CN208054451U - Powder Recovery utilizes device - Google Patents

Powder Recovery utilizes device Download PDF

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Publication number
CN208054451U
CN208054451U CN201820090143.XU CN201820090143U CN208054451U CN 208054451 U CN208054451 U CN 208054451U CN 201820090143 U CN201820090143 U CN 201820090143U CN 208054451 U CN208054451 U CN 208054451U
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CN
China
Prior art keywords
powder
powder recovery
charging
saggar
sweep
Prior art date
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Active
Application number
CN201820090143.XU
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Chinese (zh)
Inventor
战鹏
胡艳
方秀利
朱海洋
蔡海军
丁燕飞
丛海明
翟缪淋
顾晶
陈洋溢
黄勇
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Zhongtian Xinxing Material Co Ltd
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Zhongtian Xinxing Material Co Ltd
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Priority to CN201820090143.XU priority Critical patent/CN208054451U/en
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Abstract

A kind of Powder Recovery of the utility model offer utilizes device comprising powder cutting agency, Powder Recovery mechanism, sweep-up pipe, negative tube, suction control mechanism and wind turbine.The Powder Recovery mechanism is arranged at the top of the powder cutting agency, convenient to recycle material again.The suction control mechanism is arranged on the sweep-up pipe, in order to adjust adsorptive pressure according to material airborne dust concentration.The utility model integrates blanking process and Powder Recovery utilizes process, effectively intercepts powder particle, does not use independent dust-collecting equipment, reduces environmental protection equipment input cost.In use, material powders need to only can be completed by control valve and recycle work under wind turbine normally open.

