CN112816883A - Returned lead-acid battery management system for building energy storage power station - Google Patents

Abstract

The utility model provides a construction energy storage power station's returning fortune lead acid battery management system, belong to returning fortune lead acid battery and recycle the field, including returning fortune lead acid battery data collection station, returning fortune lead acid battery data collection station electric connection returning fortune lead acid battery's positive negative pole electrode post, returning fortune lead acid battery data collection station and radio signal transmitter electric connection, the signal that radio signal transmitter sent passes through the radio signal receiver and transmits for the treater, the treater can carry out the analysis to the information that returning fortune lead acid battery data collection station gathered, the treater can be in real time with the information analysis result that corresponds returning fortune lead acid battery that returning fortune lead acid battery data collection station acquireed transmit for remote terminal. The invention can monitor the running state of the returned lead-acid battery in real time through the returned lead-acid battery data collector, analyzes the data collected by the returned lead-acid battery data collector through the processor, and provides a solution according to the analyzed problem, thereby ensuring the normal and stable running of the energy storage power station.

Description

Returned lead-acid battery management system for building energy storage power station

Technical Field

The invention belongs to the field of recycling of returned lead-acid batteries, and particularly relates to a returned lead-acid battery management system for building an energy storage power station.

Background

The method is characterized in that a transformer substation can generate a part of returned lead-acid batteries in the construction process, the returned lead-acid batteries are returned due to the fact that the returned lead-acid batteries cannot meet the use requirement of the transformer substation, a large amount of electric energy cannot be recycled, energy waste and loss are caused, the returned lead-acid batteries cannot be effectively processed at present, and special local storage must be found.

Disclosure of Invention

The invention provides a return lead-acid battery management system for building an energy storage power station, which is used for solving the defects in the prior art.

The invention is realized by the following technical scheme:

a returned lead-acid battery management system for building an energy storage power station comprises a returned lead-acid battery data collector, wherein the returned lead-acid battery data collector is electrically connected with a positive electrode pole and a negative electrode pole of a returned lead-acid battery, the returned lead-acid battery data collector can obtain voltage and current information of the returned lead-acid battery, the returned lead-acid battery data collector is electrically connected with a wireless signal transmitter, a signal sent by the wireless signal transmitter is transmitted to a processor through a wireless signal receiver, the processor can analyze the information collected by the returned lead-acid battery data collector, the processor can transmit an information analysis result of the corresponding returned lead-acid battery obtained by the returned lead-acid battery data collector to a remote terminal in real time, the returned lead-acid battery is placed on a returned lead-acid battery placing frame, the lead-acid battery withdrawing and transporting rack is provided with a placing plate, the placing plate can be used for placing the lead-acid battery withdrawing and transporting, the placing plate above the lead-acid battery withdrawing and transporting is provided with a lead-acid battery withdrawing and transporting data collector, the lead-acid battery withdrawing and transporting data collector is connected with one end of a lead, the other end of the lead is connected with a conducting strip arranged in an electrode column fixing cap, the electrode column fixing cap can enable the conducting strip to be tightly matched with an electrode column of the lead-acid battery withdrawing and transporting, the electrode column fixing cap can be buckled on the electrode column of the lead-acid battery withdrawing and transporting to enable the conducting strip to be contacted with the electrode column of the lead-acid battery withdrawing and transporting, meanwhile, through holes are arranged on two sides of the electrode column fixing cap, a moving rod can be allowed to pass through the through holes, one end of the moving rod, which is positioned in the electrode column fixing cap, is provided with an arc-, the part periphery that the carriage release lever is located the electrode post locking cap set up the spring, the one end of spring connect the arc, the other end of spring connect the inner wall of electrode post locking cap, the one end that the carriage release lever is located the electrode post locking cap outside set up and draw the piece.

According to the returned lead-acid battery management system for building the energy storage power station, the returned lead-acid battery data collector can be connected with a single returned lead-acid battery or a battery cluster consisting of a plurality of returned lead-acid batteries to obtain information data.

According to the returned lead-acid battery management system for building the energy storage power station, the processor can analyze the defects of the conveyed lead-acid battery and give out a solution according to the data information stored in the database, if the defect information is collected without the corresponding solution, the corresponding defect information is transmitted to the corresponding personnel, and the corresponding personnel analyze the defect information and give out the solution to be stored in the database, so that the processor can give out the corresponding solution when the defect information is detected next time.

