CN112295538A

CN112295538A - High-efficient former of active carbon

Info

Publication number: CN112295538A
Application number: CN202010954489.1A
Authority: CN
Inventors: 王文; 王世斌; 魏学锋
Original assignee: Ningxia Daming Activated Carbon Co ltd
Current assignee: Ningxia Daming Activated Carbon Co ltd
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2021-02-02

Abstract

The invention discloses an efficient forming device for activated carbon, which relates to the field of activated carbon processing equipment and comprises a feeding assembly, wherein a powder grinding assembly is arranged inside the feeding assembly, a weighing assembly is arranged on one side of the feeding assembly, a steam assembly is arranged at the bottom end of the feeding assembly, a stirring assembly is arranged inside the weighing assembly, and a profiling assembly is arranged on one side, far away from the feeding assembly, of the weighing assembly. According to the invention, through the arrangement of the supporting plate, the molding box, the first hydraulic push rod, the second hydraulic push rod, the push plate and the jacking plate, the activated carbon material falls on the supporting plate, the second hydraulic push rods at two ends of the molding box are controlled to operate, so that the push plate is driven to push and press the activated carbon twice from two ends, and after the pushing and pressing, the first hydraulic push rod is controlled to operate, so that the jacking plate is driven to move downwards to extrude the activated carbon, the strength and toughness of the activated carbon are increased, the loss is reduced, and the problem of large loss in production by a large amount of manual labor is effectively solved.

Description

High-efficient former of active carbon

Technical Field

The invention relates to the field of activated carbon processing equipment, in particular to activated carbon efficient forming equipment.

Background

The activated carbon is specially treated carbon, organic raw materials (shells, coal, wood and the like) are heated under the condition of air isolation to reduce non-carbon components (the process is called carbonization), then the carbonized organic raw materials react with gas to corrode the surface of the organic raw materials to generate a structure with developed micropores (the process is called activation), the activation process is a microscopic process, namely the surface corrosion of a large amount of molecular carbides is punctiform corrosion, so that countless fine pores are formed on the surface of the activated carbon, the diameter of the micropores on the surface of the activated carbon is mostly between 2 and 50nm, even a small amount of activated carbon has huge surface area, the surface area of each gram of activated carbon is 500 to 1500m2, and all applications of the activated carbon are almost based on the characteristic of the activated carbon.

The former compression equipment is more traditional, needs a large amount of manual work, and the loss of producing the active carbon is too big, and the shaping is not good, and the stirring is not too even, leads to the adsorption affinity of active carbon not enough.

Disclosure of Invention

The invention aims to: in order to solve the problems of large loss of a large amount of manual work production and uneven stirring of coal powder, an efficient forming device for activated carbon is provided.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-efficient former of active carbon, includes the feeding subassembly, the inside of feeding subassembly is provided with the crocus subassembly, and one side of feeding subassembly is provided with weighs the subassembly, the bottom of feeding subassembly is provided with the steam subassembly, the inside of weighing the subassembly is provided with the stirring subassembly, and weighs the subassembly and keep away from one side of feeding subassembly and be provided with the die mould subassembly, the inside of die mould subassembly is provided with presses the material subassembly.

Preferably, the top of crocus case is provided with the feed chute, and one side of crocus case is provided with out the powder pipe, it installs first solenoid valve on the powder pipe to go out.

Preferably, be provided with first motor on the crocus subassembly, the one end of first motor is provided with the crushing roller, and installs the second motor below the first motor, second motor one end is provided with the grinding roller, and installs the third motor below the second motor, the one end of third motor is provided with the frame of breaing up.

Preferably, the weighing assembly is provided with a stirring box, the weighing box is arranged above the stirring box, the inner wall of the weighing box is provided with a water level sensor, the outer wall of the weighing box is provided with a warning lamp, the bottom end of the weighing box is connected with a liquid outlet pipe, and a second electromagnetic valve is installed on the liquid outlet pipe.

