CN214916998U - Waste lithium battery recovery processing production line - Google Patents

Waste lithium battery recovery processing production line Download PDF

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Publication number
CN214916998U
CN214916998U CN202120850971.0U CN202120850971U CN214916998U CN 214916998 U CN214916998 U CN 214916998U CN 202120850971 U CN202120850971 U CN 202120850971U CN 214916998 U CN214916998 U CN 214916998U
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dust collector
cyclone dust
rotary screen
pipe
materials
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CN202120850971.0U
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李立锋
李根铭
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Jiangxi Mingxin Metallurgy Equipment Co ltd
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Jiangxi Mingxin Metallurgy Equipment Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/84Recycling of batteries or fuel cells

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Abstract

The utility model provides a useless lithium cell recovery processing production line, relates to the broken recovery process of useless battery treatment, through improving to whole recovery process, realizes the fractionation of useless material among the useless lithium cell, avoids polluting the environment in its processing procedure simultaneously. Comprises a material conveying device, a primary crusher, a high-intensity magnetic separator, a diaphragm z-shaped separator, a cyclone dust collector, a rotary screen machine, a packing auger conveyor, a secondary crusher, an air flow separator and a pulse purifier; the material conveying device comprises a first belt conveyor and a second belt conveyor, the cyclone dust collector comprises a first cyclone dust collector, a second cyclone dust collector and a third cyclone dust collector, and the rotary screen machine comprises a first rotary screen machine, a second rotary screen machine, a third rotary screen machine and a fourth rotary screen machine.

