CN115207803B - Multifunctional energy storage system integrating electronic equipment - Google Patents

Abstract

The utility model discloses a multifunctional energy storage system integrating electronic equipment, which comprises an energy storage box, wherein an object placing plate is arranged at the top of the energy storage box, and an infrared detector is arranged at the bottom of the object placing plate; the front of the energy storage box is provided with a notch in a penetrating way, the front of the energy storage box is provided with an outer box door through a hinge, the back of the outer box door is provided with an inserting block, the front of the energy storage box is provided with a jack, the jack is positioned on one side of the notch, the jack is embedded with the inserting block, the front wall of the jack is provided with a laser range finder, and the top wall of the energy storage box is provided with illuminating lamps which are uniformly arranged front and back; the back of the outer box door is attached to the front of the energy storage box. According to the utility model, the energy storage box, the outer box door, the plug block, the jack, the laser range finder and the illuminating lamp are arranged, when the plug block cannot be detected by the laser range finder, the illuminating lamp is turned on, otherwise, the illuminating lamp is turned off, and the purpose of saving energy can be achieved to a certain extent.

Description

Multifunctional energy storage system integrating electronic equipment

Technical Field

The utility model relates to the technical field of energy storage systems, in particular to a multifunctional energy storage system integrating electronic equipment.

Background

The lithium battery energy storage system is widely applied as new energy equipment, wherein the cabinet type energy storage system stores a certain amount of energy storage lithium batteries in an energy storage cabinet, the internal space of the cabinet type energy storage system is compact in structure, most of space is occupied by the batteries and electrical equipment, the electrical equipment in the energy storage system is usually required to be detected regularly, after detection, the cabinet door can be forgotten to be closed due to negligence and the like, and the energy waste is easy to cause.

The existing energy storage system has the following defects:

patent document CN212085097U discloses a multifunctional energy storage system. The multifunctional energy storage system comprises a shell, an energy storage battery, a lighting assembly, a sound box assembly, a first circuit board and a second circuit board. The energy storage battery is arranged in the inner cavity of the shell; the lighting assembly comprises a lamp panel, a reflecting cup and a lighting mask, the reflecting cup is arranged on the lamp panel, and the lighting mask is arranged on the lamp panel and connected with the shell; the sound box assembly comprises a loudspeaker and a sound box panel, the loudspeaker is fixed on the sound box panel, and the sound box panel is arranged on the shell; the energy storage battery and the lamp panel are electrically connected with the first circuit board; the energy storage battery and the loudspeaker are electrically connected with the second circuit board. The multifunctional energy storage system has the advantages that the multifunctional energy storage system has various functions of energy storage, illumination, sound box and the like, is convenient for users to use, has strong practicability, entertainment and strong functions, and can meet different use demands of the users, but the energy storage system in the above publication mainly considers how to improve the practicability of the energy storage system, and does not consider that the existing energy storage system is easy to cause energy waste due to negligence and the like during maintenance;

patent document CN216355990U discloses a multi-functional energy storage system of intelligent building, and it belongs to the energy storage field. The intelligent building multifunctional energy storage system comprises an energy storage system, an intelligent building photovoltaic module, an intelligent building intelligent elevator system and an intelligent building intelligent charging pile system, wherein the energy storage system is respectively connected with the intelligent building photovoltaic module, the intelligent building intelligent elevator system and the intelligent building intelligent charging pile system. The utility model is used for solving the problem of unstable power supply of the photovoltaic system caused by the change of illumination intensity, meeting the problems of recycling the electric energy of the elevator system and improving the use efficiency of the electric energy and matching with the power regulating system, and meeting the high requirements of quick response and random load of the charging pile, but the energy storage system in the above publication mainly considers how to improve the use efficiency of the energy storage system, does not consider that the existing energy storage system is inconvenient to separate the internal electric equipment, and the temperature of the energy storage system is easily increased due to excessively compact layout;

patent document CN208299545U discloses a multifunctional energy storage system for energy storage market, comprising a battery unit, a supercapacitor unit, a first group of switch tube units, a second group of switch tube units, a DC/DC converter and a bidirectional DC/DC converter; the battery pack unit comprises a first battery and a second battery; the super capacitor bank unit comprises a first super capacitor, a second super capacitor and a first switch; the first group of switching tube units comprise a first switching tube, a second switching tube, a third switching tube, a fourth switching tube, a fifth switching tube and a sixth switching tube which are driven by the same driving signal, and the second group of switching tube units comprise a seventh switching tube, an eighth switching tube, a ninth switching tube and a tenth switching tube which are driven by the same driving signal; the hybrid energy storage system can be applied to occasions such as wind power plant energy storage systems, photovoltaic power plant energy storage systems and electric automobile energy storage systems, but the energy storage systems in the above-mentioned publications mainly consider the improvement of the application range of the energy storage systems, and do not consider the problem of poor dehumidification effect of the existing energy storage systems;

