CN213747656U - Preparation artificial industry diamond graphite powder drying device - Google Patents
Preparation artificial industry diamond graphite powder drying device Download PDFInfo
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- CN213747656U CN213747656U CN202022536575.9U CN202022536575U CN213747656U CN 213747656 U CN213747656 U CN 213747656U CN 202022536575 U CN202022536575 U CN 202022536575U CN 213747656 U CN213747656 U CN 213747656U
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Abstract
A drying device for preparing artificial industrial diamond graphite powder comprises a base, a powder cylinder, a rotating mechanism and a heat source pipeline; the powder cylinder is arranged on the upper portion of the base, the rotating mechanism is arranged on the lower portion of the base, the rotating body is located in the powder cylinder, the heat source pipelines are located in the powder cylinder and distributed around the rotating body to be connected with the cylinder bottom of the powder cylinder, the rotating body is driven by the motor to rotate to disturb the rotation of graphite powder in the powder cylinder, and the heat source pipelines conduct heat to the graphite powder in the rotation process of the graphite powder. The utility model overcomes former drying process and equipment drying efficiency are low, cause the problem that graphite powder diffusion splashes easily during open-type is dried, have simple structure, and drying efficiency is high, and difficult diffusion splashes, easy operation convenient characteristics.
Description
Technical Field
The utility model belongs to the technical field of diamond synthesis, a preparation artificial industry diamond graphite powder drying device is related to.
Background
The diamond prepared by graphite, also called diamond, is widely applied to metallurgy, chemical industry, machinery, medical apparatus, nuclear energy, automobiles and aerospace, and promotes the rapid development of the industries, the demands of the industries on graphite and carbon products will be continuously increased, the graphite has particles and powder at normal temperature, the graphite powder needs to be dried in the process of preparing diamond, the drying process and equipment adopted at present have low drying efficiency, and the graphite powder is easy to diffuse and splash in the open type drying process.
Disclosure of Invention
The utility model aims to solve the technical problem that a preparation artificial industry diamond graphite powder drying device is provided, moreover, the steam generator is simple in structure, adopt and set up a powder section of thick bamboo on base upper portion, rotary mechanism sets up in the lower part of base, the rotator is located a powder section of thick bamboo, a plurality of heat source pipelines are located a powder section of thick bamboo and lay and be connected with the bobbin base of a powder section of thick bamboo around the rotator, it is rotatory through the graphite powder in the rotatory disturbance powder section of thick bamboo of motor drive rotator, graphite powder is heat source pipeline conduction heat for graphite powder in rotatory in-process, drying efficiency is high, difficult diffusion splashes, easy operation is convenient.
In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a drying device for preparing artificial industrial diamond graphite powder comprises a base, a powder cylinder, a rotating mechanism and a heat source pipeline; the bottom of the powder cylinder is connected with the upper side face of the base, the motor of the rotating mechanism is connected with the base, the rotating body is positioned in the powder cylinder and is consistent with the axial direction of the powder cylinder, the heat source pipelines are distributed on the periphery of the rotating body and are connected with the cavity bottom of the powder cylinder, and the motor drives the rotating body to rotate.
The base is a hollow frame structure, and the motor is located in the frame.
The powder cylinder comprises a conical cylinder connected with the straight cylinder and a sealing plug matched with a feeding hole of the conical cylinder.
The conical wall surface of the conical barrel is provided with a plurality of pipeline holes.
The rotating mechanism comprises a rotating body connected with the output shaft of the motor.
The rotator includes and is radial a plurality of pinion racks of being connected with the axis body.
The heat source pipeline is a hollow double-cavity pipeline, and a plurality of communicating holes are formed in the partition board positioned in the cavity of the heat source pipeline.
One cavity of the heat source pipeline is communicated with the heat inlet pipeline, and the other cavity of the heat source pipeline is communicated with the heat exhaust pipeline.
And a discharge pipe is arranged at the bottom of one side of the straight cylinder and communicated with the straight cylinder.
