CN217829455U - Vertical activated carbon adsorption box - Google Patents

Abstract

The utility model relates to a vertical active carbon adsorption box, including outer container, frame, mesh structure board, first apron and second apron, be provided with air inlet end and air-out end on the outer container, frame both ends opening sets up, a plurality of frames are fixed to be set up in the outer container, and be located the air inlet end with between the air-out end, mesh structure board detachable sets up in the frame, two mesh structure boards set up relatively and form the charcoal chamber, and charcoal chamber quantity is unanimous with frame quantity, first apron activity sets up in the frame bottom, second apron activity sets up in the frame top, first apron, second apron quantity is unanimous with frame quantity, when using, can take off the second apron, directly pour the active carbon into the charcoal intracavity into from the outer container top, when changing, can take off first apron from the frame, the active carbon is discharged from charcoal chamber bottom, when mesh structure board needs to be changed, can directly take out mesh structure board from the frame and restore or renew, need not to scrap, the production resource of enterprise has been saved greatly.

Description

Vertical activated carbon adsorption box

Technical Field

The utility model belongs to the technical field of the activated carbon adsorption technique and specifically relates to indicate a vertical activated carbon adsorption case.

Background

In the production process of the industries such as pharmacy, chemical industry, printing and the like, along with the generation of a large amount of organic waste gas, the waste gas has the characteristics of flammability, explosiveness, toxicity, harmfulness, insolubility in water, high treatment difficulty and the like, the activated carbon adsorption method is an economic and reasonable waste gas treatment method, and the activated carbon adsorption box is a box body which is manufactured by the activated carbon adsorption method and is used for adsorbing the waste gas. The active carbon adsorption box structure is generally divided into a vertical type and a horizontal type, the horizontal type is generally a modular or drawer type carbon cavity, the carbon cavity is composed of mesh structure plates which are arranged oppositely, when the active carbon adsorption box structure is used, a small carbon cavity can be taken out, active carbon is filled outside, then the carbon cavity is filled into the active carbon adsorption box, the vertical type is a structure which is improved aiming at overlarge filling amount of the active carbon, the structure does not need to take out the mesh structure plates, the active carbon can be directly poured into the active carbon adsorption box from the upper part of the carbon cavity during filling, labor cost is greatly saved, for example, chinese patent with the publication number of CN212999208U discloses a vertical type active carbon adsorption box, the active carbon can be added from the upper end of a filtering mechanism and can be discharged from the lower end of the filtering mechanism during replacement, when the active carbon is replaced, a baffle plate at the lower side is opened, the active carbon can directly leak down, the active carbon is more convenient to discharge, although the advantage of the vertical type active carbon adsorption box is obvious, once the space structure plate is damaged in a long time, the space in the adsorption box structure plate is repaired, and the mesh structure plate can not be taken out, and the whole enterprise can not be wasted by the mesh structure, and the whole production cost can be increased.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem that the mesh structure board of overcoming vertical active carbon adsorption case among the prior art can't be dismantled and lead to the problem that the manufacturing cost of enterprise is high, consequently, it is necessary to provide a vertical active carbon adsorption case of removable mesh structure board.

In order to solve the technical problem, the utility model provides a vertical activated carbon adsorption box, include:

the outer box is of a hollow box structure, and is provided with an air inlet end and an air outlet end;

the two ends of the frame are provided with openings, the number of the frames is multiple, and the multiple frames are fixedly arranged in the outer box and positioned between the air inlet end and the air outlet end;

the mesh structure plates are detachably arranged in the frame, the two mesh structure plates are oppositely arranged to form carbon cavities, and the number of the carbon cavities is consistent with that of the frame;

the first cover plates are movably arranged at the bottom end of the frame, and the number of the first cover plates is consistent with that of the frame;

and the second cover plates are movably arranged at the top end of the frame, and the number of the second cover plates is consistent with that of the frame.

In an embodiment of the present invention, the fixing device further comprises a plurality of fixing rods, the fixing rods are disposed on the second cover plate and are connected to the outer container through adjusting bolts.

In an embodiment of the present invention, the frame further comprises a baffle disposed in the frame, and the two baffles are disposed opposite to each other.

The utility model discloses an in one embodiment, still include the limiting plate, its both sides are connected two respectively mesh structure board, and the card is located on the frame, the limiting plate with frame quantity is unanimous.

In an embodiment of the present invention, the bottom end of the frame is provided with a tapered feed opening, the first cover plate is movably disposed on the feed opening, and the number of the feed openings is consistent with the number of the frames.