According to the returned lead-acid battery management system for building the energy storage power station, the remote terminal is a computer or a mobile phone.

The return transportation lead-acid battery management system for building the energy storage power station is characterized in that a temperature sensor is arranged on the return transportation lead-acid battery placing frame and is electrically connected with a wireless signal transmitter.

According to the return lead-acid battery management system for building the energy storage power station, the two placing plates are fixedly connected through the four electric push rods.

According to the return lead-acid battery management system for building the energy storage power station, the buffer layer is arranged on the upper surface of the storage power station.

According to the returned lead-acid battery management system for building the energy storage power station, the two sides of the returned lead-acid battery data collector are respectively provided with the placing seat, the placing grooves are formed in the placing seats, and the electrode column fixing caps can be placed in the placing grooves.

The return transportation lead-acid battery management system for building the energy storage power station is characterized in that universal wheels are arranged at the bottom of the return transportation lead-acid battery placing frame.

The invention has the advantages that: the operation state of the returned lead-acid battery can be monitored in real time through the returned lead-acid battery data collector, the data collected by the returned lead-acid battery data collector are analyzed through the processor, and a solution is provided according to the analyzed problem, so that the normal and stable operation of the energy storage power station is ensured; meanwhile, the conventional mode of generally connecting the electrode columns of the returned lead-acid batteries adopts a jointing clamp or welding, the welding is not easy to separate, the replacement and the transportation are not convenient, the stability of the jointing clamp for clamping the cylindrical electrode columns of the returned lead-acid batteries is poor, and the jointing clamp is easy to separate from the electrode columns of the returned lead-acid batteries.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a schematic structural view of the present invention;

fig. 3 is a partially enlarged view of a portion I of fig. 2.

Reference numerals: 1. a data collector of the returned lead-acid battery; 2. returning and transporting the lead-acid battery; 3. a wireless signal transmitter; 4. a wireless signal receiver; 5. a processor; 6. a remote terminal; 7. a temperature sensor; 8. a lead-acid battery returning and transporting rack; 9. placing the plate; 10. a wire; 11. an electrode column fixing cap; 12. a conductive sheet; 13. a through hole; 14. a travel bar; 15. an arc-shaped plate; 16. a spring; 17. pulling the block; 18. an electric push rod; 19. a placing seat; 20. a placement groove; 21. a universal wheel; 22. a buffer layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A returned lead-acid battery management system for building an energy storage power station comprises a returned lead-acid battery data collector 1, wherein the returned lead-acid battery data collector 1 is electrically connected with a positive electrode pole and a negative electrode pole of a returned lead-acid battery 2, the returned lead-acid battery data collector 1 can obtain voltage and current information of the returned lead-acid battery 2, the returned lead-acid battery data collector 1 is electrically connected with a wireless signal transmitter 3, a signal sent by the wireless signal transmitter 3 is transmitted to a processor 5 through a wireless signal receiver 4, the processor 5 can analyze the information collected by the returned lead-acid battery data collector 1, the processor 5 can transmit an information analysis result of the returned lead-acid battery 2 obtained by the returned lead-acid battery data collector 1 to a remote terminal 6 in real time, the returned lead-acid battery 2 is placed on a returned lead-acid battery placing rack 8, the retreating lead-acid battery rack 8 is provided with a placing plate 9, the placing plate 9 is provided with a retreating lead-acid battery 2, the placing plate 9 above the retreating lead-acid battery 2 is provided with a retreating lead-acid battery data collector 1, the retreating lead-acid battery data collector 1 is connected with one end of a lead 10, the other end of the lead 10 is connected with a conducting plate 12 arranged in an electrode column fixing cap 11, the electrode column fixing cap 11 can enable the conducting plate 12 to be tightly matched with an electrode column of the retreating lead-acid battery 2, the electrode column fixing cap 11 can be buckled on the electrode column of the retreating lead-acid battery 2 to enable the conducting plate 12 to be contacted with the electrode column of the retreating lead-acid battery 2, meanwhile, through holes 13 are arranged at two sides of the electrode column fixing cap 11, a moving rod 14 can be allowed to pass through the through holes 13, one end of the moving rod 14, which is positioned in the electrode column fixing cap 11, is provided with an, arc 15 can contact with the electrode post of returning to fortune lead-acid batteries 2, the part periphery that the carriage release lever 14 is located electrode post locking cap 11 set up spring 16, spring 16's one end connect arc 15, spring 16's the other end connect the inner wall of electrode post locking cap 11, the one end that the carriage release lever 14 is located the electrode post locking cap 11 outside set up and draw a 17. Meanwhile, because the existing mode of generally connecting the electrode posts of the returned lead-acid battery 2 generally adopts a jointing clamp or welding, the welding is not easy to separate and is not convenient to replace and carry, the jointing clamp has poor stability when clamping the electrode posts of the cylindrical returned lead-acid battery 2 and is easy to separate from the electrode posts of the returned lead-acid battery 2, in the invention, the electrode post fixing cap 11 is buckled on the electrode posts of the returned lead-acid battery 2, the conducting plate 12 is in contact communication with the electrode posts of the returned lead-acid battery 2, meanwhile, the cylindrical returned lead-acid battery 2 can be tightly clamped under the action of the spring 16 through the two arc-shaped plates 15, the electrode post fixing cap 11 is buckled on the electrode posts of the returned lead-acid battery 2, and the lead-acid battery 2 is secondarily clamped and transported through the arc-shaped plates 15, so that the contact stability of the conducting plate 12 and the electrode posts of the returned lead-acid battery 2 is ensured, and the, meanwhile, the pull block 17 can conveniently drive the moving rod 14 to move, and the use is convenient.

