CN204746794U - Improved generation screening plant - Google Patents

Improved generation screening plant Download PDF

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Publication number
CN204746794U
CN204746794U CN201520545318.8U CN201520545318U CN204746794U CN 204746794 U CN204746794 U CN 204746794U CN 201520545318 U CN201520545318 U CN 201520545318U CN 204746794 U CN204746794 U CN 204746794U
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CN
China
Prior art keywords
balladeur train
driving
screen drum
cylinder
sieve
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Expired - Fee Related
Application number
CN201520545318.8U
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Chinese (zh)
Inventor
申翰昭
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申翰昭
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Priority to CN201520545318.8U priority Critical patent/CN204746794U/en
Application granted granted Critical
Publication of CN204746794U publication Critical patent/CN204746794U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses an improved generation screening plant, including frame, a rack -mounted sieve section of thick bamboo, be located a sieve section of thick bamboo and can do in it the back -and -forth movement a movable block, be used for driving this movable block back -and -forth movement first driver part, install feeder hopper on sieve tin, be used for carrying the material to the feed arrangement of feeder hopper, the front end of a sieve section of thick bamboo is formed with a plurality of sieve meshes, the below of a sieve section of thick bamboo is provided with fine material outlet in corresponding sieve mesh department, the front end of a sieve section of thick bamboo is provided with the coarse fodder export, the preceding terminal surface detachable of movable block installs first motor, be connected with the stirring piece on the output shaft of first motor. The utility model discloses can show the screening efficiency who improves the material, effectively reduce workman's intensity of labour, increase substantially the screening effect of material.

