CN108993458B - Environment-friendly regenerated active carbon production line - Google Patents

Abstract

The invention discloses a novel environment-friendly regenerated active carbon production line, which comprises a screening box, a high-temperature box, a liquefaction box, an activation box, a first conveyor belt, a second conveyor belt, a third conveyor belt, a recovery box, an air pump, an auger conveyor, a mounting frame, a driving crushing wheel, a driven crushing wheel, a screening discharge outlet, a screen, a coarse material port, a driving gear, a driven gear, a rotating motor, a cross rotating plate, a rubber partition plate, a high-temperature feed inlet, a high-temperature discharge outlet, an activation feed inlet, an activation discharge outlet, a material pushing plate, a mounting groove, a hydraulic cylinder, a driving motor, a stirring rod and a sealing box, wherein the screen is obliquely mounted inside the screening box, the coarse material port is formed in the lowest end of the screen on the side wall of the screening box, the hardened and adhered active carbon is crushed by the screening box, the processing precision and the active carbon quality are improved, and regular quantitative discharge is realized by the intermittent contact, the processing efficiency is improved, and bulk materials are avoided.

Description

Environment-friendly regenerated active carbon production line

Technical Field

The invention relates to the technical field of activated carbon production, in particular to a novel environment-friendly regenerated activated carbon production line.

Background

The activated carbon is black powdery or blocky, granular or honeycomb amorphous carbon and also has crystal carbon with regular arrangement, and the activated carbon also comprises two types of blends besides carbon element: one is chemically bound elements, primarily oxygen and hydrogen, which remain in the carbon due to incomplete charring or are chemically bound to the activated carbon surface by foreign non-carbon elements during activation; the other kind of admixture is ash which is an inorganic part of active carbon, the ash is easy to cause secondary pollution in the active carbon, the active carbon has stronger adsorbability and is widely applied to production and life, the regenerated active carbon is produced by activating the active carbon which is fully absorbed again after being treated under certain conditions, the fully absorbed active carbon is activated again, the most common high-temperature regeneration method is adopted, the common high-temperature regeneration device has simple structure, the processing line is not smooth, the structure of the recovered active carbon is complex, hardening and adhesion exist, crushing and filtering treatment are needed, and the novel environment-friendly regenerated active carbon production line is provided.

Disclosure of Invention

The invention aims to provide an environment-friendly regenerated active carbon production line to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly regenerated active carbon production line comprises a screening box, a high-temperature box, a liquefaction box, an activation box, a first conveying belt, a second conveying belt, a third conveying belt, a recovery box, an air pump, an auger conveyor, a mounting frame, a driving grinding wheel, a driven grinding wheel, a screening discharge outlet, a screen, a coarse material opening, a driving gear, a driven gear, a rotating motor, a cross rotating plate, a rubber partition plate, a high-temperature feed inlet, a high-temperature discharge outlet, an activation feed inlet, an activation discharge outlet, a material pushing plate, a mounting groove, a hydraulic cylinder, a driving motor, a stirring rod and a sealing box, wherein the screen is obliquely installed inside the screening box, the side wall of the screening box is located at the lowest end of the screen and is provided with the coarse material opening, the recovery box is installed outside the screening box at the coarse material opening, the auger conveyor is installed on the side wall of the, the discharging port at the top of the auger conveyor penetrates through the side wall of the screening box and is arranged inside the screening box, the screening box is internally positioned below the auger conveyor and is rotatably provided with a driving crushing wheel and a driven crushing wheel, the outer wall of the screening box is provided with a rotating motor, a rotating shaft of the driving crushing wheel is fixedly connected with an output shaft of the rotating motor, one ends of the driving crushing wheel and the driven crushing wheel, which are far away from the rotating motor, are positioned outside the screening box and are respectively externally provided with a driving gear and a driven gear, and the driving gear is meshed with the driven gear and is connected with the driven gear, the bottom end of the screening box is provided with a screening discharging port, the inner wall of the screening discharging port is rotatably provided with a cross rotating plate, a first conveying belt is arranged below the screening box, the surface;