Preferably, be provided with the fourth motor on the stirring subassembly, the output of fourth motor is provided with first stirring frame, one side of first stirring frame is provided with first inlet tube, and the inboard of first stirring frame is provided with the second stirring frame, install the third solenoid valve on the first inlet tube, electromagnetic flowmeter is installed to one side of third solenoid valve, and the below of third solenoid valve is provided with the discharging pipe, install on the discharging pipe and inhale mud.

Preferably, the steam component is provided with a steam box, one side of the steam box is provided with a second water inlet pipe, the inner wall of the steam box is provided with a heating pipe, and one end of the steam box is provided with a steam outlet pipe.

Preferably, the profiling assembly is provided with a profiling box, two sides of the profiling box are provided with support frames, the inner side of the profiling box is provided with a movable groove, and the inner side of the movable groove is provided with a support plate.

Preferably, the pressing assembly is provided with a first hydraulic push rod, the output end of the first hydraulic push rod is provided with a top pressing plate, one end of the first hydraulic push rod is provided with a second hydraulic push rod, and the output end of the second hydraulic push rod is provided with a push plate.

Preferably, the support plate is connected with the profiling box in a sliding mode through a movable groove, and the support frame is welded to the outer wall of the profiling box.

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

1. according to the invention, through the arrangement of the supporting plate, the molding box, the first hydraulic push rod, the second hydraulic push rod, the push plate and the jacking plate, the activated carbon material falls on the supporting plate, the second hydraulic push rods at two ends of the molding box are controlled to operate, so that the push plate is driven to push and press the activated carbon twice from two ends, and after the pushing and pressing, the first hydraulic push rod is controlled to operate, so that the jacking plate is driven to move downwards to extrude the activated carbon, the strength and toughness of the activated carbon are increased, the loss is reduced, and the problem of large loss in production by a large amount of manual labor is effectively solved.

2. According to the invention, through the arranged stirring box, the electromagnetic flow meter, the fourth motor, the first stirring frame, the second stirring frame, the steam box and the steam outlet pipe, external water enters the stirring box through the first water inlet pipe, the electromagnetic flow meter on the first water inlet pipe detects the water quantity, the water inflow is convenient to control, the fourth motor is controlled to operate, the fourth motor drives the first stirring frame and the second stirring frame to rotate, coal dust, coal tar and water are stirred, meanwhile, the external water flows into the steam box through the second water inlet pipe, the heating pipe is controlled to operate, the heating pipe heats the water, the heated generated steam is conveyed into the stirring box through the steam outlet pipe, the materials are heated, the mixing efficiency of the materials is increased, and the problem of uneven stirring of the coal dust is effectively solved.

Drawings

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic view of the vapor outlet tube of the present invention;

FIG. 4 is a schematic view of a push plate of the present invention;

FIG. 5 is a schematic view of a first motor of the present invention;

FIG. 6 is an enlarged view of A of the present invention;

fig. 7 is a schematic view of a second mixing frame according to the present invention.

In the figure: 1. a feed assembly; 101. a milling box; 102. a feed chute; 103. a powder outlet pipe; 104. a first solenoid valve; 2. a milling assembly; 201. a first motor; 202. a crushing roller; 203. a second motor; 204. a grinding roller; 205. a third motor; 206. a scattering frame; 3. a weighing assembly; 301. a stirring box; 302. a weighing box; 303. a water level sensor; 304. a warning light; 305. a liquid outlet pipe; 306. a second solenoid valve; 4. a stirring assembly; 401. a fourth motor; 402. a first stirring frame; 403. a first water inlet pipe; 404. a third electromagnetic valve; 405. an electromagnetic flow meter; 406. a discharge pipe; 407. a dredge pump; 408. a second stirring frame; 5. a steam component; 501. a steam box; 502. a second water inlet pipe; 503. heating a tube; 504. a steam outlet pipe; 6. a profiling assembly; 601. a molding box; 602. a support frame; 603. a movable groove; 604. a support plate; 7. a material pressing component; 701. a first hydraulic push rod; 702. a top pressing plate; 703. a second hydraulic push rod; 704. a push plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an efficient forming device for activated carbon comprises a feeding assembly 1, a grinding assembly 2 is arranged inside the feeding assembly 1, a weighing assembly 3 is arranged on one side of the feeding assembly 1, a steam assembly 5 is arranged at the bottom end of the feeding assembly 1, a stirring assembly 4 is arranged inside the weighing assembly 3, a pressing assembly 6 is arranged on one side, away from the feeding assembly 1, of the weighing assembly 3, and a pressing assembly 7 is arranged inside the pressing assembly 6.

