CN220835938U - Pulverizer for active carbon production raw materials - Google Patents

Abstract

The utility model belongs to the technical field of active carbon production devices, and provides a pulverizer for active carbon production raw materials, which comprises a pulverizing mechanism, a filtering mechanism and a recovery mechanism, wherein the pulverizing mechanism comprises a support frame, a pulverizing cavity is fixedly arranged on the upper surface of the support frame, a pulverizing assembly is arranged in the pulverizing cavity, the filtering mechanism is three and is arranged between the support frames, and the filtering mechanism comprises a limiting clamping plate arranged in the support frame. According to the utility model, the crushed particles are recovered through the recovery mechanism, firstly, the particles of raw materials can be mechanically recovered, the raw material particles are directly recovered into the recovery box so as to be stored and transported, a spade is not needed to be used for manual recovery, the recovery is convenient and quick, the labor force can be saved, the dust raised during the particle shoveling process can be reduced, the worker can absorb too much dust to harm the body, and secondly, the crushed particles can be prevented from being accumulated on a screen after a period of recovery, so that the screen is blocked, and the screening can not be smoothly performed.

Description

Pulverizer for active carbon production raw materials

Technical Field

The utility model belongs to the technical field of active carbon production devices, and particularly relates to a pulverizer for active carbon production raw materials.

Background

The activated carbon is widely used for deep purification of drinking water, industrial water and wastewater, purification of domestic and industrial water and gas phase adsorption, and can effectively adsorb free chlorine, phenol, sulfur and other organic pollutants in water, purify and remove impurities and peculiar smell, purify industrial tail gas, desulfurize gas, catalytically reform petroleum, separate gas, purify and purify gas; recovering the organic solvent; decolorizing, deodorizing and refining sugar, monosodium glutamate, medicine, wine and beverage; refining noble metals; the catalyst carrier in the chemical industry can be used as the raw materials for producing the activated carbon, such as wood, sawdust, peat, straw and the like, but the activated carbon can be put into the production of the activated carbon after being crushed.

In chinese patent publication No. CN208612664U, an activated carbon pulverizer is mentioned, which classifies raw materials into a target size by classifying the primarily pulverized activated carbon according to the size of particles by installing a classifying screen, and classifies the chips by a classifying screen.

However, the utility model screens the active carbon raw materials, the raw materials with different particle sizes after screening need to be recovered manually, labor force is wasted, production steps are increased, production efficiency is reduced, meanwhile, the screen accumulates more raw material particles to easily cause blockage, and screening effect is reduced.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a pulverizer for producing raw materials of active carbon, so as to solve the problems.

The utility model provides a rubbing crusher that active carbon raw materials used, includes rubbing crusher constructs, filtering mechanism and recovery mechanism, rubbing crusher constructs including the support frame, fixed surface installs the crushing chamber on the support frame, crushing intracavity portion is provided with broken subassembly, filtering mechanism has three, all installs between the support frame, filtering mechanism is including setting up the spacing splint in the support frame inside, the equal sliding connection in spacing splint both sides inside has the sliding plate, two fixed mounting has the screen cloth between the sliding plate, recovery mechanism includes pushing subassembly, pushing subassembly has three, install respectively in three filtering mechanism upper surface, pushing subassembly includes the telescopic cylinder of fixed mounting at spacing splint upper surface, telescopic cylinder output fixed mounting has the push plate, push plate and screen cloth sliding connection, support frame one side fixed surface installs the spacing groove, fixed surface installs driving motor on the spacing groove, driving motor output passes the spacing groove to at this end fixedly connected with threaded rod, rotate with the spacing groove and be connected with, threaded rod surface threaded ring, movable ring surface installs the movable ring, movable ring face fixed mounting has a movable ring board, one side of the movable ring has a fixed mounting to have a recovery case.

Preferably, the recycling mechanism further comprises a fixed clamping plate fixedly installed at one end of the supporting plate, the fixed clamping plate is in contact with the recycling bin, a vertical plate is fixedly installed at the other end of the supporting plate, a clamping spring is fixedly installed on one side of the vertical plate, a movable clamping plate is fixedly installed at one end of the clamping spring, and the movable clamping plate is in contact with the recycling bin.

Preferably, the crushing mechanism further comprises a discharge hole fixedly communicated with the lower surface of the crushing cavity, and the upper surface of the crushing cavity is fixedly communicated with a feed inlet.

Preferably, the crushing assembly comprises a rotating shaft which is rotationally connected inside the crushing cavity, a plurality of hammer discs are uniformly and fixedly arranged on the outer surface of the rotating shaft, three cutter hammer shafts are arranged inside the hammer discs in a penetrating mode, crushing cutter hammers are rotationally connected to the outer surfaces of the cutter hammer shafts, one end of the rotating shaft penetrates through the crushing cavity, a driving piece is fixedly connected to the end head of the rotating shaft, and the driving piece is fixedly connected with the supporting frame.