Description

Powder Recovery utilizes device
Technical field
The utility model is related to dusty material blanking fields more particularly to a kind of Powder Recovery to utilize device.
Background technology
It is spread in workshop it is well known that the powder material of good fluidity will produce a large amount of dust in blanking, lithium Ion battery material powder is no exception, and particle is smaller, lighter in weight, therefore lithium ion battery material is from storage bin blanking It is sintered to saggar or easily generates dust effusion during metering packing, the effusion of one side dust causes material Waste, it is for years to greatly promote production cost;On the other hand polluted workshop condition, make operating personnel be in for a long time with In the environment of dust contact, the respiratory system of operating personnel is damaged.
Utility model content
In view of above-mentioned condition, a kind of Powder Recovery of the utility model offer utilize device.
A kind of Powder Recovery utilizes device comprising powder cutting agency, Powder Recovery mechanism, sweep-up pipe, negative tube, suction Power control mechanism and wind turbine, the Powder Recovery mechanism are mounted on the powder cutting agency and communicate therewith, the powder Recovering mechanism includes deduster and recycling charging basket, and the deduster is housed in the recycling charging basket, and the negative tube connects respectively The deduster and the wind turbine are connect, the sweep-up pipe is connect with the powder cutting agency and deduster respectively, the wind turbine When startup, powder is recycled to the Powder Recovery mechanism by the sweep-up pipe, then falls the quilt into the cutting agency after rise again It re-uses, the suction control mechanism is arranged on the sweep-up pipe and close to the powder cutting agency.
Preferably, it is provided with dust-removal cloth-bag in the deduster.
Preferably, the aperture of the dust-removal cloth-bag is less than the diameter of powder particle.
Preferably, the suction control mechanism includes airborne dust sensor and aperture valve, and the aperture valve is come from by receiving The feedback signal of the airborne dust sensor controls aperture.
Preferably, the powder cutting agency includes rack, feed bin, feeding portion, charging portion, charging saggar and automatic conveying Line, the top of the feed bin are connected with the Powder Recovery mechanism, and the feed bin is set in the rack, the feeding portion Top is connected with the bottom of the feed bin, and the feeding portion is connected with the charging portion, bottom and the dress in the charging portion Expect that saggar is connected, the charging saggar is placed on the automatic conveyor line.
Preferably, the feeding portion includes revolving valve and feeder, the bottom at the top of the revolving valve and the feed bin Connection, the bottom of the revolving valve are connect with the feeder, and the feeder is connect with the charging portion.
Preferably, the charging portion includes material-homogenating device, the first adjustable gate and saggar ventilation mouth, and described first is adjustable Valve is arranged in the material-homogenating device, and the material-homogenating device is connected with the feeder, and the material-homogenating device bottom and the saggar are saturating Gas port is connected, and the saggar ventilation mouth is connected with the charging saggar and the sweep-up pipe respectively.
Preferably, weighing lifting device is installed on the automatic conveyor line.
Preferably, the position in the rack close to the feed bin is provided with weighing sensor.
Preferably, the reclaimed materials bottom of the barrel is provided with vibrator and the second adjustable gate.
Using process, on the one hand the Powder Recovery of the utility model integrates blanking process and Powder Recovery using device Dust removing effects and recycle it is with obvious effects, reduce the loss of product material, on the other hand with traditional free-standing deduster It compares, has saved a large amount of personnel and equipment cost, be conveniently operated, dust is avoided to be diffused in workshop, reduce operator and exhale The injury of desorption system also avoids impacting to environment.
Description of the drawings
Fig. 1 is the structural schematic diagram that Powder Recovery provided by the utility model utilizes device.
Main element symbol description:
Specific implementation mode:
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model It clearly and completely describes, it is clear that described embodiment is only the utility model a part of the embodiment, rather than whole realities Apply example.Based on the embodiments of the present invention, those of ordinary skill in the art institute without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.
Referring to Fig. 1, utilizing the structural schematic diagram of device 100 for the Powder Recovery of the present embodiment.The Powder Recovery profit Include powder cutting agency 10, Powder Recovery mechanism 20, sweep-up pipe 21, negative tube 22,23 and of suction control mechanism with device 100 Wind turbine 24.
The powder cutting agency 10 include rack 11, feed bin 12, feeding portion 13, charging portion 14, charging saggar 15 and from Dynamic pipeline 16.In the present embodiment, the feed bin 12 is in funnel-form, and top center is provided with feed inlet 121, described Pneumatic butterfly valve (not shown) is provided in feed inlet 121.The rack 11 is used to support the feed bin 12.In the rack 11 Upper end is provided with weighing sensor 111 close to the position of the feed bin 12, and in the present embodiment, the weighing sensor 111 is Bikini weighing sensor.When the feed bin 12 needs feed supplement, the weighing sensor 111 sends out feedback signal, the gas Dynamic butterfly valve is opened, and material enters the feed bin 12 from the feed inlet 121;When the material in the feed bin 12 reaches high charge level When, the weighing sensor 111 sends out feedback signal again, and the Pneumatic butterfly valve is closed, and charging is stopped.
The bottom of the feed bin 12 connects the feeding portion 13, and the feeding portion 13 includes revolving valve 131 and feeder 132.The upper end of the revolving valve 131 is connected with the bottom of the feed bin 12, and lower end is connected with the feeder 132.In this reality It applies in example, the feeder 132 is twin worm feeder.The revolving valve 131 and the feeder 132 are used for the feed bin Material in 12 is sent into the charging portion 14.