Referring to fig. 1, 2 and 5, a feeding chute 102 is disposed at the top of the powder grinding box 101, a powder outlet pipe 103 is disposed at one side of the powder grinding box 101, and a first electromagnetic valve 104 is mounted on the powder outlet pipe 103.

In the present invention, coal is poured into the pulverizing box 101 through the feeding chute 102, and the first electromagnetic valve 104 is used for controlling the flow of coal powder in the powder outlet pipe 103.

Please refer to fig. 2 and 5, the grinding assembly 2 is provided with a first motor 201, one end of the first motor 201 is provided with a crushing roller 202, a second motor 203 is installed below the first motor 201, one end of the second motor 203 is provided with a grinding roller 204, a third motor 205 is installed below the second motor 203, and one end of the third motor 205 is provided with a scattering frame 206.

According to the invention, a first motor 201 is controlled to operate, so that the first motor drives two crushing rollers 202 to rotate through two gears and chains to crush coal, a second motor 203 is controlled to operate, so that the second motor drives two grinding rollers 204 to rotate through two gears and chains to grind coal blocks, a third motor 205 is controlled to operate, so that the third motor drives two scattering frames 206 to rotate through two gears and chains to scatter coal powder, a first electromagnetic valve 104 on a powder outlet pipe 103 is controlled to operate, and scattered coal powder flows into a stirring box 301 through the powder outlet pipe 103.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 6, a stirring box 301 is disposed on the weighing assembly 3, a weighing box 302 is disposed above the stirring box 301, a water level sensor 303 is disposed on an inner wall of the weighing box 302, a warning light 304 is disposed on an outer wall of the weighing box 302, a liquid outlet pipe 305 is connected to a bottom end of the weighing box 302, and a second electromagnetic valve 306 is mounted on the liquid outlet pipe 305.

According to the invention, coal tar is poured into the weighing box 302, the water level sensor 303 on the inner wall of the weighing box 302 detects the height of the coal tar, the detected signal is converted into an electric signal and transmitted to the PLC, if the height of the coal tar reaches a preset value, the warning lamp 304 is controlled to be turned on to remind a worker to stop adding, and the second electromagnetic valve 306 on the liquid outlet pipe 305 is controlled to operate, so that the coal tar falls into the stirring box 301.

Please refer to fig. 1, fig. 2 and fig. 3, a fourth motor 401 is disposed on the stirring assembly 4, a first stirring frame 402 is disposed at an output end of the fourth motor 401, a first water inlet pipe 403 is disposed at one side of the first stirring frame 402, a second stirring frame 408 is disposed at an inner side of the first stirring frame 402, a third electromagnetic valve 404 is mounted on the first water inlet pipe 403, an electromagnetic flow meter 405 is mounted at one side of the third electromagnetic valve 404, a discharge pipe 406 is disposed below the third electromagnetic valve 404, and a mud suction pump 407 is mounted on the discharge pipe 406.

According to the invention, external water enters the stirring box 301 through the first water inlet pipe 403, the electromagnetic flowmeter 405 on the first water inlet pipe 403 detects the water quantity, so that the water inflow is controlled, the fourth motor 401 is controlled to operate to drive the first stirring frame 402 and the second stirring frame 408 to rotate, the pulverized coal, the coal tar and the water are stirred, meanwhile, the external water flows into the steam box 501 through the second water inlet pipe 502, the heating pipe 503 is controlled to operate to heat the water, the heated generated steam is conveyed into the stirring box 301 through the steam outlet pipe 504, the material is heated, the mixing efficiency of the material is increased, the mud suction pump 407 is controlled to operate, and the stirred material is conveyed into the compression box 601 through the discharge pipe 406.

Please refer to fig. 1, fig. 2 and fig. 3, a steam box 501 is disposed on the steam assembly 5, a second water inlet pipe 502 is disposed on one side of the steam box 501, a heating pipe 503 is disposed on the inner wall of the steam box 501, and a steam outlet pipe 504 is disposed at one end of the steam box 501.

