CN115193402A

CN115193402A - Honeycomb activated carbon processing system and processing technology

Info

Publication number: CN115193402A
Application number: CN202210993647.3A
Authority: CN
Inventors: 严洪军; 徐利平; 黄群斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-18
Filing date: 2022-08-18
Publication date: 2022-10-18

Abstract

The invention discloses a honeycomb activated carbon processing system and a processing technology, wherein the honeycomb activated carbon processing system comprises a table plate, the table plate is further provided with a first convex rod extending vertically and upwards, the first convex rod is connected with a sliding support in a sliding mode along the vertical direction, a connecting column is fixedly arranged on the right side of the first convex rod on the table plate, the connecting column is movably connected with a sleeve rotatably connected to the right end of the sliding support, a plurality of convex plates are spirally arranged on the outer side of the sleeve upwards at intervals of 90 degrees from the lower end, and each convex plate is rotatably connected with a horizontal placing plate; an air drying component is arranged in the connecting column; the upper end of the first convex rod is hinged with a turnover plate; the table plate is provided with a power assembly for driving the turnover plate to turn over, the sliding support is internally provided with a positioning assembly connected with the power assembly, and the table plate is provided with a transmission assembly connected with the power assembly; this honeycomb activated carbon system of processing can realize the air-drying of honeycomb activated carbon by the high efficiency.

Description

Honeycomb activated carbon processing system and processing technology

Technical Field

The invention relates to the technical field of activated carbon, in particular to a honeycomb activated carbon processing system and a processing technology.

Background

The activated carbon is made of substances with high carbon content, such as wood, coal, fruit shells, bamboo and the like. Activated carbon is a strong absorption, the aperture is many, high specific surface area material, wide application in all aspects of industrial and agricultural production, along with the enhancement of human health consciousness, activated carbon has turned to livelihood gradually on original tradition application field basis, activated carbon is when preparing at present, generally need make activated carbon into cylindrical blank earlier, then extrude activated carbon through the extruder, make the strip, become the cube through the cutting again, make activated carbon through drying at last, but when activated carbon prepares, still there is following problem:

1. in the prior art, after the active carbon is cut, a worker generally needs to prop the active carbon on one side by using a wood board, then controls a conveyor belt to turn to one side, manually turns the wood board and the conveyor belt together through the worker, turns the active carbon on the wood board, and then carries the long wood board filled with the active carbon to an air drying frame for air drying, but the long wood board often has the phenomenon that the active carbon falls off due to the fact that the wood board is long, so that the working quality is affected, and a large amount of manpower is consumed during manual carrying;

2. in the prior art, when the activated carbon is dried in the air, as the honeycomb holes are horizontally and squarely arranged, the upper surface of the activated carbon deforms due to the influence of gravity when the activated carbon is dried in the air, so that a depression is formed, and the appearance of the activated carbon is influenced;

3. in the prior art, the air drying of the activated carbon is generally carried out in a natural air drying mode, a large amount of time is generally consumed in the air drying mode, the efficiency is not high, and the production process is influenced.

Disclosure of Invention

The invention aims to provide a honeycomb activated carbon processing system which can efficiently realize air drying of honeycomb activated carbon.

In order to achieve the purpose, the invention provides the following technical scheme: a honeycomb activated carbon processing system comprises a table plate, wherein a first convex rod extending vertically and upwards is further arranged on the table plate, a sliding support is connected to the first convex rod in a sliding mode along the vertical direction, a connecting column is fixedly arranged on the right side of the first convex rod on the table plate, a sleeve which is rotatably connected to the right end of the sliding support is movably connected to the connecting column, a plurality of convex plates are arranged on the outer side of the sleeve at intervals of 90 degrees upwards in a spiral mode from the lower end of the sleeve, and a horizontal placing plate is rotatably connected to each convex plate; an air drying component is arranged in the connecting column and used for accelerating air drying of the active carbon on the horizontal placing plate; the upper end of the first convex rod is hinged with a turnover plate, and the turnover plate is used for turning over the activated carbon and conveying the activated carbon onto a horizontal placing plate; the table plate is provided with a power assembly for driving the turnover plate to turn over, the sliding support is internally provided with a positioning assembly connected with the power assembly, and the table plate is provided with a transmission assembly connected with the power assembly; when the power component drives the turnover plate to turn right, the sliding support is driven to move upwards through the positioning component, when the power component drives the turnover plate to turn left and reset, the positioning component controls the sliding support to be positioned on the first convex rod, and meanwhile, the power component drives the transmission component to drive the sleeve to rotate by 90 degrees.

