CN117766900A - Self-charging energy storage device - Google Patents

Self-charging energy storage device Download PDF

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Publication number
CN117766900A
CN117766900A CN202311481730.3A CN202311481730A CN117766900A CN 117766900 A CN117766900 A CN 117766900A CN 202311481730 A CN202311481730 A CN 202311481730A CN 117766900 A CN117766900 A CN 117766900A
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CN
China
Prior art keywords
charging
storage battery
module
electric quantity
temperature
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Pending
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CN202311481730.3A
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Chinese (zh)
Inventor
刘翠勤
孙伟伟
方小卫
苏满意
招秀洋
周好
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nanjing Tengxu Technology Co ltd
Jiangsu Tenwei Electronics Co ltd
Original Assignee
Nanjing Tengxu Technology Co ltd
Jiangsu Tenwei Electronics Co ltd
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Application filed by Nanjing Tengxu Technology Co ltd, Jiangsu Tenwei Electronics Co ltd filed Critical Nanjing Tengxu Technology Co ltd
Priority to CN202311481730.3A priority Critical patent/CN117766900A/en
Publication of CN117766900A publication Critical patent/CN117766900A/en
Pending legal-status Critical Current

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Abstract

The invention discloses a self-charging energy storage device, and relates to the technical field of energy storage devices. The self-charging energy storage device comprises a temperature sensing air outlet mechanism, a heat dissipation mechanism and an electric quantity detection and control mechanism. This self-charging energy memory, through the gear of temperature sensing air mechanism perception temperature and regulation and control fan, the mode through thermal convection dispels the heat, the radiating mechanism utilizes wind-force as power, the size of control ventilation hole, thereby the cooperation is dispelled the heat, wind both is the heat dissipation medium, also promote the power supply of windward lid, it is abundant to use, and the ventilation hole is closed at ordinary times, impurity is difficult to get into, the size of the radiating hole is matchd according to required radiating degree, also can reduce impurity entering cabinet shell that charges as far as possible, the electric quantity of the regenerated battery of electric quantity monitoring effectively second only falls 50 percent and just charges, avoid the battery damage that always charges the cause, and reduce charging time, reduce the heat that charges and cause.

Description

Self-charging energy storage device
Technical Field
The invention relates to the technical field of energy storage devices, in particular to a self-charging energy storage device.
Background
The key technology of the electric automobile is an energy storage technology, and the electric automobile can be charged by utilizing the electric energy stored by the energy storage module. In the field of electric automobiles, an energy storage module generally adopts a battery energy storage mode, and the energy storage module is charged through an automatic charging pile.
During the power consumption peak period, in order to guarantee the normal use of charging stake, can generally carry out energy storage charging to the regeneration battery through the machine that charges with electric energy, when electric automobile needs to charge, the priority charges electric automobile's energy storage module through the regeneration battery.
In order to ensure the charging capacity of the charging pile at night, a plurality of regeneration storage batteries are often connected together, when the regeneration storage batteries are discharged, the heat generation of the regeneration storage batteries is increased, if the temperature is continuously increased, the charging efficiency of the regeneration storage batteries is reduced, the electrode deformation is caused when the temperature is serious, the battery capacity is reduced, the service life is shortened, and when the electric quantity of the regeneration storage batteries for charging is reduced, the rest regeneration storage batteries charge the regeneration storage batteries, so that the conditions of overcharging and the like are easily caused, and the temperature of the regeneration storage batteries is also easily caused to rise.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides the self-charging energy storage device which can automatically control the temperature in the regenerated storage battery and the charging pile, and the regenerated storage battery can be charged and supplemented only when the electric quantity of the regenerated storage battery is lower than 50 percent, so that the heat dissipation is reduced, and the service life of the regenerated storage battery is prolonged.