The charging portion 14 includes the material-homogenating device 141 being connected with the feeder 132, is arranged in the material-homogenating device 141 The first adjustable gate 142 and the saggar ventilation mouth 143 in 141 bottom of the material-homogenating device is set.Material is in the material-homogenating device It is stirred in 141, is then discharged to the dress by first adjustable gate 142 and the saggar ventilation mouth 143 Expect saggar 15.The quantity of the blowing saggar 15 has several, is both placed on the automatic conveyor line 16, and is located at material-homogenating device 141 lower section.The position that the material-homogenating device 141 is corresponded on the automatic conveyor line 16 is equipped with weighing lifting device 161.When one When the charging saggar 15 of a sky is transported to the position of the weighing lifting device 161, the charging saggar 15 is described Weighing lifting device 161 rises, and is connect with the saggar ventilation mouth 143, and first adjustable gate 142 is opened at this time, Material is packed into the charging saggar 15, and the material for being packed into the charging saggar 15 reaches first adjustable valve after specified wt Door 142 is closed, and the weighing lifting device 161 transfers the charging saggar 15 after charging to the automatic conveying device 16 And transported, the charging saggar 15 of next sky is sent to the position of the weighing lifting device 161, repeats above-mentioned behaviour Make, completes powder blanking process.
The Powder Recovery mechanism 20 is mounted on the top of the feed bin 12, and is connected with the feed bin 12.It is described Powder Recovery mechanism 20 includes the deduster 205 for recycling charging basket 201 and being housed in the recycling charging basket 201.The reclaimed materials There are one connecting tubes 204 for the bottom setting of bucket 201, for being connected to the recycling charging basket 201 and the feed bin 12.In the connection The junction of pipe 204 and the recycling charging basket 201 is provided with the second adjustable gate 203.Outside the bottom of the recycling charging basket 201 The outer wall of side and the connecting tube 204 is both provided with vibrator 202, and in the present embodiment, the vibrator 202 is turbine type gas Dynamic vibrator.
Dust-removal cloth-bag 206 is provided in the deduster 205, the aperture of the dust-removal cloth-bag 206 is less than material powders Diameter, therefore the regenerant feed bin fallen in the deduster 205 is isolated by the dust-removal cloth-bag 206 in the material powders recycled In, the material powders then recycled further fall and are stored in the recycling charging basket 201.When in the recycling charging basket 201 Material when reaching preset height, second adjustable gate 203 is opened, and the vibrator 202 starts, to make described return Material in rewinding bucket 201 is fallen by the connecting tube 204 in the feed bin 12, realizes the recycling of material.
The recycling charging basket 201 is stretched into the upper end of the sweep-up pipe 21, and is connected with the lower end of the deduster 205, institute The lower end for stating sweep-up pipe 21 connects the saggar ventilation mouth 143.The recycling charging basket 201 is stretched into the upper end of the negative tube 22, And be connected with the air outlet (not shown) of 205 upper end of the deduster, the lower end of the negative tube 22 and the wind turbine 24 into Air port (not shown) is connected.The suction control mechanism 23 is arranged in the lower end of the sweep-up pipe 21 close to the material-homogenating device 141 Position.The suction control mechanism 23 includes airborne dust sensor 232 and aperture valve 231.The airborne dust sensor 232 with it is described Aperture valve 231 is separately arranged 231.In the present embodiment, the aperture valve 231 is Manual-automatic integrated formula aperture valve, described Airborne dust sensor 232 is airborne dust concentration sensor.
When wind turbine 24 starts, negative pressure is generated in the negative tube 22, the deduster 205 and the sweep-up pipe 21, it will The dust that the charging portion 14 generates when feeding sucks the deduster 205 and falls in the recycling charging basket 201 and deposited Storage.The direction of the arrow meaning of the foot section brought circle in Fig. 1 is dust flow direction.The arrow of tail portion in Fig. 1 without circle Signified direction is negative pressure fluid direction.The airborne dust sensor 232 by detecting airborne dust concentration, simultaneously to described open by feedback signal Bottom valve 231, the aperture valve 231 control the absorption in the sweep-up pipe 21 according to the feedback signal automatic adjustment aperture received Pressure, to ensure inexcessive suction.When the material in the recycling charging basket 201 reaches preset height, the wind turbine 24 stops Work, second adjustable valve 203 are opened, and the recovered material in the recycling charging basket 201 falls to the feed bin 12, realizes The recycling of material.When the material emptying in the recycling charging basket 201, the wind turbine 24 restarts, the powder of a new round Last recycling process starts.During entire Powder Recovery utilizes, material is not contacted with the external world, avoids the band of impurity Enter, realizes recycling material in situ, effectively reduce cost.
The Powder Recovery of the utility model integrates blanking process and Powder Recovery using process using device 100, and one Aspect dust removing effects and recycling are with obvious effects, reduce the loss of product material, are on the other hand removed with traditional stand alone type Dirt device is compared, and has been saved a large amount of personnel and equipment cost, has been conveniently operated, dust is avoided to be diffused in workshop, has reduced operative employee The injury of people's respiratory system also avoids impacting to environment.
Embodiment of above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, although with reference to above preferably real Mode is applied the utility model is described in detail, it will be understood by those of ordinary skill in the art that, it can be new to this practicality The technical solution of type is modified or equivalent replacement should not all be detached from the spirit and scope of technical solutions of the utility model.