Furthermore, the lower end of the table plate is provided with a rotating wheel through a supporting leg.

Furthermore, the power assembly comprises a first slide bar, the first slide bar is connected in the sliding support and the table plate in a sliding mode along the vertical direction and located on the left side of the first convex bar, a vertical groove plate is arranged on the turnover plate, a turnover groove is arranged in the vertical groove plate, a convex column stretching into the turnover groove is arranged at the upper end of the first slide bar, a first electric push rod is fixedly arranged on the left side of the first slide bar on the table plate, an extension plate fixedly connected with the telescopic end of the first electric push rod is arranged on the first slide bar, when the first electric push rod extends out, the first slide bar is driven to move upwards through the extension plate, and when the first electric push rod retracts, the first slide bar is driven to move downwards through the extension plate; when the first slide bar moves upwards, the turnover plate is driven by the matching of the convex column and the turnover groove to turn right from the horizontal position to the vertical position, and when the first slide bar moves downwards, the turnover plate is driven by the matching of the convex column and the turnover groove to turn left from the vertical position to the horizontal position.

Furthermore, the positioning assembly comprises a left spring plate and a right spring plate, a first mounting groove is formed in the sliding support between the first sliding rod and the first convex rod, first ratchets are arranged on the right side of the first sliding rod from bottom to top in an array mode, second ratchets are arranged on the left side of the first convex rod from bottom to top in an array mode, and the length of the first convex rod with the second ratchets is greater than the length of the first sliding rod with the first ratchets; the left elastic sheet is arranged in the first mounting groove and used for forcing the first pawl to be pressed on the first ratchet, and the right elastic sheet is arranged in the first mounting groove and used for forcing the second pawl to be pressed on the second ratchet; when the first slide bar moves upwards, the first ratchet is matched with the first pawl to push the sliding support to move upwards along the first convex rod, and when the first slide bar moves downwards, the second ratchet is matched with the second pawl to position the sliding support on the first convex rod;

the upper end of the sliding support is connected with a screw rod, the lower end of the screw rod extends into the first mounting groove, a cylinder located in the first mounting groove is arranged at the lower end of the screw rod, an inverted conical surface is arranged at the lower end of the cylinder, and when the inverted conical surface moves downwards, the first pawl is pushed to overturn and separate from the first ratchet, and meanwhile, the second pawl is pushed to overturn and separate from the second ratchet.

Furthermore, the transmission assembly comprises an intermediate shaft which is rotatably connected to the table plate, and the intermediate shaft is arranged in the vertical direction and is positioned on the right side of the first convex rod; a second mounting groove is formed in the sliding support and outside the intermediate shaft, a first belt wheel connected with the intermediate shaft is arranged in the second mounting groove, and the first belt wheel is connected with the intermediate shaft in a sliding mode along the axial direction of the intermediate shaft and fixedly connected with the intermediate shaft along the circumferential direction of the intermediate shaft; a belt wheel groove is formed in the lower end of the sleeve, and a first transmission belt is arranged between the first belt wheel and the belt wheel groove; the lower end of the middle shaft extends downwards out of the table plate and is fixedly provided with a second belt wheel, the lower end of the table plate is provided with a downward extending convex shaft, the convex shaft is rotatably connected with a rotating roller, the upper end of the rotating roller is fixedly provided with a third belt wheel, and a second transmission belt is arranged between the third belt wheel and the second belt wheel; a track groove is formed in the outer side of the circumference of the rotary roller, a first sliding groove is formed in the lower end of the first sliding rod, a first sliding pin and a first spring for forcing the first sliding pin to extend into the track groove are arranged in the first sliding groove; when the first slide bar moves upwards, the first slide pin is matched with the track groove, the rotating roller is fixed, and when the first slide bar moves downwards, the first slide pin is matched with the track groove to drive the rotating roller to rotate 180 degrees.

Further, the track grooves comprise a first straight groove and a second straight groove which are arranged on the outer side of the rotary roller, the first straight groove and the second straight groove are symmetrically arranged on the outer side of the rotary roller, and the outer side of the rotary roller is provided with a first spiral groove for communicating the upper end of the first straight groove with the lower end of the second straight groove and a second spiral groove for communicating the upper end of the second straight groove with the lower end of the first straight groove;

a first step is arranged between the upper end of the first straight groove and the upper end of the first spiral groove, the first step is used for preventing the first sliding pin from entering the first straight groove from the first spiral groove, a second step is arranged between the lower end of the second straight groove and the lower end of the first spiral groove, and the second step is used for preventing the first sliding pin from entering the first spiral groove from the second straight groove; and a third step is arranged between the upper end of the second straight groove and the upper end of the second spiral groove and used for preventing the first sliding pin from entering the second straight groove from the second spiral groove, a fourth step is arranged between the lower end of the first straight groove and the lower end of the second spiral groove and used for preventing the first sliding pin from entering the second spiral groove from the first straight groove.

