CN214514620U

CN214514620U - Active carbon sharing desorption regenerating unit

Info

Publication number: CN214514620U
Application number: CN202022955444.4U
Authority: CN
Inventors: 陈全涛
Original assignee: Shenzhen Super Environmental Protection Technology Co ltd
Current assignee: Shenzhen Super Environmental Protection Technology Co ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-10-29
Anticipated expiration: 2030-12-11

Abstract

The utility model belongs to the technical field of activated carbon regeneration, in particular to an activated carbon sharing desorption regeneration device, aiming at the problem that the adsorption sponge in the existing activated carbon desorption regeneration device can accumulate a large amount of moisture when in use, and is required to be replaced for a long time in order to reduce the moisture in hot gas, so that the use is inconvenient, and the production efficiency is difficult to be further improved, the scheme is provided, which comprises a first conveying device, a working box is arranged at the top of the first conveying device, a plurality of support rods are fixedly connected at the top of the working box, when the adsorption sponge in the activated carbon desorption regeneration device accumulates a large amount of moisture, the moisture contained in the activated carbon desorption regeneration device can be discharged only by rapidly rotating a hand wheel, and the activated carbon sharing desorption regeneration device can be reset to continuously adsorb the moisture in the hot gas without replacing the activated carbon sharing desorption regeneration device, simple and convenient to use, the effectual efficiency that has promoted processing.

Description

Active carbon sharing desorption regenerating unit

Technical Field

The utility model relates to an active carbon regeneration technical field especially relates to an active carbon sharing desorption regenerating unit.

Background

As is well known, an activated carbon desorption regeneration device is an auxiliary device for heating activated carbon with exhausted adsorption capacity so as to regenerate the activated carbon, so that resources are saved, and the device is widely used in material regeneration and utilization;

the patent document with publication number CN208786425U discloses an activated carbon desorption regeneration device, which comprises a base, a first conveying device, a second conveying device, a first bracket, a second bracket, a third bracket, a working box, a conveying pipe, a fan and an air outlet head, wherein the left end and the right end of the working cavity and the working box are respectively provided with an input port and an output port; the device also comprises a first adjusting piece, a first baffle, an auxiliary piece, a second adjusting piece and a second baffle, wherein the first baffle and the second baffle are respectively contacted with the left end and the right end of the working box; the air-out head is provided with a plurality of groups, the air-out head also comprises an adsorption box and a fixed frame, the fan is arranged at the top end of the fixed frame, and the bottom end of the adsorption box is communicated with a communicating pipe, so that the amount of steam output to the outside through an input port and an output port is reduced, the energy is saved, the use effect is enhanced, the contact effect between the activated carbon and the steam is enhanced, and the adsorption effect is improved; the moisture of input steam is reduced, and the use reliability is improved;

however, the adsorption sponge in the above patent document can accumulate a large amount of moisture when in use, and in order to reduce the moisture in the hot air, it needs to be replaced for a long time, so that it is inconvenient to use, and the production efficiency is difficult to further improve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the adsorption sponge in the current active carbon desorption regenerating unit and can save a large amount of moisture when using, in order to reduce the moisture in the steam, change it long just need for it uses comparatively inconveniently, leads to the shortcoming that its production efficiency is difficult to further promotion, and the active carbon sharing desorption regenerating unit who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an active carbon sharing desorption regeneration device comprises a first conveying device, wherein a working box is arranged at the top of the first conveying device, a plurality of supporting rods are fixedly connected at the top of the working box, the top of the supporting rods is fixedly connected with the same shell, a fan is arranged at the top of the shell, an output port of the fan is communicated with the top of the shell, a hot air pipe is connected onto an input port of the fan, a plurality of air holes are formed in the bottom of the shell, the top end of an air supply pipe is connected with the bottom of the shell, the bottom end of the air supply pipe is communicated with the top of the working box, the air supply pipe is matched with the air holes, a plurality of water holes are formed in the bottom of the shell, a drainage hopper is fixedly connected at the bottom of the shell and matched with the water holes, a baffle plate and an extrusion plate are slidably mounted in the shell, one side, close to each other, of the baffle plate and the extrusion plate is fixedly connected with the same sponge for adsorption, and the extrusion plate is slidably connected with the baffle plate, one side of casing is provided with the threaded sleeve, and the threaded rod is installed to the threaded sleeve internal thread, and the one end of threaded rod extends to in the casing and rotates with one side of stripper plate to be connected, and the other end of threaded rod extends to the outside and the fixedly connected with hand wheel of casing.

