CN212349485U - Full-automatic copper powder dewatering system - Google Patents

Abstract

The utility model relates to the technical field of copper powder processing, in particular to a full-automatic copper powder dehydration system, which comprises two groups of conveying devices and a dehydration device, wherein the dehydration device comprises a shell, an outer filter cylinder and an inner filter cylinder are arranged in the shell, the outer filter cylinder and the inner filter cylinder are both arranged in a funnel shape, the opening of the outer filter cylinder is fixed with the opening of the shell, the inner filter cylinder can be rotatably arranged in the outer filter cylinder, the shell is provided with a driving device for driving the inner filter cylinder to rotate, and the inner wall of the inner filter cylinder is fixed with a screen; a material conveying channel is arranged between the opening of the inner filter cylinder and the opening of the outer filter cylinder; the conveying device comprises a conveying pipe, one end of a group of conveying pipes is provided with a feeding bin, the other end of the group of conveying pipes is provided with a material inlet pipe for guiding materials to an inner filtering cylinder, the two ends of the other group of conveying pipes are provided with discharging pipes, and one end, far away from the conveying pipe, of one group of discharging pipes penetrates through the shell and the outer filtering cylinder to be communicated with a material conveying channel. The utility model has the advantages of scientific and reasonable design, simple structure, convenient operation, labor saving, electricity saving and high dewatering efficiency.

Description

Full-automatic copper powder dewatering system

Technical Field

The utility model belongs to the technical field of the technique of copper powder processing and specifically relates to a full-automatic copper powder dewatering system is related to.

Background

Copper powder is separated on a copper plate, a physical shaking table specific gravity separation method can be adopted, the process for extracting the copper powder from the waste copper-clad plate and the waste circuit board in the treatment process is always a traditional process of spin-drying dehydration, and the process flow is as follows: the method comprises the steps of separating copper powder accumulated on the ground by a shaking table, manually shoveling the copper powder into a dehydrating machine by a shovel, starting a power supply to start the dehydrating machine to dehydrate, spin-drying water, turning off the power supply to stop the machine from rotating, manually putting the spin-dried copper powder into a bag by the shovel, manually fastening the bag opening and the like. The whole process of the process needs about 30 minutes, about 400 kilograms of copper powder is dewatered by a 1000-diameter type dewaterer each time, and 5 tons of copper powder is dewatered in 8 hours each day. The technology firstly solves the problems of labor intensity reduction, and secondly reduces power consumption and abrasion of machine equipment.

The copper powder dehydration process needs more than two persons for matching operation, belongs to heavy physical labor and consumes larger physical force; the power supply needs to be frequently started and shut down, so that the power consumption is large, the hand brake is frequently pulled to decelerate, the machine is stopped to rotate, the machine is seriously abraded, and the service life of the machine is shortened; the copper powder and the slag powder are distributed unevenly and are difficult to separate, so that the sale of the copper powder is influenced, and the market competitiveness of the copper powder is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic copper powder dewatering system, it has solved frequently to start and close the power, and power consumption is big, and machine wearing and tearing are serious, and copper powder and sediment powder distribute unevenly, influence the problem of copper powder price.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a full-automatic copper powder dehydration system comprises two groups of conveying devices and a dehydration device, wherein the dehydration device comprises a shell, an outer filter cylinder and an inner filter cylinder are arranged in the shell, the outer filter cylinder and the inner filter cylinder are both arranged in a funnel shape, an opening of the outer filter cylinder is fixed with an opening of the shell, the inner filter cylinder can be rotatably arranged in the outer filter cylinder, the shell is provided with a driving device for driving the inner filter cylinder to rotate, and a screen is fixed on the inner wall of the inner filter cylinder; a material conveying channel is arranged between the opening of the inner filter cylinder and the opening of the outer filter cylinder; the conveying device comprises a conveying pipe, one end of the conveying pipe is provided with a feeding bin, the other end of the conveying pipe is provided with a feeding pipe for guiding materials to an inner filtering cylinder, the other end of the conveying pipe is provided with a discharging pipe, and one end, far away from the conveying pipe, of the discharging pipe penetrates through the shell and the outer filtering cylinder to be communicated with a conveying channel.

