CN219150376U - Active carbon apparatus for producing - Google Patents
Active carbon apparatus for producing Download PDFInfo
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- CN219150376U CN219150376U CN202222289238.3U CN202222289238U CN219150376U CN 219150376 U CN219150376 U CN 219150376U CN 202222289238 U CN202222289238 U CN 202222289238U CN 219150376 U CN219150376 U CN 219150376U
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Abstract
The utility model discloses an activated carbon production device, which belongs to the technical field of activated carbon production and comprises a support frame, a grinding chamber and a mixing chamber, wherein the grinding chamber and the mixing chamber are respectively and fixedly arranged on two sides above the support frame, a screening mechanism capable of accelerating screening speed is arranged in the grinding chamber, a stirring mechanism capable of enabling stirring effect to be more sufficient is arranged in the mixing chamber, a feeding funnel is fixedly arranged above the grinding chamber, a grinder is fixedly arranged in the feeding funnel, grinding discs are fixedly connected on two sides above the grinding chamber, grinding rollers are rotatably connected between the grinding discs, and the end parts of the grinding rollers are connected with motors. According to the utility model, the ground materials can be screened by arranging the screening mechanism, some granular materials in the ground materials are screened out and ground again, so that the materials can be sufficiently ground, and when the materials are screened, the screen can rotate, the screening efficiency is accelerated, and the screen is prevented from being blocked to a certain extent.
Description
Technical Field
The utility model belongs to the technical field of signal processing, and particularly relates to an active carbon production device.
Background
The activated carbon is a specially treated carbon, which is prepared by heating shells of organic raw materials, coal, wood and the like under the condition of air isolation to reduce non-carbon components, then reacting with gas, corroding the surface to generate a structure with developed micropores, mainly serving as a solid adsorbent, and being applied to the aspects of chemical industry, medicine, environment and the like.
According to the utility model, the grinding motor drives the screen plate to rotate through the transmission shaft, the ground active carbon is filtered through centrifugal force generated by rotation of the screen plate, the active carbon qualified in grinding falls onto the receiving plate and is discharged through the second discharge port, the unqualified active carbon gradually moves to the edge of the screen plate under the action of the centrifugal force of the screen plate and is discharged through the first discharge port under the action of the baffle, so that the ground active carbon can be further screened, the granular active carbon raw material is prevented from being mixed in the finished active carbon, and the quality of the finished active carbon is ensured; the disadvantages are as follows:
when the existing device is used, when granular materials are screened out, the screen plate is driven to rotate through the motor, some granular materials can block the screen plate, screening effect is affected, and the granular materials are directly discharged to be wasted.
Disclosure of Invention
The utility model aims at: in order to solve the above problems, an activated carbon production apparatus is provided.
The technical scheme adopted by the utility model is as follows: the utility model provides an active carbon apparatus for producing, includes support frame, grinding chamber and mixing chamber, support frame top both sides are fixed mounting respectively and are ground chamber and mixing chamber, grind the inside screening mechanism that can accelerate screening speed that is provided with of chamber, mixing chamber is inside to be provided with can make stirring effect more abundant rabbling mechanism.
The grinding machine comprises a grinding chamber, wherein a feeding hopper is fixedly arranged above the grinding chamber, a grinder is fixedly arranged inside the feeding hopper, grinding discs are fixedly connected to two sides of the upper part inside the grinding chamber, grinding rollers are rotationally connected between the grinding discs, the ends of the grinding rollers are connected with a motor, and a discharge valve is fixedly arranged at a discharge hole below the grinding chamber.
Wherein, screening mechanism includes: screen cloth A, screen cloth B, bracing piece, movable rod and electric telescopic handle B, the grinding chamber is inside to be close to grinding disc below from the top down and is provided with screen cloth A and screen cloth B respectively, and screen cloth A and screen cloth B extend to grinding chamber outside one side, screen cloth A and screen cloth B bottom both sides all are connected with the bracing piece through the pivot rotation, and one side the bracing piece tip is rotated through the pivot and is connected in grinding chamber inside one side, grinding chamber inside to be close to screen cloth A and screen cloth B one side has the movable rod through slide rail sliding connection, and the movable rod bottom is connected with the spring, grinding chamber inside one side is close to movable rod top fixed mounting has electric telescopic handle B, and the opposite side the bracing piece tip is rotated through the pivot and is connected in movable rod surface one side.
The movable rod is fixedly connected with a groove, the end part of the electric telescopic rod B is fixedly connected with a jacking block, the jacking block is matched with the groove in shape, and the jacking block is made of rubber.
