CN220136069U - Carbon processing cooling device - Google Patents

Abstract

The utility model discloses a carbon processing and cooling device, which comprises: the treatment box is fixedly connected to a feed inlet above the left side of the treatment box, the first cooling mechanism is arranged outside the treatment box, the discharge outlet is fixedly connected below the front end wall and the rear end wall of the treatment box, the second cooling mechanism is arranged on the right side of the treatment box, and the third cooling mechanism is arranged above the treatment box.

Description

Carbon processing cooling device

Technical Field

The utility model relates to the technical field of carbon processing, in particular to carbon processing cooling equipment.

Background

Carbon and graphite materials are non-metallic solid materials based on carbon elements, wherein the carbon material is basically composed of non-graphite carbon, and the graphite material is basically composed of graphite carbon, so that the carbon after processing can be processed and can be widely applied. In a carbon production and processing workshop, in the production and processing of carbon, the carbon material is required to be calcined at a high temperature by a carbon furnace and then subjected to cooling treatment, and the conventional carbon cooling is to transport the produced carbon to a designated position through a conveyor belt for concentrated cooling.

The prior art can refer to the publication number: the utility model patent of CN218238051U discloses a carbon processing cooling mechanism, which can cool processed carbon rapidly, uniformly and effectively, cool the processed carbon through a cooling pipe, then rotate through a motor to drive a stirring blade to uniformly stir the carbon, and promote the uniform cooling effect of the carbon after uniformly stirring, thereby increasing the cooling effect of the cooling mechanism. This carbon element processing cooling body, filtering mechanism can filter the gas that carbon element produced when cooling, and the inside of rose box is arranged to the first exhaust pipe of through box left side intercommunication, then the filter layer of rose box inside filters gas, and the filter layer is the active carbon layer, increases the filtration performance of filter layer, and then promotes cooling body's environmental protection performance.

The existing carbon processing cooling device only realizes the cooling of the carbon material by a single cooling mode when in use, the cooling is insufficient and thorough, the cooling efficiency is low, and further improvement is needed, therefore, a carbon processing cooling device is provided by a person skilled in the art to solve the problems in the prior art.

Disclosure of Invention

The utility model aims to provide a carbon processing cooling device, which solves the problems that the existing carbon processing cooling device provided in the background art is insufficient and thorough in cooling and low in cooling efficiency.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a carbon process cooling apparatus comprising:

the device comprises a treatment box, a first cooling mechanism, a discharge port, a second cooling mechanism, a third cooling mechanism and an agitating mechanism, wherein the treatment box is fixedly connected with a feed inlet at the upper left side of the treatment box, the first cooling mechanism is arranged outside the treatment box, the discharge port is fixedly connected with the lower part of the front end wall and the rear end wall of the treatment box, the second cooling mechanism is arranged at the right side of the treatment box, the third cooling mechanism is arranged above the treatment box, and the agitating mechanism is arranged inside the treatment box;

the first cooling mechanism includes: the circular cavity shell is fixedly connected to the outer wall of the processing box and is placed in the ice bag inside the circular cavity shell.

As still further aspects of the utility model: the second cooling mechanism includes: the device comprises a pump body, a first worm wheel, a bearing, a first pipe body, a second pipe body, a first cooling cylinder, a second pipe body and a third pipe body, wherein the pump body is arranged on the right side of the treatment tank, the pump body is fixedly arranged on the top end of the cooling tank, the motor is fixedly arranged above the cooling tank and positioned in front of the pump body, the first worm wheel is fixedly connected with the impeller inside the pump body through a connecting shaft, the first worm wheel is connected with the L-shaped seat through a bearing, the L-shaped seat is fixedly arranged on the front end wall of the pump body, the first pipe body is fixedly connected with the extraction end of the pump body, one end of the first pipe body is in through connection with the inside of the cooling tank, one end of the second pipe body penetrates through the inside the treatment tank and is in through connection with the cooling cylinder, and one end of the third pipe body penetrates through the outside the treatment tank and is in through the cooling cylinder.

As still further aspects of the utility model: the four first worm gears are in meshed connection with the first worm.