Preferably, first chutes are formed in the inner walls of the two sides of the shell, first sliding blocks are arranged in the two first chutes in a sliding mode, one sides of the two first sliding blocks are fixedly connected with the two sides of the extrusion plate respectively, and the first sliding blocks can move along the first chutes.

Preferably, the second chutes are formed in the top inner wall and the bottom inner wall of the shell, the second sliding blocks are arranged in the two second chutes in a sliding mode, one sides of the two second sliding blocks are fixedly connected with the top and the bottom of the baffle respectively, and the second sliding blocks can move along the second chutes.

Preferably, two slide holes are formed in the baffle, two slide rods are fixedly connected to the other side of the extrusion plate, the two slide rods penetrate through the two slide holes, two through holes are formed in the other side of the shell, the two through holes are matched with the two slide rods respectively, and the slide rods can penetrate through the through holes.

Preferably, the U-shaped clamping grooves are formed in the inner wall of one side of each of the two sliding holes, the spring grooves are formed in the two sliding rods, the U-shaped sliding blocks are arranged in the two spring grooves in a sliding mode, the two U-shaped sliding blocks are matched with the two U-shaped clamping grooves respectively, one ends of springs are fixedly connected to the inner wall of one side of the two U-shaped clamping grooves respectively, the other ends of the two springs are fixedly connected with one sides of the two U-shaped sliding blocks respectively, and the springs can drive the U-shaped sliding blocks to reset.

Compared with the prior art, the utility model has the advantages of:

(1) according to the scheme, the threaded rod is matched with the threaded sleeve, the extrusion plate and the baffle are matched with the adsorption sponge, so that when a large amount of moisture exists in the adsorption sponge, the adsorption sponge is not required to be replaced at the moment, the threaded rod only needs to be rotated through the hand wheel, the adsorption sponge can be firstly displaced from one side of the shell to the other side through the extrusion plate and the baffle at the moment, then the adsorption sponge is extruded through the extrusion plate and the baffle, the moisture contained in the adsorption sponge is extruded, and then the hand wheel is rapidly and reversely rotated, so that the adsorption sponge is simple and convenient to use, and the processing efficiency can be effectively improved;

(2) according to the scheme, the U-shaped clamping groove is matched with the U-shaped sliding block, and the spring is matched with the U-shaped sliding block, so that when the U-shaped clamping groove is embedded with the U-shaped sliding block, the U-shaped clamping groove and the U-shaped sliding block cannot be separated when sufficient external force is not available, the adsorption sponge can be displaced from one side of the shell to the other side of the shell by the extrusion plate and the baffle, and then the adsorption sponge is extruded by the extrusion plate and the baffle;

the utility model discloses an active carbon desorption regenerating unit when its inside absorption sponge has collected a large amount of moisture, only needs to rotate the moisture that the hand wheel can contain it fast this moment and discharges, and the hand wheel that reverses again can make it reset and continue to adsorb the moisture in the steam, need not change it, and is simple to use and convenient, the effectual efficiency that has promoted processing.

Drawings

Fig. 1 is a schematic structural diagram of an activated carbon shared desorption regeneration device provided by the present invention;

fig. 2 is a schematic view of a sectional structure of a housing of an activated carbon-sharing desorption regeneration device provided by the present invention;

fig. 3 is a schematic view of a connection structure between an extrusion plate and a baffle of an activated carbon shared desorption regeneration device provided by the present invention;

fig. 4 is a schematic view of a bottom view of a housing of an activated carbon-sharing desorption regeneration device according to the present invention;

fig. 5 is an enlarged schematic structural diagram of a point a in fig. 3 of an activated carbon-sharing desorption regeneration apparatus provided by the present invention.