In order to achieve the above purpose, the invention is realized by the following technical scheme: the self-charging energy storage device comprises a base, wherein the top of the base is fixedly connected with a charging cabinet shell, the left side of the charging cabinet shell is provided with a vent hole, and an intelligent monitoring temperature control device is arranged in the charging cabinet shell;
the intelligent monitoring temperature control device comprises:
the electric quantity detection and control mechanism can detect the residual electric quantity of the storage battery, can control the charging time of the storage battery and can correct the residual electric quantity after charging;
the temperature sensing air outlet mechanism can detect the temperature inside the charging cabinet shell, and when the temperature reaches the warning state, the temperature sensing air outlet mechanism outputs air and radiates heat through heat convection, and the temperature sensing air outlet mechanism can be matched with corresponding wind power according to different temperatures;
the heat dissipation mechanism can horizontally move under the action of wind force and can be adapted to different separation and adjust the air outlet channel.
Preferably, the bottom wall fixedly connected with first regeneration battery of cabinet shell charges, the top electric connection of first regeneration battery has first wire, the top electric connection of first wire has electric quantity inspection and control mechanism, the right side of cabinet shell charges and the left side fixed connection of temperature sensing air-out mechanism charges, the left side of cabinet shell charges and the right side fixed connection of heat dissipation mechanism charges cabinet shell inner wall fixedly connected with baffle.
Preferably, the electric quantity detection and control mechanism comprises a second regenerated storage battery, the top of the second regenerated storage battery is provided with a residual electric quantity detection module, a data storage analysis module and a charging control module in sequence from left to right, the tops of the residual electric quantity detection module, the data storage analysis module and the charging control module are all fixedly connected with the top wall of the shell of the charging cabinet, the rear electric connection of the residual electric quantity detection module is provided with a seventh wire, the bottom of the seventh wire is electrically connected with the top of the second regenerated storage battery, the left side of the residual electric quantity detection module is electrically connected with a second wire, the left end of the second wire is electrically connected with the right side of the data storage analysis module, the left side of the data storage analysis module is electrically connected with a third wire, the bottom of the third wire is electrically connected with the charging control module, the left and right sides of the charging control module are electrically connected with an eighth wire, the right side of the residual electric detection module is electrically connected with a fourth wire, the right end of the fourth wire is electrically connected with the bottom of the second regenerated storage battery, the right side of the third wire is electrically connected with the bottom of the third separator, the bottom of the fourth wire is electrically connected with the top of the second regenerated storage battery, and the top of the ninth separator is electrically connected with the second regenerated storage battery.
Preferably, the temperature sensing air outlet mechanism comprises a box, the left side of the box is fixedly connected with the right side of the charging cabinet shell, a fan is arranged in the box, the right side of the fan is electrically connected with a sixth wire, one end of the sixth wire, which is far away from the fan, is electrically connected with a temperature control module, one side of the temperature control module is electrically connected with a fifth wire, and the top end of the fifth wire is electrically connected with the temperature sensing module.
Preferably, the heat dissipation mechanism comprises a wind-receiving cover, the right side fixedly connected with sideboard of wind-receiving cover, the outside fixedly connected with spring of wind-receiving cover, the one end fixedly connected with riser of sideboard is kept away from to the spring, one side fixedly connected with diaphragm that the riser is close to the sideboard, two be provided with the drum between the diaphragm, the drum passes the inside of riser and with the inside fixed connection of riser, the inner wall sliding connection of drum has the slide, one side fixedly connected with that the slide is close to the sideboard moves the pole, the one end that moves the pole and the central point of the outside of wind-receiving cover are fixed connection, the right side of riser is provided with the sealing frame, one side that the sealing frame is kept away from the riser and the left side fixed connection of cabinet shell charges.
Preferably, the remaining power detection module can measure the remaining power of the second regenerated storage battery, the data storage analysis module can process information and transmit the information to the charging control module, when the power of the second regenerated storage battery is lower than fifty percent, the charging control module is started, a channel of the second regenerated storage battery and a channel of the third regenerated storage battery are changed into a channel from disconnection, and the third regenerated storage battery charges the second regenerated storage battery.
Preferably, the temperature sensing module can detect the temperature in the second regenerated storage battery and the charging cabinet shell and transmit information to the temperature control module, and the temperature control module can adjust the gear of the fan according to the temperature.