Furthermore, the air drying assembly comprises a ventilation pipe, the ventilation pipe is fixedly installed at the upper end of the connecting column, an air cavity communicated with the ventilation pipe is formed in the connecting column, and an air inlet communicated with the air cavity is formed in the lower end of the connecting column; the upper end of the ventilation pipe is uniformly provided with four horizontally arranged air outlet rods at intervals along the circumferential direction, and the outer side of each air outlet rod is provided with a downward air outlet;

the lower extreme that the board stretches out the flange is placed to the level is equipped with first gear, the lower extreme of flange rotates and is connected with the second gear with first gear engagement to and the third gear with second gear engagement, the outside of spliced pole is equipped with the dogtooth and the dogtooth of third gear engagement along circumference, when the sleeve rotates, the dogtooth drives third gear and rotates, and the third gear passes through the first gear rotation of second gear drive, and the board rotation is placed to first gear drive level.

The invention also provides a process for processing the honeycomb activated carbon by using the honeycomb activated carbon processing system, which comprises the following steps:

s1, pushing a table plate to a position opposite to a transmission belt for conveying activated carbon, and placing a turnover plate at the output end of the transmission belt;

s2, controlling the power assembly, the positioning assembly and the transmission assembly to cooperate with the driving turnover plate to sequentially feed the activated carbon onto the horizontal placing plate;

s3, controlling the power assembly, the positioning assembly and the transmission assembly to move to the upper end position of the first convex rod in a sliding manner in a matched driving manner, and then controlling the air drying assembly to accelerate air drying of the activated carbon on the horizontal placing plate;

s4, controlling the positioning assembly to enable the sliding plate to fall to the lower end position, then manually taking down and collecting the activated carbon on the horizontal placing plate, and packaging to complete the processing of the activated carbon.

Advantageous effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. according to the invention, the turnover plate and the spirally distributed horizontal placing plates are arranged, and the positioning assembly and the transmission assembly are arranged, so that after the activated carbon is conveyed onto the turnover plate through the conveying belt, the turnover plate is driven to turn over through the power assembly, the activated carbon can be turned over onto the horizontal placing plates, then the horizontal placing plates are driven to rise through the cooperation of the power assembly and the positioning assembly, then the power assembly and the transmission assembly are matched to drive the horizontal placing plates to rotate, and further the next spirally distributed horizontal placing plate moves to a specified position, and through continuous circulation, the activated carbon can be placed on all the horizontal placing plates in the process that the horizontal placing plates rotate upwards along a spiral direction, so that manual placing is not needed, the activated carbon is prevented from falling off, and manpower is saved;

2. according to the invention, the turnover plate is arranged in the conveying direction of the conveying belt, so that after the turnover plate rotates the activated carbon, the honeycomb holes of the activated carbon are vertically arranged, the side surface of the activated carbon is not deformed due to the influence of gravity for a long time, and the appearance quality of the activated carbon is ensured;

3. according to the invention, the convex teeth are arranged on the outer side of the connecting column, and the length of the convex teeth is the length of the connecting column, so that when the spirally distributed horizontal placing plate is spirally lifted, the third gear controlling the rotation of the horizontal placing plate is always meshed with the connecting column, and the horizontal placing plate can be driven to rotate all the time through rotation, thus the contact between the activated carbon and the air is increased, the air drying efficiency is accelerated, and the time loss is reduced.

Drawings

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 isbase:Sub>A sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is an enlarged view taken at I of FIG. 1 according to the present invention;

FIG. 5 is an enlarged view of the turning plate of the present invention at I in FIG. 1 after it is turned 90 degrees;

FIG. 6 is an enlarged view taken at II of FIG. 1 in accordance with the present invention;

FIG. 7 is an enlarged view taken at III of FIG. 1 in accordance with the present invention;

FIG. 8 is an external view of a rotating roller according to the present invention;

FIG. 9 is an external view of the present invention showing another direction of the rotating roller.