By adopting the technical scheme, copper powder to be dehydrated is put into the feeding bin, the copper powder to be dehydrated is conveyed to one end of the feeding pipe through the conveying pipe and enters the sieve mesh through the feeding pipe; driving the inner filter cylinder to rotate by using a driving device, so that the screen mesh and the copper powder to be dehydrated synchronously rotate with the inner filter cylinder; the inner filter cylinder rotates at a high speed, under the action of centrifugal force, copper powder and water are separated from each other in the screen, the water enters the shell through the screen, the inner filter cylinder and the outer filter cylinder, after the copper powder is dried in the screen, the outer filter cylinder and the inner filter cylinder are both arranged in a funnel shape, and under the action of the high-speed rotation of the inner filter cylinder, the copper powder moves towards the opening direction of the funnel-shaped inner filter cylinder along the screen and enters the material conveying channel at the opening of the inner filter cylinder; copper powder enters the other conveying pipe along the material discharging pipe in the material conveying channel and is discharged from the other material discharging pipe of the conveying pipe, so that the copper powder is loaded conveniently; the inner filter cylinder is arranged in the outer filter cylinder, so that the mounting mode of the inner filter cylinder is limited on one hand, the inner filter cylinder is convenient to mount, and the outer filter cylinder limits the inner filter cylinder to shake to play a role in fixing the inner filter cylinder on the other hand. The utility model has the advantages of scientific and reasonable design, simple structure and convenient operation, compared with the prior art, the utility model only needs one person to operate, observes the operation condition of the machine and packs and seals, saves labor, saves 80% of physical strength, reduces the pressure of workers on the one hand, and lightens the labor cost of enterprises on the other hand; the whole process only needs to start and close the power supply once for continuous operation, thereby saving the power consumption by 20 percent, reducing the power consumption expenditure of enterprises on the one hand, and playing a role in saving electric quantity resources on the other hand; the continuous operation reduces the working procedure and the pause time between every dehydration, on one hand, the working efficiency can be effectively improved, so that the yield of the copper powder is improved, on the other hand, the abrasion of equipment can be reduced, so that the service life is prolonged; the process that copper powder enters the material conveying channel along the inner filter cylinder in the screen mesh realizes the screening of the copper powder, so that the granularity of the copper powder entering the material conveying channel is uniform, and the selling price of the copper powder tends to be stable.

The utility model discloses further set up to: the conveying device further comprises a conveying motor, a conveying shaft and a spiral conveying blade, the conveying shaft is rotatably mounted in the conveying pipe, the spiral conveying blade is wound on the conveying shaft and located in the conveying pipe, and one end of the conveying shaft rotatably penetrates through a protruding end of the conveying pipe to be fixed with the conveying motor.

Through adopting above-mentioned technical scheme, start conveyor motor, conveyor motor orders about and carries the axle rotatory, carries axle and auger delivery leaf synchronous revolution to in will arranging the copper powder in the conveyer pipe in and carry the other end from the one end of conveyer pipe, make and carry copper powder labour saving and time saving, so that reduce cost.

The utility model discloses further set up to: the surface of the screen, which is deviated from the inner filter cylinder, is provided with a limiting net, the limiting net is provided with a locking rod, and the locking rod sequentially penetrates through the limiting net and the protruding end of the screen to be fixedly connected with the inner filter cylinder.

Through adopting above-mentioned technical scheme, spacing net is pressed the screen cloth and is inwards strained a section of thick bamboo for the screen cloth is strained a section of thick bamboo laminating with interior, so that the screen cloth is with copper powder and separation of water.

The utility model discloses further set up to: the driving device comprises a servo motor and a rotating shaft, the servo motor is positioned below the inner filter cylinder, the rotating shaft is arranged on the servo motor, and the rotating shaft can rotatably penetrate through the protruding end of the outer shell and the protruding end of the outer filter cylinder to be fixed with the inner filter cylinder.

By adopting the technical scheme, the servo motor is started, the servo motor drives the rotating shaft to rotate, and the rotating shaft drives the inner filter cylinder to rotate, so that the inner filter cylinder performs circular motion, and the copper powder is conveniently dried by the inner filter cylinder.

The utility model discloses further set up to: the outer wall of the opening of the inner filter cylinder is provided with a scraper which is positioned in the material conveying channel, and a gap is formed between the scraper and the outer filter cylinder.

Through adopting above-mentioned technical scheme, the scraper blade is fixed with the outer wall of interior filter cartridge, and in the scraper blade was arranged in defeated material passageway, there was the clearance between scraper blade and the outer filter cartridge for the scraper blade can follow interior filter cartridge and rotate in step, so that the discharging pipe is scraped with the copper powder in the defeated material passageway to the scraper blade, thereby send the copper powder in the defeated material passageway into in the conveyer pipe, so that the transportation of copper powder.

