CN117059968A - Energy storage container - Google Patents

Abstract

The invention relates to the technical field of energy storage containers and discloses an energy storage container which comprises a container body, wherein the container body mainly comprises a battery mounting assembly, an air cooling assembly, a dustproof assembly and a liquid cooling assembly, a box door is arranged at the corresponding position of the container body except for a right box plate, the air cooling assembly uniformly supplies air to and dissipates heat in the whole battery compartment, the damage to a battery caused by temperature layering is avoided, the dustproof assembly is used for dustproof the air cooling assembly, meanwhile, a dust removing box is arranged in the dustproof assembly, the dustproof effect of a first dust cover is ensured through the dust removing box, the problem that external impurities enter the battery compartment through the air cooling assembly and pollute and interfere devices in the battery compartment, so that the stable operation of an integral system is influenced is solved, and the liquid cooling assembly is matched with a heat exchange piece on a liquid cooling battery pack to realize the circulating reciprocating liquid cooling of the battery, and the integral heat dissipation effect of the energy storage container is improved.

Description

Energy storage container

Technical Field

The invention relates to the technical field of energy storage containers, in particular to an energy storage container.

Background

With the development and progress of technology, research and development of new energy are imperative. The energy storage container is one of important carriers in the application of new energy, and the research of the energy storage container is increasingly widespread. The energy storage container is a highly integrated energy storage device, a plurality of energy storage battery modules are placed in the energy storage container, the battery modules are connected to the inverter and then connected with external equipment through a small number of interfaces, and the energy storage container has the characteristics of high integration level, small occupied area and good expansibility, and is an important component for the development of distributed energy, smart power grids and energy Internet in the energy storage system.

The utility model discloses a publication number is CN109720749A3 discloses an energy storage container system, this energy storage container system, through set up slide rail or spout respectively on the diapire of battery rack and accommodation space, utilize cooperation between slide rail and the spout, simplify the installation of battery rack, increase the convenience of maintaining, simultaneously, the battery rack is closely arranged in the width direction of box, can improve space utilization effectively, increase energy storage density, energy storage container system still includes cooling system, fire control and supervisory equipment place the district, can solve battery heat dissipation imbalance problem effectively through cooling system, guarantee the life and the output of battery, fire control and supervisory equipment can control fire control equipment action, timely fire control treatment, improve the safety in utilization of whole equipment.

However, the above-mentioned technical scheme has been solved because the energy storage container system structure is complicated, the incasement sets up the maintenance passageway generally, the container energy storage utilization ratio that causes is low, the energy storage capacity is little, and battery rack installation, maintenance are comparatively inconvenient problem moreover, but its cooling system adopts forced air cooling heat dissipation, because the inhomogeneous inside heat dissipation of container that causes of air supply, and produce the temperature layering phenomenon, cause the damage to the battery and cause the unstable problem of the inside overall system of container, simultaneously owing to set up air pipe, just need carry out abundant dustproof, it enters into the container inside through air pipe to avoid causing outside impurity, cause the pollution and the interference of internal device, thereby influence the steady operation of overall system.

Therefore, there is a need to solve the above problems by an energy storage container.

Disclosure of Invention

The present invention is directed to an energy storage container, which solves the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: an energy storage container comprises a container body, wherein a battery mounting assembly, an air cooling assembly, a dust prevention assembly and a liquid cooling assembly are arranged in the container body;

the battery mounting assembly comprises a battery mounting frame and a liquid cooling battery pack, a base is arranged at the bottom end of the battery mounting frame, a sliding groove is formed in the center of the base, a plurality of fixed sliding rails are uniformly arranged on the upper surface of a bottom plate of the container body, the outer surfaces of the fixed sliding rails are in sliding fit with the inner parts of the sliding grooves, a limiting mechanism is arranged on the fixed sliding rails, a plurality of battery accommodating grooves are formed in the battery mounting frame, and the inner parts of the battery accommodating grooves are fixedly connected with the liquid cooling battery pack;