Description

Waste lithium battery recovery processing production line
Technical Field
The utility model relates to a broken recovery technology of useless battery processing, especially a useless lithium cell recovery processing production line.
Background
The existing waste lithium battery treatment process has the defects of low recovery rate, easy generation of secondary pollution, difficult further recovery of materials and the like, so that whether a crushing method can be adopted to crush and recover the lithium battery or not is provided, and metals such as copper, graphite and the like in the lithium battery can be finely recovered.
Disclosure of Invention
The utility model aims at: the utility model provides a useless lithium cell recovery processing production line, through to whole recovery technology improvement, realize the fractionation of useless material among the useless lithium cell, avoid the polluted environment in its processing procedure simultaneously.
The technical scheme of the utility model is that: a waste lithium battery recovery processing production line comprises a material conveying device, a primary crusher, a high-intensity magnetic separator, a diaphragm Z-shaped separator, a cyclone dust collector, a rotary screen machine, a screw conveyor, a secondary crusher, an air flow separator and a pulse purifier; the material conveying device comprises a first belt conveyor and a second belt conveyor, the cyclone dust collector comprises a first cyclone dust collector, a second cyclone dust collector and a third cyclone dust collector, the rotary screen comprises a first rotary screen machine, a second rotary screen machine, a third rotary screen machine and a fourth rotary screen machine, the first belt conveyor of the material conveying device is arranged in front of the first-stage crusher, the crushed materials are lifted by the second belt conveyor of the material conveying device to be sent to the diaphragm z-type sorting machine after being crushed by the first-stage crusher, during the process, iron-containing crushed materials are separated by the high-intensity magnetic separator arranged on the second material conveying device, other component materials are sent to the diaphragm z-type sorting machine for separation, the separation upper outlet of the diaphragm z-type sorting machine is connected with an exhaust fan to send light material plastic films to the first cyclone dust collector for separation, the first cyclone dust collector is connected with a pulse dust collector, and the first rotary screen is connected with the lower part; the lower outlet of the diaphragm z-type separator is butted with an auger conveyor, the auger conveyor conveys materials into a secondary crusher, lighter materials are conveyed into a second cyclone dust collector for separation after being crushed by the secondary crusher, the heavier materials are discharged from the secondary crusher, the second cyclone dust collector is connected with a pulse dust collector in an upper connection mode, a second rotary screen is connected below the second cyclone dust collector, the lighter materials are continuously conveyed into an air flow separator for separation after being screened by the second rotary screen, the lighter materials separated by the air flow separator are sucked into a third cyclone dust collector, the third cyclone dust collector is connected with the pulse dust collector in an upper connection mode, the third rotary screen is connected below the third cyclone dust collector, the lighter materials separated by the first cyclone dust collector, the second cyclone dust collector and the third cyclone dust collector enter the pulse dust collector, and the lower outlet of the pulse dust collector falls into a fourth rotary screen for screening treatment.
Further waste lithium battery recovery processing production line, characterized by: the material conveying device adopts a belt conveyor.
Further a useless lithium cell recovery processing production line, characterized by: the diaphragm z-type sorting machine comprises a rack, a material flow passage, an air exhaust passage, a discharge port and an exhaust fan, wherein the exhaust fan is connected with the air exhaust passage, the air exhaust passage is obliquely connected with the upper part of the material flow passage, the air exhaust passage and the material flow passage are arranged on the rack, the material flow passage comprises an air exhaust side pipe, a material feeding pipe, a material selecting pipe, a first folding material selecting pipe, a second folding material selecting pipe and a discharge port, the air exhaust side pipe, the material feeding pipe, the material selecting pipe, the first folding material selecting pipe, the second folding material selecting pipe and the discharge port are sequentially connected into a whole from top to bottom and are arranged on an upper support frame of the rack, the material feeding pipe and the material selecting pipe are arranged on the rack in a straight line from top to bottom in an oblique mode, the air exhaust side pipe is connected with the material feeding pipe in a V-shaped mode, the upper end of the first folding material selecting pipe is reversely connected with the lower end of the first material selecting pipe, the upper end of the second folding material selecting pipe is reversely connected with the lower end of the first material selecting pipe, the second folding material selecting pipe is connected with the material outlet.
During operation, the material inlet of the material inlet pipe is used for feeding materials into the material pipe by starting the exhaust fan, heavier materials sequentially pass through the material inlet pipe, the material selecting pipe, the first folding material selecting pipe, the second folding material selecting pipe and the material outlet and fall into the material collecting device, the lightest part of the light materials floating on the upper part of the materials is firstly drawn away from the air draft side pipe under the action of the upper air draft suspension force generated by the exhaust fan, the materials continue to descend, and the light parts of the materials are overturned for multiple times through the first folding material selecting pipe and the second folding material selecting pipe, so that the lighter parts of the materials at the lower part of the materials are overturned out, and the separation rate of the lighter materials is greatly improved.
Further a useless lithium cell recovery processing production line, characterized by: an exhaust fan connector is arranged between the exhaust duct and the exhaust fan.
