CN109378541A - Lithium power battery based on radio frequency induction and preparation and recovery methods thereof - Google Patents

Abstract

The invention discloses a lithium power battery based on radio frequency induction and a preparation and recovery method thereof, relating to batteries and having the technical scheme that: the invention solves the problem of resource waste due to direct degradation in the process of recycling the battery, and has the advantages of reading information in the process of recycling the battery and obtaining available parts in the battery through the information.

Description

Lithium dynamical battery and its preparation, recovery method based on radio frequency induction

Technical field

The present invention relates to battery technology field, in particular to a kind of lithium dynamical battery based on radio frequency induction.

Background technique

Since lithium battery is being manufactured and used without heavy metal pollution, however, there remains pass through regular environmentally friendly hand Duan Jinhang recovery processing, still specific certain remaining capacity was also that can recycle again to lithium battery after using for many years It uses, directly dismantling processing is more wasteful.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to: a kind of lithium power based on radio frequency induction is provided Battery, the information that it is inserted when dispatching from the factory by radio-frequency technique, long-term record battery can facilitate in recycling and judge that battery holds Amount.

Above-mentioned technical purpose is achieved through the following technical solutions, a kind of lithium dynamical battery based on radio frequency induction, packet Battery and the shell for containing battery are included, the memory module for storage batteries information is provided on the shell, it is described It is RFID radio frequency chip that memory module, which is selected,.

Through the above technical solutions, the process simple storage time is long, due to battery instead of traditional two dimensional code identification technology Service life is about 15-20, and after being used for a long time, the two dimensional code being attached on battery will desalinate gradually, Deng Dao electricity Pond has been not easy to recognize, led to not read wherein data when recycling, by RFID radio frequency chip can store data long term, lead to Data, relative two dimensional code or bar code recognition can be read by crossing inductor induction, and operation is simpler, meanwhile, it is processed dispatching from the factory Cheng Zhong needs typing information, is then needed always by two dimensional code identification for the information reservation server, long-time maintenance cost compared with Height can be stored that information in chip by RFID chip, save most of cost, while in process of production, be needed Battery is read out information one by one, receives angle, distance, clarity by two dimensional code identification technology and is affected, leads to It is then smaller to above-mentioned parameter requirement to cross RFID chip, operates more convenient, raising production efficiency.

Further, the RFID chip is embedded inside the housing.

Through the above technical solutions, chip is arranged on the shell by pre-buried mode, which can be ensconced internal Avoid extraneous destruction.

Further, thermal insulation layer is coated in the RFID chip.

Through the above technical solutions, protecting chip by protective layer, reduce core caused by due to battery-heating etc. Piece performance is reduced.

Further, the thermal insulation layer is coated with erosion resistant coating.

Through the above technical solutions, reducing the corrosion that battery urges chip by erosion resistant coating.

Further, embedded chip position is located on the shell and is provided with the label for prompting the position RFID.

Through the above technical solutions, being prompted by label chip position, avoid due to embedded core inside the shell Piece is not easy to be detected.

Further, the battery information includes the date of production, factory number, battery capacity, voltage rating, the internal resistance of cell And rated current.

Through the above technical solutions, can facilitate and be calculated about in removal process by prestoring above-mentioned factory information Remaining capacity, and then judge the use value of the battery.

Further, merging chamber is offered in the side wall of outer shell, it is intracavitary that the RFID radio frequency chip is placed in merging.

Through the above technical solutions, by by chip be placed in merging it is intracavitary, the installation of the chip can be facilitated.

Further, the RFID chip is provided with reading permission.

Through the above technical solutions, by the permission can care for control information can publicity crowd, can be inserted in the chip Some vital strategic secrets that should not be known by some.

Further, the priority assignation in RFID chip has client, Yuan Gongduan and core end.

Through the above technical solutions, client, employee and hard core control layer can be allowed to divide by three different ports Different information can not obtained.

Above-mentioned technical purpose also passes through a kind of technical solution realization: system of the lithium dynamical battery based on radio frequency induction Standby, recovery method, comprising:

Setting radio frequency induction program simultaneously will be in data input program；

S1: by data information typing RFID chip；

S2: RFID chip is coated in protective layer；

S3: being placed on the RFID chip coated in the molten slurry for being used to prepare battery case and shell is prepared by mold；

S4: battery is placed in corresponding shell；

S5: information and typing storage in chip are read；

S6: estimation battery remaining power and available information are read by the information in chip.

The present invention has following technical effect that in summary

By using RFID radio frequency chip, instead of traditional two dimensional code identification technology, the process simple storage time is long, due to battery Service life is about 10-20, and after being used for a long time, the two dimensional code being attached on battery will desalinate gradually, Deng Dao electricity Pond has been not easy to recognize, led to not read wherein data when recycling, by RFID radio frequency chip can store data long term, lead to Data, relative two dimensional code or bar code recognition can be read by crossing inductor induction, and operation is simpler, meanwhile, it is processed dispatching from the factory Cheng Zhong needs typing information, is then needed always by two dimensional code identification for the information reservation server, long-time maintenance cost compared with Height can be stored that information in chip by RFID chip, save most of cost, while in process of production, be needed Battery is read out information one by one, receives angle, distance, clarity by two dimensional code identification technology and is affected, leads to It is then smaller to above-mentioned parameter requirement to cross RFID chip, operates more convenient, raising production efficiency.

