CN114865799A - Modularization industry and commerce energy memory - Google Patents

Abstract

The invention discloses a modularized industrial and commercial energy storage device which comprises an outer box body, wherein three groups of limit grooves which are arranged at equal intervals are arranged on the bottom wall of the inner side of the outer box body, installation boxes are movably arranged on the inner sides of the three groups of limit grooves, temperature sensors are arranged on the bottom walls of the inner sides of the three groups of installation boxes, assembly covers are arranged at the tops of the three groups of installation boxes, and energy storage modules are arranged at the bottoms of the assembly covers. According to the invention, the carbon dioxide fire extinguisher is installed, the smoke sensor is used for detecting the interior of the device, smoke can be generated in the interior when the device is ignited due to overhigh temperature, the control valve is controlled to be opened after the smoke sensor detects the smoke, the nozzle sprays the carbon dioxide due to the fact that liquid carbon dioxide is stored in the carbon dioxide fire extinguisher, and the liquid carbon dioxide with low temperature and high concentration can separate oxygen in the air from a fire source, so that the purpose of fire extinguishment is achieved, and the safety of equipment is ensured.

Description

Modularization industry and commerce energy memory

Technical Field

The invention relates to the technical field of energy storage, in particular to a modularized industrial and commercial energy storage device.

Background

Because the energy sources needed by people have strong timeliness and spatiality, in order to reasonably utilize the energy sources and improve the utilization rate of the energy, a device is needed to be used, the redundant energy which is not used temporarily in a period of time is collected and stored in a certain mode, and is extracted and used at the peak time of use or is transported to a place where the energy is in short supply for reuse, and the method is the energy storage.

The existing energy storage device has the following defects:

1. patent document CN213661223U discloses an energy memory for little electric wire netting, including the energy memory body, the bottom fixed mounting of energy memory body has the chassis, the top fixed mounting of energy memory body has the signal post, the outer wall of energy memory body is provided with the jack, the outer wall fixed mounting of energy memory body has the terminal. This be applied to energy memory of little electric wire netting, through the setting of energy memory body outside left side location strip and right location strip, can adjust the distance between left location strip and the right location strip and the energy memory body through the length of adjusting the screw, and then can the different radial wind power generation cylinder of adaptation, the setting of fastening bolt on left location strip and the right location strip in the reassembling, can reach and install the inboard effect of electricity generation cylinder with energy memory body screw thread, solved because the arc of electricity generation cylinder inner wall leads to the comparatively loaded down with trivial details and the poor problem of effect of the device installation.

However, the energy storage device in the above publication lacks a fire protection structure, so that when energy is stored, a fire disaster occurs, and the equipment cannot be protected;

2. patent document CN209184008U discloses a modular energy memory, comprises a box bod, the top of box body has the lid through the hinge handing-over, the bottom difference fixedly connected with fixed block, joint piece and the energy of box inner chamber connect to the sliding surface that the energy connects is connected with the energy storage module, the right side sliding connection of joint piece inner chamber has the sliding block, the sliding block is provided with two, the internal surface fixedly connected with limiting plate of joint piece inner chamber to the right side of limiting plate and the left side sliding connection of sliding block, two the front of sliding block all rotates and is connected with dwang, two the equal fixedly connected with connecting block of one end of dwang, the utility model relates to an energy storage technical field. This modular energy memory draws the cooperation of piece and joint piece, can relax fix and loosen the energy storage module, and convenient and fast that use has practiced thrift the required time of change or maintenance, and work efficiency has been very high.

However, the display device in the above publication does not have a temperature control structure and a heat dissipation structure, so that the temperature inside the device is too high, and heat dissipation cannot be performed quickly;

3. the patent document CN207907924U discloses an energy storage device for field calibration of a distributed optical fiber sensing system, which includes a housing and an energy storage device body, wherein two sides of the energy storage device body are connected with a plurality of cooling fins, a cooling groove is installed at the bottom end inside the housing, a cooling fan is installed in the cooling groove, a cooling box is installed in the housing, a cold air channel runs through the cooling box, a refrigeration silk screen is installed in the cooling box, two telescopic support frames welded on the cooling box are clamped at the bottom end of the energy storage device body, a connecting spring is sleeved on each telescopic support frame, and a cooling hole is formed in the top end of the housing; the energy storage device of the utility model can reduce the vibration frequency of the body of the energy storage device by the telescopic support frame, so that the body of the energy storage device can be stably fixed in the shell to prevent looseness, meanwhile, the heat in the body of the energy storage device can be guided into the air by the radiating fins, and the cool air in the cooling box is sent to the periphery of the body of the energy storage device by the radiating fan, and simultaneously, the hot air is driven to be emitted through the radiating holes,

however, when the circuit of the device has a problem, the power failure structure in the above publication cannot timely power off, and easily causes a fault to the stored energy;