Preferably, the filtering mechanism further comprises a plurality of supporting plates fixedly installed on one side of the supporting frame, a plurality of supporting springs are fixedly installed on the upper surfaces of the supporting plates, the upper ends of the supporting springs are fixedly connected with the lower surfaces of the limiting clamping plates, and a vibration motor is fixedly installed on one side of the limiting clamping plates.

Preferably, a fixed shaft is arranged on one side of the limiting clamping plate, a rotating plate is rotatably connected to the outer surface of the fixed shaft, the rotating plate is in contact with the sliding plate, and the rotating plate is connected with the limiting clamping plate through a limiting bolt.

Compared with the prior art, the utility model has the following beneficial effects:

1. According to the utility model, the crushed particles are recovered through the recovery mechanism, firstly, the particles of raw materials can be mechanically recovered, the raw material particles are directly recovered into the recovery box so as to be stored and transported, a spade is not needed to be used for manual recovery, the recovery is convenient and quick, the labor force can be saved, the dust raised during the particle shoveling process can be reduced, the worker can absorb too much dust to harm the body, and secondly, the crushed particles can be prevented from being accumulated on a screen after a period of recovery, so that the screen is blocked and cannot be smoothly screened.

Drawings

FIG. 1 is a schematic view of a first view structure according to the present utility model;

FIG. 2 is a schematic view of a second view angle structure according to the present utility model;

FIG. 3 is a schematic view of a third view angle structure according to the present utility model;

FIG. 4 is a schematic view of a fourth view structure according to the present utility model;

FIG. 5 is a schematic view of a crushing assembly of the present utility model;

FIG. 6 is a schematic view of a part of the structure of the filtering mechanism of the present utility model;

fig. 7 is a schematic view of a part of the structure of the recovery mechanism of the present utility model.

In the figure:

100. A crushing mechanism; 101. a support frame; 102. a crushing cavity; 103. a discharge port; 104. a feed inlet; 105. a rotating shaft; 106. a hammer disc; 107. a cutter hammer shaft; 108. crushing a cutter hammer; 109. a driving member; 200. a filtering mechanism; 201. a support plate; 202. a support spring; 203. limiting clamping plates; 204. a fixed shaft; 205. a rotating plate; 206. a limit bolt; 207. a sliding plate; 208. a screen; 209. a vibration motor; 300. a recovery mechanism; 301. a telescopic cylinder; 302. a pushing plate; 303. a limit groove; 304. a driving motor; 305. a threaded rod; 306. a threaded ring; 307. a moving plate; 308. a support plate; 309. a recovery box; 310. a fixed clamping plate; 311. moving the clamping plate; 312. a clamping spring; 313. a vertical plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 7:

embodiment one: the utility model provides a pulverizer for active carbon production raw materials, which comprises a pulverizing mechanism 100, wherein the pulverizing mechanism 100 comprises a support frame 101, a pulverizing cavity 102 is fixedly arranged on the upper surface of the support frame 101, and a pulverizing assembly is arranged in the pulverizing cavity 102.

The crushing mechanism 100 further comprises a discharge hole 103 fixedly communicated with the lower surface of the crushing cavity 102, and a feed hole 104 is fixedly communicated with the upper surface of the crushing cavity 102.

The crushing assembly comprises a rotating shaft 105 rotationally connected inside a crushing cavity 102, a plurality of hammer disks 106 are uniformly and fixedly arranged on the outer surface of the rotating shaft 105, three cutter hammer shafts 107 are respectively arranged inside the hammer disks 106 in a penetrating manner, crushing cutter hammers 108 are respectively and rotationally connected with the outer surfaces of the cutter hammer shafts 107, one end of the rotating shaft 105 penetrates through the crushing cavity 102, a driving piece 109 is fixedly connected with the end head of the rotating shaft 105, and the driving piece 109 is fixedly connected with a supporting frame 101

From the above, the raw materials for producing activated carbon, such as wood, sawdust, straw, etc., are put into the crushing cavity 102 through the feed inlet 104, the driving member 109 is controlled by the PLC control system to start the driving member 109, the driving member 109 drives the rotating shaft 105 to rotate, the hammer disc 106 and the crushing cutter hammer 108 rotate, the raw materials for producing activated carbon are crushed by the combined actions of impact, friction, impact and the like of the hammer disc 106 and the crushing cutter hammer 108 rotating at a high speed, and the raw materials are discharged into the filtering mechanism 200 through the discharge port 103 for screening after being crushed.

