driving wheel is fixed on the output shaft of motor, the driving wheel and driven wheel are connected with driving belt, the rotary electric machine jointly
Side is equipped with the air-heater being fixedly connected with shape stainless steel heating ceiling face, and the air-heater air outlet is fixedly connected with connection side
The blast pipe of shape stainless steel heating chamber, air-heater air inlet are fixedly connected with rectangular energy saving room, the rectangular energy saving room bottom
Portion is equipped with the air port that recycles for being connected to rectangular stainless steel heating chamber, and rectangular energy conservation room side is equipped with small-sized air inlet, described
Rectangular stainless steel heating is equipped with shedding mechanism below room.
Preferably, the shedding mechanism includes the first support baseboard, first support baseboard top surface and rectangular stainless steel
Bottom of heating chamber is fixedly connected, and the first support baseboard is arranged right below the second support baseboard, second support baseboard top surface one
Side both ends are fixedly connected to the support rod at top with the rotation connection of the first support baseboard, and the support rod side, which is equipped with, is located at the
Sliding slot in the middle part of one support baseboard bottom surface, the sliding slot internal slide are connected with sliding block, the slider bottom be rotatably connected to
The hydraulic telescopic rod that second support baseboard top surface is fixedly connected.
Preferably, asbestos insulating layer is respectively and fixedly provided in the rectangular stainless steel heating chamber interior walls.
Preferably, the side of the copper cylindricality liner is equipped with guide inclined-plane.
The utility model proposes a kind of active carbon in-place regeneration device, beneficial effect is:
1, it drives the copper cylindricality liner equipped with saturated activity charcoal to rotate by rotary electric machine, can make in copper cylindricality liner
Saturated activity charcoal rectangular stainless steel heat heating indoor when be heated evenly, so that active carbon is regenerated to greatest extent;
2, by rectangular stainless steel heat room bottom be arranged shedding mechanism be convenient for copper cylindricality liner carry out feeding and
Discharging.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of active carbon in-place regeneration device cross-sectional view;
Fig. 2 be the utility model proposes a kind of active carbon in-place regeneration device left view.
In figure: rectangular stainless steel heating room 1, bearing 2, copper cylindricality liner 3, solid spindle 4, input and output material pipeline 5, sealing
Lid 6, off-gas outlet 7, driven wheel 8, rotary electric machine 9, driving wheel 10, driving belt 11, air-heater 12, blast pipe 13, side
Shape energy conservation room 14, recycle air port 15, small-sized air inlet 16, the first support baseboard 17, the second support baseboard 18, support rod 19,
Sliding slot 20, sliding block 21, hydraulic telescopic rod 22, asbestos insulating layer 23, guide inclined-plane 24.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-2, a kind of active carbon in-place regeneration device, including rectangular stainless steel heat room 1, rectangular stainless steel heating
It is respectively and fixedly provided with asbestos insulating layer 23 on 1 inner wall of room, runs through in the middle part of rectangular stainless steel heating 1 two sidewalls of room and is firmly connected with it
Bearing 2, rectangular stainless steel heating 1 inner wall level of room is equipped with copper cylindricality liner 3, and the side of copper cylindricality liner 3, which is equipped with, leads
Expect inclined-plane 24, to be fixedly connected with the solid spindle 4 being fixedly connected with bearing 2, copper cylindricality in the middle part of 3 one side of copper cylindricality liner
It is fixedly connected in the middle part of 3 another side of liner and its internal input and output material pipeline 5, feed and exhaust tube is fixedly connected with and be connected to bearing 2
5 screw top of road is connected with sealing cover 6, and 6 side of sealing cover is equipped with the off-gas outlet 7 being located on input and output material pipeline 5, solid
4 top of shaft is fixed with driven wheel 8, and side is fixed with rotary electric machine 9, rotary electric machine 9 in the middle part of rectangular stainless steel heating 1 top surface of room
Output shaft on be fixed with driving wheel 10, driving wheel 10 and driven wheel 8 are connected with driving belt 11,9 side of rotary electric machine jointly
Equipped with the air-heater 12 being fixedly connected with shape stainless steel heating 1 top surface of room, it is rectangular that 12 air outlet of air-heater is fixedly connected with connection
Stainless steel heats the blast pipe 13 inside room 1, and 12 air inlet of air-heater is fixedly connected with rectangular energy saving room 14, rectangular energy conservation room 14
Bottom, which is equipped with to be connected to inside rectangular stainless steel heating room 1, recycles air port 15, and rectangular energy conservation 14 side of room is equipped with small-sized air inlet
Mouth 16.When carrying out active carbon in-place regeneration, sealing cover 6 is first opened, is thrown in copper cylindricality liner 3 by input and output material pipeline 5
Enter suitable saturated activity charcoal, sealed up input and output material pipeline 5 with sealing cover 6 after feeding intake, then successively opens air-heater 12
With rotary electric machine 9, after opening air-heater 12, air-heater 12 sucks Cryogenic air out of rectangular energy saving room 14, to Cryogenic air plus
After heat, rectangular stainless steel heating room 1 is entered by blast pipe 13, copper cylindricality liner 3 is heated, the heat that temperature is lower is empty
Gas is heated up by recycling in the rectangular energy saving room 14 of the entrance of air port 15 by air-heater 12 again, prevents temperature by rectangular energy saving room 14
It spends the hot-air being lower to be directly entered in atmosphere and waste of energy, opens rotary electric machine 9, rotary electric machine 9 drives 10 turns of driving wheel
Dynamic, driving wheel 10 drives driven wheel 8 to rotate by driving belt 11, so that driven wheel 8 drives copper cylindricality liner 3 to rotate, from
And uniform stirring can be carried out to the saturated activity charcoal in copper cylindricality liner 3, it is heated evenly saturated activity charcoal, so that saturation is lived
Property charcoal regeneration it is more thorough.
