CN105762416B - A kind of equipment integrating, pipelining equipment and method for producing poly-lithium battery - Google Patents

Abstract

The present invention relates to a kind of equipment integrating, pipelining equipment and method for producing poly-lithium battery, which includes：Battery clamp places poly-lithium battery；DC DC charging and discharging modules, for the electric energy in poly-lithium battery charging and release polymers lithium battery；Temperature-pressure control module, control poly-lithium battery are molded in the state of high-temperature pressurizing；Wireless communication module receives the parameter preset of the poly-lithium battery from server；Processor, device, server is sent to, and receive the first data from server by the real time data in the poly-lithium battery production process of acquisition by radio communication.A kind of equipment integrating, pipelining equipment and method for producing poly-lithium battery provided by the invention by the way that the production technology for producing poly-lithium battery is merged, forms pipelining, so as to greatly improve production efficiency.

Description

Integrated equipment, assembly line equipment and method for producing polymer lithium battery

Technical Field

The invention relates to the technical field of battery production, in particular to integrated equipment, assembly line equipment and a method for producing a polymer lithium battery.

Background

The production process of the polymer lithium battery mainly comprises three processes of formation, heating and pressurizing formation and capacity grading. The inventor of the invention finds out that: in the prior art, the three processes can not form assembly line operation, each process needs to independently load and unload the battery and needs to repeatedly operate, so that the production efficiency is low.

Disclosure of Invention

The invention aims to provide integrated equipment, assembly line equipment and a method for producing a polymer lithium battery.

The present invention provides an integrated apparatus for producing a polymer lithium battery, the integrated apparatus comprising:

the battery clamp is used for placing the polymer lithium battery;

a DC-DC charging and discharging module for charging the polymer lithium battery and releasing electric energy in the polymer lithium battery;

the heating and pressurizing control module is used for controlling the polymer lithium battery to be molded in a high-temperature and pressurizing state;

the wireless communication module is used for receiving preset parameters of the polymer lithium battery from a server, wherein the preset parameters are parameters set by the server according to a production process corresponding to the model of the polymer lithium battery;

and the processor is used for transmitting the acquired real-time data in the production process of the polymer lithium battery to the server through the wireless communication device and receiving first data from the server, wherein the first data is obtained after the server processes the real-time data.

Optionally, the integrated device further comprises: the processor determines whether the polymer lithium battery after production is qualified or not according to the first data and the preset parameters, and sends a control signal to the state indicating and alarming device;

and the state indicating and alarming device receives and indicates the state of the polymer lithium battery after production according to the control signal sent by the processor.

Optionally, when the first data is consistent with the preset data, the processor determines that the polymer lithium battery after production is qualified, and sends the control signal to the state indicating and alarming device; and the state indicating and alarming device receives the control signal and indicates that the state of the polymer lithium battery after production is in a qualified state according to the control signal.

Optionally, when the first data is inconsistent with the parameter data, the processor determines that the polymer lithium battery after production is unqualified, and sends the control signal to the state indicating and alarming device; and the state indicating and alarming device receives the control signal, indicates the state of the polymer lithium battery after the production is finished to be an unqualified state according to the control signal and simultaneously sends out an alarm signal.

The present invention also provides a line apparatus for manufacturing a polymer lithium battery, the line apparatus comprising:

a plurality of integrated devices as described in any of the various embodiments above, and a wireless communication device;

the server transmits operation instructions to the plurality of integrated devices through the wireless communication device, wherein the operation instructions carry preset parameters of the polymer lithium battery, the polymer lithium battery is placed on a battery clamp of the integrated devices, and the preset parameters are parameters set by the server according to a production process corresponding to the model of the polymer lithium battery;

a multi-stage assembly line in which a plurality of the integrated devices are installed; a plurality of DC power supplies for providing electrical energy to the multi-stage pipeline;

the integrated device receives the operation instruction sent by the server through a wireless communication module of the integrated device, and produces the polymer lithium battery according to the preset parameters.