patent document CN215419596U discloses an electrified railway multifunctional energy storage system with fault tolerance, which comprises an alpha phase single-phase multi-winding step-down transformer, a beta phase single-phase multi-winding step-down transformer and a plurality of back-to-back energy storage subsystems, wherein two ends of the back-to-back energy storage subsystems are respectively connected with the secondary sides of the alpha phase single-phase multi-winding step-down transformer and the beta phase single-phase multi-winding step-down transformer in parallel, and primary sides of the alpha phase single-phase multi-winding step-down transformer and the beta phase single-phase multi-winding step-down transformer are respectively connected between an alpha phase power supply arm and a steel rail of a traction substation and between a beta phase power supply arm and the steel rail in a bridging manner. The utility model adopts a modularized parallel structure to form a distributed redundant system with fault tolerance capability, can ensure continuous execution of multiple functions of the system even if the system suffers from external disturbance or local fault, is beneficial to relieving the severe requirements on the performance of electronic power devices in the system under the high-voltage high-capacity environment, and has higher structural adaptability, but the energy storage system in the above publication mainly considers how to improve the adaptability of the internal structure of the energy storage system, does not consider that the existing energy storage system is not provided with a safety protection device, and has a little defect in safety performance.

Disclosure of Invention

The present utility model is directed to a multifunctional energy storage system integrating electronic devices, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the multifunctional energy storage system integrating the electronic equipment comprises an energy storage box, wherein an object placing plate is arranged at the top of the energy storage box, and an infrared detector is arranged at the bottom of the object placing plate;

the front of the energy storage box is provided with a notch in a penetrating way, the front of the energy storage box is provided with an outer box door through a hinge, the back of the outer box door is provided with an inserting block, the front of the energy storage box is provided with a jack, the jack is positioned on one side of the notch, the jack is embedded with the inserting block, the front wall of the jack is provided with a laser range finder, and the top wall of the energy storage box is provided with illuminating lamps which are uniformly arranged front and back;

the back of the outer box door is attached to the front of the energy storage box.

Preferably, the baffle is installed to the inner wall of energy storage case, and the dog of equidistance symmetrical arrangement is installed to the diapire of energy storage case, and the dog is located the rear of baffle, and the limiting plate has been placed to the surface that two sets of dogs are close to each other, and the front of limiting plate runs through and is provided with the slotted hole of evenly arranging.

Preferably, the moisture-proof sleeve is arranged in the groove hole in a jogged mode, the moisture-proof block is arranged in the inner surface of the moisture-proof sleeve in a jogged mode, the first porous moisture-absorbing cotton is arranged on the front face of the moisture-proof block, the back face of the first porous moisture-absorbing cotton is attached to the front face of the limiting plate, the second porous moisture-absorbing cotton is arranged on the back face of the moisture-proof sleeve, the front face of the second porous moisture-absorbing cotton is attached to the back face of the limiting plate, the battery cabinet is arranged on the bottom wall of the energy storage box and is located in the middle of the stop block, and the battery cabinet is distributed with the second porous moisture-absorbing cotton and the first porous moisture-absorbing cotton at intervals.

Preferably, the front of baffle runs through and is provided with the radiating groove, the both sides outer wall of energy storage case all runs through and is provided with the louvre of evenly arranging, and the louvre is located the place ahead of baffle, the air conditioner is installed to the back wall of energy storage case, the back-mounted of energy storage case has the outer quick-witted of heat dissipation, the fender cover is installed at the top of energy storage case, and the fender cover is the size that is greater than the outer quick-witted of heat dissipation of falling "concave" font structure, the fender cover is located the top of the outer quick-witted of heat dissipation, the supporter of symmetrical arrangement is all installed to the front of baffle and the back wall of energy storage case and put the thing cover, and put the thing cover and be located the top of supporter, put the thing cover and be located the below of radiating groove, the fire extinguisher has been placed at the top of supporter, and the fire extinguisher is located the inboard of putting the thing cover, evenly arranged smoke sensor is installed to the roof of energy storage case, and smoke sensor and light interval arrangement, the quantity of smoke sensor is four sets, the fire control nozzle that evenly arranges is installed to the roof of energy storage case, and fire control nozzle is located one side of sensor, electric connection between smoke sensor and the fire control nozzle.