Description

A kind of improved screening separating device
Technical field
The utility model belongs to a kind of plant equipment, is specifically related to a kind of improved screening separating device.
Background technology
Mineral products base often needs the material different to particle to sieve, to obtain the material of different-grain diameter.At present, although there is special screening plant, need manual operation to carry out screening work by material handling to screening plant, will significantly increase the labour intensity of operating personnel like this, and screening efficiency is not high yet.
Utility model content
For the deficiencies in the prior art, the utility model object is intended to provide a kind of improved screening separating device, can significantly improve the screening efficiency of material, effectively reduces the labour intensity of workman, increases substantially the screening effect of material.
For achieving the above object, the utility model adopts following technical scheme:
A kind of improved screening separating device, comprise frame, rack-mounted screen drum, be positioned at screen drum and can within it do movable movable block, for the first driver part driving this movable block movable, be arranged on the feed hopper on screen drum, for by mass transport to the feed arrangement in feed hopper, the front end of described screen drum is formed with multiple sieve aperture, the below of described screen drum is provided with fines outlet at corresponding sieve aperture place, the front end of described screen drum is provided with coarse fodder outlet, the front end face of described movable block is dismountable is provided with the first motor, the output shaft of described first motor is connected with stirring piece,
Described feed arrangement comprises fixed mount, the first balladeur train be arranged on fixed mount, the second balladeur train be installed in rotation on the first balladeur train, the body feed tank be fixedly mounted on the first balladeur train, the second driver part for driving the second balladeur train to slide up and down, the both sides of described first balladeur train are rotatably mounted with the first pulley by the first rotating shaft, the both sides of described second balladeur train are rotatably mounted with the second pulley by the second rotating shaft, and the both sides of described fixed mount are formed with the first slide rail slided for the first pulley and the second pulley.
The front end of described screen drum is provided with connecting cylinder, described connecting cylinder is set with mounting cylinder, spring cylinder is fitted with in described connecting cylinder, the rear end of described spring cylinder and the front end of screen drum socket-connect, the front end of described spring cylinder is connected with multiple moving sheet, the edge of every adjacent moving sheet is overlapped, each moving sheet is provided with switch module, described switch module comprises the first bolt be threaded on mounting cylinder, the adapter sleeve be fixedly connected on moving sheet, the inwall of described adapter sleeve is formed with the internal thread connected for the first bolt thread.
Described first driver part comprises the second motor be fixedly mounted in frame, the housing be arranged on the second motor, is positioned at housing and the column spinner be connected with the output shaft of the second motor, the pushing set be threaded with column spinner, the stationary magazine creel be sleeved in pushing set, the second bolt be inserted on stationary magazine creel, described pushing set is fixedly connected with movable block, described pushing set is formed with the second slide rail of the end head plug-in mounting for the second bolt, described second slide rail extends along the axial direction of pushing set.
Described fines exit is connected with sorting unit, described sorting unit comprises support, rack-mount separatory vessel, be positioned at the concentration equipment of separatory vessel, the top of described separatory vessel is formed with charging aperture, described charging aperture exports with fines and is connected, the bottom of described separatory vessel is formed with magnetic material outlet, the relative both sides of described separatory vessel are formed with the first non-magnetic material outlet and the outlet of the second non-magnetic material respectively, described concentration equipment comprises in being arranged side by side and contrary the first conveying device of throughput direction and the second conveying device, the input of described first conveying device is positioned at immediately below charging aperture, non-magnetic material can get rid of to the first non-magnetic material outlet by the output of described first conveying device, the backhaul turning of the output of described first conveying device is installed with roughly selects magnet, the input of described second conveying device can be used for accepting the thick magnetic material dropped from the output of the first conveying device, non-magnetic material can get rid of to the second non-magnetic material outlet by the output of described second conveying device, the backhaul turning of the output of described second conveying device is installed with carefully selects magnet, can be used for accepting the thin magnetic material dropped from the output of the second conveying device immediately below the output that the outlet of described magnetic material is positioned at the second conveying device.
Described second driver part comprise the driving shaft being installed in rotation on fixed mount top, the driven shaft being installed in rotation on fixed mount bottom, for driving the 3rd motor of driving shaft rotary work, described driving shaft is provided with the first drive, described driven shaft is provided with the second drive, on described first drive and the second drive, cover is wound with driving-chain, and described second balladeur train is fixedly connected with driving-chain.
Described first driver part also comprises the gib block be arranged in pushing set, and described housing is formed with the 3rd slide rail of the end head plug-in mounting for gib block, described 3rd slide rail extends along the axial direction of housing.
In the shape of a spiral, its hand of spiral is clockwise direction or counter clockwise direction to described stirring piece.
Described first bolt is set with spring, and the top of described first bolt is formed with limiting section, and the upper end of described spring is connected on limiting section, and the lower end of described spring is connected on moving sheet.
The utility model beneficial effect is:
After the utility model is installed by said structure, material to be sieved is delivered in feed hopper by feed arrangement, and do not need by a dead lift in equipment, effectively can reduce the labour intensity of workman, then the first motor is started, drive the rotary motion of stirring piece, then the first driver part is started, drive the movable of movable block, and then drive the movable of stirring piece, the material that particle is less can pass in sieve aperture, flow out from fines exit, larger particles then under the drive of stirring piece screw discharge to coarse fodder exit, significantly improve the screening efficiency of material, increase substantially the screening effect of material.