The utility model discloses further set up to: the surface of the outer filter cylinder is provided with a circle of bearing plate, and the bearing plate is positioned on the inner side of the outer filter cylinder.

By adopting the technical scheme, the bearing plate bears copper powder thrown away by the inner filter cylinder, and the copper powder is conveyed to the conveying pipe through the discharging pipe at the connecting outlet and conveyed to the packaging bag through the conveying pipe and the other discharging pipe.

The utility model discloses further set up to: the opening of shell is equipped with the apron, the one side of apron is contradicted with accepting the board, the opening that corresponds with the inlet pipe is seted up to the apron.

By adopting the technical scheme, the cover plate covers the opening of the shell to limit the copper powder on the inner filter cylinder and the bearing plate to be thrown out, so that the dehydration of the dehydration device is facilitated, the floor cannot be polluted when the dehydration device dehydrates, and the production environment of the dehydration system is optimized.

The utility model discloses further set up to: the conveyer pipe slope sets up, the feeding storehouse is located the conveyer pipe and is close to the one end on ground, the discharging pipe is located the conveyer pipe and keeps away from the one end on ground.

By adopting the technical scheme, the conveying pipe is obliquely arranged, and the feeding bin is positioned at one end of the conveying pipe close to the ground, so that copper powder to be dehydrated can be conveniently loaded into the feeding bin, and the working efficiency is improved; the discharging pipe is located at one end, far away from the ground, of the conveying pipe, so that copper powder can be loaded conveniently, working efficiency is improved, and production efficiency of the copper powder is improved.

The utility model discloses further set up to: the density of the screen is greater than eighty meshes.

By adopting the technical scheme, the density is greater than the eighty-mesh screen, so that the copper powder cannot pass through the screen, the copper powder cannot run off, the separation of the copper powder and water is facilitated, and the working efficiency is improved.

To sum up, the utility model discloses a beneficial technological effect does:

1. the utility model has the advantages of scientific and reasonable design, simple structure and convenient operation, compared with the prior art, the utility model only needs one person to operate, observes the operation condition of the machine and packs and seals, saves labor, saves 80% of physical strength, reduces the pressure of workers on the one hand, and lightens the labor cost of enterprises on the other hand;

2. the whole process only needs to start and close the power supply once for continuous operation, thereby saving the power consumption by 20 percent, reducing the power consumption expenditure of enterprises on the one hand, and playing a role in saving electric quantity resources on the other hand;

3. the continuous operation reduces the working procedure and the pause time between every dehydration, on one hand, calculated in 8 hours, 12 tons of copper powder can be dehydrated every day, the efficiency is improved by more than 60 percent, the working efficiency is effectively improved, and therefore, the yield of the copper powder is improved, on the other hand, the abrasion of equipment can be reduced, and the service life is prolonged;

4. the process that copper powder enters the material conveying channel along the inner filter cylinder in the screen mesh realizes screening of the copper powder, so that the granularity of the copper powder entering the material conveying channel is uniform, and the selling price of the copper powder tends to be stable;

5. conveying motor orders about and carries the axle rotatory, carries axle and auger delivery leaf synchronous revolution to the copper powder of arranging in the conveyer pipe in carries the other end from the one end of conveyer pipe, makes and carries copper powder labour saving and time saving, so that reduce cost.

Drawings

Fig. 1 is a cross-sectional view of the present invention;

fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

In the figure, 1, a conveying device; 11. a delivery pipe; 111. a feeding bin; 112. a feed pipe; 113. a discharge pipe; 12. a conveying motor; 13. a delivery shaft; 14. a spiral conveying blade; 2. a dewatering device; 21. a housing; 22. an outer filter cartridge; 23. an inner filter cartridge; 24. screening a screen; 25. a limiting net; 3. a drive device; 31. a servo motor; 32. a rotating shaft; 4. a material conveying channel; 5. a squeegee; 6. a cover plate; 7. a water outlet pipe; 8. a bearing plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a full-automatic copper powder dewatering system, including two sets of conveyor 1 and dewatering device 2, a set of conveyor 1 is located dewatering device 2's top, and another set of conveyor 1 is connected with dewatering device 2. So that one group of conveying devices 1 conveys copper powder to be dehydrated to the dehydrating device 2, and the dehydrating device 2 dehydrates the copper powder and then conveys the copper powder away through the other group of conveying devices 1.