Preferably, the object placing plate is at a certain inclination angle, so that the detection range of the infrared detector is enlarged, the front surface of the laser range finder is attached to the back surface of the insertion block, and the number of the illuminating lamps is five;

the partition plate is of a semi-open structure, the cross section of the stop block is L-shaped, and the bottom wall and the outer wall of one side of the limit plate are respectively attached to the bottom wall and the inner wall of one side of the energy storage box;

the front surface of the first porous absorbent cotton and the back surface of the second porous absorbent cotton are respectively attached to the surfaces of the two groups of stop blocks, which are close to each other.

Preferably, the audible and visual alarm is installed to the roof of energy storage case, and audible and visual alarm is located one side of light, and audible and visual alarm is located smoke transducer's side the place ahead, electric connection between audible and visual alarm and infrared detector, laser range finder and the light.

Preferably, the rear wall of the energy storage box is provided with a humidity sensor, the humidity sensor is positioned between the air conditioner and the fire extinguisher, the inner wall of the other side of the energy storage box is embedded with a dehumidifier, and the dehumidifier is electrically connected with the humidity sensor.

Preferably, the temperature sensor that evenly arranges is installed to the one side inner wall of energy storage case, and temperature sensor is located the rear of baffle, and temperature sensor is located the top of battery cabinet, and the inner box door is installed through the hinge in the front of baffle, and the inner box door is located one side of heat dissipation groove.

Preferably, the working steps of the energy storage system are as follows:

s1, before the energy storage system is used, firstly, an air conditioner and a heat radiation external machine are installed, and a baffle cover is installed at the top of an energy storage box, so that the baffle cover can protect the top edge of the heat radiation external machine;

s2, inserting a moisture-proof sleeve on the porous moisture-absorbing cotton II into a slot hole on the limiting plate, connecting the porous moisture-absorbing cotton I, the limiting plate and the porous moisture-absorbing cotton II together through the embedding of the moisture-proof sleeve and the moisture-proof block, inserting the mounted limiting plate into the two groups of stop blocks, separating the space in the energy storage box into a plurality of parts through the matching of the stop blocks and the limiting plate, and then placing the battery cabinet in the middle of the stop blocks;

s3, in the process of using the energy storage box, when the weather is overheated, after the temperature sensor detects that the temperature in the energy storage box rises to a certain threshold value, the air conditioner is started, and then the electric equipment in the energy storage box can be cooled through the air conditioner;

s4, when equipment in the energy storage box needs to be overhauled, the outer box door is pulled, so that the plug block is not embedded with the jack any more, at the moment, the plug block cannot be detected by the laser range finder, the illuminating lamp is started, and then a worker can enter the energy storage box through the notch;

preferably, in the step S1, the method further includes the following steps:

s11, placing the fire extinguisher on a storage rack according to the need, limiting the fire extinguisher through a storage sleeve, and connecting a fire-fighting nozzle with a water-based fire extinguishing agent, so that when an electric fire disaster occurs conveniently, the water-based fire extinguishing agent can extinguish the electric fire disaster in the initial stage;

in the step S2, the method further includes the following steps:

s21, through the arrangement of the porous moisture absorption cotton I and the porous moisture absorption cotton II, moisture in the air passing through the porous moisture absorption cotton I and the porous moisture absorption cotton II can be absorbed when the air humidity in the energy storage box is high, the influence of the moisture on the battery cabinet is reduced through a moisture-proof block and a moisture-proof sleeve, and when the air humidity in the energy storage box rises to a certain threshold value, the dehumidifier is started;

in the step S4, the method further includes the following steps:

s41, when the maintenance is finished, when the staff leaves, the infrared detector detects that the staff leaves, and when the laser range finder does not detect the plug, the audible and visual alarm is started, so that the staff is reminded to close the outer box door, at the moment, the laser range finder detects the plug, and at the moment, the illuminating lamp is closed, so that the aim of saving energy can be achieved to a certain extent.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the energy storage box, the object placing plate, the notch, the outer box door, the plug block, the jack, the laser range finder and the illuminating lamp are arranged, when the laser range finder cannot detect the plug block, the illuminating lamp is turned on, otherwise, after the outer box door is closed, the plug block is embedded with the jack, the plug block can intercept laser emitted by the laser range finder, and at the moment, the illuminating lamp is turned off, so that the purpose of saving energy can be achieved to a certain extent.

2. According to the utility model, the partition plates, the check blocks and the limit plates are arranged, the assembled limit plates are inserted into the middle of the two groups of check blocks, and then the check blocks can be used for separating the battery cabinets, so that the probability of compactness among the battery cabinets is reduced, and the heat dissipation efficiency in the subsequent energy storage box can be improved to a certain extent.