Detailed Description

Referring to fig. 1-9, a honeycomb activated carbon processing system comprises a table plate 1, wherein a rotating wheel 1b is arranged at the lower end of the table plate 1 through a supporting leg 1a; the table plate 1 is further provided with a first convex rod 43 extending vertically upwards, the first convex rod 43 is connected with a sliding support 3 in a sliding mode along the vertical direction, a connecting column 11 is fixedly arranged on the right side of the first convex rod 43 on the table plate 1, a sleeve 2 rotatably connected to the right end of the sliding support 3 is movably connected to the connecting column 11, a plurality of convex plates 2a are spirally arranged on the outer side of the sleeve 2 upwards at intervals of 90 degrees from the lower end, and a horizontal placing plate 22 is rotatably connected to each convex plate 2 a; an air drying component is arranged in the connecting column 11 and is used for accelerating air drying of the active carbon on the horizontal placing plate 22; the upper end of the first convex rod 43 is hinged with a turnover plate 41, and the turnover plate 41 is used for turning over the activated carbon and conveying the activated carbon onto the horizontal placing plate 22; the table plate 1 is provided with a power assembly for driving the turnover plate 41 to turn over, the sliding support 3 is internally provided with a positioning assembly connected with the power assembly, and the table plate 1 is provided with a transmission assembly connected with the power assembly; when the power assembly drives the turnover plate 41 to turn right, the positioning assembly drives the sliding support 3 to move upwards, and when the power assembly drives the turnover plate 41 to turn left and reset, the positioning assembly controls the sliding support 3 to be positioned on the first convex rod 43, and meanwhile, the power assembly drives the transmission assembly to drive the sleeve 2 to rotate 90 degrees.

In this embodiment, the power assembly includes a first slide bar 42, the first slide bar 42 is slidably connected to the inside of the sliding bracket 3 and the table board 1 along the vertical direction and located on the left side of the first protruding bar 43, a vertical groove plate 410 is disposed on the turnover plate 41, a turnover groove 411 is disposed in the vertical groove plate 410, a convex column 423 extending into the turnover groove 411 is disposed at the upper end of the first slide bar 42, a first electric push rod 5 is fixedly disposed on the table board 1 on the left side of the first slide bar 42, an extension plate 4c fixedly connected with a telescopic end of the first electric push rod 5 is disposed on the first slide bar 42, when the first electric push rod 5 extends, the first slide bar 42 is driven to move upwards by the extension plate 4c, and when the first electric push rod 5 contracts, the first slide bar 42 is driven to move downwards by the extension plate 4 c; when the first sliding rod 42 moves upwards, the turnover plate 41 is driven by the cooperation of the convex column 423 and the turnover groove 411 to turn over from the horizontal position to the vertical position rightwards, and when the first sliding rod 42 moves downwards, the turnover plate 41 is driven by the cooperation of the convex column 423 and the turnover groove 411 to turn over from the vertical position to the horizontal position leftwards.

The positioning assembly comprises a left spring plate 33 and a right spring plate 34, a first mounting groove 3a is formed between a first sliding rod 42 and a first protruding rod 43 in the sliding support 3, first ratchets 4a are arranged on the right side of the first sliding rod 42 from bottom to top in an array manner, second ratchets 4b are arranged on the left side of the first protruding rod 43 from bottom to top in an array manner, and the length of the second ratchets 4b arranged on the first protruding rod 43 is greater than that of the first ratchets 4a arranged on the first sliding rod 42; a first pawl 31 matched with the first ratchet 4a and a second pawl 32 matched with the second ratchet 4b are hinged in the first mounting groove 3a, the left elastic sheet 33 is arranged in the first mounting groove 3a and used for forcing the first pawl 31 to be pressed on the first ratchet 4a, and the right elastic sheet 34 is arranged in the first mounting groove 3a and used for forcing the second pawl 32 to be pressed on the second ratchet 4 b; when the first sliding rod 42 moves upwards, the first ratchet tooth 4a cooperates with the first pawl 31 to push the sliding bracket 3 to move upwards along the first protruding rod 43, and when the first sliding rod 42 moves downwards, the second ratchet tooth 4b cooperates with the second pawl 32 to position the sliding bracket 3 on the first protruding rod 43; the sliding support 3 is in threaded connection with a screw rod 3b of which the lower end extends into the first mounting groove 3a, the lower end of the screw rod 3b is provided with a cylinder 3c positioned in the first mounting groove 3a, the lower end of the cylinder 3c is provided with an inverted conical surface 35, and when the inverted conical surface 35 moves downwards, the first pawl 31 is pushed to overturn and be separated from the first ratchet 4a, and meanwhile, the second pawl 32 is pushed to overturn and be separated from the second ratchet 4b.