Further a useless lithium cell recovery processing production line, characterized by: the air flow separator comprises a frame, a blanking hopper, a cloth cylinder, a screen support, a side plate frame, a lower support and a supporting spring, wherein the blanking hopper is arranged at the upper part of the frame, and the upper part of the blanking hopper is provided with an air suction cover and a blanking port; the cloth cylinder is connected with the lower part of the blanking hopper and the upper part of the screen bracket, the lower part of the screen bracket is provided with a side plate frame, the side plate frame is supported on the lower bracket by a supporting spring, and the lower bracket is fixed on the frame; the two side faces of the side plate frame are provided with vibration motors, the lower opening of the side plate frame is connected with a soft air cover, and the soft air cover is connected with an air outlet pipe of the blower fan; one side of the side plate frame is provided with an observation hole.
A process flow of a waste lithium battery recovery processing production line is as follows: conveying the waste lithium batteries into a primary crusher by a conveyor for crushing, sorting the crushed materials into iron materials by a strong magnetic separator through the conveyor, conveying the non-iron materials into a diaphragm z-type sorting machine by equipment for sorting, and conveying the sorted heavier materials into a secondary multi-blade crusher through an auger conveyor for secondary crushing; the light materials separated by the diaphragm z-type separator are sent into a first cyclone dust collector for separation, then the light materials separated by the first cyclone dust collector enter an upper-connected pulse dust collector, and the heavy plastic film materials are separated by the lower part of the first cyclone dust collector and enter a first rotary screen; the first rotary screen is used for further fine sorting the materials; the lighter materials in the secondary crushing are sucked by the second cyclone dust collector, the lighter materials are further separated out and enter the upper-connected pulse dust collector, the heavier materials are separated out and enter the second rotary screen for separation, and the larger materials separated by the second rotary screen enter the airflow separator for further separation; the airflow separator separates heavy copper powder and plastic materials, the airflow separator separates light materials and enters a third cyclone dust collector for separation, the light materials separated by the third cyclone dust collector enter an upper-connected pulse dust collector, the heavy materials separated by the third cyclone dust collector enter a third rotary screen for separation, and the third rotary screen separates black powder and plastic materials; the light materials separated by the first cyclone dust collector, the second cyclone dust collector and the third cyclone dust collector enter the pulse dust collector, and the materials filtered by the pulse dust collector fall into a fourth rotary screen through a lower outlet to be screened and processed to obtain black powder products.
The utility model has the advantages that: a complete set of waste lithium battery treatment equipment is used for recovering and separating plastic cement, metal materials, positive and negative electrode materials in lithium batteries by physical treatment methods such as mechanical beating, crushing, separation and the like, raw materials are crushed to be below 10mm by a coarse crusher, then the raw materials enter a particle crusher for stripping and crushing, then the raw materials enter a micro powder classifier for separation treatment, and tail ash is collected by a subsequent cyclone separator and a pulse dust collector. The whole process does not add any chemical component, does not adopt any chemical treatment process, is completely environment-friendly, can realize the separation and recovery of materials in the waste lithium battery by the technical configuration system of the equipment production line, has complete operation, does not need the cooperation of other equipment, and has simple and convenient working procedures. The equipment is mainly used for lithium ion battery manufacturers to separate aluminum foil, copper foil, positive and negative electrode materials and the like in the scrapped lithium batteries so as to achieve the purpose of recycling. The complete equipment operates in a negative pressure state, no dust is discharged, and the separation efficiency can reach more than 90%.
Drawings
FIG. 1 is a front view of the front section of the structure of the present invention
FIG. 2 is a front view of the rear section of the structure of the present invention
FIG. 3 is a schematic view of the front view of the structure of the diaphragm z-type separator of the present invention
FIG. 4 is a schematic view of the left side view of the structure of the diaphragm z-type separator of the present invention
FIG. 5 is a schematic diagram of a top view of the diaphragm z-type separator of the present invention
FIG. 6 is a front view of the structure of the air current separator of the present invention
FIG. 7 is a schematic left view of the structure of the air current separator of the present invention
FIG. 8 is a schematic top view of the structure of the air current separator of the present invention
In the figure, a first conveyor belt 1, a first-stage crusher 2, a second conveyor belt 3, a high-intensity magnetic separator 4, a diaphragm z-type separator 5, a motor 501, an air outlet 502, an air suction side 503, an upper support frame 504, a first folding material selection pipe 505, a second folding material selection pipe 506, an outlet 507, a lower support frame 508, a material inlet pipe 509, a material inlet 510, an exhaust fan connector 511, an exhaust fan 512, a motor support frame 513, a material selection pipe 514, a first cyclone dust collector 6, a first dust pipe 7, a material pipe 8, a second cyclone dust collector 9, a second dust pipe 10, a first dust pipe 11, a third cyclone dust collector 12, a pulse purifier 13, an induced draft fan 1301, a fourth rotary screen 14, a third rotary screen 15, a second rotary screen 16, a second-stage crusher 17, a first rotary screen 18, an auger conveyor 19, an air current separator 20, a lower hopper 2001, a screen support 2002, a discharge hopper 2003, a side plate 2004, a third rotary screen 15, a second rotary screen 16, a second rotary screen, a second cyclone separator 4, a third cyclone separator, a fourth cyclone separator, a fourth cyclone separator, a fourth cyclone separator, a fourth cyclone separator, a fourth cyclone separator, a, The device comprises a lower bracket 2005, a pressure fan 2006, a frame 2007, a supporting spring 2008, a vibration motor 2009, a cloth tube 2010, an air suction cover 2011, an observation hole 2012 and a feed opening 2013.
Detailed Description
In order to make the present invention more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings.