3. According to the utility model, the moisture-proof block, the first porous moisture-absorbing cotton, the moisture-proof sleeve and the second porous moisture-absorbing cotton are arranged, after the moisture-proof sleeve is inserted into the slot, the limiting plate, the first porous moisture-absorbing cotton and the second porous moisture-absorbing cotton can be connected together through the embedding of the moisture-proof block and the moisture-proof sleeve, and then moisture in air around the battery cabinet can be adsorbed through the first porous moisture-absorbing cotton and the second porous moisture-absorbing cotton, so that the influence of the moisture on electric equipment in the energy storage box can be reduced.

4. According to the utility model, the heat dissipation groove, the heat dissipation hole, the air conditioner, the storage rack, the storage sleeve, the fire extinguisher and the fire-fighting nozzle are arranged, when the temperature in the energy storage box is too high, the heat dissipation can be carried out through the heat dissipation groove and the heat dissipation hole, and the air conditioner can be started, so that the cooling operation can be carried out for the electric equipment in the energy storage box, when a fire disaster occurs, the fire extinguisher on the storage rack can be taken for extinguishing the fire, and the fire can be extinguished by spraying the water-based fire extinguishing agent through the fire-fighting nozzle.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an assembly structure of a heat dissipation external machine according to the present utility model;

FIG. 3 is a schematic diagram of an assembled structure of the illumination lamp and the audible and visual annunciator of the present utility model;

FIG. 4 is a schematic view of the internal assembly structure of the tank of the present utility model;

FIG. 5 is a schematic view of the assembled structure of the moisture barrier of the present utility model;

FIG. 6 is a schematic diagram of an assembled structure of the stopper of the present utility model;

FIG. 7 is a schematic plan view of an assembled plate according to the present utility model;

FIG. 8 is a schematic diagram of an assembled structure of an insert block according to the present utility model;

fig. 9 is a flowchart of the operation of the present utility model.

In the figure: 1. an energy storage tank; 2. a storage plate; 3. an infrared detector; 4. a notch; 5. an outer door; 6. inserting blocks; 7. a jack; 8. a laser range finder; 9. a lighting lamp; 10. a partition plate; 11. a stop block; 12. a limiting plate; 13. a slot hole; 14. a moisture-proof block; 15. porous absorbent cotton I; 16. a moisture-proof sleeve; 17. porous absorbent cotton II; 18. a heat sink; 19. a heat radiation hole; 20. air-conditioning; 21. a heat-dissipating external machine; 22. a shield; 23. a commodity shelf; 24. a storage sleeve; 25. fire extinguishers; 26. a smoke sensor; 27. a fire nozzle; 28. an audible and visual alarm; 29. a battery cabinet; 30. a temperature sensor; 31. an inner door; 32. a humidity sensor; 33. a dehumidifier.

Description of the embodiments

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 3, 7, 8 and 9, an embodiment of the present utility model is provided: the utility model provides a multi-functional energy storage system in an organic whole of current collector equipment, including energy storage case 1 and audible and visual alarm 28, the thing board 2 is put to the top of energy storage case 1, infrared detector 3 is installed to the bottom of putting thing board 2, the front of energy storage case 1 runs through and is provided with notch 4, outer chamber door 5 is installed through the hinge in the front of energy storage case 1, insert 6 is installed to the back of outer chamber door 5, the front of energy storage case 1 is provided with jack 7, and jack 7 is located one side of notch 4, jack 7 and insert 6 gomphosis mutually, laser range finder 8 is installed to the front wall of jack 7, the light 9 of evenly arranging around the roof of energy storage case 1 is installed, the back of outer chamber door 5 is laminated with the front of energy storage case 1, put thing board 2 and be certain inclination for the detection range expansion of infrared detector 3, laser range finder 8 is laminated with the back of insert 6, the quantity of light 9 is five sets of, audible and visual alarm 28 is installed to the roof of energy storage case 1, and audible and visual alarm 28 is located one side of light 9, audible and visual alarm 28 is located between infrared detector 3, the audible and visual alarm 8 is connected between audible and visual alarm 8.

Further, when the electrical equipment in the energy storage box 1 needs to be overhauled by the staff, the outer box door 5 is pulled outwards until the plug-in block 6 is no longer located in the jack 7, at this time, the laser range finder 8 cannot detect the obstacle, then the illuminating lamp 9 is turned on, after the overhauling is finished, the outer box door 5 is closed by the staff, at this time, the plug-in block 6 is embedded with the jack 7 again, at this time, the plug-in block 6 can shield the laser emitted by the laser range finder 8, the illuminating lamp 9 is closed, after the infrared detector 3 on the object placing plate 2 detects that the staff leaves, and when the laser rays emitted by the laser range finder 8 are not shielded by the plug-in block 6, the audible-visual annunciator 28 is started, so that the staff is reminded to pay attention.