The dehydration device 2 includes a housing 21, an outer filter cartridge 22, an inner filter cartridge 23, a screen 24, and a limiting net 25, the outer filter cartridge 22 is disposed in the housing 21, and an opening of a top end of the outer filter cartridge 22 is fixed with an opening of the housing 21 to limit the movement of the outer filter cartridge 22 in the housing 21. The inner filter cartridge 23 is disposed inside the outer filter cartridge 22 with a gap between the inner filter cartridge 23 and the outer filter cartridge 22 so that the inner filter cartridge 23 can rotate inside the outer filter cartridge 22. The screen 24 is arranged in the inner filter cylinder 23, and the screen 24 is fixed on the side wall and the bottom of the inner filter cylinder 23 so that the screen 24 can separate the copper powder from the water; mesh 24 has a density greater than eighty mesh and mesh 24 has a density greater than eighty mesh so that copper powder cannot pass through mesh 24 so that water can pass through mesh 24 and copper powder cannot pass through mesh 24 so that copper powder is not lost and separation of copper powder and water is facilitated. The surface of the screen 24, which is far away from the inner filter cylinder 23, is provided with a limiting net 25, the limiting net 25 is provided with a locking rod, and the locking rod sequentially penetrates through the limiting net 25 and the protruding end of the screen 24 to be fixedly connected with the inner filter cylinder 23, so that the screen 24 is limited, and the screen 24 can sieve out water in copper powder; the locking rod is a bolt, the limiting net 25 is a stainless steel net, and the bolt sequentially penetrates through the stainless steel net and the screen 24 to be fixedly connected with the inner filter cylinder 23. The shell 21 is provided with a driving device 3 for driving the inner filter cartridge 23 to rotate, the driving device 3 comprises a servo motor 31 and a rotating shaft 32, the servo motor 31 is installed at the bottom of the shell 21, the servo motor 31 is positioned below the inner filter cartridge 23, the rotating shaft 32 is installed on the servo motor 31, and the rotating shaft 32 can rotatably penetrate through the protruding ends of the shell 21 and the outer filter cartridge 22 and is fixed with the inner filter cartridge 23, so that the servo motor 31 drives the inner filter cartridge 23 to rotate;

the servo motor 31 is started, the servo motor 31 drives the rotating shaft 32 to rotate, the rotating shaft 32 drives the inner filter cylinder 23 to rotate, the inner filter cylinder 23, the limiting net 25 and the screen mesh 24 rotate synchronously, so that the screen mesh 24 removes water in copper powder, the water enters the shell 21 through the screen mesh 24, the inner filter cylinder 23 and the outer filter cylinder 22, and the bottom of the shell 21 is provided with a water outlet pipe 7 so as to discharge the water; during the continued rotation of the inner cartridge 23, the copper powder is spun dry. The outer filter cylinder 22 and the inner filter cylinder 23 are both arranged in a funnel shape, and under the action of centrifugal force, copper powder can move upwards along the funnel-shaped inner filter cylinder 23, so that the copper powder placed in the screen 24 moves upwards through the inner filter cylinder 23;

a material conveying channel 4 is arranged between the opening of the inner filter cylinder 23 and the opening of the outer filter cylinder 22, so that copper powder thrown out by the inner filter cylinder 23 enters the material conveying channel 4, and the copper powder is conveyed away by the material conveying channel 4. The surface of the outer filter cylinder 22 is provided with a circle of bearing plates 8, the bearing plates 8 are positioned on the inner side of the outer filter cylinder 22, and the bearing plates 22 bear copper powder thrown out by the inner filter cylinder 23 so as to limit the copper powder to be thrown onto the ground, so that the copper powder collection is facilitated, and the ground can be kept clean.