The invention provides a self-charging energy storage device. The beneficial effects are as follows:
(1) This self-charging energy memory detects the temperature in second regeneration battery, the cabinet shell that charges through intelligent supervision temperature control device, according to the high of its temperature, adjusts the gear of fan to the size that the control ventilation passageway was opened reaches suitable radiating effect through self-adaptation heat dissipation, prevents that all regeneration battery temperatures from being too high, prolongs its life.
(2) This self-charging energy memory, through the temperature sensing air-out mechanism, the inside temperature of second regeneration battery and cabinet shell that charges rises, and the inside temperature of cabinet shell that charges can't pass through heat transfer and heat conduction rapid transmission to the external environment in, the temperature of second regeneration battery is constantly detected to the temperature sensing module, when its temperature reached the warning value, the temperature sensing module passed through the signal of telecommunication with information and gives the control by temperature change module, the control by temperature change module starts, the fan rotates with first gear, the flow of the interior heat of cabinet shell that charges can be accelerated to the wind.
(3) This self-charging energy memory, through the cooling machanism, the wind of fan blows the windward lid, the windward area of windward lid is big and windward lid quality is light, easily by blowing, windward lid, sideboard keep away from sealed frame, the ventilation hole is opened, the wind carries the second regeneration battery, the temperature motion in the cabinet shell that charges to outdoor, accomplish the cooling work, prevent that the second regeneration battery's temperature is too high, and wind always blows outside the cabinet this moment, outside impurity also is difficult to get into in the cabinet shell that charges.
(4) The self-charging energy storage device is characterized in that the remaining electric quantity detection module detects the remaining electric quantity of the second regenerated storage battery through the electric quantity detection mechanism and transmits information to the data storage analysis module through an electric signal, when the electric quantity of the second regenerated storage battery is reduced to 50 percent of capacity, the data storage analysis module transmits information to the charging control module, a channel of the second regenerated storage battery and a channel of the third regenerated storage battery are changed into a channel from disconnection, the third regenerated storage battery charges the second regenerated storage battery, and after one-time charging, the electric quantity of the second regenerated storage battery is directly marked as one hundred percent, so that errors are reduced.
(5) This self-charging energy memory, through the temperature sense air-out mechanism, the cooling mechanism, electric quantity inspection and control mechanism, the temperature sense air-out mechanism perception temperature and regulation and control fan's gear, dispel the heat through the mode of thermal convection, cooling mechanism utilizes wind-force as power, the size of control ventilation hole, thereby the cooperation is dispelled the heat, wind both is the radiating medium, also promote the power supply of windward cap, use fully, and the ventilation hole is closed at ordinary times, impurity is difficult to get into, the size of cooling hole is matchd according to required radiating degree, also can reduce impurity entering cabinet shell that charges as far as possible in, electric quantity inspection and control mechanism effectively monitors the electric quantity of second regeneration battery, only its electric quantity tumbles 50 percent just charges, avoid the battery damage that always charges and cause, and reduce the charge time, reduce the heat that charges and cause.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a right side view of the present invention;
FIG. 3 is a front cross-sectional view of the present invention;
FIG. 4 is an exploded view of the present invention;
FIG. 5 is a schematic diagram of the intelligent temperature monitoring device according to the present invention;
FIG. 6 is an exploded view of the intelligent temperature monitoring and controlling device of the present invention;
FIG. 7 is a schematic diagram of the electrical quantity detecting and controlling mechanism of the present invention;
FIG. 8 is a schematic diagram of the electrical quantity detection and control mechanism of the present invention after the second and third regenerated batteries are removed;
FIG. 9 is a schematic diagram of a temperature sensing air outlet mechanism according to the present invention;
FIG. 10 is a schematic diagram of a heat dissipation mechanism according to the present invention;
fig. 11 is an exploded view of the heat dissipating mechanism of the present invention.