Accompanying drawing explanation
Fig. 1 is the structural representation after the utility model removes feed arrangement;
Fig. 2 is the structural representation of feed arrangement original state of the present utility model and feed state;
Fig. 3 is the enlarged diagram at I place in Fig. 2;
Fig. 4 is the schematic side view of Fig. 2;
Fig. 5 is the schematic side view of switch module of the present utility model;
Fig. 6 is the decomposition texture schematic diagram of the first driver part of the present utility model.
Wherein, 1, frame; 2, screen drum; 3, movable block; 4, feed hopper; 5, the first driver part; 51, the second motor; 52, column spinner; 53, stationary magazine creel; 54, pushing set; 55, gib block; 56, housing; 57, the 3rd slide rail; 58, the second slide rail; 59, the second bolt; 6, connecting cylinder; 7, mounting cylinder; 8, the first bolt; 9, coarse fodder outlet; 10, moving sheet; 11, limiting section; 12, spring; 13, adapter sleeve; 14, the first motor; 15, stirring piece; 16, sieve aperture; 17, fines outlet; 18, separatory vessel; 19, charging aperture; 20, the first conveying device; 21, the second conveying device; 22, magnet is roughly selected; 23, carefully magnet is selected; 24, the second non-magnetic material outlet; 25, the first non-magnetic material outlet; 26, magnetic material outlet; 27, support; 28, body feed tank; 29, the 3rd motor; 30, fixed mount; 31, the first drive; 32, driving shaft; 33, driving-chain; 34, driven shaft; 35, the second drive; 36, the first balladeur train; 37, the second balladeur train; 38, the first slide rail; 39, the second rotating shaft; 40, the second pulley; 41, the first pulley; 42, the first rotating shaft.
Detailed description of the invention
Below, by reference to the accompanying drawings and detailed description of the invention, the utility model is described further:
As shown in figures 1 to 6, for a kind of improved screening separating device of the present utility model, comprise frame 1, be arranged on the screen drum 2 in frame 1, be positioned at screen drum 2 and movable movable block 3 can be done within it, for the first driver part 5 driving this movable block 3 movable, be arranged on the feed hopper 4 on screen drum 2, for by mass transport to the feed arrangement in feed hopper 4, the front end of described screen drum 2 is formed with multiple sieve aperture 16, the below of described screen drum 2 is provided with fines outlet 17 at corresponding sieve aperture 16 place, the front end of described screen drum 2 is provided with coarse fodder outlet 9, the front end face of described movable block 3 is dismountable is provided with the first motor 14, the output shaft of described first motor 14 is connected with stirring piece 15,
Described feed arrangement comprises fixed mount 30, be arranged on the first balladeur train 36 on fixed mount 30, be installed in rotation on the second balladeur train 37 on the first balladeur train 36, be fixedly mounted on the body feed tank 28 on the first balladeur train 36, for the second driver part driving the second balladeur train 37 to slide up and down, the both sides of described first balladeur train 36 are rotatably mounted with the first pulley 41 by the first rotating shaft 42, the both sides of described second balladeur train 37 are rotatably mounted with the second pulley 40 by the second rotating shaft 39, the both sides of described fixed mount 30 are formed with the first slide rail 38 slided for the first pulley 41 and the second pulley 40.
Particularly, the bottom of Fig. 2 and Fig. 4 is the original state of feed arrangement, and the top of Fig. 2 and Fig. 4 is the feed state of feed arrangement.When initial, the first pulley 41 is the tops being positioned at the second pulley 40, and the second driver part, when starting to drive the second balladeur train 37, because the first pulley 41 does not have restricted, makes the first balladeur train 36 and the second balladeur train 37 synchronously move upward; When the first pulley 41 moves to the end of the first slide rail 38, first pulley 41 can not travel forward again, and now the second driver part continues moving upward of driving second balladeur train 37, upper end due to the second balladeur train 37 is connected with the first balladeur train 36 rotationally, second balladeur train 37 starts to rotate around the second rotating shaft 39, and then drive the first balladeur train 36 to rotate around the first rotating shaft 42, thus drive the synchronous rotary of body feed tank 28, the material in body feed tank 28 is entered in feed hopper 4.
The front end of described screen drum 2 is provided with connecting cylinder 6, described connecting cylinder 6 is set with mounting cylinder 7, spring cylinder (not shown) is fitted with in described connecting cylinder 6, the rear end of described spring cylinder and the front end of screen drum 2 socket-connect, the front end of described spring cylinder is connected with multiple moving sheet 10, the edge of every adjacent moving sheet 10 is overlapped, each moving sheet 10 is provided with switch module, described switch module comprises the first bolt 8 be threaded on mounting cylinder 7, be fixedly connected on the adapter sleeve 13 on moving sheet 10, the inwall of described adapter sleeve 13 is formed with the internal thread be threaded for the first bolt 8.
Multiple moving sheet 10 of the present utility model, when opening, can form an outlet passed through for material, when closed, can form a closed gate.
The operation principle of switch module is: by turning the first bolt 8, first bolt 8 is moved towards moving sheet 10, when the end head of the first bolt 8 is connected to the bottom of adapter sleeve 13, continue to turn the first bolt 8, the position of center line driving moving sheet 10 towards connecting cylinder 6 moves by the first bolt 8 continuing to move towards moving sheet 10, and the flow that coarse fodder is flowed out diminishes; When oppositely turning the first bolt 8, the flow flowed out making coarse fodder becomes large.Turn the first bolt 8 by positive and negative, moving sheet 10 just can be driven to move along close or away from connecting cylinder 6 centerline direction, and then the uninterrupted that adjustment coarse fodder flows out, operation is very easy.
When actual fabrication, the quantity of moving sheet 10 can be three, and its distributing position can be as shown in Figure 5.
Described first driver part 5 comprises the second motor 51 be fixedly mounted in frame 1, be arranged on the housing 56 on the second motor 51, be positioned at housing 56 and the column spinner 52 be connected with the output shaft of the second motor 51, the pushing set 54 be threaded with column spinner 52, be sleeved on the stationary magazine creel 53 in pushing set 54, be inserted into the second bolt 59 on stationary magazine creel 53, described pushing set 54 is fixedly connected with movable block 3, described pushing set 54 is formed with the second slide rail 58 of the end head plug-in mounting for the second bolt 59, described second slide rail 58 extends along the axial direction of pushing set 54.