Optionally, the pipeline apparatus further includes: and the bar code scanner scans the bar code of the polymer lithium battery and the bar code of the integrated equipment to acquire first identity identification information and second identity identification information and transmits the first identity identification information and the second identity identification information to the server, wherein the first identity identification information corresponds to the second identity identification information one to one.

Optionally, the integrated device further transmits the acquired real-time data in the production process of the polymer lithium battery to the server through a wireless communication module of the integrated device;

the server also receives the real-time data through the wireless communication device, processes the real-time data to obtain first data, and transmits the first data of the polymer lithium battery corresponding to the first identity identification information to the integrated equipment corresponding to the second identity identification information;

and the integrated equipment receives the first data and judges whether the first data is consistent with the preset parameters or not so as to determine whether the polymer lithium battery after production is qualified or not.

The present invention also provides a method for producing a polymer lithium battery, the method comprising:

placing a polymer lithium battery on a battery clamp of an integrated device;

putting the integrated equipment on a production line for producing the polymer lithium battery;

the server sets preset parameters according to a production process corresponding to the model of the polymer lithium battery and sends an operation instruction carrying the preset parameters to the integrated equipment;

and the integrated equipment receives the operation instruction sent by the server and produces the polymer lithium battery according to the preset parameters.

Optionally, before the integrated device is put on a production line for producing the polymer lithium battery, the method further includes:

a bar code scanner scans a bar code of the polymer lithium battery and a bar code of the integrated device to acquire first identification information and second identification information, and transmits the first identification information and the second identification information to the server, wherein the first identification information and the second identification information correspond one to one,

wherein, will integrative equipment puts into production line of production the polymer lithium cell on, include: and putting the integrated equipment which finishes the bar code scanning on the production line of the polymer lithium battery.

Optionally, the method further comprises: the integrated equipment transmits the acquired real-time data in the production process of the polymer lithium battery to the server;

the server receives the real-time data, processes the real-time data to obtain first data, and transmits the first data of the polymer lithium battery corresponding to the first identity identification information to the integrated equipment corresponding to the second identity identification information;

and the integrated equipment receives the first data and judges whether the first data is consistent with the preset parameters or not so as to determine whether the polymer lithium battery after production is qualified or not.

Based on the technical scheme, the integrated equipment, the flow line equipment and the method for producing the polymer lithium battery are used for integrating the production processes for producing the polymer lithium battery together to form flow line operation, so that the production efficiency can be greatly improved.

Drawings

The drawings of the present invention are for facilitating further understanding of the technical solutions of the embodiments of the present invention.

Fig. 1 is a schematic structural view of an integrated apparatus for manufacturing a polymer lithium battery according to an embodiment of the present invention;

fig. 2 is a schematic structural view of an integrated apparatus for manufacturing a lithium polymer battery according to another embodiment of the present invention;

fig. 3 is a schematic structural view of an in-line apparatus for manufacturing a polymer lithium battery according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an in-line apparatus for manufacturing a polymer lithium battery according to another embodiment of the present invention;

fig. 5 is a schematic flow chart of a method for manufacturing a polymer lithium battery according to an embodiment of the present invention;

fig. 6 is a schematic flow chart of a method for producing a polymer lithium battery according to another embodiment of the present invention.

Detailed Description

In order to make the technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention are further described in detail below with reference to the accompanying drawings and the embodiments, which are used for illustrating the present application and are not intended to limit the scope of the present application.

Fig. 1 is a schematic structural diagram of an integrated apparatus 100 for manufacturing a lithium polymer battery according to an embodiment of the present invention.

The unitary apparatus 100 shown in fig. 1 includes: a battery holder 110, a DC-DC charging and discharging module 120, a warming and pressurizing control module 130, a wireless communication module 140, and a processor 150. Wherein,

the battery holder 110 is used to place a polymer lithium battery. The DC-DC charging and discharging module 120 is used to charge and discharge the polymer lithium battery. The heating and pressurizing control module 130 is used for controlling the polymer lithium battery to be molded in a high-temperature and pressurized state.