In an embodiment of the present invention, the lower opening is provided with a limiting groove at the bottom end, and the first cover plate is slidably disposed in the limiting groove.

In an embodiment of the present invention, the container further comprises a protective guard surrounding the top end of the outer box.

The utility model discloses an in the embodiment, still include the supporting legs, the quantity of supporting legs is provided with a plurality ofly, and is a plurality of the supporting legs set up in the outer container bottom.

In an embodiment of the present invention, the outer container further comprises a staircase, which is disposed on one side of the outer container, and the height of the staircase is consistent with the height of the outer container.

In an embodiment of the present invention, the air inlet end and the air outlet end are flange structures.

Compared with the prior art, the technical scheme of the utility model have following advantage:

vertical active carbon adsorption case, through setting up air inlet end and air-out end on the outer container at cavity box structure, and set up a plurality of both ends open-ended frames in the outer incasement, again along the direction parallel arrangement mesh structure board of air inlet end and air-out end on the outer container in the frame, and this mesh structure board detachable sets up in the frame, two relative mesh structure board form can hold the charcoal chamber of active carbon, and the bottom and the top of frame activity respectively set up first apron and second apron, when using, can take off the second apron, directly pour the charcoal intracavity into from the outer container top with active carbon, when changing, can take off first apron from the frame, active carbon is discharged from charcoal chamber bottom, when mesh structure board needs to be changed, can directly take out mesh structure board from the frame and restore or renew, the outer container can also be used, need not to scrap, the production resource of enterprise has been saved greatly.

Drawings

In order to make the content of the invention more clearly understood, the invention will now be described in further detail with reference to specific embodiments thereof, in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic perspective view of a vertical activated carbon adsorption tank according to a preferred embodiment of the present invention;

fig. 2 is a top sectional view of the neutral activated carbon adsorption tank of fig. 1;

fig. 3 is a front sectional view of the neutral activated carbon adsorption tank of fig. 1;

FIG. 4 is a side cross-sectional view of the activated carbon adsorption tank of FIG. 1;

fig. 5 is a schematic view of a portion a of the neutral activated carbon adsorption box in fig. 4.

Description reference numbers indicate: 1. an outer box; 2. a frame; 3. a mesh structure plate; 4. a first cover plate; 5. a second cover plate; 6. a fixing rod; 7. adjusting the bolt; 8. a limiting plate; 9. a baffle plate; 11. an air inlet end; 12. an air outlet end; 13. a feed opening; 14. a limiting groove; 20. protecting the fence; 30. supporting legs; 40. An escalator.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

The utility model discloses an optimal embodiment of vertical active carbon adsorption tank.

Referring to fig. 1 to 5, a vertical activated carbon adsorption tank includes:

outer container 1, outer container 1 is the cavity box structure, be provided with air inlet end 11 and air-out end 12 on the outer container 1, air inlet end 11 sets up with air-out end 12 relatively, and air inlet end 11 and air-out end 12 are the flange structure, when adsorbing waste gas, the flange connection waste gas production device of the air inlet end 11 of usable outer container 1, utilize the flange connection next filter equipment of air-out end 12, make the organic waste gas that waste gas production device produced in the air inlet end 11 entering outer container 1 of outer container 1, discharge to next filter equipment from the air-out end 12 of outer container 1 after filtering the absorption again.

Frame 2, frame 2 are the cuboid structure of being built by a plurality of branches and forming, and 2 both ends openings of frame set up, and there are many fretworks frame 2 side, can not obstruct the production of passing through of waste gas, and 2 quantity of frame are provided with a plurality ofly, and a plurality of frame 2 are fixed to be set up in outer container 1, and are located between air inlet end 11 and the air-out end 12.

Mesh structure board 3, 3 detachable of mesh structure board set up in frame 2, and be located the great one end of area on the frame 2, mesh structure board 3 can not take place to warp under the supporting role of frame 2, mesh structure board 3 is parallel with the direction of air inlet end 11 and air-out end 12 on the outer container 1, two mesh structure board 3 set up relatively and form the charcoal chamber that is used for holding the active carbon, the organic pollutant in the active carbon can the absorption waste gas, avoid waste gas direct discharge, wherein, charcoal chamber quantity is unanimous with 2 quantity of frame, the accessible sets up a plurality of charcoal chambers, can hold more active carbon, in order to strengthen the adsorption effect to waste gas.