In the figure: the device comprises a first conveying device 1, a working box 2, a supporting rod 3, a shell 4, a fan 5, a hot air pipe 6, an air hole 7, an air supply pipe 8, a water hole 9, a drainage hopper 10, a baffle 11, an extrusion plate 12, an adsorption sponge 13, a threaded sleeve 14, a threaded rod 15, a first sliding block 16, a second sliding block 17, a sliding rod 18, an opening 19, a U-shaped clamping groove 20, a U-shaped sliding block 21 and a spring 22.

Detailed Description

The technical solutions in the embodiments will be described clearly and completely with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments, but not all embodiments.

Example one

Referring to fig. 1-5, an activated carbon sharing desorption regeneration device comprises a first transmission device 1, a work box 2 is arranged at the top of the first transmission device 1, a plurality of support rods 3 are fixedly connected to the top of the work box 2, the same shell 4 is fixedly connected to the tops of the support rods 3, a fan 5 is arranged at the top of the shell 4, an output port of the fan 5 is communicated with the top of the shell 4, a hot air pipe 6 is connected to an input port of the fan 5, a plurality of air holes 7 are formed in the bottom of the shell 4, the bottom of the shell 4 is connected with the top end of an air supply pipe 8, the bottom end of the air supply pipe 8 is communicated with the top of the work box 2, the air supply pipe 8 is matched with the air holes 7, a plurality of water holes 9 are formed in the bottom of the shell 4, a drainage hopper 10 is fixedly connected to the bottom of the shell 4, the drainage hopper 10 is matched with the water holes 9, a baffle plate 11 and an extrusion plate 12 are slidably arranged in the shell 4, one side fixedly connected with that baffle 11 and stripper plate 12 are close to each other adsorbs sponge 13 the same,

stripper plate

12 and 11 sliding connection of baffle, and one side of casing 4 is provided with threaded sleeve 14, and threaded rod 15 is installed to threaded sleeve 14 internal thread, and threaded rod 15's one end extends to in the casing 4 and rotates with one side of stripper plate 12 to be connected, and threaded rod 15's the other end extends to the outside and the fixedly connected with hand wheel of casing 4.

In this embodiment, first chutes have been all seted up on the inner wall of the two sides of the housing 4, and first sliders 16 are all slidably mounted in the two first chutes, and one side of the two first sliders 16 is respectively fixedly connected with the two sides of the extrusion plate 12, and the first sliders 16 can be displaced along the first chutes.

In this embodiment, all seted up the second spout on the top inner wall of casing 4 and on the bottom inner wall, equal slidable mounting has second slider 17 in two second spouts, one side of two second sliders 17 respectively with the top and the bottom fixed connection of baffle 11, second slider 17 can be along the displacement of second spout.

In this embodiment, two sliding holes are formed in the baffle 11, two sliding rods 18 are fixedly connected to the other side of the extrusion plate 12, the two sliding rods 18 penetrate through the two sliding holes, two through openings 19 are formed in the other side of the casing 4, the two through openings 19 are respectively matched with the two sliding rods 18, and the sliding rods 18 can penetrate through the through openings 19.

In this embodiment, U-shaped draw-in groove 20 has all been seted up on one side inner wall of two slide openings, and spring slot has all been seted up on two slide bars 18, and equal slidable mounting has U-shaped slider 21 in two spring slots, and two U-shaped sliders 21 cooperate with two U-shaped draw-in grooves 20 respectively, the one end of equal fixedly connected with spring 22 on one side inner wall of two U-shaped draw-in grooves 20, the other end of two springs 22 respectively with one side fixed connection of two U-shaped sliders 21, spring 22 can drive U-shaped slider 21 and reset.