Referring to fig. 6, an embodiment of the present utility model is provided: the utility model provides a multi-functional energy storage system of current collector equipment in an organic whole, including baffle 10 and battery cabinet 29, baffle 10 is installed to the inner wall of energy storage case 1, and equidistant symmetrical arrangement's dog 11 is installed to the diapire of energy storage case 1, and dog 11 is located the rear of baffle 10, limiting plate 12 has been placed to the surface that two sets of dogs 11 are close to each other, the front of limiting plate 12 runs through and is provided with slotted hole 13 of evenly arranging, baffle 10 is half open structure, the cross-section of dog 11 is "L" font, diapire and one side outer wall of limiting plate 12 laminate mutually with the diapire and one side inner wall of energy storage case 1 respectively.

Further, the space in the energy storage box 1 is roughly divided by the partition plate 10, and when the battery cabinet 29 is installed, the limiting plate 12 is inserted into the middle of the stop block 11, so that the space is divided into a plurality of uniform small spaces and used for storing the battery cabinet 29, and further, the influence of compact layout in the energy storage box 1 on heat dissipation of the subsequent energy storage box 1 can be reduced to a certain extent.

Referring to fig. 5, an embodiment of the present utility model is provided: the utility model provides a multi-functional energy storage system of current collector equipment in an organic whole, including dampproofing piece 14 and dehumidifier 33, dampproofing cover 16 is installed to the inside gomphosis of slotted hole 13, dampproofing piece 14 is installed to the inside gomphosis of dampproofing cover 16, porous moisture absorption cotton one 15 is installed to the front of dampproofing piece 14, and the back of porous moisture absorption cotton one 15 is laminated with the front of limiting plate 12, porous moisture absorption cotton two 17 is installed to the back of dampproofing cover 16, and the front of porous moisture absorption cotton two 17 is laminated with the back of limiting plate 12, battery cabinet 29 has been placed to the diapire of energy storage box 1, and battery cabinet 29 is located the centre of dog 11, battery cabinet 29 and porous moisture absorption cotton two 17 and porous moisture absorption cotton one 15 interval distribution, the front of porous moisture absorption cotton one 15 and the back of porous moisture absorption cotton two 17 are laminated with the surface that two sets of dog 11 are close to each other respectively, humidity transducer 32 is installed to the back wall of energy storage box 1, and humidity transducer 32 is located the centre of air conditioner 20 and fire extinguisher 25, dehumidifier 33 is installed to the opposite side inner wall gomphosis of energy storage box 1, and electric connection between dehumidifier 33 and humidity transducer 32.

Further, before placing the battery cabinet 29, the moisture-proof sleeve 16 is inserted into the slot 13, and the first porous moisture-absorbing cotton 15 and the second porous moisture-absorbing cotton 17 are mounted on two sides of the limiting plate 12 through the embedding of the moisture-proof sleeve 16 and the moisture-proof block 14, in the subsequent use process of the energy storage box 1, the first porous moisture-absorbing cotton 15 and the second porous moisture-absorbing cotton 17 can absorb moisture in air around the battery cabinet 29, when the humidity sensor 32 detects that the humidity index in the energy storage box 1 rises to a certain threshold value, the dehumidifier 33 is started, so that the influence of the moisture on electrical equipment in the energy storage box 1 can be reduced to a certain extent.

Referring to fig. 1, 2 and 4, an embodiment of the present utility model is provided: the utility model provides a multi-functional energy storage system of current collector equipment in an organic whole, including heat dissipation groove 18 and fire control nozzle 27, the front of baffle 10 runs through and is provided with heat dissipation groove 18, the both sides outer wall of energy storage case 1 all runs through and is provided with evenly arranged's louvre 19, and louvre 19 is located the place ahead of baffle 10, air conditioner 20 is installed to the back wall of energy storage case 1, the back-mounted of energy storage case 1 has heat dissipation outer machine 21, keep off the cover 22 is installed at the top of energy storage case 1, and keep off the cover 22 and be the size of falling "concave" font structure, keep off the cover 22 and be greater than the size of heat dissipation outer machine 21, keep off the cover 22 and be located the top of heat dissipation outer machine 21, the supporter 23 and the thing cover 24 of putting of symmetrical arrangement are all installed to the front of baffle 10 and the back wall of energy storage case 1, and put thing cover 24 and be located the top of supporter 23, put thing cover 24 and be located the below of heat dissipation groove 18, fire extinguisher 25 has been placed at the top supporter 23, and fire extinguisher 25 is located the inboard of thing cover 24, evenly arranged's roof wall of energy storage case 1 has evenly arranged smoke sensor 26, and keep off cover 26 and smoke sensor 9 are arranged, and are arranged at the top wall 26 and are arranged at the temperature sensor 26 and are arranged at the top wall of the temperature sensor 26, the front of the baffle 30 is arranged at the front of baffle 10 and the box 10, the temperature sensor is arranged at the front of the baffle 30, the temperature sensor is arranged at the front of the baffle 31, the temperature sensor is arranged at the front of the baffle 31, the temperature sensor is located at the front of the temperature sensor 31, the temperature sensor is arranged at the front of the temperature sensor 31, the temperature sensor is located at the temperature sensor 31 is located at the front of the temperature sensor 31, and is located at the temperature is at the temperature 31.