The wireless communication module 140 is configured to receive preset parameters of the lithium polymer battery from the server, where the preset parameters are parameters set by the server according to a production process corresponding to the model of the lithium polymer battery.

The processor 150 is configured to transmit the acquired real-time data in the lithium polymer battery production process to a server through the wireless communication device 140, and receive first data from the server, where the first data is data obtained after the server processes the real-time data.

In this embodiment, the processor 150 receives preset parameters of the li-polymer battery from the server through the wireless communication device 140, controls the DC-DC charging and discharging module 120 to charge the li-polymer battery placed on the battery holder 110 according to the preset parameters, and controls the warming and pressurizing control module 130 to shape the li-polymer battery in a high-temperature pressurized state, and controls the DC-DC charging and discharging module 120 to release the electric energy in the li-polymer battery when the electric energy of the li-polymer battery reaches a preset electric energy value in the preset parameters.

Meanwhile, the processor 150 also transmits the acquired real-time data in the production process of the polymer lithium battery to a server through the wireless communication device 140, and receives first data from the server, where the first data is data obtained after the server processes the real-time data.

The embodiment provides an integrative equipment of production polymer lithium cell, through the production technology with production polymer lithium cell fuse together to production efficiency can be great improvement.

Alternatively, as an embodiment of the present invention, as shown in fig. 2, the all-in-one apparatus 200 includes: a battery holder 210, a DC-DC charging and discharging module 220, a warming and pressurizing control module 230, a wireless communication module 240, and a processor 250, and a status indication and alarm device 260.

The processor 250 determines whether the produced polymer lithium battery is qualified or not according to the first data and preset parameters, and sends a control signal to the state indicating and alarming device 260.

The status indicating and alarming device 260 is used for receiving and indicating the status of the polymer lithium battery after production according to the control signal sent by the processor 250.

The functions and functions of the battery holder 210, the DC-DC charging and discharging module 220, the warming and pressurizing control module 230, and the wireless communication module 240 are similar to those of the battery holder 110, the DC-DC charging and discharging module 120, the warming and pressurizing control module 130, and the wireless communication module 140 shown in fig. 1, and are not repeated herein for brevity of description.

Specifically, in this embodiment, when the first data is consistent with the preset data, the processor 250 determines that the produced polymer lithium battery is qualified, and sends a control signal to the status indication and alarm device 260. The state indicating and alarming device 260 indicates that the state of the polymer lithium battery after the production is finished is a qualified state.

When the first data is inconsistent with the parameter data, the processor 250 determines that the polymer lithium battery after the production is not qualified, and sends a control signal to the status indicating and alarming device 260. The state indicating and alarming device 260 indicates that the state of the polymer lithium battery after the production is finished is an unqualified state, and simultaneously sends out an alarm signal.

According to the integrated equipment for producing the polymer lithium battery, whether the produced polymer lithium battery is qualified or not is determined by judging whether the production data of the polymer lithium battery is consistent with preset parameters or not, and the state indication and the state of the polymer lithium battery are indicated by the alarm device under control, so that the polymer lithium battery can be rapidly screened.

Fig. 3 is a schematic structural diagram of an in-line apparatus 300 for manufacturing a polymer lithium battery according to an embodiment of the present invention.

The pipeline apparatus 300 shown in fig. 3 includes: a plurality of integrated devices 310, 311, … 31n, a wireless communication device 320, a server 330, a multi-stage pipeline 340, 341, … 34n and a plurality of dc power supplies 350, 351, … 35n as shown in fig. 1 or fig. 2.

The server 330 transmits an operation instruction to each of the plurality of integrated devices 310, 311, … 31n through the wireless communication device 320, where the operation instruction carries preset parameters of the lithium polymer battery. The polymer lithium battery is placed on the battery clamp of the integrated device 310, 311, … 31n, and the preset parameters are parameters set by the server 330 according to the production process corresponding to the model of the polymer lithium battery.