the device comprises a screening box, a high-temperature box, an air pump, an activating box, an activating feed port, an air pump output end, a high-temperature discharge port, an activating discharge port, a material pushing plate and a material pushing plate, wherein the high-temperature box is arranged on one side of the screening box, the high-temperature feed port is arranged on the side wall of the high-temperature box, the top end of a first conveying belt is positioned at the high-temperature feed port, the air pump is arranged on the top of the high-temperature box, the liquefying box is arranged on one side of the high-temperature box, the input end of the air pump is communicated with the high-temperature box, the output end of the air pump is communicated with the liquefying box through a pipeline, the high-temperature discharge port is arranged on the symmetrical side of the high-temperature feed port, the second conveying belt is arranged in the high-temperature discharge port, the utility model discloses a material pushing device, including activation case, pneumatic cylinder, scraping wings, sealing box, driving motor, stirring rod, activation case, pneumatic cylinder top and scraping wings, the mounting groove has been seted up to the inside bottom of activation case, and the mounting groove internal rotation installs the pneumatic cylinder, the pneumatic cylinder top rotates with the scraping wings to be connected, scraping wings upper surface center department is fixed with the sealing box, and installs driving motor in the sealing box, the sealing box roof is worn out to the driving motor output shaft, driving motor output shaft and puddler fixed connection, the.

Preferably, the discharge port at the top of the auger conveyor inclines downwards, and the discharge port at the top of the auger conveyor is positioned right above the meshing position of the driving crushing wheel and the driven crushing wheel.

Preferably, a vibrator is mounted on the bottom surface of the screen.

Preferably, flanges are fixed to two sides of the first conveyor belt, the second conveyor belt and the third conveyor belt.

Preferably, the receiving tray is arranged at the bottom end of the high-temperature feed inlet and outside the high-temperature box.

Preferably, a rotating wheel is rotatably arranged on one side surface of the material pushing plate, which is far away from the activation discharge hole.

Preferably, the reinforcing block is installed at the top of the sealing box, and the output shaft of the driving motor is rotatably connected with the reinforcing block through a bearing.

Preferably, the bottom of the activation box is positioned below the activation discharge port and provided with a material receiving groove, and the end part of the third conveyor belt is positioned in the material receiving groove.

Preferably, the side wall of the screening box is provided with a gear box outside the driving gear and the driven gear.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention puts the recycled activated carbon in a screening box, starts a vibrator to carry out vibration screening, qualified activated carbon falls from a screen mesh, unqualified activated carbon is discharged into the recycling box, starts an auger conveyor to convey coarse materials to a driving grinding wheel and a driven grinding wheel, starts a rotating motor to drive the driving grinding wheel to rotate, then drives the driven grinding wheel to rotate through a driving gear and a driven gear to crush the coarse materials, the qualified activated carbon is accumulated at a screening discharge outlet and is blocked by a cross rotating frame, starts a first conveyor belt to rotate, regularly stirs a cross rotating plate by a rubber partition plate to carry out intermittent discharge, the regenerated activated carbon production line crushes hardened and adhered activated carbon through the screening box, improves the processing precision and the quality of the activated carbon, realizes regular quantitative discharge by the intermittent contact of the cross rotating plate and the rubber partition plate, improves the processing efficiency, avoiding bulk materials.

2. The active carbon is conveyed to the high-temperature feed port through the first conveyor belt and enters the high-temperature box, the organic matters adsorbed by the active carbon are carbonized and decomposed at high temperature by the active carbon and finally become gas, the gas pump is started to suck the decomposed gas in the high-temperature box into the liquefaction box for liquefaction, the gas is prevented from being discharged randomly to pollute the air, and the gas can be recycled, so that green production is realized.

Drawings

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

FIG. 2 is a schematic view of the structure of the screening box of the present invention;

FIG. 3 is a schematic top view of the screening box of the present invention;

FIG. 4 is a schematic view of the screen discharge outlet discharge distance of the present invention;

FIG. 5 is a schematic representation of the conveyor belt of the present invention;

FIG. 6 is a schematic view of the structure of the activation tank of the present invention.

In the figure: 1. a screening box; 2. a high temperature chamber; 3. a liquefaction tank; 4. an activation tank; 5. a first conveyor belt; 6. a second conveyor belt; 7. a third conveyor belt; 8. a take-up pan; 9. a recycling bin; 10. an air pump; 11. A screw conveyor; 12. a mounting frame; 13. a driving crushing wheel; 14. a driven grinding wheel; 15. screening a discharge port; 16. screening a screen; 17. a vibrator; 18. a coarse material port; 19. a gear case; 20. a driving gear; 21. a driven gear; 22. rotating the motor; 23. a cross rotating plate; 24. blocking edges; 25. a rubber partition plate; 26. A high temperature feed inlet; 27. a high-temperature discharge hole; 28. activating the feed inlet; 29. activating the discharge hole; 30. a material pushing plate; 31. a material receiving groove; 32. mounting grooves; 33. a hydraulic cylinder; 34. a rotating wheel; 35. a drive motor; 36. A stirring rod; 37. a sealing box; 38. and a reinforcing block.