Embodiment two: in the second embodiment of the present utility model, the filter mechanism 200 comprises three filter mechanisms 200, wherein the three filter mechanisms 200 are all installed between the supporting frames 101, the filter mechanism 200 comprises a limiting clamping plate 203 arranged inside the supporting frames 101, sliding plates 207 are connected inside two sides of the limiting clamping plate 203 in a sliding manner, and a screen 208 is fixedly installed between the two sliding plates 207.

The filtering mechanism 200 further comprises a plurality of supporting plates 201 fixedly installed on one side of the supporting frame 101, supporting springs 202 are fixedly installed on the upper surfaces of the supporting plates 201, the upper ends of the supporting springs 202 are fixedly connected with the lower surface of the limiting clamp plate 203, and a vibrating motor 209 is fixedly installed on one side of the limiting clamp plate 203.

One side of the limiting clamp plate 203 is provided with a fixed shaft 204, the outer surface of the fixed shaft 204 is rotationally connected with a rotating plate 205, the rotating plate 205 is contacted with a sliding plate 207, and the rotating plate 205 is connected with the limiting clamp plate 203 through a limiting bolt 206

From the above, three filtering mechanisms 200 are sequentially installed from top to bottom, three screens 208 are gradually reduced from top to bottom and are respectively divided into a first-stage filter screen, a second-stage filter screen and a third-stage filter screen, firstly, crushed active carbon raw materials fall onto the first-stage filter screen through a discharge hole 103, the first-stage filter screen is driven to vibrate through a vibration motor 209 at the first-stage filter screen, active carbon raw material fragments smaller than the first-stage filter screen fall onto the second-stage filter screen, the second-stage filter screen is driven to vibrate through a vibration motor 209 at the second-stage filter screen, active carbon raw material fragments smaller than the second-stage filter screen fall onto the third-stage filter screen, the third-stage filter screen is driven to vibrate through a vibration motor 209 at the third-stage filter screen, raw material particles smaller than the third-stage filter screen are sieved, and therefore crushed active carbon raw materials are classified through a plurality of screens 208, and the crushed particles of raw materials required to be used in an active carbon raw material production process are respectively put into use or the unqualified particle fragments are collected and reprocessed.

Through pulling out stop cock 206, make rotor plate 205 rotate at fixed axle 204 surface, shift out the spacing of rotor plate 205 to slide plate 207, pulling screen cloth 208 again, take out slide plate 207 by the inside of spacing splint 203 to can clear up and change screen cloth 208, the crushing granule size that conveniently screens as required is changed.

Embodiment III: in the third embodiment of the present utility model, the recovery mechanism 300 comprises a pushing assembly, the pushing assembly comprises three pushing assemblies, the pushing assemblies are respectively installed on the upper surfaces of the three filtering mechanisms 200, the pushing assembly comprises a telescopic cylinder 301 fixedly installed on the upper surface of a limiting clamping plate 203, a pushing plate 302 is fixedly installed at the output end of the telescopic cylinder 301, the pushing plate 302 is in sliding connection with a screen 208, a limiting groove 303 is fixedly installed on one side surface of the supporting frame 101, a driving motor 304 is fixedly installed on the upper surface of the limiting groove 303, the output end of the driving motor 304 penetrates through the limiting groove 303, a threaded rod 305 is fixedly connected to the end head of the driving motor, the threaded rod 305 is rotatably connected with the limiting groove 303, a threaded ring 306 is in threaded connection with the outer surface of the threaded rod 305, a moving plate 307 is fixedly installed on the outer surface of the threaded ring 306, a supporting plate 308 is fixedly installed on one side of the moving plate 307, and a recovery box 309 is arranged on the upper surface of the supporting plate 308.

The recovery mechanism 300 further comprises a fixed clamping plate 310 fixedly installed at one end of the supporting plate 308, the fixed clamping plate 310 is in contact with the recovery box 309, a vertical plate 313 is fixedly installed at the other end of the supporting plate 308, a clamping spring 312 is fixedly installed at one side of the vertical plate 313, a movable clamping plate 311 is fixedly installed at one end of the clamping spring 312, and the movable clamping plate 311 is in contact with the recovery box 309.

From the above, after more crushed raw material particles are provided on the three screens 208, the movable clamping plate 311 is pulled backward, the clamping spring 312 is compressed, the recovery box 309 is placed against the fixed clamping plate 310, and the clamping spring 312 is restored to the original state to push the movable clamping plate 311 to clamp the recovery box 309, so that the recovery box 309 is clamped and limited.