The transmission assembly comprises an intermediate shaft 37 which is rotatably connected to the table board 1, and the intermediate shaft 37 is arranged along the vertical direction and is positioned on the right side of the first convex rod 43; a second mounting groove 3e is formed in the sliding support 3 on the outer side of the intermediate shaft 37, a first belt wheel 36 connected with the intermediate shaft 37 is arranged in the second mounting groove 3e, and the first belt wheel 36 is connected with the intermediate shaft 37 in a sliding mode along the axial direction of the intermediate shaft 37 and fixedly connected with the intermediate shaft 37 in the circumferential direction; a belt wheel groove is formed in the lower end of the sleeve 2, and a first transmission belt 38 is arranged between the first belt wheel 36 and the belt wheel groove; the lower end of the intermediate shaft 37 extends downwards out of the table plate 1 and is fixedly provided with a second belt wheel 63, the lower end of the table plate 1 is provided with a downward extending convex shaft 1d, the convex shaft 1d is rotatably connected with a rotating roller 61, the upper end of the rotating roller 61 is fixedly provided with a third belt wheel 62, and a second transmission belt 64 is arranged between the third belt wheel 62 and the second belt wheel 63; a track groove is formed in the outer side of the circumference of the rotating roller 61, a first sliding groove 4d is formed in the lower end of the first sliding rod 42, a first sliding pin 421 is arranged in the first sliding groove 4d, and a first spring 422 is used for forcing the first sliding pin 421 to extend into the track groove; when the first sliding rod 42 moves upwards, the first sliding pin 421 is engaged with the track groove, the rotating roller 61 is fixed, and when the first sliding rod 42 moves downwards, the first sliding pin 421 is engaged with the track groove to drive the rotating roller 61 to rotate 180 degrees.

The track groove comprises a first straight groove 611 and a second straight groove 613 which are arranged on the outer side of the rotary roller 61, the first straight groove 611 and the second straight groove 613 are symmetrically arranged on the outer side of the rotary roller 61, and a first spiral groove 614 for communicating the upper end of the first straight groove 611 with the lower end of the second straight groove 613 and a second spiral groove 612 for communicating the upper end of the second straight groove 613 with the lower end of the first straight groove 611 are arranged on the outer side of the rotary roller 61; a first step 615 is arranged between the upper end of the first straight groove 611 and the upper end of the first spiral groove 614, the first step 615 is used for preventing the first sliding pin 421 from entering the first straight groove 611 from the first spiral groove 614, a second step 618 is arranged between the lower end of the second straight groove 613 and the lower end of the first spiral groove 614, and the second step 618 is used for preventing the first sliding pin 421 from entering the first spiral groove 614 from the second straight groove 613; a third step 617 is arranged between the upper end of the second straight groove 613 and the upper end of the second spiral groove 612, the third step 617 is used for preventing the first sliding pin 421 from entering the second straight groove 613 from the second spiral groove 612, a fourth step 616 is arranged between the lower end of the first straight groove 611 and the lower end of the second spiral groove 612, and the fourth step 616 is used for preventing the first sliding pin 421 from entering the second spiral groove 612 from the first straight groove 611.

In this embodiment, the seasoning assembly includes a ventilation pipe 12a, the ventilation pipe 12a is fixedly installed at the upper end of the connection column 11, an air cavity 11b communicated with the ventilation pipe 12a is arranged in the connection column 11, and an air inlet 11a communicated with the air cavity 11b is arranged at the lower end of the connection column 11; the upper end of the ventilation pipe 12a is uniformly provided with four horizontally arranged air outlet rods 12 at intervals along the circumferential direction, and the outer side of each air outlet rod 12 is provided with a downward air outlet; the lower end of the horizontal placing plate 22 extending out of the convex plate 2a is provided with a first gear 26, the lower end of the convex plate 2a is rotatably connected with a second gear 25 meshed with the first gear 26 and a third gear 24 meshed with the second gear 25, the outer side of the connecting column 11 is circumferentially provided with convex teeth meshed with the third gear 24, when the sleeve 2 rotates, the convex teeth drive the third gear 24 to rotate, the third gear 24 drives the first gear 26 to rotate through the second gear 25, and the first gear 26 drives the horizontal placing plate 22 to rotate.