Wherein, a screw feeder A is fixedly arranged at one side of the outside of the grinding chamber, which is close to the screen A and the screen B, a feed inlet matched with the screw feeder A is arranged at the position, which is close to the lower part of the screen B, a screw feeder B is fixedly arranged at one side of the lower part of the grinding chamber, and the feed inlet that spiral feeder B supporting set up is arranged and is close to the supporting discharge gate below that sets up of grinding chamber, and the supporting discharge gate that sets up of spiral feeder B extends to mixing chamber inside one side.
Wherein, rabbling mechanism includes: puddler, support, fixed chamber, electric telescopic handle A, connecting rod A, stirring rake and connecting rod B, the inside rotation of mixing chamber is connected with the puddler, and the puddler upper end is connected with the motor, puddler top both sides fixedly connected with support, the puddler surface is rotated through the pivot and is connected with the stirring rake, support one side below is rotated through the pivot and is connected with fixed chamber, fixed intracavity portion fixedly connected with electric telescopic handle A, electric telescopic handle A tip fixedly connected with connecting rod A, and connecting rod A tip is rotated through the pivot and is connected with connecting rod B in stirring rake one side, rotate through the pivot between the stirring rake and be connected with connecting rod B, mixing chamber below discharge gate department fixed mounting has the discharge valve.
In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:
1. according to the utility model, the ground materials can be screened by arranging the screening mechanism, some granular materials in the ground materials are screened out and ground again, so that the materials can be sufficiently ground, and when the materials are screened, the screen can rotate, the screening efficiency is accelerated, and the screen is prevented from being blocked to a certain extent.
2. According to the utility model, the stirring rod can drive the stirring paddle to swing up and down under the action of the electric telescopic rod while the stirring rod rotates, so that the materials and the adhesive are stirred up and down, the stirring effect is more sufficient, and the mixing is more uniform.
Drawings
FIG. 1 is a schematic diagram of the overall front structure of the present utility model;
FIG. 2 is a schematic diagram of the enlarged construction of FIG. 1 at A in accordance with the present utility model;
FIG. 3 is a schematic diagram of the enlarged structure of FIG. 1 at B in the present utility model;
FIG. 4 is a schematic diagram of a partial perspective view of the present utility model.
The marks in the figure: 1. a support frame; 2. a grinding chamber; 201. a feeding funnel; 202. a pulverizer; 203. a grinding disc; 204. a grinding roller; 205. a discharge valve; 3. a mixing chamber; 301. a stirring rod; 302. a bracket; 3021. a fixed cavity; 3022. an electric telescopic rod A; 3023. a connecting rod A; 303. stirring paddles; 304. a connecting rod B; 4. a screen A; 401. a screen B; 402. a support rod; 403. a movable rod; 404. an electric telescopic rod B; 5. a spiral feeder A; 6. and a screw feeder B.
Description of the embodiments
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
In the utility model, the following components are added:
referring to fig. 1-4, an activated carbon production device comprises a support frame 1, a grinding chamber 2 and a mixing chamber 3, wherein the grinding chamber 2 and the mixing chamber 3 are respectively and fixedly arranged on two sides above the support frame 1, a screening mechanism capable of accelerating screening speed is arranged in the grinding chamber 2, and a stirring mechanism capable of enabling stirring effect to be more sufficient is arranged in the mixing chamber 3.
Further, grinding chamber 2 top fixed mounting has pan feeding funnel 201, the inside fixed mounting of pan feeding funnel 201 has grinder 202, the equal fixedly connected with grinding disc 203 in grinding chamber 2 inside top both sides, rotate between the grinding disc 203 and be connected with grinding roller 204, and grinding roller 204 end connection has the motor, grinding chamber 2 below discharge gate department fixed mounting has discharge valve 205, pour the coconut shell after the carbonization into pan feeding funnel 201 through the conveyer belt, it is broken with the coconut shell to rotate relatively through the crushing running roller of grinder 202, broken coconut shell granule falls into downwards between grinding disc 203 and the grinding roller 204, rotate through grinding roller 204, grind the coconut shell granule, grind the granule into powder.