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. 1-6, the present invention provides a technical solution: the utility model provides an environmental protection regeneration active carbon production line, includes screening case 1, high temperature cabinet 2, liquefaction case 3, activation case 4, first conveyer belt 5, second conveyer belt 6, third conveyer belt 7, collection box 9, air pump 10, auger conveyor 11, mounting bracket 12, initiative crushing wheel 13, driven crushing wheel 14, screening bin outlet 15, screen cloth 16, coarse fodder mouth 18, driving gear 20, driven gear 21, rotation motor 22, cross commentaries on classics board 23, rubber baffle 25, high temperature feed inlet 26, high temperature discharge gate 27, activation feed inlet 28, activation discharge gate 29, scraping wings 30, mounting groove 32, pneumatic cylinder 33, driving motor 35, puddler 36 and seal box 37, screening case 1 is inside to install screen cloth 16 in the slope, screening case 1 lateral wall is located screen cloth 16 low-end department and has seted up coarse fodder mouth 18, screening case 1 outside is located coarse fodder mouth 18 and installs collection box 9, screening case 1 lateral wall installs auger conveyor 11 through mounting bracket 12, and auger conveyor 11 bottom is located the inside of collection box 9, 11 top discharge gates of auger conveyor pass screening case 1 lateral wall and arrange screening case 1 inside in, screening case 1 is inside to be located auger conveyor 11 below and rotate and install initiative crushing wheel 13 and driven crushing wheel 14, screening case 1 outer wall is installed and is rotated motor 22, initiative crushing wheel 13 pivot and rotation motor 22 output shaft fixed connection, initiative crushing wheel 13 keeps away from rotation motor 22 one end with driven crushing wheel 14 and is located the screening case 1 outside and is external respectively to have driving gear 20 and driven gear 21, and driving gear 20 meshes with driven gear 21 to be connected, screening bin 1 bottom has seted up screening bin outlet 15, screening bin outlet 15 inner wall rotates and installs cross commentaries on classics board 23, a first conveyor belt 5 is arranged below the screening box 1, rubber partition plates 25 are arranged on the surface of the first conveyor belt 5 at equal intervals, and the top ends of the rubber partition plates 25 are higher than the lowest point of the cross rotating plate 23;

the device comprises a screening box 1, a high-temperature box 2, an air pump 10, a liquefaction box 3, an air pump 10, an air pump 4, an activation box 4, an activation feed inlet 28, an activation discharge outlet 29, an activation material pushing plate 30 and a material pushing plate 30, wherein the high-temperature box 2 is installed on one side of the screening box 1, the side wall of the high-temperature box 2 is provided with the high-temperature feed inlet 26, the top end of a first transmission belt 5 is positioned at the high-temperature feed inlet 26, the top of the high-temperature box 2 is provided with the air pump 10, the liquefaction box 3 is installed on one side of the high-temperature box 2, the input end of the air pump 10 is communicated with the high-temperature box 2, the output end of the air pump 10 is communicated with the liquefaction box 3 through a pipeline, the high-temperature discharge outlet 27 is formed on the symmetrical side of the high-temperature feed inlet 26, the second transmission belt, the material pushing plate 30 is close to one side of the activation discharge port 29 and is rotatably connected with the activation box 4 through a rotating shaft, a mounting groove 32 is formed in the bottom end of the interior of the activation box 4, a hydraulic cylinder 33 is rotatably mounted in the mounting groove 32, the top end of the hydraulic cylinder 33 is rotatably connected with the material pushing plate 30, a sealing box 37 is fixed at the center of the upper surface of the material pushing plate 30, a driving motor 35 is mounted in the sealing box 37, an output shaft of the driving motor 35 penetrates out of a top plate of the sealing box 37, an output shaft of the driving motor 35 is fixedly connected with a stirring rod 36, and a third conveying belt 7 is mounted at the position, located at.

11 top discharge gates downward sloping of auger conveyor, and 11 top discharge gates of auger conveyor are located initiative crushing wheel 13 and driven crushing wheel 14 meshing department directly over, and the coarse fodder is discharged from auger conveyor 11, directly falls into and is smashed between initiative crushing wheel 13 and the driven crushing wheel 14.