The embodiment also provides a process for processing honeycomb activated carbon by using the honeycomb activated carbon processing system, which comprises the following steps:

s1, pushing a table plate 1 to a position opposite to a transmission belt for conveying activated carbon, and placing a turnover plate 41 at the output end of the transmission belt;

s2, controlling the power assembly, the positioning assembly and the transmission assembly to cooperate with the driving turnover plate 41 to sequentially send the activated carbon onto the horizontal placing plate 22;

s3, controlling the power assembly, the positioning assembly and the transmission assembly to move to the upper end position of the first convex rod 43 in a sliding manner in a matched driving manner, and then controlling the air drying assembly to accelerate air drying of the activated carbon on the horizontal placing plate 22;

s4, controlling the positioning assembly to enable the sliding plate to fall to the lower end position, manually taking down and collecting the activated carbon on the horizontal placing plate 22, and packaging to complete the processing of the activated carbon.

In the above S2 of this embodiment, after the activated carbon 8 is cut into a cube, the activated carbon 8 is conveyed to the right through the conveyor belt 7, when the activated carbon 8 is conveyed to the turnover plate 41 through the conveyor belt 7, the power assembly operates, the first electric push rod 5 extends out to drive the first sliding rod 42 to move upwards, due to the cooperation between the first ratchet 4a on the first sliding rod 42 and the first pawl 31, and the cooperation between the second pawl 32 and the second ratchet 4b on the first protruding rod 43, the first sliding rod 42 is lifted to drive the sliding bracket 3 to move upwards, and the sliding bracket 3 drives the sleeve 2 to move upwards, so as to drive the horizontal placing plate 22 to move upwards, and at this time, the first sliding rod 42 is lifted to drive the first sliding pin to move upwards along the first straight groove 611, when the first sliding rod 42 is lifted to the highest position, the first sliding pin 421 crosses the first step 615 under the action of the first spring 422, so that the roller 61 does not rotate, meanwhile, as the first sliding rod 42 rises, the convex column 423 slides in the turning groove 411 to drive the turning plate 41 to turn, and then the activated carbon is placed on the corresponding horizontal placing plate 22, and then the first electric push rod 5 is controlled to shrink to drive the first sliding rod 42 to descend, and the cooperation between the second pawl 32 and the first convex rod 43 makes the sliding support 3 drive the sleeve 2 to keep height when the first sliding rod 42 descends, and does not descend along with the first sliding rod, and the descending of the first sliding rod 42 drives the turning plate 41 to return to the horizontal position through the action of the convex column 423 and the turning groove 411, and simultaneously the first sliding rod 42 drives the first sliding pin 421 to descend, and the first sliding pin 421 enters the first spiral groove 614 under the action of the first step 615 to drive the roller 61 to rotate, and further drive the third belt pulley 62 to rotate, and as the third belt pulley 62 cooperates with the second belt pulley 63 through the second transmission belt 64, and then drive first band pulley 36 and rotate, because first band pulley 36 and the cooperation of sleeve 2 lower extreme through first drive belt 38, and first band pulley 36 radius is half of the sleeve 2 radius, make first slide bar 42 drive to the least significant end, drive first sliding pin 421 under the effect of first spring 422 cross second step 618 and get into second straight flute 613, and then drive rotor 61 and rotate 180, because third band pulley 62, second band pulley 63 diameter is the same, make first band pulley 36 rotate 180, and then drive sleeve 2 and rotate 90, and then because place the board spiral distribution, make next level place board 22 and rotate to the initial position, form the circulation, make through first electric putter 5 flexible once, can accomplish the first rising back of upset material loading and the level place board 22 of active carbon 8 and rotate, and then make the former level place board 22 rise and accept the active carbon after rotating and leave, simultaneously the latter place the board rises and rotates to the initial position again, thereby can place active carbon 8 on all levels place board 22, accomplish the material loading.