First apron 4, first apron 4 activity sets up in 2 bottoms of frame, first apron 4 quantity is unanimous with 2 quantity of frame, first apron 4 is used for sealing 2 bottoms of frame, prevent that the active carbon in waste gas and the charcoal intracavity from taking place to leak, when using, at first place 2 bottoms of frame with first apron 4, seal 2 bottoms of frame, then directly pour the active carbon into a plurality of charcoal chambeies from 1 top of outer container, carry out the absorption of waste gas, when changing the active carbon, can take off first apron 4 from 2 bottoms of frame, make the active carbon discharge from the charcoal chamber bottom, be convenient for collect.

Second apron 5, the activity of second apron 5 sets up in frame 2 top, 5 quantity of second apron is unanimous with frame 2 quantity, second apron 5 is used for sealing 2 tops of frame, in case waste gas takes place to leak, when using, at first place first apron 4 in 2 bottoms of frame, seal 2 bottoms of frame, then put into frame 2 with mesh structure board 3 from 1 tops of outer container, and two mesh structure boards 3 set up relatively and form the charcoal chamber, so after repeated operation forms a plurality of charcoal chambers, directly pour active carbon into a plurality of charcoal chambeies from 1 tops of outer container, place second apron 5 on 2 tops of frame again, seal frame 2, then let in waste gas and carry out the absorption of waste gas toward outer container 1, when needing to change mesh structure board 3, can directly take out mesh structure board 3 from frame 2 in to repair or renew, outer container 1 can also be used for others, need not, the condemned production resources of enterprise has been saved greatly.

Specifically, still include a plurality of dead levers 6, dead lever 6 sets up on second apron 5, and through adjusting bolt 7 and outer container 1 spiro union, dead lever 6 is used for compressing tightly second apron 5, in order to prevent in the course of the work, second apron 5 aversion leads to waste gas to take place to leak, when the installation, can place second apron 5 on 2 tops of frame earlier, then place dead lever 6 on second apron 5, and the both ends of dead lever 6 stretch out the apron, then at the both ends screw in adjusting bolt 7 of dead lever 6, and with adjusting bolt 7 to outer container 1 soon, utilize adjusting bolt 7's torsion, compress tightly second apron 5 through dead lever 6, when second apron 5 is opened to needs, can unscrew adjusting bolt 7 to breaking away from outer container 1, then take off dead lever 6, take off second apron 5 again, make things convenient for the quick detach, when playing the safety seal effect, still do benefit to operating personnel's operation.

Specifically, still include baffle 9, baffle 9 sets up in frame 2, and set up in frame 2 on the side of not installing mesh structure board 3, and two baffles 9 set up relatively, prevent that the active carbon in the charcoal chamber from leaking to outer container 1 from frame 2 both sides in, can play the effect that blocks waste gas simultaneously for waste gas can only follow the mesh structure board 3 entering of charcoal chamber one side, flows from the mesh structure board 3 of opposite side, thereby improves the adsorption efficiency of active carbon to waste gas.

Specific, still include limiting plate 8, two mesh structure board 3 are connected respectively to 8 both sides of limiting plate, and the card is located on the frame 2, limiting plate 8 is unanimous with 2 quantity of frame, limiting plate 8 plays the effect of fixed mesh structure board 3, and accessible limiting plate 8 gets dress mesh structure board 3, do benefit to the operating personnel operation, when using, install two mesh structure board 3 according to 2 width of frame and form the charcoal chamber on limiting plate 8, put into the charcoal intracavity with limiting plate 8 from 2 tops of frame again, utilize limiting plate 8 to support mesh structure board 3 tightly on frame 2, not only be favorable to the safety in production, still be favorable to getting of mesh structure board 3 and adorn.

Specifically, 2 bottom of frame is provided with feed opening 13, feed opening 13 is the toper, and feed opening 13 bottom is provided with spacing groove 14, first apron 4 activity sets up on feed opening 13, and slide and locate spacing groove 14, feed opening 13 quantity is unanimous with frame 2 quantity, when needing to change the active carbon, can be with first apron 4 roll-off from spacing groove 14, take off from feed opening 13, the active carbon in the charcoal intracavity flows out from feed opening 13 this moment, and receive conical guide effect and assemble together, make things convenient for operating personnel to collect the active carbon, treat the active carbon back of no longer discharging, slide first apron 4 into spacing groove 14 again, the dress is on feed opening 13, furthermore, feed opening 13 stretches out the setting of 1 bottom of outer container, do benefit to operating personnel's operation and get and adorn first apron 4, and make things convenient for operating personnel to observe first apron 4 and install in place, when playing the safety seal effect, still do benefit to operating personnel's operation.