Example two

Referring to fig. 1-5, an activated carbon sharing desorption regeneration device comprises a first transmission device 1, a working box 2 is arranged at the top of the first transmission device 1, a plurality of support rods 3 are fixedly connected to the top of the working box 2 by welding, the top of the support rods 3 are fixedly connected to a same shell 4 by welding, a fan 5 is arranged at the top of the shell 4, an output port of the fan 5 is communicated with the top of the shell 4, a hot air pipe 6 is connected to an input port of the fan 5, a plurality of air holes 7 are formed at the bottom of the shell 4, the bottom of the shell 4 is connected to the top of an air supply pipe 8, the bottom of the air supply pipe 8 is communicated with the top of the working box 2, the air supply pipe 8 is matched with the air holes 7, a plurality of water holes 9 are formed at the bottom of the shell 4, a drainage hopper 10 is fixedly connected to the bottom of the shell 4 by welding, the drainage hopper 10 is matched with the water holes 9, a baffle plate 11 and an extrusion plate 12 are slidably arranged in the shell 4, one side fixedly connected with that baffle 11 and stripper plate 12 are close to each other adsorbs sponge 13 the same,

stripper plate

12 and 11 sliding connection of baffle, and one side of casing 4 is provided with threaded sleeve 14, and threaded rod 15 is installed to threaded sleeve 14 internal thread, and threaded rod 15's one end extends to in the casing 4 and rotates with one side of stripper plate 12 to be connected, and threaded rod 15's the other end extends to the outside of casing 4 and is connected with the hand wheel through welded fastening.

In this embodiment, first chutes have all been seted up on the inner wall of the two sides of the housing 4, and first sliders 16 are all slidably mounted in the two first chutes, and one side of the two first sliders 16 is respectively connected with the two sides of the extrusion plate 12 by welding, and the first sliders 16 can be displaced along the first chutes.

In this embodiment, all seted up the second spout on the top inner wall of casing 4 and on the bottom inner wall, equal slidable mounting has second slider 17 in two second spouts, and one side of two second sliders 17 passes through welded fastening with the top and the bottom of baffle 11 respectively and is connected, and second slider 17 can be along the displacement of second spout.

In this embodiment, two sliding holes are formed in the baffle 11, two sliding rods 18 are fixedly connected to the other side of the extrusion plate 12 through welding, the two sliding rods 18 penetrate through the two sliding holes, two through openings 19 are formed in the other side of the casing 4, the two through openings 19 are respectively matched with the two sliding rods 18, and the sliding rods 18 can penetrate through the through openings 19.

In this embodiment, U-shaped draw-in groove 20 has all been seted up on one side inner wall of two slide openings, the spring groove has all been seted up on two slide bars 18, equal slidable mounting has U-shaped slider 21 in two spring grooves, two U-shaped sliders 21 cooperate with two U-shaped draw-in grooves 20 respectively, all be connected with the one end of spring 22 through welded fastening on one side inner wall of two U-shaped draw-in grooves 20, welded fastening is connected through welded fastening with one side of two U-shaped sliders 21 respectively to the other end of two springs 22, spring 22 can drive U-shaped slider 21 and reset.

In this embodiment, during normal use, hot air enters the housing 4 from the hot air pipe 6, and is adsorbed by moisture in hot air of the adsorption sponge 13, and then dry hot air enters the working box 2 through the air hole 7 and the air supply pipe 8 to perform temperature rise desorption regeneration on activated carbon, when a large amount of moisture is adsorbed in the adsorption sponge 13, only the hand wheel needs to be rotated, the hand wheel drives the threaded rod 15 to rotate, the threaded rod 15 extends through the threaded sleeve 14, so that the threaded rod 15 drives one end to drive the extrusion plate 12 to displace, at this time, the U-shaped sliding block 21 is embedded with the U-shaped clamping groove 20, under the condition of no external force obstruction, the U-shaped sliding block 21 cannot be separated from the U-shaped clamping groove 20, therefore, the extrusion plate 12 can drive the baffle plate 11 to displace through the sliding rod 18, so that the extrusion plate 12 and the baffle plate 11 can displace the adsorption sponge 13 from one end of the housing 4 to the other end, until baffle 11 offsets with one side inner wall of casing 4, and slide bar 18 runs through opening 19 this moment, stripper plate 12 drives slide bar 18 displacement this moment, make slide bar 18 drive U-shaped slider 21 and U-shaped draw-in groove 20 break away from mutually, thereby make stripper plate 12 and baffle 11 will adsorb sponge 13 and extrude, make the moisture in the adsorption sponge 13 extruded, the moisture of extruding passes through water hole 9 and drain hopper 10 and discharges, then reverse rotation hand wheel again, make the adsorption sponge 13 reset can.