Further, after the temperature sensor 30 detects that the temperature index in the energy storage box 1 rises to a certain threshold value, the air conditioner 20 is started, then the electric equipment in the energy storage box 1 can be cooled down through the air conditioner 20, a certain protection effect can be achieved to a certain extent through the arrangement of the baffle cover 22, and then the situation that the heat dissipation outer machine 21 is damaged due to the fact that rainwater enters the heat dissipation outer machine 21 in rainy and snowy weather can be reduced, when the smoke sensor 26 detects that the smoke concentration in the energy storage box 1 reaches a specified value, the fire control nozzle 27 works, and at the moment, a worker can take the fire extinguisher 25 from the storage rack 23 to conduct fire extinguishing operation, so that the safety of the energy storage box 1 in use is improved.

Further, the working steps of the energy storage system are as follows:

s1, before the energy storage system is used, firstly, an air conditioner 20 and a heat radiation external machine 21 are installed, and a shielding cover 22 is installed on the top of the energy storage box 1, so that the shielding cover 22 can protect the top edge of the heat radiation external machine 21;

s2, inserting a moisture-proof sleeve 16 on a porous moisture-absorbing cotton II 17 into a slotted hole 13 on a limiting plate 12, connecting the porous moisture-absorbing cotton I15, the limiting plate 12 and the porous moisture-absorbing cotton II 17 together through the embedding of the moisture-proof sleeve 16 and a moisture-proof block 14, inserting the mounted limiting plate 12 into the two groups of stop blocks 11, separating the space in the energy storage box 1 into a plurality of parts through the cooperation of the stop blocks 11 and the limiting plate 12, and then placing a battery cabinet 29 in the middle of the stop blocks 11;

s3, in the process of using the energy storage box 1, when the weather is overheated, after the temperature sensor 30 detects that the temperature in the energy storage box 1 rises to a certain threshold value, the air conditioner 20 is started, and then the temperature of the electrical equipment in the energy storage box 1 can be reduced through the air conditioner 20;

s4, when equipment in the energy storage box 1 needs to be overhauled, the outer box door 5 is pulled, so that the plug block 6 is not embedded with the jack 7 any more, at the moment, the plug block 6 cannot be detected by the laser range finder 8, the illuminating lamp 9 is turned on, and then a worker can enter the energy storage box 1 through the notch 4;

in step S1, the method further includes the steps of:

s11, placing the fire extinguisher 25 on the storage rack 23 according to the need, limiting the fire extinguisher 25 through the storage sleeve 24, and connecting the fire-fighting nozzle 27 with the water-based fire extinguishing agent, so that when an electric fire disaster occurs conveniently, the water-based fire extinguishing agent can extinguish the electric fire disaster in the initial stage;

in step S2, the method further includes the steps of:

s21, through the arrangement of the first porous absorbent cotton 15 and the second porous absorbent cotton 17, moisture in the air passing through the first porous absorbent cotton 15 and the second porous absorbent cotton 17 can be adsorbed when the air humidity in the energy storage box 1 is high, the influence of the moisture on the battery cabinet 29 is reduced through the moisture-proof block 14 and the moisture-proof sleeve 16, and when the air humidity in the energy storage box 1 rises to a certain threshold value, the dehumidifier 33 is started;

in step S4, the method further includes the steps of:

s41, when the maintenance is finished, when the worker leaves, the infrared detector 3 detects that the worker leaves, and when the laser range finder 8 cannot detect the plug-in block 6, the audible and visual alarm 28 is started, so that the worker is reminded to close the outer box door 5, at the moment, the laser range finder 8 detects the plug-in block 6, and at the moment, the illuminating lamp 9 is closed, so that the purpose of saving energy can be achieved to a certain extent.

