CN215389335U - Active carbon desorption regenerating unit - Google Patents

Abstract

The utility model relates to the technical field of activated carbon regeneration treatment, in particular to an activated carbon desorption regeneration device which can improve the desorption uniformity of activated carbon particles, improve the desorption effect, shorten the consumed time and improve the practicability; including desorption case, the toper fill, the heating bucket, the heater, communicating pipe, the swinging pipe, first motor, first speed reducer, the transmission shaft, first bevel gear and second bevel gear, desorption roof portion is provided with sealed lid, and the intercommunication is provided with the blast pipe on desorption case, desorption bottom of the case portion is provided with the multiunit support, the toper is fought and is installed at desorption incasement portion, the heating bucket passes through the mounting bracket and sets up in the desorption case outside, the intercommunication is provided with the liquid feeding pipe on the heating bucket, and be provided with the ooff valve on the liquid feeding pipe, first speed reducer is installed on desorption case outer wall, the transmission shaft is connected with first bevel gear, swinging pipe and communicating pipe rotatable coupling, second bevel gear suit is fixed to the swinging pipe, second bevel gear and first bevel gear meshing.

Description

Active carbon desorption regenerating unit

Technical Field

The utility model relates to the technical field of activated carbon regeneration treatment, in particular to an activated carbon desorption and regeneration device.

Background

As is well known, activated carbon is widely used in the fields of environmental protection, industry and civilian use, and has achieved considerable effect, the use of activated carbon adsorption is a physical process, and the activated carbon needs to be replaced after being saturated in adsorption, in order to improve the use efficiency of the activated carbon, high-temperature steam can be adopted to desorb impurities adsorbed in the used activated carbon, so that the used activated carbon recovers the original activity, and the purpose of repeated use is achieved, and the method has obvious economic benefit.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides the activated carbon desorption regeneration device which can improve the desorption uniformity of activated carbon particles, improve the desorption effect, shorten the consumed time and improve the practicability.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: an activated carbon desorption regeneration device comprises a desorption box, a conical hopper, a heating barrel, a heater, a communicating pipe, a rotating pipe, a first motor, a first speed reducer, a transmission shaft, a first conical gear and a second conical gear, wherein a desorption cavity is arranged in the desorption box, a feed opening is communicated and arranged at the top of the desorption box, a sealing cover is arranged at the top of the desorption box, an exhaust pipe is communicated and arranged on the desorption box, a plurality of groups of supports are arranged at the bottom of the desorption box, the conical hopper is arranged in the desorption box, a plurality of groups of through holes are arranged on the conical hopper, the heating barrel is arranged at the outer side of the desorption box through a mounting frame, a liquid feeding pipe is communicated and arranged on the liquid feeding pipe, the heater is arranged in the heating barrel, two ends of the communicating pipe are respectively communicated with the heating barrel and the bottom of the desorption box, and a check valve is arranged on the communicating pipe, the first motor is installed at the input end of the first speed reducer, the first speed reducer is installed on the outer wall of the desorption box, the transmission shaft penetrates through the desorption box and is connected with the output end of the first speed reducer, the transmission shaft is connected with the first bevel gear, the rotating pipe is rotatably connected with the communicating pipe, the second bevel gear is sleeved and fixed on the rotating pipe, and the second bevel gear is meshed with the first bevel gear.

The device comprises a first motor, a first speed reducer, a shaft coupling, a second speed reducer, a shaft coupling and an auger, wherein the first motor is arranged at the input end of the first speed reducer, the second speed reducer is arranged at the top of a sealing cover, the shaft coupling penetrates through the sealing cover and is connected with the output end of the second speed reducer, the auger is arranged at the bottom of the shaft coupling, and the auger is positioned inside a desorption box.

Specifically, still include holding ring and two sets of mounts, two sets of mounts both ends are connected with holding ring and desorption case outer wall respectively.

The desorption device comprises a desorption box, and is characterized by further comprising a liquid discharge pipe, wherein the liquid discharge pipe is communicated with the bottom of the desorption box, and a control valve is arranged on the liquid discharge pipe.

The desorption box comprises a desorption box body, and is characterized by comprising a conical guide plate and a plurality of groups of fixing rods, wherein the conical guide plate is located in the desorption box body, and two ends of the plurality of groups of fixing rods are respectively connected with the conical guide plate and the inner wall of the desorption box body.

Specifically, still include multiunit antiskid seat, multiunit antiskid seat is installed respectively in multiunit support bottom.