The above descriptions are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present invention, and the technical solutions and the utility model concepts of the present invention are equivalent to, replaced or changed.

Claims

1. The utility model provides an active carbon sharing desorption regenerating unit, including first conveyer (1), a serial communication port, the top of first conveyer (1) is provided with work box (2), the top fixedly connected with a plurality of bracing pieces (3) of work box (2), the top fixedly connected with same casing (4) of a plurality of bracing pieces (3), the top of casing (4) is provided with fan (5), the delivery outlet of fan (5) is linked together with the top of casing (4), be connected with hot-blast main (6) on the input port of fan (5), the bottom of casing (4) has been seted up a plurality of wind holes (7), the bottom of casing (4) is connected with the top of blast pipe (8), the bottom of blast pipe (8) is linked together with the top of work box (2), blast pipe (8) and wind hole (7) cooperate, the bottom of casing (4) has been seted up a plurality of water holes (9), the bottom fixedly connected with of casing (4) is fought (10) to drain, drain fill (10) cooperatees with water hole (9), slidable mounting has baffle (11) and stripper plate (12) in casing (4), one side fixedly connected with that baffle (11) and stripper plate (12) are close to each other adsorbs sponge (13), stripper plate (12) and baffle (11) sliding connection, one side of casing (4) is provided with threaded sleeve (14), threaded rod (15) are installed to threaded sleeve (14) internal thread, the one end of threaded rod (15) extends to in casing (4) and rotates with one side of stripper plate (12) to be connected, the other end of threaded rod (15) extends to the outside and the fixedly connected with hand wheel of casing (4).

2. The active carbon sharing desorption regeneration device according to claim 1, wherein the inner walls of the two sides of the housing (4) are respectively provided with a first sliding groove, the two first sliding grooves are respectively provided with a first sliding block (16) in a sliding manner, and one side of each of the two first sliding blocks (16) is respectively fixedly connected with the two sides of the extrusion plate (12).

3. The activated carbon sharing desorption regeneration device according to claim 1, wherein the top inner wall and the bottom inner wall of the housing (4) are respectively provided with a second sliding groove, the two second sliding grooves are respectively provided with a second sliding block (17) in a sliding manner, and one side of each of the two second sliding blocks (17) is respectively fixedly connected with the top and the bottom of the baffle (11).

4. The activated carbon shared desorption regeneration device according to claim 1, wherein the baffle (11) is provided with two sliding holes, the other side of the extrusion plate (12) is fixedly connected with two sliding rods (18), the two sliding rods (18) penetrate through the two sliding holes, the other side of the shell (4) is provided with two through holes (19), and the two through holes (19) are respectively matched with the two sliding rods (18).

5. The active carbon sharing desorption regeneration device according to claim 4, wherein the two slide holes are respectively provided with a U-shaped slot (20) on one side of the inner wall, the two slide bars (18) are respectively provided with a spring slot, the two spring slots are respectively and slidably provided with a U-shaped slider (21), the two U-shaped sliders (21) are respectively matched with the two U-shaped slots (20), one end of a spring (22) is fixedly connected to one side of the inner wall of each of the two U-shaped slots (20), and the other end of each of the two springs (22) is respectively and fixedly connected with one side of each of the two U-shaped sliders (21).