Working principle: in the process of using the energy storage box 1, the temperature and the humidity in the energy storage box 1 are detected through the temperature sensor 30 and the humidity sensor 32 respectively, when the temperature sensor 30 detects that the temperature in the energy storage box 1 rises to a certain threshold value, the air conditioner 20 is started, then the electric equipment in the energy storage box 1 can be cooled through the air conditioner 20, the heat dissipation groove 18 and the heat dissipation holes 19, moisture in the air around the battery cabinet 29 is adsorbed through the porous moisture absorption cotton I15 and the porous moisture absorption cotton II 17, and when the air humidity in the energy storage box 1 rises to a certain threshold value, the dehumidifier 33 is started, so that the influence of the moisture on the electric equipment in the energy storage box 1 can be reduced to a certain extent;

after the electrical equipment in the energy storage box 1 is overhauled, the infrared detector 3 detects personnel leaving, and when the laser range finder 8 cannot detect the plug-in block 6, the audible and visual alarm 28 is started, so that workers are reminded to close the outer box door 5, and the aim of saving energy can be achieved to a certain extent.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The utility model provides a multi-functional energy storage system of current collector equipment in an organic whole, includes energy storage case (1), its characterized in that: the top of the energy storage box (1) is provided with a storage plate (2), and the bottom of the storage plate (2) is provided with an infrared detector (3);

the front of the energy storage box (1) is provided with a notch (4) in a penetrating way, the front of the energy storage box (1) is provided with an outer box door (5) through a hinge, the back of the outer box door (5) is provided with an inserting block (6), the front of the energy storage box (1) is provided with an inserting hole (7), the inserting hole (7) is positioned on one side of the notch (4), the inserting hole (7) is embedded with the inserting block (6), the front wall of the inserting hole (7) is provided with a laser range finder (8), the top wall of the energy storage box (1) is provided with an illuminating lamp (9) which is uniformly arranged front and back, and the back of the outer box door (5) is attached to the front of the energy storage box (1);

the energy storage device is characterized in that a partition plate (10) is arranged on the inner wall of the energy storage box (1), baffle blocks (11) which are symmetrically arranged at equal intervals are arranged on the bottom wall of the energy storage box (1), the baffle blocks (11) are positioned at the rear of the partition plate (10), limiting plates (12) are arranged on the surfaces, close to each other, of the two groups of baffle blocks (11), and slotted holes (13) which are uniformly arranged are formed in the front face of each limiting plate (12) in a penetrating mode;

the inner embedded type of the slotted hole (13) is provided with a dampproof sleeve (16), the inner surface embedded type of the dampproof sleeve (16) is provided with a dampproof block (14), the front surface of the dampproof block (14) is provided with a porous hygroscopic cotton I (15), the back surface of the porous hygroscopic cotton I (15) is attached to the front surface of the limiting plate (12), the back surface of the dampproof sleeve (16) is provided with a porous hygroscopic cotton II (17), the front surface of the porous hygroscopic cotton II (17) is attached to the back surface of the limiting plate (12), the bottom wall of the energy storage box (1) is provided with a battery cabinet (29), the battery cabinet (29) is positioned in the middle of the stop block (11), and the battery cabinet (29) is distributed with the porous hygroscopic cotton II (17) and the porous hygroscopic cotton I (15) at intervals;

the front of the partition board (10) is provided with a heat dissipation groove (18) in a penetrating way, the outer walls of the two sides of the energy storage box (1) are provided with heat dissipation holes (19) which are uniformly distributed in a penetrating way, the heat dissipation holes (19) are positioned in front of the partition board (10), the rear wall of the energy storage box (1) is provided with an air conditioner (20), the back of the energy storage box (1) is provided with a heat dissipation outer machine (21), the top of the energy storage box (1) is provided with a baffle cover (22), the baffle cover (22) is in an inverted concave structure, the size of the baffle cover (22) is larger than that of the heat dissipation outer machine (21), the baffle cover (22) is positioned above the heat dissipation outer machine (21), the front of the partition plate (10) and the rear wall of the energy storage box (1) are respectively provided with a storage rack (23) and a storage sleeve (24) which are symmetrically arranged, the storage sleeves (24) are positioned above the storage racks (23), the storage sleeves (24) are positioned below the heat dissipation grooves (18), fire extinguishers (25) are arranged at the tops of the storage racks (23), the fire extinguishers (25) are positioned at the inner sides of the storage sleeves (24), smoke sensors (26) which are uniformly arranged are arranged on the top wall of the energy storage box (1), the smoke sensors (26) are arranged at intervals with the illuminating lamps (9), the number of the smoke sensors (26) is four, fire fighting nozzles (27) which are uniformly arranged are arranged on the top wall of the energy storage box (1), the fire nozzle (27) is positioned at one side of the smoke sensor (26), and the smoke sensor (26) is electrically connected with the fire nozzle (27);