Each of the multi-stage pipelines 340, 341, … 34n may be used to install a plurality of integrated devices 340, 341, … 34n, and the multi-stage pipeline is a multi-stage dc electrically-geared track pipeline. Wherein each section of the pipeline can be provided with a plurality of integrated devices with the same quantity or different quantities.

A plurality of dc power supplies 350, 351, … 35n may provide power to the multi-stage pipeline. Wherein, each section of the multi-section assembly line can be powered in parallel by a plurality of direct current power supplies.

Each of the plurality of integrated devices 310, 311, … 31n receives the operation command sent by the server 330 through the wireless communication module of the integrated device, and produces the polymer lithium battery according to preset parameters.

According to the assembly line equipment for producing the polymer lithium battery, the production process for producing the polymer lithium battery is integrated into a plurality of integrated equipment, the integrated equipment is arranged on the assembly line, the production data and the preset parameters of the polymer lithium battery are transmitted through the wireless communication device and the server, and therefore automatic assembly line operation of production of the polymer lithium battery can be achieved. Meanwhile, the production process of the polymer lithium battery is in a real-time controllable state, and the production of the polymer lithium battery is facilitated.

The number of the integrated devices, the number of stages of the production line, and the number of the dc power supplies are determined according to actual production conditions, and there is no direct correlation between the three.

Alternatively, as an embodiment of the present invention, as shown in fig. 4, the pipeline apparatus 400 includes: a plurality of all-in-one devices 410, 411, … 41n as shown in fig. 1 or fig. 2, a wireless communication device 420, a server 430, a multi-stage pipeline 440, 441, … 44n and a plurality of dc power supplies 450, 451, … 45n, and a barcode scanner 460.

The barcode scanner 460 may be configured to scan a barcode of the lithium polymer battery and a barcode of the integrated device to obtain first identification information and second identification information, and transmit the first identification information and the second identification information to the server 430, where the first identification information and the second identification information correspond to each other one to one.

For example: the pipeline 440 is installed with an all-in-one device 410 and an all-in-one device 411. The polymer lithium battery 1 is placed on the battery holder of the integrated device 410; the polymer lithium battery 2, the polymer lithium battery 3, and the polymer lithium battery 4 are placed on the battery holder of the integrated device 411.

The barcode scanner 460 scans the barcode of the polymer lithium battery 1 to obtain the first identification information 1, and scans the barcode of the all-in-one device 410 to obtain the second identification information a. The polymer lithium battery 2, the polymer lithium battery 3 and the polymer lithium battery 4 are scanned respectively to obtain the first identification information 2, 3 and 4, and the bar code of the integrated device 411 is scanned to obtain the second identification information B. First identification information 1, 2, 3, 4 and second identification information a and B are transmitted to the server, with first identification information 1 corresponding to second identification information a and first identification information 2, 3, 4 corresponding to second identification information B, respectively.

The functions and functions of the multiple integrated devices 410, 411, … 41n, the wireless communication apparatus 420, the server 430, the multi-stage pipeline 440, 441, … 44n and the multiple dc power supplies 450, 451, … 45n are similar to those of the multiple integrated devices 310, 311, … 31n, the wireless communication apparatus 320, the server 330, the multi-stage pipeline 340, 341, … 34n and the multiple dc power supplies 350, 351, … 35n shown in fig. 3, and therefore, for brevity of description, will not be described again.

Specifically, in this embodiment, each integrated device may further transmit the acquired real-time data in the production process of the polymer lithium battery to the server 430 through the wireless communication module of the integrated device.

The server 430 may further receive the real-time data through the wireless communication device 420, process the real-time data to obtain first data, and transmit the first data of the polymer lithium battery corresponding to the first identification information to the integrated device corresponding to the second identification information.

The integrated device receives the first data sent by the server 430, and determines whether the first data is consistent with preset parameters, so as to determine whether the produced polymer lithium battery is qualified.

According to the assembly line equipment for producing the polymer lithium battery, whether the production data of the polymer lithium battery is consistent with preset parameters or not is judged through the plurality of integrated equipment, whether the polymer lithium battery after production is qualified or not is determined, and therefore the polymer lithium battery can be rapidly screened.