Preferably, the returned lead-acid battery data collector 1 can be connected with a single returned lead-acid battery 2 or a battery cluster formed by a plurality of returned lead-acid batteries 2 to obtain information data. The model of the lead-acid battery is different, the memory space is also different, it is necessary to adopt a return transportation lead-acid battery data collector 1 to large-scale return transportation lead-acid battery 2, but to miniature return transportation lead-acid battery 2, adopt a return transportation lead-acid battery data collector 1 to monitor comparatively extravagant resource, can establish ties miniature return transportation lead-acid battery 2 of polylith, and monitor by a return transportation lead-acid battery data collector 1, play the monitoring effect promptly, again can be abundant utilize the goods and materials.

Preferably, the processor 5 analyzes the defect of the lead-acid battery 2 and provides a solution according to the data information stored in the database, if the acquired defect information has no corresponding solution, the corresponding defect information is transmitted to the corresponding personnel, and the corresponding personnel analyzes the defect information and provides a solution to be stored in the database, so that the processor 5 can provide a corresponding solution when the defect information is detected next time.

Preferably, the remote terminal 6 is a computer or a mobile phone. The remote terminal 6 adopts a computer to facilitate related personnel to know the condition of the returned lead-acid battery in the energy storage power station in time when working, and meanwhile, the remote terminal 6 informing the mobile phone can enable related leaders and workers to know the condition in time and quickly process the condition when the serious condition occurs.

Preferably, the lead-acid battery withdrawing and transporting rack 8 is provided with a temperature sensor 7, and the temperature sensor 7 is electrically connected with the wireless signal transmitter 3. The temperature sensor 7 is additionally arranged, so that the temperature in the energy storage power station can be monitored, and the current and voltage changes of the lead-acid battery 2 which is returned along with the temperature change are obtained, so that the deviation calculation of the output electric quantity due to the temperature problem can be avoided when the energy storage power station is used.

Preferably, the two placing plates 9 are fixedly connected through four electric push rods 18. The electric push rod 18 extends out when the withdrawing lead-acid battery 2 is placed, so that a large withdrawing lead-acid battery 2 can be placed in the electric push rod, and after the electric push rod is placed in the electric push rod, an electrode column connected with the withdrawing lead-acid battery 2 is shortened, and the electric push rod is convenient to use.

Preferably, the upper surface of the said rest 9 is provided with a buffer layer 22. Buffer layer 22 adopts the rubber material of soft texture to constitute, can play the buffering when moving back fortune lead acid battery 2 and put into, avoids moving back fortune lead acid battery 2 and places board 9 and take place stronger collision to lead to moving back fortune lead acid battery 2 to break down.