As still further aspects of the utility model: the third cooling mechanism includes: the device comprises a processing box, a rotating column, a first worm, a second worm wheel, fan blades, a first worm and a second worm, wherein the two frames are fixedly connected to two side parts of the top end of the processing box, the two frames are all in through connection with the processing box, the rotating column is rotatably connected to the top end of the inner part of the frame, the second worm wheel is fixedly connected to the outer part of the rotating column, the fan blades are fixedly connected to the bottom ends of the rotating column, and one end of the first worm penetrates into the two frames and is rotatably connected with the inner side wall of the left side frame through a bearing.

As still further aspects of the utility model: the first worm is in meshed connection with the two second worm gears.

As still further aspects of the utility model: the agitation mechanism includes: a second worm connected to the lower part of the left side wall of the refrigeration box in a rotating way, a first rotating wheel fixedly connected to the outside of the first worm, a second rotating wheel fixedly connected to the outside of the second worm, stirring columns arranged at the two sides of the inside of the treatment box and a group of stirring blades fixedly connected to the outer surfaces of the two stirring columns, wherein the first rotating wheel and the second rotating wheel form transmission connection through a first belt, the bottom ends of the two stirring columns penetrate through the lower part of the treatment box and are fixedly connected with third rotating wheels, the two third rotating wheels are in transmission connection through a second belt, the two third rotating wheels are fixedly connected to the bottom plate at the lowest part of the treatment box through a support column, the bottom ends of the third rotating wheels at the left side are in rotary connection with the bottom plate through bearings, the third worm wheels at the bottom ends of the third rotating wheels are fixedly connected to the right side, and the third worm wheels are in rotary connection with the bottom plate through bearings.

As still further aspects of the utility model: the second worm is meshed with the third worm wheel.

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

1. according to the utility model, through the cooperation of the first cooling mechanism and the stirring mechanism, during cooling, the ice bag is placed in the circular cavity shell, cold air emitted by the ice bag can be used for icing the outer wall of the processing box, and along with the rotation of the two groups of stirring blades, carbon materials in the processing box can be stirred, and the carbon materials can be cooled and radiated through the cooperation of cold air cold compress.

2. According to the utility model, through the cooperation of the second cooling mechanism and the stirring mechanism, during cooling, the cooling liquid in the refrigerating box is conveyed into the refrigerating cylinder through the pump body, so that heat emitted by the carbon materials in the treating box can be absorbed and taken away, and the carbon materials in the treating box can be sufficiently stirred along with the rotation of the two groups of stirring blades, so that the cooling effect of the carbon materials is further improved, the cooling is uniform and sufficient, the cooling efficiency is improved, and the subsequent production and processing of the carbon materials are facilitated.

3. According to the utility model, through the cooperation of the third cooling mechanism and the stirring mechanism, the rotation of the two fan blades facilitates the blowing cooling of the carbon materials in the treatment box, the cooling effect is good, and the overall cooling efficiency is high.

Drawings

FIG. 1 is a schematic view of a first view of a cooling apparatus for carbon processing.

FIG. 2 is a schematic view of a second view of a cooling apparatus for carbon processing.

FIG. 3 is a schematic view of a third view of a cooling apparatus for carbon processing.

FIG. 4 is a schematic view showing the internal sectional structure of a treatment tank of a carbon processing and cooling device.

In the figure: 1. a treatment box; 2. a feed inlet; 3. a first cooling mechanism; 301. a circular cavity shell; 302. an ice bag; 4. a discharge port; 5. a second cooling mechanism; 501. a refrigeration box; 502. a pump body; 503. a motor; 504. a first worm; 505. a first worm wheel; 506. a first tube body; 507. a second tube body; 508. a refrigeration cylinder; 509. a third tube body; 510. an L-shaped seat; 6. a third cooling mechanism; 601. a frame; 602. rotating the column; 603. a second worm wheel; 604. a fan blade; 7. an agitation mechanism; 701. a second worm; 702. a first wheel; 703. a second wheel; 704. a first belt; 705. stirring the column; 706. stirring blades; 707. a third wheel; 708. a second belt; 709. a bottom plate; 710. and a third worm wheel.

Detailed Description

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.