Specifically, still include rail guard 20, rail guard 20 encircles and locates the top of outer container 1, and when operating personnel took the second apron 5 of dress on the top of outer container 1, or took dress mesh structure board 3, or filled the active carbon, rail guard 20 can play the effect of safety protection, prevents that operating personnel's slippage from dropping from outer container 1 top.

Specifically, the outer box comprises an escalator 40, the escalator 40 is arranged on one side of the outer box 1, the height of the escalator 40 is consistent with that of the outer box 1, and an operator can climb onto the top end of the outer box 1 through the escalator 40 to carry out operations such as taking and installing the second cover plate 5, taking and installing the mesh structure plate 3 or filling active carbon.

Specifically, still include supporting legs 30, the quantity of supporting legs 30 is provided with a plurality ofly, and a plurality of supporting legs 30 set up in 1 bottom of outer container, and supporting legs 30 plays the effect of supporting outer container 1 on the one hand, and on the other hand can be raised outer container 1, makes things convenient for the active carbon to discharge from the carbon cavity bottom.

Concretely, when needing to be changed the active carbon, can follow limiting groove 14 roll-off with first apron 4, take off from feed opening 13, the active carbon in the charcoal chamber flows out from feed opening 13 this moment, and receive conical guide effect and assemble and collect together, treat the active carbon after no longer discharging, again slide into limiting groove 14 with first apron 4, the dress is on feed opening 13, when needing to change mesh structure board 3, after the active carbon evacuation in the charcoal chamber, loosen adjusting bolt 7 soon to breaking away from outer container 1, then take off dead lever 6, again take off second apron 5, rethread limiting plate 8 directly takes out mesh structure board 3 from frame 2 and repairs or renew, treat after finishing repairing, will place mesh structure board 3 in outer container 1 top from outer container 1 through limiting plate 8, utilize limiting plate 8 to support mesh structure board 3 tightly on frame 2, directly pour active carbon into a plurality of charcoal chambeies from outer container 1 top, place second apron 5 again on the top of frame 2, place second apron 6 on the dead lever 7 through torsion bolt 7 and adjust the dead lever, then the air-out through torsion bolt 11, the air-out bolt compresses tightly the dead lever 7 and utilizes the air-out of outer container 5, then the second exhaust bolt to discharge 5.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Various other modifications and alterations will occur to those skilled in the art upon reading the foregoing description. This need not be, nor should it be exhaustive of all embodiments. And obvious changes and modifications can be made without departing from the scope of the invention.

Claims (10)

1. A vertical activated carbon adsorption tank, comprising:

the outer box is of a hollow box structure, and is provided with an air inlet end and an air outlet end;

the two ends of the frame are provided with openings, the number of the frames is multiple, and the multiple frames are fixedly arranged in the outer box and positioned between the air inlet end and the air outlet end;

the mesh structure plates are detachably arranged in the frame, the two mesh structure plates are oppositely arranged to form carbon cavities, and the number of the carbon cavities is consistent with that of the frame;

the first cover plates are movably arranged at the bottom end of the frame, and the number of the first cover plates is consistent with that of the frame;

and the second cover plates are movably arranged at the top end of the frame, and the number of the second cover plates is consistent with that of the frame.

2. The vertical activated carbon adsorption tank of claim 1, further comprising a plurality of fixing rods, wherein the fixing rods are disposed on the second cover plate and are screwed with the outer tank through adjusting bolts.

3. The vertical activated carbon adsorption tank of claim 1, further comprising baffles disposed within the frame, the two baffles being disposed opposite each other.

4. The vertical activated carbon adsorption tank of claim 1, further comprising a limiting plate, wherein two sides of the limiting plate are respectively connected to the two mesh structure plates and clamped on the frame, and the number of the limiting plates is the same as that of the frame.

5. The vertical activated carbon adsorption tank of claim 1, wherein a conical feed opening is formed in the bottom end of the frame, the first cover plate is movably arranged on the feed opening, and the number of the feed openings is consistent with that of the frame.

6. The vertical activated carbon adsorption tank of claim 5, wherein a limiting groove is formed at the bottom end of the feed opening, and the first cover plate is slidably arranged in the limiting groove.

7. The vertical activated carbon adsorption tank of claim 1, further comprising a guard rail surrounding the top end of the outer tank.

8. The vertical activated carbon adsorption tank of claim 1, further comprising a plurality of support legs, wherein the plurality of support legs are provided at a bottom end of the outer tank.

9. The vertical activated carbon adsorption tank of claim 1, further comprising an escalator disposed at one side of the outer box, wherein the escalator has a height identical to that of the outer box.

10. The vertical activated carbon adsorption tank of claim 1, wherein the air inlet end and the air outlet end are both flange structures.

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