Shedding mechanism is equipped with below rectangular stainless steel heating room 1, shedding mechanism includes the first support baseboard 17, the first support
17 top surface of bottom plate is fixedly connected with rectangular stainless steel heating 1 bottom surface of room, and the first support baseboard 17 is arranged right below the second support bottom
Plate 18,18 top surface side both ends of the second support baseboard are fixedly connected to the support at top with the rotation connection of the first support baseboard 17
Bar 19,19 side of support rod are equipped with the sliding slot 20 being located in the middle part of 17 bottom surface of the first support baseboard, and 20 internal slide of sliding slot is connected with
Sliding block 21,21 lower rotation of sliding block are connected with the hydraulic telescopic rod 22 being fixedly connected with 18 top surface of the second support baseboard.Work as needs
When discharging, control hydraulic telescopic rod 22 extends, then sliding block 21 20 can slide along the chute, to make 17 one end liter of the first support baseboard
Height so can be easily removed regenerated active carbon by guide inclined-plane 24 to keep copper cylindricality liner 3 inclined.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (4)
1. a kind of active carbon in-place regeneration device, including rectangular stainless steel heating room (1), it is characterised in that: described rectangular stainless
Through there is the bearing (2) being firmly connected with it in the middle part of steel heating room (1) two sidewalls, rectangular stainless steel heats room (1) inner wall water
It is flat to be equipped with copper cylindricality liner (3), it is fixedly connected in the middle part of copper cylindricality liner (3) one side and bearing (2) is fixed and connected
The solid spindle (4) connect, copper cylindricality liner (3) another side middle part, which is fixedly connected with, to be fixedly connected and is connected to bearing (2)
Its internal input and output material pipeline (5), input and output material pipeline (5) screw top are connected with sealing cover (6), the sealing cover (6)
Side is equipped with the off-gas being located on input and output material pipeline (5) and exports (7), and solid spindle (4) top is fixed with driven wheel
(8), side is fixed with rotary electric machine (9) in the middle part of rectangular stainless steel heating room (1) top surface, the rotary electric machine (9) it is defeated
It being fixed on shaft driving wheel (10), the driving wheel (10) and driven wheel (8) are connected with driving belt (11) jointly, and described turn
Dynamic motor (9) side is equipped with the air-heater (12) being fixedly connected with shape stainless steel heating room (1) top surface, and the air-heater (12) goes out
Air port, which is fixedly connected with, is connected to the internal blast pipe (13) of rectangular stainless steel heating room (1), and air-heater (12) air inlet is fixed to be connected
It is connected to rectangular energy saving room (14), rectangular stainless steel heating room (1) is internal to follow equipped with being connected to for rectangular energy saving room (14) bottom
Ring air outlet (15), rectangular energy conservation room (14) side are equipped with small-sized air inlet (16), below rectangular stainless steel heating room (1)
Equipped with shedding mechanism.
2. a kind of active carbon in-place regeneration device according to claim 1, it is characterised in that: the shedding mechanism includes the
One support baseboard (17), the first support baseboard (17) top surface are fixedly connected with rectangular stainless steel heating room (1) bottom surface, and first
Support baseboard (17) is arranged right below the second support baseboard (18), and the second support baseboard (18) top surface side both ends are fixed
It is connected with the support rod (19) at top with the first support baseboard (17) rotation connection, support rod (19) side, which is equipped with, is located at the
Sliding slot (20) in the middle part of one support baseboard (17) bottom surface, sliding slot (20) internal slide are connected with sliding block (21), the sliding block
(21) lower rotation is connected with the hydraulic telescopic rod (22) being fixedly connected with the second support baseboard (18) top surface.
3. a kind of active carbon in-place regeneration device according to claim 1, it is characterised in that: the rectangular stainless steel heating
Asbestos insulating layer (23) are respectively and fixedly provided on room (1) inner wall.
4. a kind of active carbon in-place regeneration device according to claim 1, it is characterised in that: the copper cylindricality liner
(3) side is equipped with guide inclined-plane (24).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821945479.6U CN209173943U (en) | 2018-11-24 | 2018-11-24 | A kind of active carbon in-place regeneration device |
Applications Claiming Priority (1)
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CN201821945479.6U CN209173943U (en) | 2018-11-24 | 2018-11-24 | A kind of active carbon in-place regeneration device |
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CN209173943U true CN209173943U (en) | 2019-07-30 |
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CN201821945479.6U Active CN209173943U (en) | 2018-11-24 | 2018-11-24 | A kind of active carbon in-place regeneration device |
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CN (1) | CN209173943U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112604656A (en) * | 2020-12-08 | 2021-04-06 | 中环国投(重庆)环保产业开发有限公司 | High-efficient useless active carbon regeneration environmental protection equipment |
-
2018
- 2018-11-24 CN CN201821945479.6U patent/CN209173943U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112604656A (en) * | 2020-12-08 | 2021-04-06 | 中环国投(重庆)环保产业开发有限公司 | High-efficient useless active carbon regeneration environmental protection equipment |
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