In the above S3 of the embodiment, after the activated carbon is placed on all the horizontal placing plates 22, the airing assembly works to push the present invention away from the conveyor belt 7, the present invention starts the airing work, the sliding support 3 is driven to the highest position by the first sliding rod 42, since the length of the second ratchet 4b part of the first protruding rod 43 is greater than that of the first ratchet 4a part of the first sliding rod 42, when the sliding support 3 is driven to be higher than the first ratchet 4a part by the first sliding rod 42, the sliding support 3 stops on the higher part under the action of the second ratchet 4b on the first protruding rod 43, and the first sliding rod 42 moves up and down and cannot drive the sliding support 3 to rise, at this time, the first electric push rod 5 is controlled to stretch and retract continuously, when the first sliding rod 42 rises to the highest position, the first sliding pin 421 crosses the first step 615 under the action of the first spring 422, so that the rotating roller 61 does not rotate, when the first sliding rod 42 falls, the first sliding pin 421 enters the first spiral groove 614 under the action of the first step 615, and then the rotating roller 61 is driven to rotate, when the first sliding rod 42 is driven to the lowest end, the first sliding pin 421 is driven to cross the second step 618 under the action of the first spring 422 and enter the second straight groove 613, when the first sliding rod 42 is driven to rise again, the first sliding pin 421 is driven to rise along the second straight groove 613, and when the first sliding rod 42 rises to the highest end, the first sliding pin 421 passes through the third step 617 under the action of the first spring 422 and enters the second spiral groove 612, in the process, the rotating roller 61 does not rotate, when the first sliding rod 42 descends again, the first sliding pin 421 enters the second spiral groove 612 under the action of the third step 617, and then the rotating roller 61 is driven to rotate, when the first sliding rod 42 drives the first sliding pin 421 to descend to the lowest end, the first sliding pin 421 passes through the fourth step 616 under the action of the first spring 422 and enters the first straight groove 616, form the circulation, change roller 61 and rotate the round, make through the constantly flexible of first electric putter 5 just can drive and change roller 61 and constantly rotate, and then drive sleeve 2 and ceaselessly rotate, because the spliced pole 11 outside is equipped with the dogtooth, and the length of dogtooth is the length of spliced pole 11, because the dogtooth meshing of third gear 24 and spliced pole 11, make when sleeve 2 rises, the meshing can not receive the influence, and then make when sleeve 2 rotates, can drive third gear 24 and rotate, because third gear 24 and second gear 25 mesh, second gear 25 and first gear 26 mesh, and then drive the level and place board 22 and follow the rotation, and then drive and place the active carbon 8 of placing on the board 22 at the level and not only around the support column revolution, and the rotation, increase the area of contact of active carbon 8 with the air, and then air-dry with higher speed, let in high-pressure air to air intake 11a simultaneously, make high-pressure air let in air-out pole 12, being spout downwards, further air-dry with higher speed, and because the vertical placing of honeycomb holes of active carbon 8, and cloth on the board 22, make the inside also can be better air-dry, improve air-dry efficiency.

In the above S4 of this embodiment, when the sliding support 3 is controlled to move downward, the inverted conical surface 35 at the lower end of the sliding support descends by rotating the control screw 3b, and under the action of the inverted conical surface 35, the first pawl 31 and the second pawl 32 respectively overcome the left elastic sheet and the right elastic sheet to retract, and are disengaged from the first ratchet 4a on the first sliding rod 42 and the second ratchet 4b on the first protruding rod 43, so that the sliding support 3 descends, and the sleeve 2 descends.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A honeycomb activated carbon processing system is characterized by comprising a table plate, wherein the table plate is further provided with a first convex rod extending vertically and upwards, a sliding support is connected to the first convex rod in a sliding mode along the vertical direction, a connecting column is fixedly arranged on the table plate on the right side of the first convex rod, a sleeve rotatably connected to the right end of the sliding support is movably connected to the connecting column, a plurality of convex plates are arranged on the outer side of the sleeve at intervals of 90 degrees upwards in a spiral mode from the lower end of the sleeve, and a horizontal placing plate is rotatably connected to each convex plate; an air drying component is arranged in the connecting column and used for accelerating air drying of the active carbon on the horizontal placing plate; the upper end of the first convex rod is hinged with a turnover plate, and the turnover plate is used for turning over the activated carbon and conveying the activated carbon onto a horizontal placing plate; the table plate is provided with a power assembly for driving the turnover plate to turn over, a positioning assembly connected with the power assembly is arranged in the sliding support, and the table plate is provided with a transmission assembly connected with the power assembly; when the power component drives the turnover plate to turn right, the positioning component drives the sliding support to move upwards, and when the power component drives the turnover plate to turn left and reset, the positioning component controls the sliding support to be positioned on the first convex rod, and meanwhile, the power component drives the transmission component to drive the sleeve to rotate by 90 degrees.

2. The honeycomb activated carbon processing system of claim 1, wherein the lower end of the table is provided with a runner through a support leg.