The conveying device 1 comprises conveying pipes 11, conveying motors 12, conveying shafts 13 and spiral conveying blades 14, wherein one end of each group of conveying pipes 11 is provided with a feeding bin 111, so that copper powder to be dehydrated is conveyed into the conveying pipes 11 through the feeding bins 111. The other end of the group of conveying pipes 11 is provided with a feeding pipe 112, and the feeding pipe 112 is positioned right above the inner filter cylinder 23 so as to feed the copper powder in the conveying pipes 11 into the inner filter cylinder 23. Both ends of the other conveying pipe set 11 are provided with a discharging pipe 113, and one discharging pipe 113 is used for loading copper powder, so that the loading speed of the copper powder is improved. The other end of discharging pipe 113 far from conveying pipe 11 passes through outer shell 21, outer filter cylinder 22 and receiving plate 8 to communicate with conveying passage 4, so that copper powder in conveying passage 4 is conveyed into conveying pipe 11 through discharging pipe 113. The outer wall of the opening of the inner filter cylinder 23 is provided with a scraper 5, the scraper 5 is positioned in the material conveying channel 4, and a gap is formed between the scraper 5 and the outer filter cylinder 22; when the inner filter cylinder 23 rotates, the scraper 5 and the inner filter cylinder 23 rotate synchronously, so that the scraper 5 scrapes copper powder in the material conveying channel 4 into the material discharging pipe 113, and the copper powder in the material conveying channel is conveyed into the conveying pipe 11. The conveying shaft 13 is rotatably arranged in the conveying pipe 11, the spiral conveying blade 14 is wound on the conveying shaft 13, the spiral conveying blade 14 is positioned in the conveying pipe 11, and one end of the conveying shaft 13 rotatably penetrates through the protruding end of the conveying pipe 11 to be fixed with the conveying motor 12;

starting the conveying motor 12, driving the conveying shaft 13 to rotate by the conveying motor 12, and synchronously rotating the conveying shaft 13 and the spiral conveying blade 14 so as to convey the copper powder in the conveying pipe 11 from one end of the conveying shaft 13 to the other end;

the conveying pipes 11 are obliquely arranged, and the feeding bin 111 is positioned at one end of one group of conveying pipes 11 close to the ground, so that copper powder to be dehydrated can be conveniently loaded into the feeding bin 111; tapping pipe 113 is located at the end of the other set of conveying pipes 11 remote from the surface, in order to facilitate loading of the copper powder output by tapping pipe 113.

The cover plate 6 is arranged at the opening of the shell 21, one surface of the cover plate 6 is abutted against the bearing plate 8, the copper powder in the shell 21 is limited by the cover plate 6 to be thrown out from the opening, and the cover plate 6 is provided with an opening corresponding to the feeding pipe 112, so that the feeding pipe 112 can conveniently feed the copper powder into the inner filter cylinder 23 through the opening of the cover plate 6.

The implementation principle of the embodiment is as follows: putting copper powder to be dehydrated into a feeding bin 111, conveying the copper powder to be dehydrated to one end of a feeding pipe 112 through a conveying pipe 11, and feeding the copper powder into a screen 24 through the feeding pipe 112; the driving device 3 is used for driving the inner filter cylinder 23 to rotate, so that the screen 24 and the copper powder to be dehydrated rotate synchronously with the inner filter cylinder 23; the inner filter cylinder 23 rotates at a high speed, under the action of centrifugal force, copper powder and water are separated from each other in the screen mesh 24, the water enters the shell 21 through the screen mesh 24, the inner filter cylinder 23 and the outer filter cylinder 22, after the copper powder is dried in the screen mesh 24, because the outer filter cylinder 22 and the inner filter cylinder 23 are both arranged in a funnel shape, under the action of the centrifugal force, the copper powder moves towards the opening direction of the funnel-shaped inner filter cylinder 23 along the screen mesh 24 and enters the material conveying channel 4 at the opening of the inner filter cylinder 23 under the action of the centrifugal force under the high-speed rotation of the inner filter cylinder; copper powder enters another conveying pipe 11 along a discharge pipe 113 in the conveying channel 4 and is discharged from another discharge pipe 113 of the conveying pipe 11, so that the copper powder is conveniently loaded; the inner filter cartridge 23 is disposed in the outer filter cartridge 22, which defines the mounting manner of the inner filter cartridge 23 to facilitate the mounting of the inner filter cartridge 23, and the outer filter cartridge 22 limits the shaking of the inner filter cartridge 23 to fix the inner filter cartridge 23. The utility model has the advantages of scientific and reasonable design, simple structure and convenient operation, compared with the prior art, the utility model only needs one person to operate, observes the operation condition of the machine and packs and seals, saves labor, saves 80% of physical strength, reduces the pressure of workers on the one hand, and lightens the labor cost of enterprises on the other hand; the whole process only needs to start and close the power supply once for continuous operation, thereby saving the power consumption by 20 percent, reducing the power consumption expenditure of enterprises on the one hand, and playing a role in saving electric quantity resources on the other hand; the continuous operation reduces the working procedure and the pause time between every dehydration, on one hand, the working efficiency can be effectively improved, so that the yield of the copper powder is improved, on the other hand, the abrasion of equipment can be reduced, so that the service life is prolonged; the process that copper powder enters the material conveying channel 4 along the inner filter cylinder 23 in the screen 24 realizes the screening of the copper powder, so that the granularity of the copper powder entering the material conveying channel 4 is uniform, and the selling price of the copper powder tends to be stable.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a full-automatic copper powder dewatering system which characterized in that: the automatic dewatering device comprises two groups of conveying devices (1) and a dewatering device (2), wherein the dewatering device (2) comprises a shell (21), an outer filter cylinder (22) and an inner filter cylinder (23) are arranged in the shell (21), the outer filter cylinder (22) and the inner filter cylinder (23) are arranged in a funnel shape, an opening of the outer filter cylinder (22) is fixed with an opening of the shell (21), the inner filter cylinder (23) is rotatably arranged in the outer filter cylinder (22), the shell (21) is provided with a driving device (3) for driving the inner filter cylinder (23) to rotate, and a screen (24) is fixed on the inner wall of the inner filter cylinder (23); a material conveying channel (4) is arranged between the opening of the inner filter cylinder (23) and the opening of the outer filter cylinder (22); conveyor (1) is including conveyer pipe (11), and is a set of the one end of conveyer pipe (11) is equipped with feeding storehouse (111), and the other end is equipped with inlet pipe (112) of straining a section of thick bamboo (23) in leading the material, another group the both ends of conveyer pipe (11) all are equipped with discharging pipe (113), and are a set of shell (21) and outer section of thick bamboo (22) and defeated material passageway (4) intercommunication are passed to the one end that conveyer pipe (11) were kept away from in discharging pipe (113).