Preferably, two sides of the data collector 1 for the returned lead-acid batteries are respectively provided with a placing seat 19, a placing groove 20 is formed in the placing seat 19, and the electrode column fixing cap 11 can be placed in the placing groove 20. Even if the electrode column fixing cap 11 is placed in the placing groove 20 of the placing seat 19, the electrode column fixing cap 11 can be placed on two sides of the corresponding lead-acid battery data collector 1, so that the mixed use is avoided.

Preferably, the bottom of the lead-acid battery returning and transporting rack 8 is provided with universal wheels 21. The universal wheels 21 are convenient for moving, transporting and placing the lead-acid battery placing rack 8, and are convenient for placing and using.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a construction energy storage power station's returning lead acid battery management system which characterized in that: the device comprises a return lead-acid battery data collector (1), wherein the return lead-acid battery data collector (1) is electrically connected with a positive electrode pole and a negative electrode pole of a return lead-acid battery (2), the return lead-acid battery data collector (1) can obtain voltage and current information of the return lead-acid battery (2), the return lead-acid battery data collector (1) is electrically connected with a wireless signal transmitter (3), a signal sent by the wireless signal transmitter (3) is transmitted to a processor (5) through a wireless signal receiver (4), the processor (5) can analyze the information collected by the return lead-acid battery data collector (1), the processor (5) can transmit the information analysis result of the corresponding return lead-acid battery (2) obtained by the return lead-acid battery data collector (1) to a remote terminal (6) in real time, the return transportation lead-acid battery (2) is placed on a return transportation lead-acid battery placing frame (8), a placing plate (9) is arranged on the return transportation lead-acid battery placing frame (8), the return transportation lead-acid battery (2) can be placed on the placing plate (9), a return transportation lead-acid battery data collector (1) is arranged on the placing plate (9) above the return transportation lead-acid battery (2), the return transportation lead-acid battery data collector (1) is connected with one end of a lead (10), the other end of the lead (10) is connected with a conducting strip (12) arranged in an electrode column fixing cap (11), the electrode column fixing cap (11) can enable the conducting strip (12) to be tightly matched with an electrode column of the return transportation lead-acid battery (2), the electrode column fixing cap (11) can be buckled on the electrode column of the return transportation lead-acid battery (2) to enable the conducting strip (12) to be contacted with the electrode column of the return transportation lead-acid battery (2), simultaneously through-hole (13) are seted up to electrode column locking cap (11) both sides, through-hole (13) internal energy allow carriage release lever (14) to pass, carriage release lever (14) one end that is located electrode column locking cap (11) set up arc (15), arc (15) can contact with the electrode column of retreat fortune lead-acid battery (2), carriage release lever (14) be located the part periphery in electrode column locking cap (11) and set up spring (16), the one end of spring (16) connect arc (15), the other end of spring (16) connect the inner wall of electrode column locking cap (11), one end that carriage release lever (14) are located electrode column locking cap (11) outside set up pull block (17).

2. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the returned lead-acid battery data collector (1) can be connected with a single returned lead-acid battery (2) or a battery cluster consisting of a plurality of returned lead-acid batteries (2) to obtain information data.

3. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the processor (5) can analyze the defects of the lead-acid battery (2) and provide a solution according to the data information stored in the database, if the collected defect information has no corresponding solution, the corresponding defect information is transmitted to the corresponding personnel, the corresponding personnel analyze the defect information and provide the solution to be stored in the database, and the processor (5) can provide the corresponding solution when the defect information is detected next time.

4. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the remote terminal (6) is a computer or a mobile phone.

5. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: a temperature sensor (7) is arranged on the lead-acid battery withdrawing and transporting rack (8), and the temperature sensor (7) is electrically connected with the wireless signal transmitter (3).

6. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the two placing plates (9) are fixedly connected through four electric push rods (18).

7. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the upper surface of the placing part (9) is provided with a buffer layer (22).

8. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the lead-acid battery data collector is characterized in that two sides of the lead-acid battery data collector (1) are respectively provided with a placing seat (19), a placing groove (20) is formed in the placing seat (19), and the electrode column fixing cap (11) can be placed in the placing groove (20).

9. The system for managing the returned lead-acid batteries for building the energy storage power station as claimed in claim 1, is characterized in that: the bottom of the lead-acid battery returning and transporting rack (8) is provided with universal wheels (21).

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