the air cooling assembly comprises an air supply assembly, an air storage box and an exhaust assembly, wherein a top plate of the container body is provided with a mounting groove, a bottom plate of an inner cavity of the mounting groove is fixedly connected with the lower end face of the air supply assembly, a plurality of air inlets are formed in positions, corresponding to the upper end face of the air storage box, of the bottom plate of the inner cavity of the mounting groove, an air storage cavity is formed in the air storage box, evenly distributed air outlets are formed in front and rear side plates of the air storage box, an air quantity regulating valve is arranged in each air outlet, the air quantity regulating valve is used for controlling the opening size of the air outlet, and the outer walls of the front and rear side plates of the air storage box are fixedly connected with a battery mounting frame;

the dustproof assembly comprises a first dustproof cover, a diversion force control plate and a hairbrush, wherein a bristle comb is arranged on one surface of the diversion force control plate, which is contacted with the hairbrush, and a sealing strip assembly is arranged at one end of the diversion force control plate, which is close to the first dustproof cover;

according to the dust removing device, the bristle comb is arranged on one surface, which is contacted with the hairbrush, of the diversion force control plate, the sealing strip component is arranged at one end, which is close to the first dust cover, of the diversion force control plate, when the rotary drum is controlled to rotate, the hairbrush is attached to the diversion force control plate, sundries on bristles are effectively separated, the diversion force control plate is sealed and attached to the first dust cover by being matched with the blowing of the blower, impurities on the surface of the first dust cover are blown up under the action of strong wind, dust is conveyed into the dust storage bag by being matched with the hairbrush, meanwhile, the first dust cover is vibrated by changing the size of wind force, and the dust which is difficult to remove is separated from the first dust cover, so that the dust removing effect of the dust removing device is further improved.

Preferably, the dustproof assembly comprises a first dustproof cover and a dust removal box, the short side plate of the first dustproof cover is fixedly connected with the short side plate of the mounting groove, a supporting shaft is arranged in the inner cavity of the dust removal box and movably connected with the dust removal box, the front end of the supporting shaft penetrates through and extends to the outer side of the front side plate of the dust removal box, a driving motor is arranged on the outer side of the front side plate of the dust removal box, and an output shaft of the driving motor is fixedly connected with the rear end of the supporting shaft.

Preferably, the coaxial heart welding of back shaft outer wall has the rotary drum, the cavity has been seted up to the inside of rotary drum, be provided with the gas gathering hole on the inner wall of cavity, gas gathering hole one end runs through and extends to the rotary drum outer wall, the gas gathering hole outer end is provided with the brush, brush outer end and first dust cover up end contact.

Preferably, the first dust cover top is provided with the sliding track frame, the sliding tray has been seted up to the inboard of sliding track frame two long limits, dust removal case bottom left end is provided with clean cotton board, clean cotton board bottom side contacts with first dust cover up end, both sides board outer wall all is provided with the slider respectively around the dust removal case, the slider outer wall with sliding tray sliding fit, the dirt collecting port has been seted up in the dust removal case left side, the dirt collecting port outside is provided with and holds dirty bag.

Preferably, the dust removal case rear side is provided with the air-blower, the blast gate and the cavity of air-blower are linked together, dust removal case inner wall is provided with the clamp splice, the clamp splice inner chamber is provided with a plurality of evenly distributed's accuse power spring, the surface of accuse power spring all welds respectively has solid fixed ring, gu fixed ring left side surface is provided with the shell fragment, shell fragment left end swing joint has water conservancy diversion accuse power board, water conservancy diversion accuse power board passes through pivot and dust removal case inner wall swing joint.

Preferably, the liquid cooling assembly is mainly by liquid cooling host computer, liquid cooling water inflow be responsible for and liquid cooling play water is responsible for, the liquid cooling water inflow is responsible for and is enclosed to establish in battery mounting frame downside outside, the liquid cooling play water is responsible for and is enclosed to establish in battery mounting frame upside outside, liquid cooling water inflow is responsible for and liquid cooling play water is responsible for and is all respectively with battery mounting frame fixed connection, container body bottom plate upper surface corresponds battery mounting frame right side and is provided with first heat insulating plate.