In the invention, external water flows into the steam box 501 through the second water inlet pipe 502, the heating pipe 503 is controlled to operate to heat the water, and the heated generated steam is conveyed into the stirring box 301 through the steam outlet pipe 504.

Referring to fig. 1, 2 and 4, a pressing box 601 is disposed on the pressing assembly 6, a support frame 602 is disposed on two sides of the pressing box 601, a movable groove 603 is disposed on the inner side of the pressing box 601, and a support plate 604 is disposed on the inner side of the movable groove 603.

According to the invention, the activated carbon material falls on the supporting plate 604, the second hydraulic push rods 703 at two ends of the compression box 601 are controlled to operate, so that the second hydraulic push rods drive the push plate 704 to push and press the activated carbon twice from two ends, after the pushing and pressing, the first hydraulic push rods 701 are controlled to operate, so that the first hydraulic push rods drive the top pressure plate 702 to move downwards to extrude the activated carbon, the strength and toughness of the activated carbon are increased, after the activated carbon is compressed for multiple times, the supporting plate 604 is pulled to be drawn out from the movable groove 603, and then the activated carbon can be taken out.

Please refer to fig. 1, fig. 2 and fig. 4, the pressing assembly 7 is provided with a first hydraulic push rod 701, an output end of the first hydraulic push rod 701 is provided with a top pressing plate 702, one end of the first hydraulic push rod 701 is provided with a second hydraulic push rod 703, and an output end of the second hydraulic push rod 703 is provided with a push plate 704.

According to the invention, the activated carbon material falls on the supporting plate 604, the second hydraulic push rods 703 at two ends of the compression box 601 are controlled to operate, so that the second hydraulic push rods drive the push plate 704 to push and press the activated carbon twice from two ends, after the pushing and pressing, the first hydraulic push rods 701 are controlled to operate, so that the first hydraulic push rods drive the top pressure plate 702 to move downwards to extrude the activated carbon, the strength and toughness of the activated carbon are increased, the loss can be reduced, and after the activated carbon is compressed for multiple times, the supporting plate 604 is pulled to be drawn out from the movable groove 603, so that the activated carbon can be taken out.

Referring to fig. 1, 2 and 4, the supporting plate 604 is slidably connected to the molding box 601 through a movable slot 603, and the supporting frame 602 is welded to the outer wall of the molding box 601.

In the present invention, the support plate 604 is pulled to move in the movable groove 603 and pulled out, so that the activated carbon can be taken out, and the support frame 602 is used for supporting and fixing the molding box 601.