Claims (10)

1. a kind of Powder Recovery utilizes device, it is characterised in that:The Powder Recovery includes powder cutting agency, powder using device Last recovering mechanism, sweep-up pipe, negative tube, suction control mechanism and wind turbine, the Powder Recovery mechanism are mounted under the powder It in material mechanism and communicates therewith, the Powder Recovery mechanism includes deduster and recycling charging basket, and the deduster is housed in described Recycle in charging basket, the negative tube is separately connected the deduster and the wind turbine, the sweep-up pipe respectively under the powder Material mechanism is connected with deduster, and when the wind turbine starts, powder is recycled to the Powder Recovery mechanism by the sweep-up pipe, so It is fallen after rise again into the cutting agency and is re-used afterwards, the suction control mechanism is arranged on the sweep-up pipe and close to institute State powder cutting agency.
2. Powder Recovery as described in claim 1 utilizes device, which is characterized in that be provided with dust removing cloth in the deduster Bag.
3. Powder Recovery as claimed in claim 2 utilizes device, which is characterized in that the aperture of the dust-removal cloth-bag is less than powder The diameter of particle.
4. Powder Recovery as described in claim 1 utilizes device, which is characterized in that the suction control mechanism includes that airborne dust passes Sensor and aperture valve, the aperture valve control aperture by receiving the feedback signal from the airborne dust sensor.
5. Powder Recovery as described in claim 1 utilize device, which is characterized in that the powder cutting agency include rack, Feed bin, feeding portion, charging portion, charging saggar and automatic conveyor line, the top of the feed bin are connected with the Powder Recovery mechanism, The feed bin is set in the rack, and the top of the feeding portion is connected with the bottom of the feed bin, the feeding portion and institute It states charging portion to be connected, the bottom in the charging portion is connected with the charging saggar, and the charging saggar is placed on described automatic defeated In line sending.
6. Powder Recovery as claimed in claim 5 utilizes device, which is characterized in that the feeding portion includes revolving valve and feeding Machine, the top of the revolving valve are connect with the bottom of the feed bin, and the bottom of the revolving valve is connect with the feeder, described Feeder is connect with the charging portion.
7. Powder Recovery as claimed in claim 6 utilizes device, which is characterized in that the charging portion includes material-homogenating device, first Adjustable gate and saggar ventilation mouth, first adjustable gate are arranged in the material-homogenating device, the material-homogenating device with it is described Feeder be connected, the material-homogenating device bottom is connected with the saggar ventilation mouth, the saggar ventilation mouth respectively with the charging casket Alms bowl is connected with the sweep-up pipe.
8. Powder Recovery as claimed in claim 5 utilizes device, which is characterized in that be equipped with and weigh on the automatic conveyor line Lifting gear.
9. Powder Recovery as claimed in claim 5 utilizes device, which is characterized in that close to the position of the feed bin in the rack It installs and is equipped with weighing sensor.
10. Powder Recovery as described in claim 1 utilizes device, which is characterized in that the reclaimed materials bottom of the barrel, which is provided with, shakes Dynamic device and the second adjustable gate.
CN201820090143.XU 2018-01-18 2018-01-18 Powder Recovery utilizes device Active CN208054451U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201820090143.XU CN208054451U (en) 2018-01-18 2018-01-18 Powder Recovery utilizes device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201820090143.XU CN208054451U (en) 2018-01-18 2018-01-18 Powder Recovery utilizes device

Publications (1)

Publication Number Publication Date
CN208054451U true CN208054451U (en) 2018-11-06

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201820090143.XU Active CN208054451U (en) 2018-01-18 2018-01-18 Powder Recovery utilizes device

Country Status (1)

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CN (1) CN208054451U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111498533A (en) * 2020-04-28 2020-08-07 无锡考斯德科技有限公司 Automatic bowl loading machine
CN112373749A (en) * 2020-11-19 2021-02-19 咸阳华友新能源窑炉设备有限公司 Automatic charging device for kiln circulation production line

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111498533A (en) * 2020-04-28 2020-08-07 无锡考斯德科技有限公司 Automatic bowl loading machine
CN112373749A (en) * 2020-11-19 2021-02-19 咸阳华友新能源窑炉设备有限公司 Automatic charging device for kiln circulation production line

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