In the figure: a waste lithium battery recovery processing production line comprises a first conveying belt 1, a first-stage crusher 2, a second conveying belt 3, a high-strength magnetic separator 4, a diaphragm z-type separator 5, a first cyclone dust collector 6, an auger conveyor 19, a second-stage crusher 17, a second cyclone dust collector 9, a first rotary screen 18, a second rotary screen 16, a first specific gravity separator 20, an induced draft fan 1301 and a pulse purifier 13; a conveyer belt 1 is arranged in front of a first-stage crusher 2, the first-stage crusher 2 is lifted by a second material conveying device 3 and then is conveyed into a diaphragm z-type separator 5 after being crushed, the crushed materials containing iron are separated by a high-intensity magnetic separator 4 arranged on the second material conveying device 3 in the process, other component materials are conveyed into the diaphragm z-type separator 5 for separation, the upper separation outlet of the diaphragm z-type separator 5 is connected with an exhaust fan 512 to convey a plastic film of lighter materials into a first cyclone dust collector 6 for separation, and the first cyclone dust collector 6 is connected with a pulse dust collector 13 and a first rotary screen 18 in a lower connection mode; the lower outlet of the diaphragm z-type separator 5 is connected with an auger conveyor 19 in a butt joint mode, the auger conveyor 19 sends materials into a secondary crusher 17, lighter materials are sent into a second sand-dragon separator 9 for separation after being crushed by the secondary crusher 17, the heavier materials are discharged from the secondary crusher 17, a pulse dust collector 13 is connected to a second cyclone dust collector 9 in an upper connection mode, a second rotary screen 16 is connected to a second cyclone dust collector 9 in a lower connection mode, the lighter materials are continuously fed into an air flow separator 20 for separation after being screened by the second rotary screen 16, the lighter materials separated by the air flow separator 20 are sucked into a third cyclone dust collector 12, the pulse dust collector 13 is connected to the third cyclone dust collector 12 in a lower connection mode, the lighter materials separated by the first, second and third cyclone dust collectors enter the pulse dust collector 13, and fall into a fourth rotary screen 14 through the lower outlet of the pulse dust collector 13 for screening treatment.
The diaphragm z-type separator 5 comprises a frame, a material flow channel, an air exhaust channel 503, a discharge port 502 and an exhaust fan 512, wherein the exhaust fan 512 is connected with the air exhaust channel 503, the air exhaust channel 503 is obliquely connected with the upper part of the material flow channel, the air exhaust channel 503 and the material flow channel are arranged on the frame, the material flow channel comprises an air exhaust side pipe 503, a material inlet pipe 509, a material selecting pipe 514, a first folding material selecting pipe 505, a second folding material selecting pipe 506, a material outlet 507, the air exhaust side pipe 503, the material inlet pipe 509, the material selecting pipe 514, the first folding material selecting pipe 505, the second folding material selecting pipe 506 and the material outlet 507 are sequentially connected from top to bottom to be integrally arranged on an upper frame 504 of the frame, the material inlet pipe 509 and the material selecting pipe 514 from top to bottom are integrally and obliquely arranged on the upper frame 504 in a straight line, the air exhaust side pipe 503 is connected with the material inlet pipe 509 and is connected with the material inlet pipe in a V shape, the upper end of the first folding material selecting pipe 505 is reversely folded and connected with the lower end of the material selecting pipe 514, the upper end of the second folding material selecting pipe 506 is reversely folded and connected with the lower end of the first folding material selecting pipe 505, and the second folding material selecting pipe 506 is connected with the discharge port 507.
The air flow separator 20 comprises a rack 2007, a discharging hopper 2001, a cloth cylinder 2010, a screen bracket 2003, a side plate frame 2004, a lower bracket 2005 and a supporting spring 2008, wherein the discharging hopper 2001 is installed at the upper part of the rack 2007, and the upper part of the discharging hopper 2001 is provided with an air suction hood 2011 and a discharging opening 2013; the cloth cylinder 2010 is connected with the lower part of the blanking hopper 2001 and the upper part of the screen bracket 2002, the lower part of the screen bracket 2002 is provided with a side plate frame 2004, the side plate frame 2005 is supported on the lower bracket 2005 by a supporting spring 2008, and the lower bracket 2005 is fixed on the frame 2007; two side surfaces of the side plate frame 2004 are provided with vibration motors 2009, the lower opening of the side plate frame 2004 is connected with a soft air cover, and the soft air cover is connected with an air outlet pipe of a blower 2006; a viewing aperture 2012 is provided in a side of the bezel frame 2004.
A process flow of a waste lithium battery recovery processing production line is as follows: the waste lithium batteries are conveyed into a primary crusher 1 by a first conveyor belt 1 to be crushed, the crushed materials are separated by a strong magnetic separator 4 through a second conveyor belt 3 to obtain iron materials, the non-iron materials are conveyed into a diaphragm z-type separator 5 by equipment to be separated, and the separated heavier materials are conveyed into a secondary multi-blade crusher 17 by an auger conveyor 19 to be crushed for the second time; the light materials separated by the membrane z-type separator 5 are sent into a first cyclone dust collector 6 for separation, then the light materials separated by the first cyclone dust collector 6 enter an upper connection pulse dust collector 13, and the heavy plastic film materials are separated from the lower part of the first cyclone dust collector 6 and enter a first rotary screen 18; the first rotary screen 18 further subdivides the material; in the second crushing, the lighter materials are sucked into the second cyclone dust collector 9 to further separate out the lighter materials, the lighter materials enter the upper-connected pulse dust collector 13, the heavier materials are separated out and enter the second rotary screen 16 to be separated, and the larger materials separated by the second rotary screen 16 enter the airflow separator 20 to be further separated; the airflow separator 20 separates heavy copper powder and plastic materials, the airflow separator 20 separates light materials, the light materials enter the third cyclone dust collector 12 for separation, the light materials separated by the third cyclone dust collector 12 enter the upper-connected pulse dust collector 13, the heavy materials separated by the third cyclone dust collector 12 enter the third rotary screen 15 for separation, and the black powder and plastic materials are separated by the third rotary screen 15; the light materials separated by the first cyclone dust collector 6, the second cyclone dust collector 9 and the third cyclone dust collector 12 enter the pulse dust collector 13, and the materials filtered by the pulse dust collector 13 fall into the fourth rotary screen 14 through a lower outlet to be screened to obtain black powder products.