The specific works principle of this first driver part 5 is: can the rotary motion of driven rotary post 52 by the second motor 51, because pushing set 54 and column spinner 52 are threaded, and the limit of the second bolt 59 and the second slide rail 58 transfer to under, to the movable of pushing set 54 be driven, finally drive the movable of movable block 3 and stirring piece 15.Therefore, by controlling the rotating speed of the second motor 51 accurately, fltting speed and the position of movable block 3 and stirring piece 15 can be controlled accurately, make the utility model according to the fltting speed of the actual conditions adjustment stirring piece 15 of material and position, very well screening effect can be obtained.
Described fines exports 17 places and is connected with sorting unit, described sorting unit comprises support 27, be arranged on the separatory vessel 18 on support 27, be positioned at the concentration equipment of separatory vessel 18, the top of described separatory vessel 18 is formed with charging aperture 19, described charging aperture 19 and fines export 17 and are connected, the bottom of described separatory vessel 18 is formed with magnetic material outlet 26, the relative both sides of described separatory vessel 18 are formed with the first non-magnetic material outlet 25 and the second non-magnetic material outlet 24 respectively, described concentration equipment comprises in being arranged side by side and contrary the first conveying device 20 and the second conveying device 21 of throughput direction, the input of described first conveying device 20 is positioned at immediately below charging aperture 19, non-magnetic material can get rid of to the first non-magnetic material outlet 25 by the output of described first conveying device 20, the backhaul turning of the output of described first conveying device 20 is installed with roughly selects magnet 22, the input of described second conveying device 21 can be used for accepting the thick magnetic material dropped from the output of the first conveying device 20, non-magnetic material can get rid of to the second non-magnetic material outlet 24 by the output of described second conveying device 21, the backhaul turning of the output of described second conveying device 21 is installed with carefully selects magnet 23, can be used for accepting the thin magnetic material dropped from the output of the second conveying device 21 immediately below the output that described magnetic material outlet 26 is positioned at the second conveying device 21.
The operation principle of sorting unit of the present utility model: export 17 materials dropped from fines and enter from charging aperture 19, then fall in the first conveying device 20, output is delivered to from the input of the first conveying device 20, at the backhaul turning of the first conveying device 20, non-magnetic material and roughly select between magnet 22 and do not have magnetic attraction, got rid of under the motional inertia of the first conveying device 20 and deliver to the first non-magnetic material and export 25 places, magnetic material due to and roughly select between magnet 22 and have magnetic attraction, thus thick magnetic material can be delivered to the lower surface of output from the upper surface of the output of the first conveying device 20, magnet 22 is roughly selected owing to only having the backhaul turning of the first conveying device 20, so thick magnetic material still can fall on the input of the second conveying device 21, then under the effect of the second conveying device 21, output is delivered to from the input of the second conveying device 21, carry out thin magnetic separation, the material that in last thick magnetic material, magnetic is less is transported to the second non-magnetic material and exports 24 places, and the stronger thin magnetic material of magnetic is finally transported to magnetic material and exports 26 places.First conveying device 20 of the present utility model and the second conveying device 21 can be track conveying devices of the prior art, preferably material can be carried out lateral transport by the crawler belt that it is arranged.By sorting unit of the present utility model, preferably the magnetic material in fines and non-magnetic material can be carried out sorting, thus according to demand in different fields.
Described second driver part comprise the driving shaft 32 being installed in rotation on fixed mount 30 top, the driven shaft 34 being installed in rotation on fixed mount 30 bottom, for driving the 3rd motor 29 of driving shaft 32 rotary work, described driving shaft 32 is provided with the first drive 31, described driven shaft 34 is provided with the second drive 35, on described first drive 31 and the second drive 35, cover is wound with driving-chain 33, and described second balladeur train 37 is fixedly connected with driving-chain 33.The rotation of driving shaft 32 can be driven by the 3rd motor 29, and then drive the rotation of the first drive 31, and then drive moving up and down of driving-chain 33, and then drive sliding up and down of the second balladeur train 37, operate very easy.When actual fabrication, the quantity of the first drive 31 and the second drive 35 can be two.
Described first driver part 5 also comprises the gib block 55 be arranged in pushing set 54, and described housing 56 is formed with the 3rd slide rail 57 of the end head plug-in mounting for gib block 55, described 3rd slide rail 57 extends along the axial direction of housing 56.Under the effect of gib block 55 and the 3rd slide rail 57, further can prevent the rotary work of pushing set 54, fully ensure that it can only seesaw stably.
In the shape of a spiral, its hand of spiral is clockwise direction or counter clockwise direction to described stirring piece 15.Spiral helicine stirring piece 15 can facilitate the stirring work of material, simultaneously also convenient by coarse fodder helical feed to the front end of screen drum 2, finally export 9 from coarse fodder and discharge.
Described first bolt 8 is set with spring 12, and the top of described first bolt 8 is formed with limiting section 11, and the upper end of described spring 12 is connected on limiting section 11, and the lower end of described spring 12 is connected on moving sheet 10.Under the bounce effect of spring 12, moving sheet 10 can be driven more easily to move towards the position of center line of connecting cylinder 6, and facilitate the reset work of the first bolt 8.
Material to be sieved of the present utility model is delivered in feed hopper 4 by feed arrangement, then the first motor 14 is started, drive the rotary motion of stirring piece 15, then the first driver part 5 is started, drive the movable of movable block 3, and then drive the movable of stirring piece 15, the material that particle is less can pass in sieve aperture 16, from fines export 17 flow out, larger particles then under the drive of stirring piece 15 screw to coarse fodder export 9 places discharge.Export 17 materials flowed out from fines, by sorting unit, magnetic material and non-magnetic material are carried out sorting; The 9 coarse fodders uninterrupteds that regulate it to flow out by switch module flowed out are exported from coarse fodder.
For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and distortion all should belong within the protection domain of the utility model claim.