Further, the screening mechanism includes: screen A4, screen B401, bracing piece 402, movable rod 403 and electric telescopic rod B404, be provided with screen A4 and screen B401 respectively from the top down near grinding disk 203 in grinding chamber 2 inside, and screen A4 and screen B401 extend to grinding chamber 2 outside one side, screen A4 and screen B401 bottom both sides are all connected with bracing piece 402 through the pivot rotation, and one side bracing piece 402 tip is rotated through the pivot and is connected in grinding chamber 2 inside one side, grinding chamber 2 inside is close to screen A4 and screen B401 one side through slide rail sliding connection has movable rod 403, and the movable rod 403 bottom is connected with the spring, grinding chamber 2 inside one side is close to movable rod 403 top fixed mounting has electric telescopic rod B404, and opposite side bracing piece 402 tip is rotated through the pivot and is connected in movable rod 403 surface one side, and movable rod 403 upper end fixedly connected with recess, electric telescopic rod B404 tip fixedly connected with kicking block, and the ejector block is matched with the shape of the groove, the ejector block is made of rubber, the length is adjusted by stretching through the electric telescopic rod B404, the ejector block at the end part of the electric telescopic rod B404 is continuously jacked in the groove at the end part of the movable rod 403, the ejector block made of rubber cannot collide with the groove greatly, when the movable rod 403 is impacted, the movable rod 403 moves downwards along the sliding rail, the spring at the bottom of the movable rod 403 is rebounded after being extruded, the movable rod 403 moves upwards again along the sliding rail under the rebounded acting force, the movable rod 403 can enable the screen A4 and the support rod 402 at one side of the bottom of the screen B401 to generate angle change in the moving process of the movable rod 403, and then the screen A4 and the screen B401 can simultaneously generate up-down vibration, so that the screening speed is accelerated, and some larger particles in coconut shell dust are screened out.
Further, screw feeder A5 is fixedly installed on one side, close to screen A4 and screen B401, of the outside of grinding chamber 2, a feed inlet matched with screw feeder A5 is formed in the position, close to screen B401, of the lower side of grinding chamber 2, screw feeder B6 is fixedly installed on one side, close to the discharge outlet matched with grinding chamber 2, of the screw feeder B6, the discharge outlet matched with screw feeder B6 extends to one side inside mixing chamber 3, some screened larger particles are conveyed back to grinding disc 203 and grinding roller 204 again through screw feeder A5, the larger particles are ground again, and the grinded powdery material is conveyed into mixing chamber 3 by screw feeder B6.
Further, the stirring mechanism includes: stirring rod 301, bracket 302, fixed cavity 3021, electric telescopic rod a3022, connecting rod a3023, stirring paddle 303 and connecting rod B304;
Further, the pulverizer 202, the discharge valve 205, the electric telescopic rod a3022, the electric telescopic rod B404, the screw feeder A5, the screw feeder B6 and the motor are all electrically connected with an external power supply through a control panel.
Working principle: firstly, the carbonized coconut shells are poured into a feeding funnel 201 through a conveying belt, the coconut shells are crushed through the relative rotation of a crushing roller wheel of a crusher 202, the crushed coconut shell particles fall down between a grinding disc 203 and a grinding roller 204, the coconut shell particles are rolled through the rotation of the grinding roller 204, the particles are ground into powder, the powder material falls on a screen A4, the length of the powder material is adjusted through the expansion and contraction of an electric telescopic rod B404, a top block at the end part of the electric telescopic rod B404 continuously props in a groove at the end part of a movable rod 403, the top block of a rubber material does not collide with the groove greatly, when the movable rod 403 is impacted, the movable rod 403 moves downwards along a sliding rail, a spring at the bottom of the movable rod 403 rebounds after being extruded, the movable rod 403 moves upwards again along the sliding rail under the rebounding force, the movable rod 403 can enable the supporting rods 402 at one side of the bottoms of the screen A4 and the screen B401 to generate angle change, so that the screen A4 and the screen B401 simultaneously generate up-down vibration, thereby accelerating the screening speed, screening out some larger particles in the coconut husk powder, enabling the screened out particles to fall into a screw feeder A5, sending some larger particles back to the grinding disc 203 and the grinding roller 204 for grinding the larger particles again, discharging the grinded materials through a discharge valve 205 at a discharge hole below the grinding chamber 2, enabling the discharged materials to fall into a feed hole of the screw feeder B6, feeding the grinded powder materials into a mixing chamber 3 by the screw feeder B6, adding a proper amount of adhesive into the mixing chamber 3 by a worker, driving a stirring rod 301 to rotate by a motor, mixing carbonized coconut husk powder and adhesive, simultaneously, the electric telescopic rod A3022 in the fixing cavity 3021 stretches out and draws back, the connecting rod A3023 is pulled to move up and down, the stirring paddles 303 below are driven to rotate up and down along the rotating shaft, the connecting rod B304 between the stirring paddles 303 is enabled to change in angle along the rotating shaft, stirring in the up-down direction is carried out between materials, and mixing between materials is enabled to be more sufficient.