4. patent document CN215835345U discloses a photovoltaic energy storage device convenient to maintain, including the energy memory body, one side of the surface of energy memory body is equipped with energy memory shell A, the opposite side of energy memory body surface is equipped with energy memory shell B, energy memory shell A and energy memory shell B all are connected through the pivot between the energy memory body, the one side of end surface all is fixed being equipped with the fixed block, four about energy memory shell A and energy memory shell B one side of fixed block all is equipped with the fixed slot that is located energy memory body surface, the fixed slot extends to the inside of energy memory body, the position and the shape of fixed block and the position and the shape of fixed slot correspond to each other. The photovoltaic energy storage device of the utility model can open the shell of the photovoltaic energy storage device to expose the internal mechanism of the novel photovoltaic energy storage device, thereby being more convenient for the maintenance of the working personnel,

however, the energy storage device in the above publication has no energy monitoring function and cannot monitor the change of energy.

Disclosure of Invention

The invention aims to provide a modularized industrial and commercial energy storage device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a modularized industrial and commercial energy storage device comprises an outer box body, wherein three groups of limiting grooves which are arranged at equal intervals are arranged on the inner side bottom wall of the outer box body, mounting boxes are movably mounted on the inner sides of the three groups of limiting grooves, temperature sensors are mounted on the inner side bottom walls of the three groups of mounting boxes, an assembling cover is mounted at the top of the three groups of mounting boxes, energy storage modules are mounted at the bottom of the assembling cover and located on the inner sides of the mounting boxes, radiating fins which are arranged at equal intervals are mounted on the outer walls of the energy storage modules, supporting pieces are mounted on the inner side bottom walls of the mounting boxes, the supporting pieces are mounted at the bottoms of the energy storage modules, and the supporting pieces are located on two sides of the temperature sensors;

the mounting box is installed to the inboard of outer box, the vent has been seted up to the outer wall of mounting box, the detachable drier is installed to the inboard of mounting box, the gomphosis lid is installed in one side activity gomphosis of mounting box, the vent has been seted up to the inboard of gomphosis lid.

Preferably, the ventilation pipe is installed in the antetheca and the back wall of install bin run through, the hair-dryer is installed through the support to the inboard of ventilation pipe, the dust screen is installed to the one end of ventilation pipe, and the dust screen is located one side of hair-dryer.

Preferably, the top of the assembly cover is provided with a positive electrode column and a negative electrode column, the top of the assembly cover is provided with a temperature controller, and the temperature controller is positioned on one side of the positive electrode column and the negative electrode column.

Preferably, the containing box is installed to one side of outer box, spacing seat is installed to the inboard diapire of containing box, the top movable mounting of spacing seat has the carbon dioxide fire extinguisher, the control valve is installed on the top of carbon dioxide fire extinguisher, the pipe is installed to the output of control valve, and the pipe runs through the inner wall of outer box, the lower surface mounting of pipe has a plurality of groups shower nozzle.

Preferably, the assembly cover is arranged at the top of the installation box and used for fixing the assembly cover, the assembly cover is used for fixing the energy storage module at the bottom, the energy storage module is ensured to be stably arranged in the installation box, and the energy storage module is supported by the supporting piece at the bottom so as to ensure the stability of the energy storage module;

liquid carbon dioxide is stored to carbon dioxide fire extinguisher's inside, and carbon dioxide is the bad conductor of electricity, and when the conflagration breaing out, carbon dioxide is fast blowout, and the effect of breaing out the conflagration is reached to the oxygen in the isolated air simultaneously of cooling.

Preferably, the both sides top of outer box is run through and is installed detachable connecting bolt, the closing cap is installed through connecting bolt at the top of outer box, the energy storage table is installed at the top of closing cap, the circuit breaker is installed at the top of closing cap, and the circuit breaker is located one side of energy storage table, and input interface is installed at the top of closing cap, and input interface is located the opposite side of circuit breaker, and output interface is installed at the top of closing cap, and output interface is located the rear of input interface, smoke transducer is installed to the bottom of closing cap.

Preferably, a movable door is movably mounted on one side of the containing box through a hinge.

Preferably, the front wall and the rear wall of the outer box body are both provided with a heat dissipation opening, and the inner side of the heat dissipation opening is provided with a filter screen.