A drying device for preparing artificial industrial diamond graphite powder comprises a base, a powder cylinder, a rotating mechanism and a heat source pipeline; the bottom of the powder cylinder is connected with the upper side face of the base, the motor of the rotating mechanism is connected with the base, the rotating body is positioned in the powder cylinder and is consistent with the axial direction of the powder cylinder, the heat source pipelines are distributed on the periphery of the rotating body and are connected with the cavity bottom of the powder cylinder, and the motor drives the rotating body to rotate. Simple structure, through setting up a powder section of thick bamboo on base upper portion, rotary mechanism sets up in the lower part of base, and the rotator is located a powder section of thick bamboo, and a plurality of heat source pipelines are located a powder section of thick bamboo and lay around the rotator and be connected with the bobbin base of a powder section of thick bamboo, and it is rotatory through the graphite powder in the rotatory disturbance powder section of thick bamboo of motor drive rotator, and graphite powder is heat conduction for graphite powder in rotatory in-process heat source pipeline, and drying efficiency is high, and difficult diffusion splashes, and easy operation is convenient.
In a preferred scheme, the base is a hollow frame structure, and the motor is positioned in the frame. Simple structure, during the use, the base is fixed with ground, and the motor is located hollow frame, and occupation space is little.
In a preferred embodiment, the powder cartridge comprises a conical cartridge connected to a straight cartridge, and a sealing plug cooperating with the inlet opening of the conical cartridge. Simple structure, during the use, inside graphite powder entered into a powder section of thick bamboo from the feed port of a toper section of thick bamboo, filled a quantitative back when graphite powder, adopted the sealing plug to seal with the feed port, avoided the stoving in-process graphite powder diffusion that splashes.
In a preferred embodiment, the conical wall of the conical barrel is provided with a plurality of conduit holes. The powder barrel is simple in structure, when the powder barrel is used, the pipeline hole in the wall surface of the conical barrel is used for the heat inlet pipeline and the heat exhaust pipeline to penetrate through, and the heat inlet pipeline and the heat exhaust pipeline are communicated with the heat source pipeline in the powder barrel after penetrating through the pipeline hole.
In a preferred embodiment, the rotating mechanism comprises a rotating body connected to the output shaft of the motor. Simple structure, during the use, through the motor drive rotator rotation, the graphite powder in the disturbance powder section of thick bamboo when the rotator is rotatory makes graphite powder fully contact with the heat source pipeline, utilizes high temperature to dry graphite powder.
In a preferred embodiment, the rotating body includes a plurality of toothed plates radially connected to the shaft body. Simple structure, during the use, during the rotator is rotatory, is the graphite powder in the pinion rack of dentate structure constantly disturbs a powder section of thick bamboo, and graphite powder is difficult for forming long-time contact with a powder section of thick bamboo inner wall, avoids hardening.
In a preferred scheme, the heat source pipeline is a hollow double-cavity pipeline, and a plurality of communicating holes are formed in a partition plate positioned in a cavity of the hollow double-cavity pipeline. Simple structure, during the use, be the heat source pipeline of two-chamber structure, a cavity advances hot, enters into another cavity through the antithetical couplet through-hole on the baffle after the heat reduces, is favorable to forming the circulation in heat source pipeline inside, and the hot-air is not direct and the outside graphite powder contact of heat source pipeline.
In a preferred scheme, one cavity of the heat source pipeline is communicated with the heat inlet pipeline, and the other cavity of the heat source pipeline is communicated with the heat exhaust pipeline. Simple structure, during the use, the double-cavity structure through heat source pipeline forms the air return circuit for when advancing hot-air all the way, another way exhaust low temperature air makes the temperature of heat source pipeline outer wall keep balanced, is unlikely to dispel the heat fast behind heat source pipeline conduction heat, causes the heat unbalanced, influences oven-dry mass.