The bottom surface of the screen 16 is provided with a vibrator 17, and the vibrator 17 vibrates the screen 16 to facilitate drying and discharging.

Flanges 24 are fixed on two sides of the first conveyor belt 5, the second conveyor belt 6 and the third conveyor belt 7, so that side leakage of materials is avoided when the materials are conveyed.

The receiving tray 8 is installed to the outside of high temperature box 2 and is located high temperature feed inlet 26 bottom, and receiving tray 8 enlarges the material receiving area of high temperature feed inlet 26, avoids leaking the material.

The rotating wheel 34 is rotatably installed on one side surface of the material pushing plate 30, which is far away from the activation discharge hole 29, so that in order to avoid material leakage, the distance between the material pushing plate 30 and the inner wall of the activation box 4 is short, and when the material pushing plate 30 rotates, the rotating wheel 34 avoids excessive friction between the material pushing plate 30 and the inner wall of the activation box 4 to influence material discharge.

Reinforcing block 38 is installed at the top of seal box 37, and driving motor 35 output shaft passes through the bearing and is connected with reinforcing block 38 rotation, and reinforcing block 38 increases driving motor 35 and puddler 36's stability of being connected.

Activation case 4 bottom is located activation discharge gate 29 below and has seted up and connect silo 31, and the third conveyer belt 7 tip is located and connects silo 31, increases the material receiving integrality of third conveyer belt 7.

The side wall of the screening box 1 is arranged outside the driving gear 20 and the driven gear 21 and is provided with the gear box 19, so that the driving gear 20 and the driven gear 21 are protected, and the driving gear 20 and the driven gear 21 are prevented from being influenced by sundries.

The working principle is as follows: putting the recycled activated carbon in a screening box 1, starting a vibrator 17 for vibration screening, falling qualified activated carbon from a screen 16, discharging unqualified activated carbon into a recycling box 9, starting an auger conveyor 11 to convey coarse materials to a driving crushing wheel 13 and a driven crushing wheel 14, starting a rotating motor 22 to drive the driving crushing wheel 13 to rotate, driving the driven crushing wheel 14 to rotate through a driving gear 20 and a driven gear 21, crushing the coarse materials, accumulating qualified activated carbon to a screening discharge outlet 15, blocking the screening discharge outlet by a cross-shaped rotating frame 23, starting a first conveyor belt 5 to rotate, regularly shifting a cross-shaped rotating plate 23 by a rubber partition plate 25 for intermittent discharge, conveying the activated carbon to a high-temperature feed inlet 26 through the first conveyor belt 5 to enter a high-temperature box 2, heating the activated carbon to decompose organic matters adsorbed by the activated carbon at high temperature, and finally forming gas, the gas pump 10 is started to suck the decomposed gas in the high-temperature box 2 into the liquefaction box 3 for liquefaction, so that the gas is prevented from being randomly discharged and polluted air is prevented from being randomly discharged, the gas can be recycled, the activated carbon after high-temperature treatment is conveyed into the activation box 4 through the high-temperature discharge port 27 and is subjected to activation treatment, the driving motor 35 is started to drive the stirring rod 36 to rotate, the activated carbon is stirred to be uniformly heated, the hydraulic cylinder 33 is started to rotate the material pushing plate 30 after the activation is finished, and the activated carbon is discharged to the surface of the third conveyor belt 7 from the activation discharge port 29 and is transported out.