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

s1, fixing a limiting groove by the inner side of the outer box body to ensure the stability of the limiting groove, limiting an installation box on the inner side by the limiting groove to ensure the stability of the installation box and prevent the installation box from deviating in the installation process, fixing an assembly cover on the top by the installation box to facilitate the fixation of the assembly cover on an energy storage module at the bottom, installing a sealing cover on the top of the outer box body by a worker after the assembly of the energy storage module is completed, and connecting the sealing cover and the outer box body through a connecting bolt to facilitate the assembly of a device by a user;

s2, when the device needs to store electric power, a worker connects the charging device with the input interface, the electric power is transmitted into the breaker through the input interface, the breaker monitors the current, when the situation that the current is short-circuited or overloaded is monitored, the internal power-off mechanism of the breaker trips instantaneously to break the circuit, the continuous input of the current is avoided, the safety of the device is ensured, the current enters the energy storage meter after being input from the breaker, the energy storage meter monitors the electric power, then the electric quantity is displayed through the display screen, a user can conveniently know the electric quantity situation, the current is transmitted to the positive and negative electrode posts through the energy storage meter through wires, the current is transmitted to the internal of the energy storage module through the positive and negative electrode posts, the energy storage module stores the electric power, when the electric power is output, the electric power is output through the positive and negative electrode posts at the other end, then the current passes through the energy storage meter and the breaker, the power is transmitted to the inside of the output interface, and the output interface outputs power;

s3, in the process of storing electric energy in the device, the temperature sensor monitors the temperature of the energy storage module, detected information is transmitted to the temperature controller, the temperature controller judges whether the temperature of the energy storage module meets the preset temperature requirement, when the temperature exceeds the specified range, the blower operates to drive airflow to move, the airflow is input from one group of ventilation pipes and output from the other group of ventilation pipes, normal heat dissipation of the airflow in the device is guaranteed, the dust screen filters passing air, and dust is prevented from accumulating in the device and affecting the heat dissipation effect of the device;

s4, detect the device inside through smoke transducer, when the device temperature is too high to catch fire, smog can appear in the inside, after smoke transducer detects smog, the control valve is opened, because liquid carbon dioxide is stored in the inside of carbon dioxide fire extinguisher, inside atmospheric pressure is very high, after the control valve is opened, carbon dioxide transmits the inside of control valve from the inside of carbon dioxide fire extinguisher, the control valve transmits the inside of pipe with carbon dioxide, pipe guide carbon dioxide transmits the shower nozzle department, the shower nozzle spouts carbon dioxide, the low and high carbon dioxide of concentration of liquid carbon dioxide temperature can separate oxygen in the air and fire source, reach the purpose of putting out a fire.

Preferably, in step S3, the method further includes the steps of:

s3-1, the energy storage module generates heat in the operation process, the radiating fin is arranged on the outer side of the energy storage module and consists of a metal plate with good radiating performance, the heat output speed in the energy storage module can be increased, and then when air flow passes through the radiating fin, the radiating fin transmits the heat to the air, so that the radiating speed of the device is increased.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the carbon dioxide fire extinguisher is installed, the interior of the device is detected through the smoke sensor, smoke can appear in the interior when the device is ignited due to overhigh temperature, the smoke sensor controls the control valve to be opened after detecting the smoke, the carbon dioxide is transmitted to the interior of the control valve from the interior of the carbon dioxide fire extinguisher after the control valve is opened, the control valve transmits the carbon dioxide to the interior of the conduit, the conduit guides the carbon dioxide to the nozzle, the nozzle sprays the carbon dioxide, and the carbon dioxide with low temperature and high concentration in the liquid carbon dioxide can separate oxygen in the air from a fire source, so that the purpose of fire extinguishment is achieved, and the safety of equipment is ensured.

2. According to the invention, the temperature controller is installed, the temperature sensor monitors the temperature of the energy storage module, the detected information is transmitted to the temperature controller, the temperature controller judges whether the temperature of the energy storage module meets the preset temperature requirement, when the temperature exceeds a specified range, the blower operates to drive airflow to move, the airflow is input from the inside of one group of ventilation pipes and then is output from the other group of ventilation pipes, the normal heat dissipation of the airflow inside the device is ensured, the passing air is filtered by the dustproof net, dust is prevented from being accumulated in the device, the heat dissipation effect of the device is prevented from being influenced, and the phenomenon that the heat at the inner part of the device is too high in temperature and cannot be dissipated in time is avoided.

3. According to the invention, the breaker is installed, electric energy is transmitted into the breaker through the input interface, the breaker monitors current, and when the situation that the current is short-circuited or overloaded is monitored, the internal power-off mechanism of the breaker trips instantly to break the circuit, so that the current is prevented from being input continuously, and the safety of equipment is ensured.