2. The full-automatic copper powder dewatering system according to claim 1, wherein: the conveying device (1) further comprises a conveying motor (12), a conveying shaft (13) and a spiral conveying blade (14), the conveying shaft (13) is rotatably installed in the conveying pipe (11), the spiral conveying blade (14) is wound on the conveying shaft (13), the spiral conveying blade (14) is located in the conveying pipe (11), and one end of the conveying shaft (13) can rotatably penetrate through a protruding end of the conveying pipe (11) to be fixed with the conveying motor (12).

3. The full-automatic copper powder dewatering system according to claim 1, wherein: the surface of the screen (24) departing from the inner filter cylinder (23) is provided with a limiting net (25), the limiting net (25) is provided with a locking rod, and the locking rod sequentially penetrates through the limiting net (25) and the protruding end of the screen (24) to be fixedly connected with the inner filter cylinder (23).

4. The full-automatic copper powder dewatering system according to claim 1, wherein: the driving device (3) comprises a servo motor (31) and a rotating shaft (32), the servo motor (31) is positioned below the inner filter cylinder (23), the rotating shaft (32) is installed on the servo motor (31), and the rotating shaft (32) can rotatably penetrate through the protruding ends of the shell (21) and the outer filter cylinder (22) to be fixed with the inner filter cylinder (23).

5. The full-automatic copper powder dehydration system of claim 4 characterized in that: the outer wall of the opening of the inner filter cylinder (23) is provided with a scraper (5), the scraper (5) is positioned in the material conveying channel (4), and a gap is formed between the scraper (5) and the outer filter cylinder (22).

6. The full-automatic copper powder dewatering system according to claim 1, wherein: the surface of the outer filter cylinder (22) is provided with a circle of bearing plate (8), and the bearing plate (8) is positioned at the inner side of the outer filter cylinder (22).

7. The full-automatic copper powder dewatering system according to claim 6, wherein: the opening of shell (21) is equipped with apron (6), the one side of apron (6) is contradicted with accepting board (8), the opening that corresponds with inlet pipe (112) is seted up in apron (6).

8. The full-automatic copper powder dewatering system according to claim 1, wherein: conveyer pipe (11) slope sets up, feeding storehouse (111) are located conveyer pipe (11) and are close to the one end on ground, discharging pipe (113) are located conveyer pipe (11) and keep away from the one end on ground.

9. The full-automatic copper powder dewatering system according to claim 1, wherein: the density of the screen (24) is greater than eighty mesh.

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