Specific embodiment

A kind of embodiment 1, lithium dynamical battery based on radio frequency induction, RFID chip is embedded in battery case, and The information such as factory information, battery capacity, voltage rating, the rated current when battery factory are stored in the chip.Pass through the chip Instead of existing two dimensional code or bar code identification technology, will need to store each battery information typing in process of production single Need to control two dimensional code at a distance from sensing device by two dimensional code identification technology in member, while the clarity of two dimensional code also can shadow The identification for ringing inductor can reduce the influence of distance of reaction and the shadow of two dimensional code clarity by the identification technology of RFID It rings, it is only necessary to by can be improved in data input storage unit by sensing device one by one of the battery with chip Working efficiency.

Since battery needs longer using the time, two dimensional code is attached on battery case it is difficult to ensure that clarity, passes through RFID Identification technology can be longer by time information memory, in order to reduce influence of the heat of battery generation to chip, in chip outsourcing It is covered with thermal insulation layer, the thermal insulation layer is made of polyphenyl materials in the present embodiment, and is coated with plastic anti-corrosion layer in the thermal insulation layer, is subtracted The interference of few battery and the corrosion of battery.The chip longer holding time can be allowed.

Be stored in the chip in the present embodiment the date of production, factory number, battery capacity, voltage rating, in battery Resistance and rated current, the selection of battery material or other technologies information, and it is provided with client, Yuan Gongduan and core end Three permissions, and web-privilege password Web is set, by the way that different passwords is informed that different required crowds can reasonably accuse information Know the different masses.

During battery recycling, still it is able to maintain by the information that chip stores, this can be judged by the information The recovering state of battery can continue to using perhaps needing to degrade or part is still kept well, but pass through two dimension Code identification technology, server corresponding to two dimensional code may not safeguard or this two dimensional code not or this two dimensional code Information not enough can not be clearly read, is difficult chronological classification recycling, can only be disassembled, waste a large amount of resource.

Specific implementation process, the information that will dispatch from the factory etc. are stored in the chip, and thermal insulation layer, erosion resistant coating are coated, and It is embedded in plastic shell, when reading, is read by sensing device, different power can be learnt by different web-privilege password Webs Limit information.

A kind of preparation of the lithium dynamical battery based on radio frequency induction, recovery method, comprising:

Setting radio frequency induction program simultaneously will be in data input program；

S1: by data information typing RFID chip, the data include battery capacity, voltage rating, rated current and composition Ingredient, preparation process, the information such as service life of each section element, and above- mentioned information are classified, by preparation process, composition Super-ordinate right is arranged in the service life of ingredient and each section element, and web-privilege password Web is arranged, and the partial secret information is not public Known to crowd；

S2: RFID chip is coated in protective layer,

S3: being placed on the RFID chip coated in the molten slurry for being used to prepare battery case and shell is prepared by mold；

S4: battery is placed in corresponding shell；

S5: information and typing storage in chip are read, the information in chip is read, is retained.Relative two dimensional code technology is read Take speed faster；

S6: reading estimation battery remaining power and available information by the information in chip, learnt by available information, Whether the part in the battery is available, whether has available resources in the battery, if can reuse to it.

Most of energy can be saved.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (10)

1. A lithium power battery based on radio frequency induction, comprising a battery and a casing for containing the battery, characterized in that: the casing is provided with a storage module for storing battery information, and the storage module is selected as an RFID radio frequency chip. 2 . The lithium power battery based on radio frequency induction according to claim 1 , wherein the RFID chip is embedded in the casing. 3 . 3 . The lithium power battery based on radio frequency induction according to claim 2 , wherein the RFID chip is covered with a heat insulating layer. 4 . 4 . The lithium power battery based on radio frequency induction according to claim 3 , wherein the heat insulating layer is covered with an anti-corrosion layer. 5 . 5 . The lithium power battery based on radio frequency induction according to claim 1 , wherein a label for prompting the RFID position is provided on the casing at the position where the chip is embedded. 6 . 6 . The lithium power battery based on radio frequency induction according to claim 5 , wherein the battery information includes the date of manufacture, the serial number, the capacity of the battery, the rated voltage, the internal resistance of the battery and the rated current. 7 . 7 . The lithium power battery based on radio frequency induction according to claim 1 , wherein an insertion cavity is opened in the side wall of the casing, and the RFID radio frequency chip is placed in the insertion cavity. 8 . 8 . The lithium power battery based on radio frequency induction according to claim 1 , wherein the RFID chip is provided with a read permission. 9 . 9 . The lithium power battery based on radio frequency induction according to claim 8 , wherein the authority in the RFID chip is set with a client, an employee, and a core. 10 . 10. A preparation and recovery method of a lithium power battery based on radio frequency induction, characterized in that: comprising: Set up the RF induction program and enter the information into the program; S1: Enter the data information into the RFID chip; S2: wrap the RFID chip in the protective layer; S3: place the coated RFID chip in the melt used to prepare the battery casing and prepare the casing through a mold; S4: Put the battery into the corresponding casing; S5: Read the information in the chip and record it for storage; S6: Estimate the remaining capacity of the battery and the available information by reading the information in the chip.