4. According to the invention, the energy storage meter is arranged, the current enters the energy storage meter, the energy storage meter monitors the electric energy, and then the electric quantity is displayed through the display screen, so that a user can know the electric quantity change condition conveniently, the current is transmitted to the inside of the energy storage module through the energy storage meter and the electric wire, so that the user can judge the electric quantity accurately, and the current output quantity can be detected during output, so that the user can know the electric quantity change conveniently.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the mounting box of the present invention;

FIG. 4 is a schematic structural diagram of an energy storage module according to the present invention;

FIG. 5 is a schematic view of the closure of the present invention;

FIG. 6 is a schematic view of the carbon dioxide extinguisher according to the present invention;

FIG. 7 is a schematic structural view of a mounting box of the present invention;

FIG. 8 is a flow chart of the present invention.

In the figure: 1. an outer case; 2. a limiting groove; 3. installing a box; 4. a temperature sensor; 5. a support member; 6. an energy storage module; 7. a heat sink; 8. assembling a cover; 9. a temperature controller; 10. positive and negative electrode columns; 11. a heat dissipation port; 12. a filter screen; 13. a vent pipe; 14. a blower; 15. a dust screen; 16. a storage box; 17. a limiting seat; 18. a movable door; 19. a carbon dioxide extinguisher; 20. a control valve; 21. a conduit; 22. a spray head; 23. a closure cap; 24. a smoke sensor; 25. an energy storage meter; 26. a circuit breaker; 27. a connecting bolt; 28. mounting a box; 29. a vent; 30. a desiccant; 31. a fitted cover; 32. a vent; 33. an input interface; 34. and (6) an output interface.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, an embodiment of the present invention: a modular industrial and commercial energy storage device is provided,

further, the hair dryer comprises an outer box body 1, three sets of limiting grooves 2 which are arranged at equal intervals are installed on the inner side bottom wall of the outer box body 1, mounting boxes 3 are movably installed on the inner sides of the three sets of limiting grooves 2, the outer box body 1 fixes the limiting grooves 2 on the inner side to guarantee stability of the limiting grooves 2, a user installs the mounting boxes 3 on the inner side of the limiting grooves 2, the mounting boxes 3 are limited by the limiting grooves 2 to guarantee stability of the mounting boxes 3, the device is convenient to install by the user, a ventilation pipe 13 penetrates through the front wall and the rear wall of the mounting boxes 3, a hair dryer 14 is installed on the inner side of the ventilation pipe 13 through a support, a dust screen 15 is installed at one end of the ventilation pipe 13, the dust screen 15 is located on one side of the hair dryer 14, the mounting boxes 3 fix the ventilation pipe 13 on the inner wall to guarantee stability of the ventilation pipe 13, and the ventilation pipe 13 supports the hair dryer 14 on the inner side, the blower 14 operates air to enter from the ventilation pipe 13 at the input end of the installation box 3 and then is output from the ventilation pipe 13 at the output end, the circulation of the air in the installation box is ensured, the heat dissipation speed of the device is accelerated, the passing air is filtered by the dust screen 15, dust is prevented from being accumulated in the device and affecting the heat dissipation effect of the device, the temperature sensors 4 are installed on the inner side bottom wall of the installation box 3, the temperature sensors 4 sense the temperature and transmit the detected stability information to the temperature controller 9, a worker sets the temperature range through the temperature controller 9 in advance, when the temperature exceeds the known range, the operation of the heat dissipation equipment is controlled to accelerate the heat dissipation speed of the device, the assembly cover 8 is installed at the top of the installation box 3, the positive and negative electrode columns 10 are installed at the top of the assembly cover 8, and the temperature controller 9 is installed at the top of the assembly cover 8, the temperature controller 9 is positioned at one side of the positive and negative electrode columns 10, the energy storage module 6 is installed at the bottom of the assembly cover 8, the energy storage module 6 is positioned at the inner side of the installation box 3, the assembly cover 8 is fixed at the top of the installation box 3 to ensure the stability of the assembly cover 8, the assembly cover 8 supports the positive and negative electrode columns 10 at the top to ensure the stable operation of the positive and negative electrode columns 10, the positive and negative electrode columns 10 are connected with a conductive wire to ensure the normal transmission of the electric power of the device, the energy storage module 6 stores the electric power, the outer wall of the energy storage module 6 is provided with the radiating fins 7 which are arranged at equal intervals, the radiating fins 7 are installed at the outer side of the energy storage module 6, the radiating fins 7 are composed of metal plates with good heat dissipation performance and can accelerate the output speed of the heat in the energy storage module 6, the radiating fins 7 radiate the heat into the air, the support 5 is installed at the bottom wall of the inner side of the installation box 3, and the support 5 is installed at the bottom of the energy storage module 6, the support piece 5 fixes the energy storage module 6 at the top to ensure that the energy storage module 6 can stably run, the support piece 5 is positioned at two sides of the temperature sensor 4, the front wall and the rear wall of the outer box body 1 are both provided with heat dissipation ports 11, a filter screen 12 is arranged at the inner side of each heat dissipation port 11, the heat dissipation ports 11 are arranged on the outer box body 1 to ensure the air circulation inside the device, and the air is filtered by the filter screen 12 in the air circulation process;