The technical solution of the integrated apparatus for manufacturing a polymer lithium battery according to the embodiment of the present invention is described in detail with reference to fig. 1 and 2. Meanwhile, the technical scheme of the assembly line equipment for producing the polymer lithium battery provided by the embodiment of the invention is described in detail with reference to fig. 3 and 4. The following describes a technical solution of a method for producing a polymer lithium battery according to an embodiment of the present invention in detail with reference to fig. 5 and 6.

Fig. 5 is a schematic flow chart of a method 500 for producing a lithium polymer battery according to an embodiment of the present invention. The method shown in fig. 5 may be implemented by a pipeline device, the method 500 comprising:

the polymer lithium battery is placed on a battery holder of the integrated device 510.

And 520, putting the integrated equipment on a production line for producing the polymer lithium battery.

530, the server sets preset parameters according to the production process corresponding to the model of the polymer lithium battery, and sends an operation instruction carrying the preset parameters to the integrated equipment.

540, the integrated equipment receives the operation instruction sent by the server and produces the polymer lithium battery according to the preset parameters.

According to the method for producing the polymer lithium battery, the production process for producing the polymer lithium battery is integrated, and the plurality of integrated devices are installed on the production line, and the polymer lithium battery is produced according to the preset parameters of the polymer lithium battery transmitted by the server, so that the automatic production line operation of the polymer lithium battery production can be realized.

Optionally, as an embodiment of the present invention, as shown in fig. 6, the method 600 includes:

the polymer lithium battery is placed on a battery holder of the integrated device 610.

And 620, scanning the bar code of the polymer lithium battery and the bar code of the integrated device by a bar code scanner to acquire first identity identification information and second identity identification information, and transmitting the first identity identification information and the second identity identification information to the server, wherein the first identity identification information and the second identity identification information correspond to each other one by one.

630, put the integrative equipment that will accomplish the bar code scanning on the assembly line of production polymer lithium cell.

And 640, setting preset parameters by the server according to the production process corresponding to the model of the polymer lithium battery, and sending an operation instruction carrying the preset parameters to the integrated equipment.

650, the integrated equipment receives the operation instruction sent by the server and produces the polymer lithium battery according to the preset parameters.

660, the integrated equipment transmits the acquired real-time data in the production process of the polymer lithium battery to a server;

670, the server receives the real-time data, processes the real-time data to obtain first data, and transmits the first data of the polymer lithium battery corresponding to the first identity identification information to the integrated equipment corresponding to the second identity identification information;

680, the integrated equipment receives the first data and judges whether the first data is consistent with preset parameters or not so as to determine whether the produced polymer lithium battery is qualified or not.

691, when the first data is consistent with the preset data, determining that the produced polymer lithium battery is qualified, and indicating the state of the produced polymer lithium battery to be a qualified state by the state indicating and alarming device.

692, when the first data is inconsistent with the parameter data, determining that the produced polymer lithium battery is unqualified, indicating the state of the produced polymer lithium battery to be unqualified by the state indicating and alarming device, and simultaneously sending out an alarm signal.

According to the method for producing the polymer lithium battery, the production process for producing the polymer lithium battery is integrated, the integrated equipment is arranged on the production line, and the production data and the preset parameters of the polymer lithium battery are transmitted with the server, so that the production process of the polymer lithium battery is in a real-time controllable state, and the production of the polymer lithium battery is facilitated.

In addition, whether the production data of the polymer lithium battery is consistent with preset parameters or not is judged through the integrated equipment, whether the polymer lithium battery after production is qualified or not is determined, and therefore the polymer lithium battery can be rapidly screened.