Claims (5)

1. A waste lithium battery recovery processing production line comprises a material conveying device, a primary crusher, a high-intensity magnetic separator, a diaphragm Z-shaped separator, a cyclone dust collector, a rotary screen machine, a screw conveyor, a secondary crusher, an air flow separator and a pulse purifier; the method is characterized in that: the material conveying device comprises a first belt conveyor and a second belt conveyor, the cyclone dust collector comprises a first cyclone dust collector, a second cyclone dust collector and a third cyclone dust collector, the rotary screen comprises a first rotary screen machine, a second rotary screen machine, a third rotary screen machine and a fourth rotary screen machine, the first belt conveyor of the material conveying device is arranged in front of the first-stage crusher, the crushed materials are lifted by the second belt conveyor of the material conveying device to be sent to the diaphragm z-type sorting machine after being crushed by the first-stage crusher, during the process, iron-containing crushed materials are separated by the high-intensity magnetic separator arranged on the second material conveying device, other component materials are sent to the diaphragm z-type sorting machine for separation, the separation upper outlet of the diaphragm z-type sorting machine is connected with an exhaust fan to send light material plastic films to the first cyclone dust collector for separation, the first cyclone dust collector is connected with a pulse dust collector, and the first rotary screen is connected with the lower part; the lower outlet of the diaphragm z-type separator is butted with an auger conveyor, the auger conveyor conveys materials into a secondary crusher, lighter materials are conveyed into a second cyclone dust collector for separation after being crushed by the secondary crusher, the heavier materials are discharged from the secondary crusher, the second cyclone dust collector is connected with a pulse dust collector in an upper connection mode, a second rotary screen is connected below the second cyclone dust collector, the lighter materials are continuously conveyed into an air flow separator for separation after being screened by the second rotary screen, the lighter materials separated by the air flow separator are sucked into a third cyclone dust collector, the third cyclone dust collector is connected with the pulse dust collector in an upper connection mode, the third rotary screen is connected below the third cyclone dust collector, the lighter materials separated by the first cyclone dust collector, the second cyclone dust collector and the third cyclone dust collector enter the pulse dust collector, and the lower outlet of the pulse dust collector falls into a fourth rotary screen for screening treatment.
2. The recycling line for waste lithium battery as claimed in claim 1, which is characterized in that: the material conveying device adopts a belt conveyor.
3. The recycling line of waste lithium battery as claimed in claim 1, which is characterized in that: the diaphragm z-type sorting machine comprises a rack, a material flow passage, an air exhaust passage, a discharge port and an exhaust fan, wherein the exhaust fan is connected with the air exhaust passage, the air exhaust passage is obliquely connected with the upper part of the material flow passage, the air exhaust passage and the material flow passage are arranged on the rack, the material flow passage comprises an air exhaust side pipe, a material feeding pipe, a material selecting pipe, a first folding material selecting pipe, a second folding material selecting pipe and a discharge port, the air exhaust side pipe, the material feeding pipe, the material selecting pipe, the first folding material selecting pipe, the second folding material selecting pipe and the discharge port are sequentially connected into a whole from top to bottom and are arranged on an upper support frame of the rack, the material feeding pipe and the material selecting pipe are arranged on the rack in a straight line from top to bottom in an oblique mode, the air exhaust side pipe is connected with the material feeding pipe in a V-shaped mode, the upper end of the first folding material selecting pipe is reversely connected with the lower end of the first material selecting pipe, the upper end of the second folding material selecting pipe is reversely connected with the lower end of the first material selecting pipe, the second folding material selecting pipe is connected with the material outlet.
4. The recycling production line of waste lithium battery as claimed in claim 1, which is characterized in that: an exhaust fan connector is arranged between the exhaust duct and the exhaust fan.
5. The recycling production line of waste lithium battery as claimed in claim 1, which is characterized in that: the air flow separator comprises a frame, a blanking hopper, a cloth cylinder, a screen support, a side plate frame, a lower support and a supporting spring, wherein the blanking hopper is arranged at the upper part of the frame, and the upper part of the blanking hopper is provided with an air suction cover and a blanking port; the cloth cylinder is connected with the lower part of the blanking hopper and the upper part of the screen bracket, the lower part of the screen bracket is provided with a side plate frame, the side plate frame is supported on the lower bracket by a supporting spring, and the lower bracket is fixed on the frame; the two side faces of the side plate frame are provided with vibration motors, the lower opening of the side plate frame is connected with a soft air cover, and the soft air cover is connected with an air outlet pipe of the blower fan; one side of the side plate frame is provided with an observation hole.
CN202120850971.0U 2021-04-24 2021-04-24 Waste lithium battery recovery processing production line Active CN214916998U (en)