further, a mounting box 28 is mounted on the inner side of the outer box 1, a vent 29 is formed on the outer wall of the mounting box 28, a detachable drying agent 30 is arranged on the inner side of the mounting box 28, an embedded cover 31 is movably embedded and mounted on one side of the mounting box 28, air vent 32 has been seted up to the inboard of gomphosis lid 31, outer box 1 is fixed the mounting box 28 of inboard, guarantee the stability of mounting box 28, vent 29 is seted up on mounting box 28, guarantee that the air can circulate smoothly on the inner wall of mounting box 28, mounting box 28 is connected with gomphosis lid 31, the person of facilitating the use assembles the device, air vent 32 is seted up on the gomphosis lid 31, guarantee the circulation of device air, the inside at mounting box 28 is installed to drier 30, the principal component in drier 30 is montmorillonite and has good adsorptivity, can absorb the moisture in the air, make the inside drying that keeps of device.

Further, a containing box 16 is installed on one side of the outer box body 1, a limiting seat 17 is installed on the inner side bottom wall of the containing box 16, a carbon dioxide fire extinguisher 19 is movably installed on the top of the limiting seat 17, a control valve 20 is installed on the top end of the carbon dioxide fire extinguisher 19, a guide pipe 21 is installed at the output end of the control valve 20, the guide pipe 21 penetrates through the inner wall of the outer box body 1, a plurality of groups of spray heads 22 are installed on the lower surface of the guide pipe 21, a movable door 18 is movably installed on one side of the containing box 16 through a hinge, a smoke sensor 24 is installed at the bottom of the sealing cover 23, the containing box 16 is fixed by the outer box body 1, the stability of the containing box 16 is guaranteed, the containing box 16 supports the inner side limiting seat 17, the limiting seat 17 conveniently carries out limiting support on the inner side carbon dioxide fire extinguisher 19, the carbon dioxide fire extinguisher 19 is kept stable, and the smoke sensor 24 is installed on the sealing cover 23, detect outside box 1 is inside through smoke transducer 24, when the device high temperature was on a fire, smog can appear in inside, smoke transducer 24 detects behind the smog, control valve 20 opens, because liquid carbon dioxide is stored in the inside of carbon dioxide fire extinguisher 19, inside atmospheric pressure is very high, after control valve 20 opened, carbon dioxide transmitted the inside of control valve 20 from the inside of carbon dioxide fire extinguisher 19, control valve 20 transmits the inside of pipe 21 with carbon dioxide, pipe 21 guide carbon dioxide transmits shower nozzle 22 department, shower nozzle 22 spouts carbon dioxide, the low and high carbon dioxide of concentration of liquid carbon dioxide temperature can separate oxygen in the air and ignition source, reach the purpose of putting out a fire.

Further, the detachable connecting bolts 27 are installed at the top of the two sides of the outer box 1 in a penetrating manner, the sealing cover 23 is installed at the top of the outer box 1 through the connecting bolts 27, the outer box 1 is connected with the sealing cover 23 at the top through the outer box 1, so that a user can assemble the device conveniently, the stability of the sealing cover 23 is guaranteed, the energy storage meter 25 is installed at the top of the sealing cover 23, the circuit breaker 26 is located on one side of the energy storage meter 25, the input interface 33 is installed at the top of the sealing cover 23, the input interface 33 is located on the other side of the circuit breaker 26, the output interface 34 is installed at the top of the sealing cover 23, the output interface 34 is located behind the input interface 33, the sealing cover 23 is kept stable, and the sealing cover 23 is convenient to support the energy storage meter 25, the circuit breaker 26, the input interface 33 and the output interface 34 at the top, when the device need store electric power, the workman is through being connected with input interface 33 with the equipment that charges, the electric energy passes through input interface 33 and transmits to circuit breaker 26 in, monitor the electric current by circuit breaker 26, when monitoring the electric current short circuit or the overload condition appear, the instantaneous tripping operation of the inside outage mechanism of circuit breaker 26, with the circuit disconnection, avoid the continuation input of electric current, guarantee the safety of equipment, after the electric current is followed circuit breaker 26 input, enter into the inside of energy storage meter 25, monitor the electric energy by energy storage meter 25, then show through the display screen with the electric quantity, the person of facilitating the use knows the electric quantity situation of change, the electric current then transmits the inside to energy storage module 6 through the electric wire through energy storage meter 25.