(III) advantageous effects

Compared with the prior art, the utility model provides an activated carbon desorption and regeneration device, which has the following beneficial effects: opening a sealing cover, adding activated carbon to be subjected to desorption treatment into a desorption box, conveniently limiting the activated carbon through a conical hopper, opening a switch valve, adding softened water into a heating barrel through a liquid adding pipe, closing the switch valve, electrifying and opening a heater, heating the water in the heating barrel through the heater to evaporate the water, introducing the evaporated water vapor into the desorption box through a communicating pipe, electrifying and starting a first motor, reducing the speed of power output by the first motor through a first speed reducer, driving a first conical gear and a second conical gear to rotate through a transmission shaft so as to drive a rotating pipe to rotate, discharging the steam added into the heating barrel along with the rotation of the rotating pipe, uniformly contacting with the activated carbon, thereby improving the desorption uniformity of activated carbon particles, improving the desorption effect, shortening the consumption time and improving the practicability, and removing impurities adsorbed in the activated carbon by the steam, and is discharged through the exhaust pipe.

Drawings

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

FIG. 2 is a schematic view of the desorption tank and its interior;

FIG. 3 is a schematic view of the heating barrel and heater in combination;

in the drawings, the reference numbers: 1. a desorption box; 2. a conical hopper; 3. a heating barrel; 4. a heater; 5. a communicating pipe; 6. rotating the tube; 7. a first motor; 8. a first speed reducer; 9. a drive shaft; 10. a first bevel gear; 11. a second bevel gear; 12. a sealing cover; 13. an exhaust pipe; 14. a support; 15. a mounting frame; 16. a liquid feeding pipe; 17. an on-off valve; 18. a second motor; 19. a second speed reducer; 20. a coupling; 21. a packing auger; 22. a positioning ring; 23. a fixed mount; 24. a liquid discharge pipe; 25. a conical deflector; 26. fixing the rod; 27. and (4) an anti-slip seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, an activated carbon desorption regeneration device comprises a desorption box 1, a conical hopper 2, a heating barrel 3, a heater 4, a communicating pipe 5, a rotating pipe 6, a first motor 7, a first speed reducer 8, a transmission shaft 9, a first conical gear 10 and a second conical gear 11, wherein a desorption cavity is arranged in the desorption box 1, a feed inlet is arranged at the top of the desorption box 1 in a communicating manner, a sealing cover 12 is arranged at the top of the desorption box 1, an exhaust pipe 13 is arranged on the desorption box 1 in a communicating manner, a plurality of groups of supports 14 are arranged at the bottom of the desorption box 1, the conical hopper 2 is arranged in the desorption box 1, a plurality of groups of through holes are arranged on the conical hopper 2, the heating barrel 3 is arranged at the outer side of the desorption box 1 through a mounting frame 15, a liquid feeding pipe 16 is arranged on the heating barrel 3 in a communicating manner, a switch valve 17 is arranged on the liquid feeding pipe 16, the heater 4 is arranged in the heating barrel 3, two ends of the communicating pipe 5 are respectively communicated with the heating barrel 3 and the bottom of the desorption box 1, a check valve is arranged on the communicating pipe 5, a first motor 7 is arranged at the input end of a first speed reducer 8, the first speed reducer 8 is arranged on the outer wall of the desorption box 1, a transmission shaft 9 penetrates through the desorption box 1 and is connected with the output end of the first speed reducer 8, the transmission shaft 9 is connected with a first bevel gear 10, the rotating pipe 6 is rotatably connected with the communicating pipe 5, a second bevel gear 11 is sleeved and fixed on the rotating pipe 6, the second bevel gear 11 is meshed with the first bevel gear 10, the device also comprises a second motor 18, a second speed reducer 19, a coupler 20 and an auger 21, the second motor 18 is arranged at the input end of the second speed reducer 19, the second speed reducer 19 is arranged at the top of the sealing cover 12, the coupler 20 penetrates through the sealing cover 12 and is connected with the output end of the second speed reducer 19, the auger 21 is arranged at the bottom of the coupler 20, the auger 21 is positioned in the desorption box 1, and also comprises a positioning ring 22 and two groups of fixing frames 23, two sets of mounts 23 both ends respectively with holding ring 22 and desorption case 1 outer wall connection, still include fluid-discharge tube 24, fluid-discharge tube 24 and desorption case 1 bottom intercommunication, and be provided with the control valve on fluid-discharge tube 24, still include toper guide plate 25 and multiunit dead lever 26, toper guide plate 25 is located desorption case 1, multiunit dead lever 26 both ends respectively with toper guide plate 25 with detach 1 interior wall connection of case, still include multiunit antiskid seat 27, multiunit antiskid seat 27 is installed respectively in multiunit support 14 bottom.