Referring to fig. 1 to 4, an embodiment of the present utility model provides a carbon processing cooling apparatus, including:

the treatment box 1 is fixedly connected to a feed inlet 2 at the upper left side of the treatment box 1, a first cooling mechanism 3 arranged outside the treatment box 1, a discharge outlet 4 fixedly connected to the lower parts of the front end wall and the rear end wall of the treatment box 1, a second cooling mechanism 5 arranged at the right side of the treatment box 1, a third cooling mechanism 6 arranged above the treatment box 1 and an stirring mechanism 7 arranged inside the treatment box 1;

carbon materials are placed into the treatment box 1 through the feed inlet 2, and the carbon materials are fully cooled along with the stirring of the materials by the stirring mechanism 7 and the cooperation of the first cooling mechanism 3, the second cooling mechanism 5 and the third cooling mechanism 6.

The first cooling mechanism 3 includes: the circular ring cavity shell 301 is fixedly connected to the outer wall of the processing box 1, and the ice bag 302 is placed inside the circular ring cavity shell 301.

By placing the ice bag 302, the carbonaceous material in the treatment tank 1 can be cooled and compressed, and cooling and heat dissipation of the carbonaceous material can be achieved.

The second cooling mechanism 5 includes: the device comprises a refrigeration box 501 arranged on the right side of a treatment box 1, a pump body 502 fixedly arranged on the top end of the refrigeration box 501, a motor 503 fixedly arranged above the refrigeration box 501 and positioned in front of the pump body 502, a first worm 504 fixedly connected to the output end of the motor 503, a first worm wheel 505 arranged at the rear of the pump body 502 and fixedly connected with an impeller inside the pump body 502 through a connecting shaft, an L-shaped seat 510 fixedly arranged on the front end wall of the pump body 502 through a bearing, a first pipe 506 fixedly connected to the extraction end of the pump body 502, one end of the first pipe 506 communicated with the inside of the refrigeration box 501, a second pipe 507 fixedly connected to the delivery end of the pump body 502, one end of the second pipe 507 communicated with a refrigeration cylinder 508 communicated with the inside of the treatment box 1, and a third pipe 509 fixedly connected to the bottom end of the refrigeration cylinder 508, one end of the third pipe 509 communicated with the outside of the treatment box 1 and communicated with the inside of the refrigeration box 501.

The four first worm gears 505 are in meshed connection with the first worm 504.

The third cooling mechanism 6 includes: the two frames 601 are connected with the processing box 1 in a penetrating way, the rotating posts 602 are connected to the top ends of the two frames 601 in a rotating way, the second worm gears 603 are connected to the outer parts of the two rotating posts 602 in a fixed way, the fan blades 604 are connected to the bottom ends of the two rotating posts 602 in a fixed way, and one end of the first worm 504 penetrates into the two frames 601 and is connected with the inner side wall of the left frame 601 in a rotating way through bearings.

The first worm 504 is in meshed connection with two second worm gears 603.

The agitation mechanism 7 includes: the first rotating wheel 702 is fixedly connected to the bottom plate 709 at the lowest part of the processing box 1 through a support, the bottom end of the third rotating wheel 707 at the left side is rotatably connected with the third worm wheel 710 at the bottom end of the third rotating wheel 707 at the right side through a bearing, and the third worm wheel 710 is rotatably connected with the bottom plate 709 through the bearing.

The second worm 701 is in meshed connection with the third worm wheel 710.

The two groups of stirring blades 706 rotate in the treatment box 1, so that the carbon materials in the treatment box 1 can be uniformly and fully stirred, and the pump body 502 runs to enable the cooling liquid in the refrigeration box 501 to be conveyed to the refrigeration cylinder 508, so that the heat of the carbon materials can be taken away, and the two blades 604 rotate, so that the carbon materials in the treatment box 1 can be conveniently blown and cooled.

The working principle of the utility model is as follows:

when the utility model is used, carbon materials are placed into the treatment box 1 through the feed inlet 2, the motor 503 is started, the motor 503 drives the first worm 504 to rotate, the first worm 702 rotates along with the first worm, the second worm 701 drives the third worm 710 to rotate along with the first worm, the right third runner 707 can rotate, the left third runner 707 rotates under the transmission of the second belt 708, the two stirring columns 705 rotate, the two groups of stirring blades 706 rotate in the treatment box 1, the internal carbon materials can be uniformly and fully stirred, the ice bag 302 is placed in the annular cavity shell 301, the cool air emitted by the ice bag 302 can cool the outer wall of the treatment box 1, the carbon materials can be cooled, the first worm 505 rotates along with the first worm 504, the impeller in the pump body 502 can rotate, the cooling liquid in the cooling box 501 is pumped out through the first pipe 506, the worm 508 is conveyed to the third pipe 509, the cooling box 509 can rotate along with the cooling box, and the two cooling blades rotate, the two cooling boxes rotate along with the cooling effect of the cooling box is realized, and the two cooling boxes rotate, the two cooling boxes rotate with the cooling effect of the cooling box is realized, and the cooling material can be circulated in the cooling box 1 through the cooling box with the cooling effect of the cooling pump.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. A carbon process cooling apparatus, comprising:

the device comprises a processing box (1), a feed inlet (2) fixedly connected to the upper left side of the processing box (1), a first cooling mechanism (3) arranged outside the processing box (1), a discharge outlet (4) fixedly connected to the lower parts of the front end wall and the rear end wall of the processing box (1), a second cooling mechanism (5) arranged on the right side of the processing box (1), a third cooling mechanism (6) arranged above the processing box (1) and an stirring mechanism (7) arranged inside the processing box (1);

the first cooling mechanism (3) comprises: the circular cavity shell (301) is fixedly connected to the outer wall of the processing box (1), and the ice bag (302) is placed inside the circular cavity shell (301).

2. A carbon process cooling apparatus according to claim 1, wherein the second cooling mechanism (5) comprises: set up in refrigerating box (501) on processing box (1) right side, fixed mounting in pump body (502) on refrigerating box (501) top, fixed mounting in motor (503) in the place ahead of pump body (502) above refrigerating box (501), fixed connection in first worm (504) of motor (503) output, the rear of its pump body (502) is provided with first worm wheel (505), and first worm wheel (505) are through the impeller fixed connection of connecting axle with the inside of pump body (502), and first worm wheel (505) are connected with L shape seat (510) through the bearing, its L shape seat (510) is fixed to be set up on the front end wall of pump body (502), fixed connection in first body (506) of pump body (502) extraction end, one end and refrigerating box (501) inside link up the connection of its first body (506), fixed connection in second body (507) of pump body (502) delivery end, one end run through to processing box (1) inside and barrel (508) inside and barrel (509) and the inside of a three cooling barrel (509) is connected with the inside of a three cooling barrel (509).

3. A carbon process cooling arrangement according to claim 2, characterized in that four of said first worm wheels (505) are in meshed connection with the first worm (504).

4. A carbon process cooling apparatus according to claim 1, wherein the third cooling mechanism (6) comprises: the device comprises a processing box (1), a rotating column (602) fixedly connected to the two sides of the top end of the processing box (1), a second worm wheel (603) fixedly connected to the two outside of the rotating column (602), fan blades (604) fixedly connected to the two bottom ends of the rotating column (602), and one end of a first worm (504) penetrates into the two frames (601) and is rotatably connected with the inner side wall of the left frame (601) through bearings.

5. A carbon process cooling device according to claim 4, characterized in that the first worm (504) is in a meshing connection with both second worm wheels (603).

6. A carbon process cooling apparatus according to claim 2, wherein the stirring mechanism (7) comprises: the device comprises a first worm (701) which is rotationally connected to the lower part of the left side wall of a cooling box (501), a first rotating wheel (702) which is fixedly connected to the outer part of the first worm (504), a second rotating wheel (703) which is fixedly connected to the outer part of the second worm (701), wherein the first rotating wheel (702) and the second rotating wheel (703) are in transmission connection through a first belt (704), stirring columns (705) which are arranged at two side positions inside the cooling box (1), a group of stirring blades (706) which are fixedly connected to the outer surfaces of the two stirring columns (705), the bottom ends of the two stirring columns (705) penetrate through the lower part of the cooling box (1) and are fixedly connected with a third rotating wheel (707), the two third rotating wheels (707) are in transmission connection through a second belt (708), the bottom plate (709) which is arranged at the lowest part of the cooling box (1) is fixedly connected through a pillar, the bottom end of the left third rotating wheel (707) is in rotation connection with the bottom plate (709) through a bearing, and the bottom end of the third rotating wheel (710) which is fixedly connected to the bottom plate (709) through the third bearing (709).

7. The carbon process cooling apparatus of claim 6 wherein the second worm (701) is in meshed connection with the third worm gear (710).