Further, the assembling cover 8 is installed at the top of the installation box 3 and used for fixing the assembling cover 8, the assembling cover 8 is used for fixing the energy storage module 6 at the bottom, the energy storage module 6 is guaranteed to be stably installed in the installation box 3, the energy storage module 6 is supported by the supporting piece 5 at the bottom, and the stability of the energy storage module 6 is guaranteed;

liquid carbon dioxide is stored in carbon dioxide fire extinguisher 19's inside, and carbon dioxide is the bad conductor of electricity, and when the conflagration breaing out, carbon dioxide is fast blowout, and the effect of breaing out the conflagration is reached to the oxygen in the isolated air simultaneously of cooling.

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

the working steps of the energy storage device are as follows:

s1, fixing a limiting groove 2 by the inner side of an outer box body 1, ensuring the stability of the limiting groove 2, limiting the installation box 3 on the inner side by the limiting groove 2, ensuring the stability of the installation box 3, and preventing the installation box 3 from deviating in the installation process, fixing an assembly cover 8 at the top by the installation box 3, so that the assembly cover 8 can conveniently fix an energy storage module 6 at the bottom, after the energy storage module 6 is assembled, installing a sealing cover 23 at the top of the outer box body 1 by a worker, connecting the sealing cover 23 with the outer box body 1 through a connecting bolt 27, and facilitating the assembly of a device by a user;

s2, when the device needs to store electric power, a worker connects the charging device with the input interface 33, the electric power is transmitted into the breaker 26 through the input interface 33, the breaker 26 monitors the current, when the situation that the current is short-circuited or overloaded is monitored, the internal power-off mechanism of the breaker 26 trips instantaneously to break the circuit, the continuous input of the current is avoided, the safety of the device is ensured, the current enters the energy storage meter 25 after being input from the breaker 26, the energy storage meter 25 monitors the electric power, then the electric power is displayed through the display screen, a user can know the electric power condition conveniently, the current is transmitted to the positive and negative electrode columns 10 through the electric wires after passing through the energy storage meter 25, the current is transmitted to the inside of the energy storage module 6 through the positive and negative electrode columns 10, the energy storage module 6 stores the electric power, when the electric power is output, the electric power is output through the positive and negative electrode columns 10 at the other end, then the current passes through the energy storage meter 25 and the breaker 26 and is transmitted to the inside of the output interface 34, and the output interface 34 outputs the power;

s3, in the process of storing electric energy in the device, the temperature sensor 4 monitors the temperature of the energy storage module 6, detected information is transmitted to the temperature controller 9, the temperature controller 9 judges whether the temperature of the energy storage module 6 meets the preset temperature requirement, when the temperature exceeds a specified range, the blower 14 operates to drive airflow to move, the airflow is input from the inside of one group of ventilation pipes 13 and then output from the other group of ventilation pipes 13, normal heat dissipation of the airflow in the device is ensured, the dust screen 15 filters the passing air, and dust is prevented from accumulating in the device to affect the heat dissipation effect of the device;

s4, detecting the inside of the device through the smoke sensor 24, when the device is ignited due to overhigh temperature, smoke can appear in the device, after the smoke sensor 24 detects the smoke, the control valve 20 is opened, because liquid carbon dioxide is stored in the carbon dioxide fire extinguisher 19, the internal air pressure is very high, after the control valve 20 is opened, the carbon dioxide is transmitted to the inside of the control valve 20 from the inside of the carbon dioxide fire extinguisher 19, the control valve 20 transmits the carbon dioxide to the inside of the conduit 21, the conduit 21 guides the carbon dioxide to be transmitted to the spray head 22, the spray head 22 sprays the carbon dioxide, and the liquid carbon dioxide with low temperature and high concentration can separate oxygen in the air from a fire source, so that the purpose of fire extinguishment is achieved.

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

s3-1, the energy storage module 6 can generate heat in the operation process, the radiating fin 7 is installed on the outer side of the energy storage module 6, the radiating fin 7 is composed of a metal plate with good heat dissipation performance, the heat output speed of the energy storage module 6 can be increased, and then when air flow passes through the radiating fin 7, the radiating fin 7 transmits the heat to the air, and the heat dissipation speed of the device is increased.