Claims (4)

1. an improved screening separating device, it is characterized in that: comprise frame, rack-mounted screen drum, be positioned at screen drum and can within it do movable movable block, for the first driver part driving this movable block movable, be arranged on the feed hopper on screen drum, for by mass transport to the feed arrangement in feed hopper, the front end of described screen drum is formed with multiple sieve aperture, the below of described screen drum is provided with fines outlet at corresponding sieve aperture place, the front end of described screen drum is provided with coarse fodder outlet, the front end face of described movable block is dismountable is provided with the first motor, the output shaft of described first motor is connected with stirring piece,
Described feed arrangement comprises fixed mount, the first balladeur train be arranged on fixed mount, the second balladeur train be installed in rotation on the first balladeur train, the body feed tank be fixedly mounted on the first balladeur train, the second driver part for driving the second balladeur train to slide up and down, the both sides of described first balladeur train are rotatably mounted with the first pulley by the first rotating shaft, the both sides of described second balladeur train are rotatably mounted with the second pulley by the second rotating shaft, and the both sides of described fixed mount are formed with the first slide rail slided for the first pulley and the second pulley;
The front end of described screen drum is provided with connecting cylinder, described connecting cylinder is set with mounting cylinder, spring cylinder is fitted with in described connecting cylinder, the rear end of described spring cylinder and the front end of screen drum socket-connect, the front end of described spring cylinder is connected with multiple moving sheet, the edge of every adjacent moving sheet is overlapped, each moving sheet is provided with switch module, described switch module comprises the first bolt be threaded on mounting cylinder, the adapter sleeve be fixedly connected on moving sheet, the inwall of described adapter sleeve is formed with the internal thread connected for the first bolt thread.
2. improved screening separating device as claimed in claim 1, it is characterized in that: described second driver part comprise the driving shaft being installed in rotation on fixed mount top, the driven shaft being installed in rotation on fixed mount bottom, for driving the 3rd motor of driving shaft rotary work, described driving shaft is provided with the first drive, described driven shaft is provided with the second drive, on described first drive and the second drive, cover is wound with driving-chain, and described second balladeur train is fixedly connected with driving-chain.
3. improved screening separating device as claimed in claim 1, is characterized in that: in the shape of a spiral, its hand of spiral is clockwise direction or counter clockwise direction to described stirring piece.
4. improved screening separating device as claimed in claim 1, it is characterized in that: described first bolt is set with spring, the top of described first bolt is formed with limiting section, and the upper end of described spring is connected on limiting section, and the lower end of described spring is connected on moving sheet.
CN201520545318.8U 2015-07-27 2015-07-27 Improved generation screening plant Expired - Fee Related CN204746794U (en)