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.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. An environment-friendly regenerated active carbon production line comprises a screening box (1), a high-temperature box (2), a liquefaction box (3), an activation box (4), a first conveyor belt (5), a second conveyor belt (6), a third conveyor belt (7), a recovery box (9), an air pump (10), an auger conveyor (11), a mounting frame (12), a driving crushing wheel (13), a driven crushing wheel (14), a screening discharge hole (15), a screen (16), a coarse material opening (18), a driving gear (20), a driven gear (21), a rotating motor (22), a cross rotating plate (23), a rubber partition plate (25), a high-temperature feed inlet (26), a high-temperature discharge outlet (27), an activation feed inlet (28), an activation discharge outlet (29), a material pushing plate (30), a mounting groove (32), a hydraulic cylinder (33), a driving motor (35), a stirring rod (36) and a sealing box (37), the method is characterized in that: the screening box is characterized in that the screening box (1) is internally provided with a screen (16) in an inclined manner, the side wall of the screening box (1) is positioned at the lowest end of the screen (16) and is provided with a coarse material port (18), the outer side of the screening box (1) is positioned at the coarse material port (18) and is provided with a recovery box (9), the side wall of the screening box (1) is provided with an auger conveyor (11) through a mounting rack (12), the bottom end of the auger conveyor (11) is positioned inside the recovery box (9), a discharge port at the top of the auger conveyor (11) penetrates through the side wall of the screening box (1) and is arranged inside the screening box (1), the inside of the screening box (1) is positioned below the auger conveyor (11) and is rotatably provided with a driving crushing wheel (13) and a driven crushing wheel (14), the outer wall of the screening box (1) is provided with a rotating motor (, the screening device is characterized in that one ends of the driving crushing wheels (13) and the driven crushing wheels (14), far away from the rotating motor (22), are located on the outer side of the screening box (1) and are respectively externally connected with a driving gear (20) and a driven gear (21), the driving gear (20) is meshed with the driven gear (21) and is connected with the driven gear (21), the bottom end of the screening box (1) is provided with a screening discharge hole (15), the inner wall of the screening discharge hole (15) is rotatably provided with a cross rotating plate (23), a first conveying belt (5) is arranged below the screening box (1), rubber partition plates (25) are equidistantly arranged on the surface of the first conveying belt (5), and the top ends of the rubber partition plates (25) are higher;

the device is characterized in that a high-temperature box (2) is installed on one side of a screening box (1), a high-temperature feed port (26) is formed in the side wall of the high-temperature box (2), the top end of a first conveyor belt (5) is located at the high-temperature feed port (26), an air pump (10) is installed at the top of the high-temperature box (2), a liquefaction box (3) is installed on one side of the high-temperature box (2), the input end of the air pump (10) is communicated with the high-temperature box (2), the output end of the air pump (10) is communicated with the liquefaction box (3) through a pipeline, a high-temperature discharge port (27) is formed in the symmetrical side of the high-temperature feed port (26) of the high-temperature box (2), a second conveyor belt (6) is installed in the high-temperature discharge port (27), an activation box (4) is installed on one side of the high-temperature box (2) far away from the screening box (1), an activation, an activation discharge hole (29) is formed below the side wall of the activation box (4), a material pushing plate (30) is arranged at the bottom end inside the activation box (4), one side of the material pushing plate (30) close to the activation discharge hole (29) is rotationally connected with the activation box (4) through a rotating shaft, the bottom end inside the activation box (4) is provided with an installation groove (32), a hydraulic cylinder (33) is rotatably arranged in the mounting groove (32), the top end of the hydraulic cylinder (33) is rotatably connected with the material pushing plate (30), a sealing box (37) is fixed at the center of the upper surface of the material pushing plate (30), and a driving motor (35) is arranged in the seal box (37), an output shaft of the driving motor (35) penetrates out of a top plate of the seal box (37), an output shaft of the driving motor (35) is fixedly connected with the stirring rod (36), and a third conveyor belt (7) is arranged at the position, located at the activation discharge hole (29), of the outer side of the activation box (4).

2. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: the discharge port at the top of the auger conveyor (11) is downward inclined, and the discharge port at the top of the auger conveyor (11) is positioned right above the meshing position of the driving crushing wheel (13) and the driven crushing wheel (14).

3. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: and a vibrator (17) is arranged on the bottom surface of the screen (16).

4. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: flanges (24) are fixed on the two sides of the first conveyor belt (5), the second conveyor belt (6) and the third conveyor belt (7).

5. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: and a receiving tray (8) is arranged at the bottom end of the high-temperature feed inlet (26) and on the outer side of the high-temperature box (2).

6. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: and a rotating wheel (34) is rotatably arranged on one side surface of the material pushing plate (30) far away from the activation discharge hole (29).

7. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: reinforcing blocks (38) are installed at the top of the sealing box (37), and an output shaft of the driving motor (35) is rotatably connected with the reinforcing blocks (38) through bearings.

8. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: activation case (4) bottom is located activation discharge gate (29) below and has seted up and connect silo (31), and third conveyer belt (7) tip is located and connects silo (31).

9. The production line of the environment-friendly regenerated activated carbon as claimed in claim 1, wherein: the side wall of the screening box (1) is positioned outside the driving gear (20) and the driven gear (21) and is provided with a gear box (19).

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