the object placing plate (2) is at a certain inclination angle, so that the detection range of the infrared detector (3) is enlarged, the front face of the laser range finder (8) is attached to the back face of the inserting block (6), and the number of the illuminating lamps (9) is five;

the partition plate (10) is of a semi-open structure, the cross section of the stop block (11) is L-shaped, and the bottom wall and one side outer wall of the limiting plate (12) are respectively attached to the bottom wall and one side inner wall of the energy storage box (1);

the front surface of the porous absorbent cotton I (15) and the back surface of the porous absorbent cotton II (17) are respectively attached to the surfaces of the two groups of stop blocks (11) which are close to each other;

an audible and visual alarm (28) is arranged on the top wall of the energy storage box (1), the audible and visual alarm (28) is positioned on one side of the illuminating lamp (9), the audible and visual alarm (28) is positioned in front of the side of the smoke sensor (26), and the audible and visual alarm (28) is electrically connected with the infrared detector (3), the laser range finder (8) and the illuminating lamp (9);

the rear wall of the energy storage box (1) is provided with a humidity sensor (32), the humidity sensor (32) is positioned between the air conditioner (20) and the fire extinguisher (25), the inner wall of the other side of the energy storage box (1) is embedded with a dehumidifier (33), and the dehumidifier (33) is electrically connected with the humidity sensor (32);

temperature sensor (30) of evenly arranging are installed to one side inner wall of energy storage case (1), and temperature sensor (30) are located the rear of baffle (10), and temperature sensor (30) are located the top of battery cabinet (29), and inner box door (31) are installed through the hinge in the front of baffle (10), and inner box door (31) are located one side of heat dissipation groove (18).

2. The method of using a multifunctional energy storage system integrated with a current collector device according to claim 1, wherein the working steps of the energy storage system are as follows:

s1, before the energy storage system is used, firstly, an air conditioner (20) and a heat radiation external machine (21) are installed, and a shielding cover (22) is installed at the top of an energy storage box (1), so that the shielding cover (22) can protect the top edge of the heat radiation external machine (21);

s2, inserting a moisture-proof sleeve (16) on a porous moisture-absorbing cotton II (17) into a slot hole (13) on a limiting plate (12), connecting the porous moisture-absorbing cotton I (15), the limiting plate (12) and the porous moisture-absorbing cotton II (17) together through the embedding of the moisture-proof sleeve (16) and a moisture-proof block (14), inserting the mounted limiting plate (12) into the two groups of stop blocks (11), so that the space in the energy storage box (1) can be divided into a plurality of parts through the matching of the stop blocks (11) and the limiting plate (12), and then placing a battery cabinet (29) in the middle of the stop blocks (11);

s3, in the process of using the energy storage box (1), when the weather is overheated, after the temperature sensor (30) detects that the temperature in the energy storage box (1) rises to a certain threshold value, the air conditioner (20) is started, and then the temperature of the electrical equipment in the energy storage box (1) can be reduced through the air conditioner (20);

s4, when equipment in the energy storage box (1) needs to be overhauled, the outer box door (5) is pulled, so that the inserting block (6) is not embedded with the inserting hole (7), at the moment, the inserting block (6) cannot be detected by the laser range finder (8), the illuminating lamp (9) is opened, and then workers can enter the energy storage box (1) through the notch (4).

3. The method of using a multifunctional energy storage system integrated with a current collector device according to claim 2, further comprising the following steps in step S1:

s11, placing a fire extinguisher (25) on the storage rack (23) according to the need, limiting the fire extinguisher (25) through a storage sleeve (24), and connecting a fire-fighting nozzle (27) with a water-based fire extinguishing agent, so that when an electric fire disaster occurs conveniently, the water-based fire extinguishing agent can extinguish the electric fire disaster in the initial stage;

in the step S2, the method further includes the following steps:

s21, through the arrangement of the porous moisture absorption cotton I (15) and the porous moisture absorption cotton II (17), moisture in the air passing through the porous moisture absorption cotton I (15) and the porous moisture absorption cotton II (17) can be absorbed when the air humidity in the energy storage box (1) is high, the influence of the moisture on the battery cabinet (29) is reduced through the moisture-proof block (14) and the moisture-proof sleeve (16), and when the air humidity in the energy storage box (1) rises to a certain threshold value, the dehumidifier (33) is started;

in the step S4, the method further includes the following steps:

s41, when the maintenance is finished, when the staff leaves, the infrared detector (3) detects personnel leaving, and when the laser range finder (8) cannot detect the plug (6), the audible and visual annunciator (28) is started, so that the staff is reminded to close the outer box door (5), at the moment, the laser range finder (8) detects the plug (6), and at the moment, the illuminating lamp (9) is closed, so that the aim of saving energy can be achieved to a certain extent.