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CN201520545318.8U CN204746794U (en) 2015-07-27 2015-07-27 Improved generation screening plant

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Application Number Priority Date Filing Date Title
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105533778A (en) * 2016-02-21 2016-05-04 刘丽华 Improved peanut kernel crushing device
CN105563671A (en) * 2016-03-13 2016-05-11 谢森涛 High-efficiency drilling device for spherical jade
CN105599154A (en) * 2016-03-13 2016-05-25 谢森涛 Punching device of improved spherical jade
CN105750039A (en) * 2016-04-03 2016-07-13 谢森涛 Adjustable corn kernel crushing device
CN105750040A (en) * 2016-04-03 2016-07-13 谢森涛 Novel niblet crushing device
CN105818295A (en) * 2016-05-21 2016-08-03 江先庆 Improved plastic extruding and water removing device
CN105818297A (en) * 2016-05-21 2016-08-03 江先庆 Plastic extruding and water removing device
CN105818298A (en) * 2016-05-21 2016-08-03 江先庆 Novel plastic extruding and water removing device
CN105818296A (en) * 2016-05-21 2016-08-03 江先庆 Efficient plastic extruding and water removing device

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105533778A (en) * 2016-02-21 2016-05-04 刘丽华 Improved peanut kernel crushing device
CN105563671A (en) * 2016-03-13 2016-05-11 谢森涛 High-efficiency drilling device for spherical jade
CN105599154A (en) * 2016-03-13 2016-05-25 谢森涛 Punching device of improved spherical jade
CN105750039A (en) * 2016-04-03 2016-07-13 谢森涛 Adjustable corn kernel crushing device
CN105750040A (en) * 2016-04-03 2016-07-13 谢森涛 Novel niblet crushing device
CN105750040B (en) * 2016-04-03 2018-09-28 安徽丰硕种业有限公司 A kind of crushing plant of the novel jade grain of rice
CN105750039B (en) * 2016-04-03 2018-11-09 郑佳 A kind of adjustable niblet breaker
CN105818295A (en) * 2016-05-21 2016-08-03 江先庆 Improved plastic extruding and water removing device
CN105818297A (en) * 2016-05-21 2016-08-03 江先庆 Plastic extruding and water removing device
CN105818298A (en) * 2016-05-21 2016-08-03 江先庆 Novel plastic extruding and water removing device
CN105818296A (en) * 2016-05-21 2016-08-03 江先庆 Efficient plastic extruding and water removing device

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Granted publication date: 20151111

Termination date: 20160727