The working principle is as follows: when the device needs to store electric power, a worker connects the energy charging equipment with the input interface 33, electric energy is transmitted into the breaker 26 through the input interface 33, the breaker 26 monitors current, when the situation that the current is short-circuited or overloaded is monitored, the power-off mechanism in the breaker 26 instantaneously trips to break a circuit, the continuous input of the current is avoided, the safety of the device is ensured, the current enters the energy storage meter 25 after being input from the breaker 26, the energy storage meter 25 monitors the electric energy, then the electric quantity is displayed through the display screen, a user can know the electric quantity condition conveniently, the current is transmitted to the positive and negative electrode posts 10 through the energy storage meter 25 and the wires, the current is transmitted to the inside of the energy storage module 6 through the positive and negative electrode posts 10, the energy storage module 6 stores the electric energy, when the electric energy is output, the electric energy is output through the positive and negative electrode posts 10 at the other end, then the current passes through the energy storage meter 25 and the circuit breaker 26 and is transmitted to the inside of the output interface 34, the output interface 34 outputs the power, in the process of storing the electric energy, the temperature sensor 4 monitors the temperature of the energy storage module 6, then the detected information is transmitted to the temperature controller 9, the temperature controller 9 judges whether the temperature of the energy storage module 6 meets the preset temperature, when the temperature exceeds the designated range, the blower 14 operates to drive the airflow to move, the airflow is input from the inside of one group of ventilation pipes 13 and then output from the other group of ventilation pipes 13, the normal heat dissipation of the airflow in the device is ensured, the dust screen 15 filters the passing air, the dust is prevented from accumulating in the device to influence the heat dissipation effect of the device, the inside of the device is detected through the smoke sensor 24, when the temperature of the device is too high, smoke can appear in the inside, and after the smoke sensor 24 detects the smoke, the control valve 20 is opened, liquid carbon dioxide is stored in the carbon dioxide fire extinguisher 19, the internal air pressure is very high, after the control valve 20 is opened, the carbon dioxide is transmitted to the inside of the control valve 20 from the inside of the carbon dioxide fire extinguisher 19, the control valve 20 transmits the carbon dioxide to the inside of the conduit 21, the conduit 21 guides the carbon dioxide to be transmitted to the spray head 22, the spray head 22 sprays the carbon dioxide, and the oxygen in the air can be separated from a fire source by the carbon dioxide with low liquid carbon dioxide temperature and high concentration, so that the purpose of fire extinguishment is achieved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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 (10)

1. A modularization industry commercial energy memory, includes outer box (1), its characterized in that: the energy-saving box is characterized in that three groups of limiting grooves (2) which are arranged at equal intervals are installed on the inner side bottom wall of the outer box body (1), three groups of limiting grooves (2) are movably installed on the inner side of each limiting groove (3), three groups of temperature sensors (4) are installed on the inner side bottom wall of each mounting box (3), an assembling cover (8) is installed at the top of each mounting box (3), an energy storage module (6) is installed at the bottom of each assembling cover (8), each energy storage module (6) is located on the inner side of each mounting box (3), cooling fins (7) which are arranged at equal intervals are installed on the outer wall of each energy storage module (6), a support (5) is installed on the inner side bottom wall of each mounting box (3), each support (5) is installed at the bottom of each energy storage module (6), and each support (5) is located on two sides of each temperature sensor (4);

mounting box (28) are installed to the inboard of outer box (1), vent (29) have been seted up to the outer wall of mounting box (28), detachable drier (30) are installed to the inboard of mounting box (28), inlay lid (31) are installed to one side activity gomphosis of mounting box (28), blow vent (32) have been seted up to the inboard of inlay lid (31).

2. The modular industrial and commercial energy storage device of claim 1, wherein: the utility model discloses a hair-dryer, including install mounting box (3), ventilation pipe (13) are installed in the antetheca and the back wall of installation case (3) run through, there is hair-dryer (14) inboard of ventilation pipe (13) through the support mounting, dust screen (15) are installed to the one end of ventilation pipe (13), and dust screen (15) are located one side of hair-dryer (14).

3. The modular industrial and commercial energy storage device of claim 1, wherein: positive and negative electrode post (10) are installed at the top of equipment lid (8), temperature controller (9) are installed at the top of equipment lid (8), and temperature controller (9) are located one side of positive and negative electrode post (10).

4. The modular industrial and commercial energy storage device of claim 1, wherein: containing box (16) is installed to one side of outer box (1), spacing seat (17) are installed to the inboard diapire of containing box (16), the top movable mounting of spacing seat (17) has carbon dioxide fire extinguisher (19), control valve (20) are installed on the top of carbon dioxide fire extinguisher (19), pipe (21) are installed to the output of control valve (20), and pipe (21) run through the inner wall of outer box (1), the lower surface mounting of pipe (21) has a plurality of shower nozzles of group (22).

5. A modular industrial and commercial energy storage apparatus as in any one of claims 1-4 wherein: the assembling cover (8) is arranged at the top of the mounting box (3) and used for fixing the assembling cover (8), the assembling cover (8) is used for fixing the energy storage module (6) at the bottom, the energy storage module (6) is ensured to be stably arranged in the mounting box (3), and the energy storage module (6) is supported by the supporting piece (5) at the bottom so as to ensure the stability of the energy storage module (6);

liquid carbon dioxide is stored in the inside of carbon dioxide fire extinguisher (19), and carbon dioxide is the bad conductor of electricity, and when the conflagration breaing out, carbon dioxide is spout fast, and the effect of breaing out the conflagration is reached to the oxygen in the isolated air simultaneously of cooling.