The utility model relates to an activated carbon desorption regeneration device, which can enhance the friction force between a plurality of groups of brackets 14 and contact surfaces through a plurality of groups of anti-skid seats 27, reduce the integral displacement and improve the integral stability, when in use, a sealing cover 12 is opened, the activated carbon required to be desorbed is added into a desorption box 1, the activated carbon is conveniently limited through a conical hopper 2, a switch valve 17 is opened, softened water is added into a heating barrel 3 through a liquid adding pipe 16, the switch valve 17 is closed, a heater 4 is electrified and opened, the water in the heating barrel 3 is heated by the heater 4 to be evaporated, the evaporated water vapor is introduced into the desorption box 1 through a communicating pipe 5, a first motor 7 is electrified and started, the power output by the first motor 7 is reduced through a first speed reducer 8, and then a first conical gear 10 and a second conical gear 11 are driven to rotate through a transmission shaft 9, thereby driving the rotary pipe 6 to rotate, steam generated by heating in the heating barrel 3 is discharged along with the rotation of the rotary pipe 6, and is uniformly contacted with the active carbon, and the second motor 18 is electrified to start, the power output by the second motor 18 is reduced by the second speed reducer 19, then the shaft coupling 20 drives the auger 21 to rotate, thereby the active carbon can be conveniently stirred, further the desorption uniformity of the active carbon particles can be improved, the desorption effect is improved, the time consumption is shortened, the practicability is improved, the steam removes the impurities adsorbed in the active carbon and is discharged through the exhaust pipe 13, in the desorption process, if partial steam is condensed and drips, the direct dripping of the partial steam to the conical gear meshing part can be reduced through the guide plate, the control is periodically opened, the condensed water is discharged through the drain pipe 24, when the desorbed active carbon needs to be taken out, the sealing cover 12 is opened, and the auger 21 passes through the positioning ring 22, the sealing cap 12 is placed on the positioning ring 22 to facilitate supporting and placing the sealing cap 12 for removal of the activated carbon.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The active carbon desorption regeneration device is characterized by comprising a desorption box (1), a conical hopper (2), a heating barrel (3), a heater (4), a communication pipe (5), a rotating pipe (6), a first motor (7), a first speed reducer (8), a transmission shaft (9), a first conical gear (10) and a second conical gear (11), wherein a desorption cavity is arranged in the desorption box (1), a feeding port is communicated and arranged at the top of the desorption box (1), a sealing cover (12) is arranged at the top of the desorption box (1), an exhaust pipe (13) is communicated and arranged on the desorption box (1), a plurality of groups of supports (14) are arranged at the bottom of the desorption box (1), the conical hopper (2) is arranged in the desorption box (1), a plurality of groups of through holes are arranged on the conical hopper (2), the heating barrel (3) is arranged at the outer side of the desorption box (1) through a mounting frame (15), a liquid feeding pipe (16) is communicated with the heating barrel (3), a switch valve (17) is arranged on the liquid feeding pipe (16), the heater (4) is arranged in the heating barrel (3), two ends of the communicating pipe (5) are respectively communicated with the heating barrel (3) and the bottom of the desorption box (1), a check valve is arranged on the communicating pipe (5), the first motor (7) is arranged at the input end of the first speed reducer (8), the first speed reducer (8) is arranged on the outer wall of the desorption box (1), the transmission shaft (9) passes through the desorption box (1) and is connected with the output end of the first speed reducer (8), and the transmission shaft (9) is connected with the first bevel gear (10), the rotating pipe (6) is rotatably connected with the communicating pipe (5), the second bevel gear (11) is sleeved and fixed on the rotating pipe (6), and the second bevel gear (11) is meshed with the first bevel gear (10).

2. The activated carbon desorption regeneration device of claim 1, further comprising a second motor (18), a second speed reducer (19), a coupler (20) and an auger (21), wherein the second motor (18) is installed at an input end of the second speed reducer (19), the second speed reducer (19) is installed at the top of the sealing cover (12), the coupler (20) penetrates through the sealing cover (12) and is connected with an output end of the second speed reducer (19), the auger (21) is installed at the bottom of the coupler (20), and the auger (21) is located inside the desorption box (1).

3. The activated carbon desorption regeneration device according to claim 2, further comprising a positioning ring (22) and two sets of fixing frames (23), wherein two ends of the two sets of fixing frames (23) are respectively connected with the positioning ring (22) and the outer wall of the desorption box (1).

4. The activated carbon desorption regeneration device according to claim 3, further comprising a drain pipe (24), wherein the drain pipe (24) is communicated with the bottom of the desorption box (1), and a control valve is arranged on the drain pipe (24).

5. The activated carbon desorption regeneration device according to claim 4, further comprising a conical guide plate (25) and a plurality of groups of fixing rods (26), wherein the conical guide plate (25) is located in the desorption box (1), and two ends of the plurality of groups of fixing rods (26) are respectively connected with the conical guide plate (25) and the inner wall of the desorption box (1).

6. The activated carbon desorption regeneration device according to claim 5, further comprising a plurality of sets of anti-slip seats (27), wherein the plurality of sets of anti-slip seats (27) are respectively installed at the bottom ends of the plurality of sets of brackets (14).

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