In a preferred scheme, a discharge pipe is arranged at the bottom of one side of the straight cylinder and is communicated with the straight cylinder. Simple structure, during the use, after the graphite powder stoving in the straight section of thick bamboo, through arranging material pipe and suction equipment UNICOM, take out the graphite powder after the drying.
A drying device for preparing artificial industrial diamond graphite powder comprises a base, a powder cylinder, a rotating mechanism and a heat source pipeline; the powder cylinder is arranged on the upper portion of the base, the rotating mechanism is arranged on the lower portion of the base, the rotating body is located in the powder cylinder, the heat source pipelines are located in the powder cylinder and distributed around the rotating body to be connected with the cylinder bottom of the powder cylinder, the rotating body is driven by the motor to rotate to disturb the rotation of graphite powder in the powder cylinder, and the heat source pipelines conduct heat to the graphite powder in the rotation process of the graphite powder. The utility model overcomes former drying process and equipment drying efficiency are low, cause the problem that graphite powder diffusion splashes easily during open-type is dried, have simple structure, and drying efficiency is high, and difficult diffusion splashes, easy operation convenient characteristics.
Drawings
The invention will be further explained with reference to the following figures and examples:
fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a front view of fig. 1.
Fig. 3 is a schematic top view of fig. 2.
Fig. 4 is a schematic sectional view at a-a of fig. 3.
Fig. 5 is a schematic structural view of the rotating body of the present invention.
In the figure: the powder feeding device comprises a base 1, a powder cylinder 2, a straight cylinder 21, a conical cylinder 22, a feeding hole 23, a sealing plug 24, a pipeline hole 25, a rotating mechanism 3, a motor 31, a rotating body 32, a toothed plate 33, a heat source pipeline 4, a partition plate 41 and a communicating hole 42.
Detailed Description
As shown in fig. 1 to 5, a drying device for preparing artificial industrial diamond graphite powder comprises a base 1, a powder cylinder 2, a rotating mechanism 3 and a heat source pipeline 4; the bottom of the powder cylinder 2 is connected with the upper side surface of the base 1, the motor 31 of the rotating mechanism 3 is connected with the base 1, the rotating body 32 is positioned in the powder cylinder 2 and is consistent with the axial direction of the powder cylinder 2, the heat source pipelines 4 are distributed around the rotating body 32 and are connected with the cavity bottom of the powder cylinder 2, and the motor 31 drives the rotating body 32 to rotate. Simple structure, through setting up a powder section of thick bamboo 2 on base 1 upper portion, rotary mechanism 3 sets up in base 1's lower part, rotator 32 is located a powder section of thick bamboo 2, a plurality of heat source pipeline 4 are located a powder section of thick bamboo 2 and lay around rotator 32 and be connected with the bobbin base of a powder section of thick bamboo 2, it is rotatory with the graphite powder in the powder section of thick bamboo 2 to drive the rotatory disturbance of rotator 32 through motor 31, graphite powder is at rotatory in-process heat source pipeline 4 conduction heat and gives graphite powder, drying efficiency is high, difficult diffusion splashes, easy operation is convenient.
In a preferred embodiment, the base 1 is a hollow frame structure, and the motor 31 is located in the frame. Simple structure, during the use, base 1 is fixed with ground, and motor 31 is located hollow frame, and occupation space is little.
In a preferred embodiment, the powder cartridge 2 comprises a conical cartridge 22 connected to the straight cartridge 21, and a sealing plug 24 cooperating with the inlet opening 23 of the conical cartridge 22. Simple structure, during the use, inside graphite powder entered into powder section of thick bamboo 2 from the feed port 23 of a toper section of thick bamboo 22, filled a quantitative back when graphite powder, adopted sealing plug 24 and feed port 23 to seal, avoided the stoving in-process graphite powder diffusion that splashes.