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Application Number Priority Date Filing Date Title
CN202120850971.0U CN214916998U (en) 2021-04-24 2021-04-24 Waste lithium battery recovery processing production line

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Application Number Priority Date Filing Date Title
CN202120850971.0U CN214916998U (en) 2021-04-24 2021-04-24 Waste lithium battery recovery processing production line

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113058733A (en) * 2021-04-24 2021-07-02 江西铭鑫冶金设备有限公司 Environment-friendly recovery flow production line for waste lithium batteries
WO2024169003A1 (en) * 2023-02-14 2024-08-22 广东邦普循环科技有限公司 Lithium battery recovery device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113058733A (en) * 2021-04-24 2021-07-02 江西铭鑫冶金设备有限公司 Environment-friendly recovery flow production line for waste lithium batteries
WO2024169003A1 (en) * 2023-02-14 2024-08-22 广东邦普循环科技有限公司 Lithium battery recovery device

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GR01 Patent grant
GR01 Patent grant
PE01 Entry into force of the registration of the contract for pledge of patent right

Denomination of utility model: A waste lithium Battery recycling recovery and treatment production line

Effective date of registration: 20230626

Granted publication date: 20211130

Pledgee: Jiangxi Shicheng Rural Commercial Bank Co.,Ltd.

Pledgor: JIANGXI MINGXIN METALLURGY EQUIPMENT CO.,LTD.

Registration number: Y2023980045986

PE01 Entry into force of the registration of the contract for pledge of patent right