By starting the driving motor 304 to drive the threaded rod 305 to rotate, the threaded ring 306 is meshed with the threaded rod 305, then moves on the threaded rod 305, drives the moving plate 307 to slide in the limiting groove 303, when the inlet of the sliding back box 309 is slightly lower than the edge of the first screen 208, stops, starts the telescopic cylinder 301 installed on the current screen 208 to spread, pushes the pushing plate 302 to move on the screen 208, then pushes the raw material particles on the screen 208 to the inside of the recovery box 309, completes the recycling of the particles on the screen 208, detaches the recovery box 309, replaces the new recovery box 309, enables the driving motor 304 to rotate again, drives the recovery box 309 to slide to the edge of the next screen 208, and also utilizes the pushing assembly to recycle the raw material particles of the screen 208, and sequentially and repeatedly recovers the raw material particles of the three screens 208.

While embodiments of the present utility model have been shown and described above for purposes of illustration and description, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives, and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (6)

1. The utility model provides a rubbing crusher that active carbon production raw materials used, includes rubbing crusher mechanism (100), filtering mechanism (200) and recovery mechanism (300), rubbing crusher mechanism (100) are including support frame (101), support frame (101) upper surface fixed mounting has crushing chamber (102), crushing chamber (102) inside is provided with crushing subassembly, filtering mechanism (200) have three, all install between support frame (101), filtering mechanism (200) are including setting up in the inside spacing splint (203) of support frame (101), the equal sliding connection in spacing splint (203) both sides are inside has sliding plate (207), two fixedly mounted with screen cloth (208) between sliding plate (207), its characterized in that: recovery mechanism (300) are including pushing away the subassembly, pushing away the subassembly and having three, install respectively in three filtering mechanism (200) upper surface, pushing away the subassembly and including fixed mounting telescopic cylinder (301) at spacing splint (203) upper surface, telescopic cylinder (301) output fixed mounting has push plate (302), push plate (302) and screen cloth (208) sliding connection, support frame (101) one side fixed mounting has spacing groove (303), spacing groove (303) upper surface fixed mounting has driving motor (304), driving motor (304) output passes spacing groove (303) to at this end fixedly connected with threaded rod (305), threaded rod (305) are connected with spacing groove (303) rotation, threaded rod (305) surface threaded connection has screwed ring (306), screwed ring (306) surface fixed mounting has movable plate (307), movable plate (307) one side fixed mounting has extension board (308), surface is provided with case (309) on extension board (308).

2. A pulverizer for activated carbon feedstock as defined in claim 1, wherein: the recovery mechanism (300) further comprises a fixed clamping plate (310) fixedly arranged at one end of the support plate (308), the fixed clamping plate (310) is in contact with the recovery box (309), a vertical plate (313) is fixedly arranged at the other end of the support plate (308), a clamping spring (312) is fixedly arranged on one side of the vertical plate (313), a movable clamping plate (311) is fixedly arranged at one end of the clamping spring (312), and the movable clamping plate (311) is in contact with the recovery box (309).

3. A pulverizer for activated carbon feedstock as defined in claim 1, wherein: the crushing mechanism (100) further comprises a discharge hole (103) fixedly communicated with the lower surface of the crushing cavity (102), and a feed inlet (104) is fixedly communicated with the upper surface of the crushing cavity (102).

4. A pulverizer for activated carbon feedstock as defined in claim 1, wherein: the crushing assembly comprises a rotating shaft (105) which is rotationally connected inside a crushing cavity (102), a plurality of hammer disks (106) are uniformly and fixedly arranged on the outer surface of the rotating shaft (105), three cutter hammer shafts (107) are respectively arranged inside the hammer disks (106) in a penetrating mode, crushing cutter hammers (108) are respectively rotationally connected to the outer surface of each cutter hammer shaft (107), one end of the rotating shaft (105) penetrates through the crushing cavity (102), a driving piece (109) is fixedly connected to one end of the rotating shaft, and the driving piece (109) is fixedly connected with a supporting frame (101).

5. A pulverizer for activated carbon feedstock as defined in claim 1, wherein: the filtering mechanism (200) further comprises a plurality of supporting plates (201) fixedly installed on one side of the supporting frame (101), a plurality of supporting springs (202) are fixedly installed on the upper surfaces of the supporting plates (201), the upper ends of the supporting springs (202) are fixedly connected with the lower surface of the limiting clamp plate (203), and a vibration motor (209) is fixedly installed on one side of the limiting clamp plate (203).

6. A pulverizer for activated carbon feedstock as defined in claim 1, wherein: the limiting clamp plate (203) is characterized in that a fixed shaft (204) is arranged on one side of the limiting clamp plate (203), a rotating plate (205) is rotatably connected to the outer surface of the fixed shaft (204), the rotating plate (205) is in contact with the sliding plate (207), and the rotating plate (205) is connected with the limiting clamp plate (203) through a limiting bolt (206).