6. The modular industrial and commercial energy storage device of claim 1, wherein: the utility model discloses a smoke sensor, including outer box (1), circuit breaker (23), input interface (33), output interface (34) are installed at the top of closing cap (23), and output interface (34) are located the rear of input interface (33), smoke sensor (24) are installed to the bottom of closing cap (23).

7. The modular industrial and commercial energy storage device of claim 4, wherein: one side of the containing box (16) is movably provided with a movable door (18) through a hinge.

8. The modular industrial and commercial energy storage device of claim 1, wherein: heat dissipation opening (11) have all been seted up to the antetheca and the back wall of outer box (1), filter screen (12) are installed to the inboard of heat dissipation opening (11).

9. A method of using a modular industrial and commercial energy storage device according to any of claims 1-8, the energy storage device operating as follows:

s1, the inner side of the outer box body (1) fixes the limiting groove (2), the stability of the limiting groove (2) is guaranteed, the limiting groove (2) limits the mounting box (3) on the inner side, the stability of the mounting box (3) is guaranteed, the mounting box (3) is prevented from deviating in the mounting process, the mounting box (3) fixes the assembling cover (8) on the top, the assembling cover (8) is convenient to fix the energy storage module (6) on the bottom, after the energy storage module (6) is assembled, a worker installs the sealing cover (23) on the top of the outer box body (1), the sealing cover (23) and the outer box body (1) are connected through a connecting bolt (27), and the device is convenient to assemble by a user;

s2, when the device needs to store electric power, a worker connects the charging equipment with the input interface (33), the electric power is transmitted into the breaker (26) through the input interface (33), the breaker (26) monitors the current, when the situation that the current is short-circuited or overloaded is monitored, the internal power-off mechanism of the breaker (26) trips instantaneously to break the circuit, the continuous input of the current is avoided, the safety of the device is ensured, the current enters the energy storage meter (25) after being input from the breaker (26), the energy storage meter (25) monitors the electric power, then the electric power is displayed through the display screen, a user can know the electric power situation conveniently, the current is transmitted to the positive and negative electrode columns (10) through the energy storage meter (25) through the electric wire, the positive and negative electrode columns (10) conduct the current to the inside of the energy storage module (6), and the energy storage module (6) stores the electric power, when the electric energy is output, the electric energy is output through the positive electrode column (10) and the negative electrode column (10) at the other end, then the current is transmitted to the inside of the output interface (34) through the energy storage meter (25) and the breaker (26), and the output interface (34) outputs the electric power;

s3, in the process of storing electric energy in the device, the temperature of the energy storage module (6) is monitored by the temperature sensor (4), then the detected information is transmitted to the temperature controller (9), the temperature controller (9) judges whether the temperature of the energy storage module (6) meets the preset temperature requirement, when the temperature exceeds the specified range, the air blower (14) operates to drive the air flow to move, the air flow is input from the inside of one group of ventilation pipes (13) and then output from the other group of ventilation pipes (13), the normal heat dissipation of the air flow in the device is ensured, the passing air is filtered by the dustproof net (15), and dust is prevented from being accumulated in the device to influence the heat dissipation effect of the device;

s4, detecting the inside of the device through a smoke sensor (24), when the device is ignited due to overhigh temperature, smoke can appear in the device, after the smoke sensor (24) detects the smoke, a control valve (20) is opened, liquid carbon dioxide is stored in a carbon dioxide fire extinguisher (19), the internal air pressure is very high, after the control valve (20) is opened, the carbon dioxide is transmitted to the inside of the control valve (20) from the inside of the carbon dioxide fire extinguisher (19), the control valve (20) transmits the carbon dioxide to the inside of a guide pipe (21), the guide pipe (21) guides the carbon dioxide to be transmitted to a spray head (22), the spray head (22) sprays the carbon dioxide, and the liquid carbon dioxide with low temperature and high concentration can separate oxygen in the air from a fire source, so that the purpose of fire extinguishment is achieved.

10. The method of using a modular industrial and commercial energy storage device according to claim 9, wherein: in step S3, the method further includes the steps of:

s3-1, the energy storage module (6) can generate heat in the operation process, the radiating fins (7) are arranged on the outer side of the energy storage module (6), the radiating fins (7) are made of metal plates with good heat dissipation performance, the heat output speed in the energy storage module (6) can be increased, and then when air flows pass through the radiating fins (7), the radiating fins (7) transmit the heat to the air, so that the heat dissipation speed of the device is increased.

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