In the figure: 1. base, 2 charging cabinet housing, 3 intelligent monitoring and temperature device, 31 first regenerative battery, 32 first conductor, 33 separator, 34 charge monitoring and control mechanism, 341 second regenerative battery, 342 residual charge detection module, 343 second conductor, 344 data storage analysis module, 345 third conductor, 346 charge control module, 347 fourth conductor, 348 full charge calibration module, 349 third regenerative battery, 35 temperature sensing and air-out mechanism, 351 casing, 352 fan, 353 temperature sensing module, 354 fifth conductor, 355 temperature control module, 356 sixth conductor, 36 heat dissipation mechanism, 361 air-receiving cover, 362 sideboard, 363 spring, 364 riser, 365 cross board, 366 cylinder, 367 slide, 368 shift lever, 369 sealing frame, 4 rectangular hole, 5 ninth conductor, 6 vent hole, 7 seventh conductor, 8 eighth conductor.
Detailed Description
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.
Examples of the embodiments are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements throughout or elements having like or similar functionality. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.
Referring to fig. 1-9, the present invention provides a technical solution: the self-charging energy storage device comprises a base 1, wherein the top of the base 1 is fixedly connected with a charging cabinet shell 2, the left side of the charging cabinet shell 2 is provided with a vent hole 6, and an intelligent monitoring temperature control device 3 is arranged in the charging cabinet shell 2;
the intelligent monitoring temperature control device 3 comprises:
the electric quantity detection mechanism 34, the electric quantity detection mechanism 34 can detect the residual electric quantity of the storage battery, the electric quantity detection mechanism 34 can control the charging time of the storage battery, the electric quantity detection mechanism 34 can correct the residual electric quantity after charging, the electric quantity detection mechanism 34 comprises a second regenerated storage battery 341, a residual electric quantity detection module 342, a data storage analysis module 344 and a charging control module 346 are sequentially arranged above the second regenerated storage battery 341 from left to right, the top of the residual electric quantity detection module 342, the data storage analysis module 344 and the top of the charging control module 346 are fixedly connected with the top wall of the charging cabinet shell 2, the rear of the residual electric quantity detection module 342 is electrically connected with a seventh wire 7, the bottom of the seventh wire 7 is electrically connected with the top of the second regenerated storage battery 341, the left side of the residual electric quantity detection module 342 is also electrically connected with a second wire 343, the left end of the second wire 343 is electrically connected with the right side of the data storage analysis module 344, the bottom of the third wire 345 is electrically connected with the charging control module 346, the left and right sides of the fourth wire 346 are electrically connected with the top of the fourth wire 33, the bottom of the fourth wire is electrically connected with the fourth wire 348, the bottom of the fourth wire is electrically connected with the fourth wire 33, the fourth wire is electrically connected with the fourth wire 3433, the fourth wire is electrically connected with the fourth wire 348, the fourth wire is electrically connected with the fourth wire 34is electrically connected with the fourth side of the fourth wire 3, the fourth wire is electrically, the bottom of the third regenerative battery 349 is fixedly connected with the top of the other partition 33, the remaining capacity detection module 342 can measure the remaining capacity of the second regenerative battery 341, the data storage analysis module 344 can process information and transmit the information to the charging control module 346, when the capacity of the second regenerative battery 341 is lower than fifty percent, the charging control module 346 is started, the channels of the second regenerative battery 341 and the third regenerative battery 349 are changed from open circuit to closed circuit, and the third regenerative battery 349 charges the second regenerative battery 341.
During the use, the electric automobile is not directly charged through the electric wire netting to the electric pile in the peak period of using electricity, but charges the energy storage module of electric automobile through second regenerative storage battery 341, because second regenerative storage battery 341 discharges, the inside temperature of second regenerative storage battery 341 and cabinet shell 2 that charges rises, and the inside temperature of cabinet shell 2 that charges can't pass through heat transfer and heat conduction and rapidly transmit in the external environment, temperature sensing module 353 constantly detects the temperature of second regenerative storage battery 341, when its temperature reaches the warning value, temperature sensing module 353 passes through the signal of telecommunication with information and gives temperature control module 355, temperature control module 355 starts, fan 352 rotates with first gear, the flow of the interior heat of cabinet shell 2 that charges can be accelerated to the wind.