It should be understood that the method steps shown in fig. 5 and fig. 6 may be implemented by the devices in fig. 1 to fig. 4, and a specific implementation process may be combined with the related contents of fig. 1 and fig. 4, and for brevity of description, no further description is provided here.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and are not to be construed as limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above-mentioned embodiments are only for illustrating the present invention and are not to be construed as limiting the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (2)

1. An in-line apparatus for manufacturing a polymer lithium battery, comprising:

a plurality of integrated devices, and,

a wireless communication device;

the server transmits operation instructions to the plurality of integrated devices through the wireless communication device, wherein the operation instructions carry preset parameters of the polymer lithium battery, the polymer lithium battery is placed on a battery clamp of the integrated devices, and the preset parameters are parameters set by the server according to a production process corresponding to the model of the polymer lithium battery;

a multi-stage pipeline, wherein a plurality of the integrated devices are installed on each stage of the pipeline;

a plurality of DC power supplies for providing electrical energy to the multi-stage pipeline;

the integrated device receives the operation instruction sent by the server through a wireless communication module of the integrated device and produces the polymer lithium battery according to the preset parameters;

wherein the integrated apparatus comprises:

the battery clamp is used for placing the polymer lithium battery;

a DC-DC charging and discharging module for charging the polymer lithium battery and releasing electric energy in the polymer lithium battery;

the heating and pressurizing control module is used for controlling the polymer lithium battery to be molded in a high-temperature and pressurizing state;

the wireless communication module is used for receiving preset parameters of the polymer lithium battery from a server, wherein the preset parameters are parameters set by the server according to a production process corresponding to the model of the polymer lithium battery;

the processor is used for transmitting the acquired real-time data in the production process of the polymer lithium battery to the server through the wireless communication module and receiving first data from the server, wherein the first data is obtained after the server processes the real-time data;

the pipeline apparatus further includes:

the bar code scanner is used for scanning a bar code of the polymer lithium battery placed on the battery clamp of the integrated equipment to acquire first identity identification information; scanning the bar code of the integrated equipment to acquire second identity information; establishing a corresponding relation between the first identity identification information and the second identity identification information according to the corresponding relation between the number of the integrated equipment and the number of a polymer lithium battery placed on a battery clamp of the integrated equipment;

the integrated equipment also transmits the acquired real-time data in the production process of the polymer lithium battery to the server through a wireless communication module of the integrated equipment;

the server also receives the real-time data through the wireless communication device, processes the real-time data to obtain first data, and transmits the first data of the polymer lithium battery corresponding to the first identity identification information to the integrated equipment corresponding to the second identity identification information;

and the integrated equipment receives the first data and judges whether the first data is consistent with the preset parameters or not so as to determine whether the polymer lithium battery after production is qualified or not.

2. A method of producing a polymer lithium battery, comprising:

placing a polymer lithium battery on a battery clamp of an integrated device;

putting the integrated equipment on a production line for producing the polymer lithium battery;

the server sets preset parameters according to a production process corresponding to the model of the polymer lithium battery and sends an operation instruction carrying the preset parameters to the integrated equipment;

the integrated equipment receives the operation instruction sent by the server and produces the polymer lithium battery according to the preset parameters;

the method further comprises the following steps:

a bar code scanner scans a bar code of a polymer lithium battery placed on a battery clamp of the integrated equipment to acquire first identity identification information; scanning the bar code of the integrated equipment to acquire second identity information; establishing a corresponding relation between the first identity identification information and the second identity identification information according to the corresponding relation between the number of the integrated equipment and the number of a polymer lithium battery placed on a battery clamp of the integrated equipment;

wherein, will integrative equipment puts into production line of production the polymer lithium cell on, include:

putting the integrated equipment which finishes bar code scanning on a production line for producing the polymer lithium battery;

the method further comprises the following steps:

the integrated equipment transmits the acquired real-time data in the production process of the polymer lithium battery to the server;

the server receives the real-time data, processes the real-time data to obtain first data, and transmits the first data of the polymer lithium battery corresponding to the first identity identification information to the integrated equipment corresponding to the second identity identification information;

and the integrated equipment receives the first data and judges whether the first data is consistent with the preset parameters or not so as to determine whether the polymer lithium battery after production is qualified or not.