The working principle is as follows: when the coal pulverizer is used, coal is poured into a pulverizing box 101 through a feeding groove 102, a first motor 201 is controlled to operate, two pulverizing rollers 202 are driven to rotate through two gears and chains, the coal is pulverized, a second motor 203 is controlled to operate, two grinding rollers 204 are driven to rotate through two gears and chains, coal blocks are pulverized, a third motor 205 is controlled to operate, two pulverizing frames 206 are driven to rotate through two gears and chains, pulverized coal is pulverized, a first electromagnetic valve 104 on a powder outlet pipe 103 is controlled to operate, the pulverized coal is enabled to flow into a stirring box 301 through the powder outlet pipe 103, the coal tar is poured into a weighing box 302, a water level sensor 303 on the inner wall of the weighing box 302 detects the height of the coal tar, detected signals are converted into electric signals and transmitted to a PLC (programmable logic controller), if the height of the coal tar reaches a preset value, a warning lamp 304 is controlled to light up, reminding workers to stop adding, controlling a second electromagnetic valve 306 on a liquid outlet pipe 305 to operate, enabling coal tar to fall into a stirring box 301, enabling external water to enter the stirring box 301 through a first water inlet pipe 403, detecting water quantity through an electromagnetic flow meter 405 on the first water inlet pipe 403, conveniently controlling water inflow, controlling a fourth motor 401 to operate, enabling the fourth motor to drive a first stirring rack 402 and a second stirring rack 408 to rotate, stirring coal dust, coal tar and water, enabling the external water to flow into a steam box 501 through a second water inlet pipe 502, controlling a heating pipe 503 to operate, enabling the fourth motor to heat water, enabling heated generated steam to be conveyed into the stirring box 301 through a steam outlet pipe 504, heating materials, increasing mixing efficiency of the materials, controlling a mud sucking pump 407 to operate, enabling the stirred materials to be conveyed into a pressure type box 601 through a discharge pipe 406, enabling activated carbon materials to fall onto a supporting plate 604, the second hydraulic push rods 703 at the two ends of the molding box 601 are controlled to operate, so that the second hydraulic push rods drive the push plates 704 to push and press the activated carbon twice from the two ends, after the pushing and pressing, the first hydraulic push rods 701 are controlled to operate, so that the first hydraulic push rods drive the push plates 702 to move downwards to extrude the activated carbon, the strength and the toughness of the activated carbon are improved, after the activated carbon is molded for many times, the support plates 604 are pulled to be drawn out from the movable grooves 603, and then the activated carbon can be taken out.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an active carbon high efficiency molding equipment, includes feed assembly (1), its characterized in that: the inside of feeding subassembly (1) is provided with crocus subassembly (2), and one side of feeding subassembly (1) is provided with weighs subassembly (3), the bottom of feeding subassembly (1) is provided with steam subassembly (5), the inside of weighing subassembly (3) is provided with stirring subassembly (4), and weighs subassembly (3) and keep away from one side of feeding subassembly (1) and be provided with die mould subassembly (6), the inside of die mould subassembly (6) is provided with presses material subassembly (7).

2. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: the top of crocus case (101) is provided with feed chute (102), and one side of crocus case (101) is provided with out powder pipe (103), install first solenoid valve (104) on going out powder pipe (103).

3. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: be provided with first motor (201) on grinding subassembly (2), the one end of first motor (201) is provided with crushing roller (202), and second motor (203) is installed to the below of first motor (201), second motor (203) one end is provided with grinds roller (204), and the below of second motor (203) installs third motor (205), the one end of third motor (205) is provided with and breaks apart frame (206).

4. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: weigh and set up agitator tank (301) on subassembly (3), the top of agitator tank (301) is provided with weighs box (302), the inner wall of weighing box (302) is provided with level sensor (303), and the outer wall of weighing box (302) is provided with warning light (304), the bottom of weighing box (302) is connected with drain pipe (305), install second solenoid valve (306) on drain pipe (305).

5. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: be provided with fourth motor (401) on stirring subassembly (4), the output of fourth motor (401) is provided with first stirring frame (402), one side of first stirring frame (402) is provided with first inlet tube (403), and the inboard of first stirring frame (402) is provided with second stirring frame (408), install third solenoid valve (404) on first inlet tube (403), electromagnetic flowmeter (405) are installed to one side of third solenoid valve (404), and the below of third solenoid valve (404) is provided with discharging pipe (406), install dredge pump (407) on discharging pipe (406).

6. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: be provided with steam chest (501) on steam subassembly (5), one side of steam chest (501) is provided with second inlet tube (502), and the inner wall of steam chest (501) is provided with heating pipe (503), the one end of steam chest (501) is provided with steam outlet pipe (504).

7. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: the pressing assembly (6) is provided with a pressing box (601), two sides of the pressing box (601) are provided with support frames (602), the inner side of the pressing box (601) is provided with a movable groove (603), and the inner side of the movable groove (603) is provided with a support plate (604).

8. The high-efficiency forming equipment for the activated carbon as claimed in claim 1, wherein: the material pressing component (7) is provided with a first hydraulic push rod (701), the output end of the first hydraulic push rod (701) is provided with a top pressing plate (702), one end of the first hydraulic push rod (701) is provided with a second hydraulic push rod (703), and the output end of the second hydraulic push rod (703) is provided with a push plate (704).

9. The high-efficiency forming equipment for the activated carbon as claimed in claim 7, wherein: the supporting plate (604) is connected with the profiling box (601) in a sliding mode through a movable groove (603), and the supporting frame (602) is welded to the outer wall of the profiling box (601).