Referring to fig. 10-11, the present invention provides a technical solution: the utility model provides a self-charging energy storage device, including cooling mechanism 36, this cooling mechanism 36 can carry out horizontal migration under the effect of wind, cooling mechanism 36 can adapt different separation and adjust the air-out passageway, cooling mechanism 36 includes windward lid 361, windward lid 361's right side fixedly connected with sideboard 362, windward lid 361's outside fixedly connected with spring 363, spring 363 keeps away from sideboard 362's one end fixedly connected with riser 364, riser 364 is close to sideboard 362's one side fixedly connected with diaphragm 365, be provided with drum 366 between two diaphragms 365, drum 366 passes the inside of riser 364 and with riser 364's inside fixedly connected with, drum 366's inner wall sliding connection has slide 367, slide 367 is close to sideboard 362's one side fixedly connected with moves the pole 368, move the one end that the pole 368 is close to sideboard 362 and windward lid 361's outside central point put fixedly connected with, the right side of riser 364 is provided with sealing frame 369, sealing frame 369 keeps away from one side and charging cabinet shell 2's left side fixedly connected with.
When the air receiving cover 361 is not in use, the spring 363 is compressed, the spring 363 presses the side plate 362, the side plate 362 and the sealing frame 369 are tightly pressed together, external rainwater, dust and the like are difficult to enter the charging cabinet housing 2, when the air of the fan 352 blows the air receiving cover 361, the air receiving area of the air receiving cover 361 is large, the air receiving cover 361 is light in weight and easy to blow, the air receiving cover 361 carries the moving rod 368 and the sliding plate 367 to move towards the direction of the far-away fan 352, the spring 363 continues to compress, the sliding plate 367 slides along the inner wall of the cylinder 366, the sliding plate 367 only can move horizontally along the axis of the cylinder 366, so that the moving rod 368 and the air receiving cover 361 can only move in the horizontal direction, the movement of the spring 363 and the air receiving cover 361 is convenient to be controlled, the air receiving cover 361 is far away from the sealing frame 369, the ventilation holes are opened, the air is carried by the second regenerated storage battery 341 and the charging cabinet housing 2 at the moment to the outside, the cooling work is completed, the second regenerated storage battery 341 is prevented from being too high, and impurities in the outside the charging cabinet housing 2 are difficult to enter the charging cabinet.
Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a self-charging energy storage device, including temperature sensing air-out mechanism 35, this temperature sensing air-out mechanism 35 can detect the inside temperature of cabinet shell 2 that charges, when its temperature reaches warning, temperature sensing air-out mechanism 35 air-out and dispel the heat through thermal convection, temperature sensing air-out mechanism 35 can match the wind-force that corresponds according to the difference of temperature, the diapire fixedly connected with first regeneration battery 31 of cabinet shell 2 that charges, the top electric connection of first regeneration battery 31 has first wire 32, the top electric connection of first wire 32 has electric quantity detection mechanism 34, the right side of cabinet shell 2 and the left side fixed connection of temperature sensing air-out mechanism 35, the left side of cabinet shell 2 and the right side fixed connection of cooling mechanism 36 charge, cabinet shell 2 inner wall fixed connection has baffle 33, temperature sensing air-out mechanism 35 includes box 351, box 351's left side and cabinet shell 2's right side fixed connection, be provided with the fan 352 in the box 351, the right side electric connection of fan 352 has the sixth wire 356, the one end electric connection who keeps away from the fan 352 has temperature control module 354, the electric connection of fifth electric connection of electric control module 355 has temperature control module 355 and temperature control module 355 can be given temperature control module 355 to the temperature control module 355 and temperature control module 355 can be for temperature control module 355, temperature control module 355 can be high temperature module 355 and temperature control module 355 can be changed.