3. The honeycomb activated carbon processing system according to claim 1, wherein the power assembly comprises a first slide bar, the first slide bar is slidably connected in a vertical direction in the sliding support and the table plate and is positioned at the left side of the first protruding bar, a vertical groove plate is arranged on the turnover plate, a turnover groove is arranged in the vertical groove plate, a convex column extending into the turnover groove is arranged at the upper end of the first slide bar, a first electric push rod is fixedly arranged on the table plate at the left side of the first slide bar, an extension plate fixedly connected with the telescopic end of the first electric push rod is arranged on the first slide bar, when the first electric push rod extends out, the first slide bar is driven to move upwards through the extension plate, and when the first electric push rod retracts, the first slide bar is driven to move downwards through the extension plate; when the first slide bar moves upwards, the turnover plate is driven by the matching of the convex column and the turnover groove to turn right from the horizontal position to the vertical position, and when the first slide bar moves downwards, the turnover plate is driven by the matching of the convex column and the turnover groove to turn left from the vertical position to the horizontal position.

4. The honeycomb activated carbon processing system of claim 2, wherein the positioning assembly comprises a left spring plate and a right spring plate, a first mounting groove is formed between the first slide bar and the first protruding bar in the slide bracket, first ratchets are arranged on the right side of the first slide bar from bottom to top in an array manner, second ratchets are arranged on the left side of the first protruding bar from bottom to top in an array manner, and the length of the second ratchets arranged on the first protruding bar is greater than the length of the first ratchets arranged on the first slide bar; the left elastic sheet is arranged in the first mounting groove and used for forcing the first pawl to be tightly pressed on the first ratchet, and the right elastic sheet is arranged in the first mounting groove and used for forcing the second pawl to be tightly pressed on the second ratchet; when the first slide bar moves upwards, the first ratchet is matched with the first pawl to push the sliding support to move upwards along the first convex rod, and when the first slide bar moves downwards, the second ratchet is matched with the second pawl to position the sliding support on the first convex rod;

5. The honeycomb activated carbon processing system of claim 4, wherein the transmission assembly comprises an intermediate shaft rotatably connected to the table plate, the intermediate shaft being disposed in a vertical direction and located to the right of the first protruding rod; a second mounting groove is formed in the sliding support and outside the intermediate shaft, a first belt wheel connected with the intermediate shaft is arranged in the second mounting groove, and the first belt wheel is connected with the intermediate shaft in a sliding mode along the axial direction of the intermediate shaft and fixedly connected with the intermediate shaft along the circumferential direction of the intermediate shaft; a belt wheel groove is formed in the lower end of the sleeve, and a first transmission belt is arranged between the first belt wheel and the belt wheel groove; the lower end of the middle shaft extends downwards out of the table plate and is fixedly provided with a second belt wheel, the lower end of the table plate is provided with a downward extending convex shaft, the convex shaft is rotatably connected with a rotating roller, the upper end of the rotating roller is fixedly provided with a third belt wheel, and a second transmission belt is arranged between the third belt wheel and the second belt wheel; a track groove is formed in the outer side of the circumference of the rotary roller, a first sliding groove is formed in the lower end of the first sliding rod, a first sliding pin and a first spring for forcing the first sliding pin to extend into the track groove are arranged in the first sliding groove; when the first slide bar moves upwards, the first slide pin is matched with the track groove, the rotating roller is fixed, and when the first slide bar moves downwards, the first slide pin is matched with the track groove to drive the rotating roller to rotate 180 degrees.

6. The honeycomb activated carbon processing system according to claim 5, wherein the track grooves comprise a first straight groove and a second straight groove which are arranged outside the rotating roller, the first straight groove and the second straight groove are symmetrically arranged outside the rotating roller, and a first spiral groove for communicating the upper end of the first straight groove with the lower end of the second straight groove and a second spiral groove for communicating the upper end of the second straight groove with the lower end of the first straight groove are arranged outside the rotating roller;

7. The cellular activated carbon processing system of claim 5, wherein the air drying assembly comprises a vent pipe fixedly mounted at an upper end of a connecting column, an air chamber communicated with the vent pipe is provided in the connecting column, and an air inlet communicated with the air chamber is provided at a lower end of the connecting column; the upper end of the ventilation pipe is uniformly provided with four horizontally arranged air outlet rods at intervals along the circumferential direction, and the outer side of each air outlet rod is provided with a downward air outlet;

8. A process for processing honeycomb activated carbon using the honeycomb activated carbon processing system of claim 1, comprising the steps of:

s1, pushing a table plate to a position right opposite to a transmission belt for transmitting active carbon, and placing a turnover plate at the output end of the transmission belt;

s2, controlling the power assembly to cooperate with the positioning assembly and the transmission assembly to drive the turnover plate to sequentially send the activated carbon onto the horizontal placing plate;