In a preferred embodiment, the tapered wall of the tapered cylinder 22 is provided with a plurality of conduit holes 25. The structure is simple, when in use, the pipeline hole 25 on the wall surface of the conical barrel 22 is used for the heat inlet pipeline and the heat exhaust pipeline to pass through, and the heat inlet pipeline and the heat exhaust pipeline are communicated with the heat source pipeline 4 in the powder barrel 2 after passing through the pipeline hole 25.
In a preferred embodiment, the rotating mechanism 3 includes a rotating body 32 connected to an output shaft of a motor 31. Simple structure, during the use, through motor 31 drive rotator 32 rotation, graphite powder in the stirring powder section of thick bamboo 2 when rotator 32 rotates makes graphite powder fully contact with heat source pipeline 4, utilizes high temperature to dry graphite powder.
In a preferred embodiment, the rotating body 32 includes a plurality of toothed plates 33 radially connected to the shaft. Simple structure, during the use, the rotator 32 is rotatory, and the pinion rack 33 that is dentate structure constantly disturbs the graphite powder in the powder section of thick bamboo 2, and graphite powder is difficult for forming long-time contact with powder section of thick bamboo 2 inner wall, avoids hardening.
In a preferred embodiment, the heat source pipeline 4 is a hollow dual-cavity pipeline, and a plurality of communicating holes 42 are formed in a partition plate 41 located in a cavity of the hollow dual-cavity pipeline. Simple structure, during the use, be the heat source pipeline 4 of two-chamber structure, a cavity advances heat, enters into another cavity through the antithetical couplet through-hole 42 on the baffle 41 after the heat reduces, is favorable to forming the circulation in heat source pipeline 4 is inside, and the hot-air is not direct and the outside graphite powder contact of heat source pipeline 4.
In a preferred scheme, one cavity of the heat source pipeline 4 is communicated with the heat inlet pipeline, and the other cavity is communicated with the heat exhaust pipeline. Simple structure, during the use, the double-cavity structure through heat source pipeline 4 forms the air return circuit for when advancing hot-air all the way, another way exhaust low temperature air makes the temperature of heat source pipeline 4 outer wall keep balanced, is unlikely to dispel the heat fast behind heat source pipeline 4 conduction heat, causes the heat unbalanced, influences oven-dry mass.
In a preferred scheme, a discharge pipe is arranged at the bottom of one side of the straight cylinder 21 and is communicated with the straight cylinder. Simple structure, during the use, after the graphite powder stoving in straight section of thick bamboo 21, through arranging material pipe and suction equipment UNICOM, take out the graphite powder after the drying.
When the drying device for preparing the artificial industrial diamond graphite powder is installed and used, the bottom of the powder cylinder 2 is connected with the upper side face of the base 1, the motor 31 of the rotating mechanism 3 is connected with the base 1, the rotating body 32 is positioned in the powder cylinder 2 and is consistent with the axial direction of the powder cylinder 2, the heat source pipelines 4 are distributed around the rotating body 32 and are connected with the cavity bottom of the powder cylinder 2, the motor 31 drives the rotating body 32 to rotate, the drying efficiency is high, the artificial industrial diamond graphite powder is not easy to diffuse and splash, and the operation is simple and convenient.
When the electric bicycle is used, the base 1 is fixed with the ground, and the motor 31 is positioned in the hollow frame, so that the occupied space is small.
During the use, inside graphite powder entered into powder section of thick bamboo 2 from the feed port 23 of a toper section of thick bamboo 22, when graphite powder fills a certain amount back, adopt sealing plug 24 and feed port 23 sealed, avoid the diffusion that splashes of graphite powder among the stoving process.
When the powder barrel is used, the pipeline hole 25 on the wall surface of the conical barrel 22 is used for the heat inlet pipeline and the heat exhaust pipeline to penetrate through, and the heat inlet pipeline and the heat exhaust pipeline are communicated with the heat source pipeline 4 in the powder barrel 2 after penetrating through the pipeline hole 25.
When the powder drying device is used, the motor 31 drives the rotating body 32 to rotate, and when the rotating body 32 rotates, the graphite powder in the powder cylinder 2 is disturbed, so that the graphite powder is fully contacted with the heat source pipeline 4, and the graphite powder is dried by high temperature.