In use, the remaining capacity detection module 342 continuously detects the remaining capacity of the second regenerative storage battery 341, the remaining capacity detection module 342 transmits information to the data storage analysis module 344 through an electrical signal, when the capacity of the second regenerative storage battery 341 is reduced to 50 percent of capacity, the data storage analysis module 344 transmits information to the charging control module 346, the channels of the second regenerative storage battery 341 and the third regenerative storage battery 349 are changed from open circuit to closed circuit, the third regenerative storage battery 349 charges the second regenerative storage battery 341, but the remaining capacity detection module 342 is used for a long time, errors can also be generated, the full capacity calibration module 348 directly marks the capacity of the second regenerative storage battery 341 as one hundred percent after one-time charging, in the process of discharging the third regenerative storage battery 349 to the second regenerative storage battery 341, the heat generated by the third regenerative storage battery 349 and the second regenerative storage battery 341 is increased, the temperature detected by the temperature sensing module 353 is continuously increased, the temperature control module 355 directly converts the wind power of the fan 352 into the second gear after receiving the signal, the wind power is increased, the compression amount of the spring 363 is increased, the wind receiving cover 361 and the sideboard 362 are far away from the sealing frame 369, the air outlet space of the ventilation hole 6 is increased, the heat dissipation effect is improved through the wind speed increase and the ventilation space increase, the effect of protecting the third regenerative storage battery 349, the second regenerative storage battery 341 and the first regenerative storage battery 31 is prevented, the service life of the third regenerative storage battery 349, the second regenerative storage battery 341 and the first regenerative storage battery 31 is prolonged, the whole heat dissipation assembly can be used only when the temperature of the second regenerative storage battery 341 is increased, the whole heat dissipation assembly can be used when the temperature in the outdoor and the charging cabinet housing 2 reaches the warning line, the application range is wide, the heat dissipation mechanism 36 and the electric quantity detection mechanism 34 are used through the temperature sensing air outlet mechanism 35, the temperature sensing air-out mechanism 35 senses temperature and regulates and controls the gear of the fan 352, heat is dissipated through the heat convection mode, the heat dissipation mechanism 36 utilizes wind power as power to control the size of the vent hole 6, accordingly heat dissipation is matched, wind is not only a heat dissipation medium, but also a power source for pushing the air receiving cover 361, the use is sufficient, the vent hole 6 is closed at ordinary times, impurities are difficult to enter, the size of the vent hole 6 is matched according to the required heat dissipation degree, impurities are reduced as much as possible, the impurities enter the charging cabinet shell 2, the electric quantity of the second regenerated storage battery 341 can be effectively monitored by the electric quantity detection and control mechanism 34, the battery is charged only if the electric quantity falls by 50 percent, the battery damage caused by the battery is avoided, the charging time is shortened, and the heat caused by the battery charging can be reduced.
The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides a self-charging energy memory, includes base (1), the top fixedly connected with cabinet shell (2) that charges of base (1), ventilation hole (6), its characterized in that have been seted up in the left side of cabinet shell (2) that charges: an intelligent monitoring temperature control device (3) is arranged in the charging cabinet shell (2);
the intelligent monitoring temperature control device (3) comprises:
a charge detection and control mechanism (34), wherein the charge detection and control mechanism (34) can detect the residual charge of the storage battery, the charge detection and control mechanism (34) can control the charging time of the storage battery, and the charge detection and control mechanism (34) can correct the residual charge after charging;
the temperature sensing air outlet mechanism (35), the temperature sensing air outlet mechanism (35) can detect the temperature inside the charging cabinet shell (2), when the temperature reaches the warning, the temperature sensing air outlet mechanism (35) is used for air outlet and radiating through heat convection, and the temperature sensing air outlet mechanism (35) can be used for matching corresponding wind power according to different temperatures;
the heat dissipation mechanism (36) can horizontally move under the action of wind force, and the heat dissipation mechanism (36) can adapt to different separation and adjust the air outlet channel.
2. A self-charging energy storage device as defined in claim 1, wherein: the battery charging cabinet comprises a charging cabinet shell (2), wherein a first regeneration storage battery (31) is fixedly connected to the bottom wall of the charging cabinet shell (2), a first lead (32) is electrically connected to the top of the first regeneration storage battery (31), an electric quantity detection and control mechanism (34) is electrically connected to the top of the first lead (32), the right side of the charging cabinet shell (2) is fixedly connected with the left side of a temperature sensing air outlet mechanism (35), the left side of the charging cabinet shell (2) is fixedly connected with the right side of a heat dissipation mechanism (36), and a partition plate (33) is fixedly connected to the inner wall of the charging cabinet shell (2).