The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.
Claims (4)
1. The utility model provides an active carbon apparatus for producing, includes support frame (1), grinds room (2) and mixes room (3), support frame (1) top both sides are fixed mounting respectively and are ground room (2) and mix room (3), its characterized in that: the inside of the grinding chamber (2) is provided with a screening mechanism capable of accelerating the screening speed, and the inside of the mixing chamber (3) is provided with a stirring mechanism capable of enabling the stirring effect to be more sufficient;
a feeding funnel (201) is fixedly arranged above the grinding chamber (2), a pulverizer (202) is fixedly arranged inside the feeding funnel (201), grinding discs (203) are fixedly connected to two sides of the upper part inside the grinding chamber (2), grinding rollers (204) are rotatably connected between the grinding discs (203), the end parts of the grinding rollers (204) are connected with motors, and a discharge valve (205) is fixedly arranged at a discharge hole below the grinding chamber (2);
the screening mechanism includes: screen A (4), screen B (401), support bar (402), movable bar (403) and electric telescopic bar B (404);
the grinding chamber (2) is internally provided with a screen A (4) and a screen B (401) from top to bottom near the grinding disc (203) respectively, and the screen A (4) and the screen B (401) extend to one side outside the grinding chamber (2), both sides of the bottoms of the screen A (4) and the screen B (401) are respectively connected with a supporting rod (402) through rotating shafts, and one side the end of the supporting rod (402) is rotationally connected to one side inside the grinding chamber (2) through rotating shafts, one side, close to the screen A (4) and the screen B (401), of the grinding chamber (2) is slidably connected with a movable rod (403) through a sliding rail, the bottom of the movable rod (403) is connected with a spring, one side, close to the inside of the grinding chamber (2), of the movable rod (403) is fixedly provided with an electric telescopic rod B (404), and the other side the end of the supporting rod (402) is rotationally connected to one side of the surface of the movable rod (403) through rotating shafts.
2. An activated carbon production apparatus as in claim 1, wherein: the upper end of the movable rod (403) is fixedly connected with a groove, the end part of the electric telescopic rod B (404) is fixedly connected with a jacking block, the jacking block is matched with the groove in shape, and the jacking block is made of rubber.
3. An activated carbon production apparatus as in claim 1, wherein: the grinding chamber (2) is outside to be close to screen cloth A (4) and screen cloth B (401) one side fixed mounting have screw feeder A (5), and screw feeder A (5) supporting pan feeding mouth setting is being close to screen cloth B (401) below department, grinding chamber (2) below one side fixed mounting has screw feeder B (6), and screw feeder B (6) supporting pan feeding mouth setting is being close to grinding chamber (2) supporting discharge gate below that sets up, and screw feeder B (6) supporting discharge gate that sets up extends to mixing chamber (3) inside one side.
4. An activated carbon production apparatus as in claim 1, wherein: the stirring mechanism comprises: a stirring rod (301), a bracket (302), a fixed cavity (3021), an electric telescopic rod A (3022), a connecting rod A (3023), a stirring paddle (303) and a connecting rod B (304);
mixing chamber (3) inside rotates and is connected with puddler (301), and puddler (301) upper end is connected with the motor, puddler (301) top both sides fixedly connected with support (302), puddler (301) surface is rotated through the pivot and is connected with stirring rake (303), support (302) one side below is rotated through the pivot and is connected with fixed chamber (3021), fixed chamber (3021) inside fixedly connected with electric telescopic handle A (3022), electric telescopic handle A (3022) end fixedly connected with connecting rod A (3023), and connecting rod A (3023) end rotates through the pivot to be connected with stirring rake (303) one side, be connected with connecting rod B (304) through the pivot rotation between stirring rake (303), discharge gate department fixed mounting in mixing chamber (3) below has the discharge valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222289238.3U CN219150376U (en) | 2022-08-30 | 2022-08-30 | Active carbon apparatus for producing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202222289238.3U CN219150376U (en) | 2022-08-30 | 2022-08-30 | Active carbon apparatus for producing |
Publications (1)
Publication Number | Publication Date |
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CN219150376U true CN219150376U (en) | 2023-06-09 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202222289238.3U Active CN219150376U (en) | 2022-08-30 | 2022-08-30 | Active carbon apparatus for producing |
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CN (1) | CN219150376U (en) |
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2022
- 2022-08-30 CN CN202222289238.3U patent/CN219150376U/en active Active
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