During the use, when rotator 32 rotated, the pinion rack 33 that is dentate structure constantly disturbed the graphite powder in the powder section of thick bamboo 2, and graphite powder is difficult for forming long-time contact with powder section of thick bamboo 2 inner wall, avoids hardening.
When the heat source pipeline 4 with the double-cavity structure is used, heat enters one cavity, and enters the other cavity through the communicating holes 42 in the partition plate 41 after the heat is reduced, so that circulation is formed in the heat source pipeline 4, and hot air is not directly contacted with graphite powder outside the heat source pipeline 4.
During the use, form the air return circuit through the two-chamber structure of heat source pipeline 4 for when advancing hot-air one way, another way exhaust low temperature air, make the temperature of heat source pipeline 4 outer wall keep balanced, be unlikely to dispel the heat fast behind heat source pipeline 4 conduction heat, cause the heat unbalanced, influence oven-dry mass.
When the graphite powder sucking machine is used, after the graphite powder in the straight cylinder 21 is dried, the graphite powder is communicated with a sucking device through a discharging pipe, and the dried graphite powder is sucked out.
The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.
Claims (9)
1. The utility model provides a preparation artificial industry diamond graphite powder drying device which characterized by: the powder spraying device comprises a base (1), a powder cylinder (2), a rotating mechanism (3) and a heat source pipeline (4); the bottom of the powder cylinder (2) is connected with the upper side face of the base (1), the motor (31) of the rotating mechanism (3) is connected with the base (1), the rotating body (32) is located in the powder cylinder (2) and is in axial consistency with the powder cylinder (2), the heat source pipelines (4) are distributed on the periphery of the rotating body (32) and are connected with the cavity bottom of the powder cylinder (2), and the motor (31) drives the rotating body (32) to rotate.
2. The drying device for preparing artificial industrial diamond graphite powder according to claim 1, which is characterized in that: the base (1) is of a hollow frame structure, and the motor (31) is located in the frame.
3. The drying device for preparing artificial industrial diamond graphite powder according to claim 1, which is characterized in that: the powder cylinder (2) comprises a conical cylinder (22) connected with the straight cylinder (21) and a sealing plug (24) matched with a feeding hole (23) of the conical cylinder (22).
4. The drying device for preparing artificial industrial diamond graphite powder according to claim 3, which is characterized in that: the conical wall surface of the conical barrel (22) is provided with a plurality of pipeline holes (25).
5. The drying device for preparing artificial industrial diamond graphite powder according to claim 1, which is characterized in that: the rotating mechanism (3) comprises a rotating body (32) connected with an output shaft of a motor (31).
6. The drying device for preparing the artificial industrial diamond graphite powder according to claim 5, which is characterized in that: the rotating body (32) comprises a plurality of toothed plates (33) radially connected with the shaft body.
7. The drying device for preparing artificial industrial diamond graphite powder according to claim 1, which is characterized in that: the heat source pipeline (4) is a hollow double-cavity pipeline, and a plurality of communicating holes (42) are formed in a partition plate (41) positioned in the cavity of the heat source pipeline.
8. The drying device for preparing artificial industrial diamond graphite powder according to claim 7, which is characterized in that: one cavity of the heat source pipeline (4) is communicated with the heat inlet pipeline, and the other cavity is communicated with the heat exhaust pipeline.
9. The drying device for preparing artificial industrial diamond graphite powder according to claim 3, which is characterized in that: the bottom of one side of the straight cylinder (21) is provided with a discharge pipe communicated with the straight cylinder.
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CN202022536575.9U CN213747656U (en) | 2020-11-05 | 2020-11-05 | Preparation artificial industry diamond graphite powder drying device |
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CN202022536575.9U CN213747656U (en) | 2020-11-05 | 2020-11-05 | Preparation artificial industry diamond graphite powder drying device |
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