3. A self-charging energy storage device as defined in claim 1, wherein: the electric quantity detection and control mechanism (34) comprises a second regenerated storage battery (341), a residual electric quantity detection module (342), a data storage analysis module (344) and a charging control module (346) are sequentially arranged above the second regenerated storage battery (341) from left to right, the top of the residual electric quantity detection module (342), the data storage analysis module (344) and the top of the charging control module (346) are fixedly connected with the top wall of the charging cabinet shell (2), a seventh lead (7) is electrically connected to the rear surface of the residual electric quantity detection module (342), the bottom of the seventh lead (7) is electrically connected with the top of the second regenerated storage battery (341), a second lead (343) is also electrically connected to the left side of the residual electric quantity detection module (342), the left end of the second lead (343) is electrically connected with the right side of the data storage analysis module (344), the left side of the data storage analysis module (344) is electrically connected with a third lead (345), the bottom of the third lead (345) is electrically connected with the charging control module (346), the bottom of the charging control module (342) is electrically connected to the bottom of the fourth lead (342), the bottom of the fourth lead (342) is electrically connected to the bottom of the fourth regenerated storage battery (342), the right-hand member and full electric quantity calibration module (348) electric connection of fourth wire (347), the left and right sides electric connection of charging control module (346) lower part has ninth wire (5), the bottom electric connection of ninth wire (5) has third regeneration battery (349), the bottom of second regeneration battery (341) and the top fixed connection of a baffle (33), rectangular hole (4) have been seted up in the baffle (33) run through, the bottom of third regeneration battery (349) and the top fixed connection of another baffle (33).
4. A self-charging energy storage device as defined in claim 1, wherein: the temperature sensing air-out mechanism (35) comprises a box (351), the left side of box (351) is fixedly connected with the right side of cabinet shell (2) that charges, be provided with fan (352) in box (351), the right side electric connection of fan (352) has sixth wire (356), the one end electric connection that fan (352) were kept away from to sixth wire (356) has temperature control module (355), one side electric connection of temperature control module (355) has fifth wire (354), the top electric connection of fifth wire (354) has temperature sensing module (353).
5. A self-charging energy storage device as defined in claim 1, wherein: the utility model provides a charging cabinet, including cooling mechanism (36), including windward lid (361), the right side fixedly connected with sideboard (362) of windward lid (361), the outside fixedly connected with spring (363) of windward lid (361), the one end fixedly connected with riser (364) of sideboard (362) are kept away from to spring (363), one side fixedly connected with diaphragm (365) that riser (364) is close to sideboard (362), two be provided with drum (366) between diaphragm (365), drum (366) pass the inside of riser (364) and with the inside fixedly connected with of riser (364), the inner wall sliding connection of drum (366) has slide (367), one side fixedly connected with that slide (367) is close to sideboard (362) moves pole (368), one end that moves pole (362) is close to sideboard (362) and the central point of the outside of windward lid (361) are fixed connection, the right side of riser (364) is provided with sealing frame (369), sealing frame (369) keep away from one side of charging cabinet (362) and fixed connection left side of housing (364).
6. A self-charging energy storage device according to claim 3, wherein: the residual electric quantity detection module (342) can measure the residual electric quantity of the second regenerated storage battery (341), the data storage analysis module (344) can process information and transmit the information to the charging control module (346), when the electric quantity of the second regenerated storage battery (341) is lower than fifty percent, the charging control module (346) is started, a channel between the second regenerated storage battery (341) and the third regenerated storage battery (349) is changed into a channel from disconnection, and the third regenerated storage battery (349) charges the second regenerated storage battery (341).
7. A self-charging energy storage device as defined in claim 4, wherein: the temperature sensing module (353) can detect the temperature in the second regenerated storage battery (341) and the charging cabinet shell (2) and transmit information to the temperature control module (355), and the temperature control module (355) can adjust the gear of the fan (352) according to the temperature.
CN202311481730.3A 2023-11-09 2023-11-09 Self-charging energy storage device Pending CN117766900A (en)

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