Preferably, the one end that liquid cooling water intaking was responsible for and liquid cooling water outlet is responsible for all runs through respectively and extends to first heat insulating plate right side, the liquid cooling host computer sets up on first heat insulating plate right side, the liquid cooling host computer is responsible for with liquid cooling water intaking and liquid cooling water outlet is responsible for's one end fixed connection respectively, be provided with a plurality of liquid cooling vertical inlet tubes on the liquid cooling water intaking is responsible for, be provided with a plurality of liquid cooling vertical outlet pipes on the liquid cooling water outlet is responsible for.

Preferably, a plurality of shunt tubes are arranged on the liquid cooling vertical water inlet pipe and the liquid cooling vertical water outlet pipe, a heat exchange piece is arranged at one end side of the liquid cooling battery pack, and the liquid inlet and the liquid outlet of the heat exchange piece are fixedly connected with the shunt tubes on the liquid cooling vertical water inlet pipe and the liquid cooling vertical water outlet pipe respectively.

Preferably, the fire-fighting component is arranged on the right side of the container body bottom plate corresponding to the liquid cooling host, a second heat insulation plate is arranged on the left side of the container body bottom plate corresponding to the battery installation component, an electric bin is arranged on the left side of the second heat insulation plate, a wind shield is arranged on the outer side of the electric bin, and a partition plate is arranged on the upper side of the electric bin.

Preferably, the upper left side of the second heat insulation plate is provided with two first air outlet pipelines, the left ends of the first air outlet pipelines are respectively provided with an air draft assembly, the air outlet ends of the air draft assemblies are respectively provided with a second air outlet pipeline, and the second air outlet pipelines are externally connected with a second dust cover in a threaded manner.

The invention has the technical effects and advantages that:

1. the invention provides an energy storage container, which is characterized in that an air cooling assembly is arranged, cold air is conveyed from an air inlet to an air storage cavity in an air storage box for collecting through the working of an air supply assembly in the air cooling assembly, the air storage cavity can collect and temporarily store the cold air, the air pressure distribution of the cold air in the air storage box is ensured to be uniform, an air outlet which is uniformly distributed is arranged on a side plate of the air storage box, the cold air is uniformly sent into a battery installation assembly through the air outlet, the air supply and the heat dissipation are uniformly carried out in the whole battery compartment, the damage to a battery caused by temperature layering is avoided, and meanwhile, the air after heat exchange is timely pumped out through a first air outlet pipeline through an air suction assembly, so that the phenomenon that the internal air is not timely discharged and the battery assembly is damaged by extrusion is avoided.

2. According to the invention, strong wind is conveyed to the cavity inside the rotary drum through the blower, wind power is gathered through the air gathering holes and then blown into the dust collection box, impurities on the surface of the dust cover are blown up under the action of the strong wind, and meanwhile, the driving motor is started, and drives the rotary drum to rotate clockwise through the supporting shaft, so that the impurities in the dust collection box are blown leftwards along with the wind into the knife dirt storage bag, in order to prevent the impurities from being lifted up in the dust collection box and not moving along the wind direction, the lifted impurities are attached to the hairs of the dust collection box under the action of the brushes, the impurities on the hair brushes are filtered down through the wind guide stirring block arranged in the dust collection box, and are blown into the dirt storage bag along the inclined plane of the wind guide stirring block, so that the dust prevention effect of the first dust cover is ensured, the problem that excessive impurities on the dust cover block the first dust cover, the problem that the dust prevention effect of the first dust cover is influenced, the external impurities enter the battery bin, the pollution and the interference to the devices in the battery bin are avoided, and the problem that the stable operation of the whole system is influenced.

3. According to the invention, the liquid cooling assembly is arranged, when the liquid cooling assembly works, the liquid cooling host machine conveys cooling liquid to each liquid cooling water inlet main pipe through the liquid cooling water inlet main pipe, then the cooling liquid is conveyed into the heat exchange piece on the liquid cooling battery pack through the flow dividing pipe on the liquid cooling water inlet main pipe, cooling after heat exchange of the temperature in the liquid cooling battery pack through the heat exchange piece also enters the liquid cooling vertical water inlet pipe through the flow dividing pipe on the liquid outlet end, and then the cooling liquid is converged to the liquid cooling water outlet main pipe, and the flowing cooling liquid is conveyed back into the liquid cooling host machine through the liquid cooling water outlet main pipe for cooling, so that the liquid cooling of the battery body is realized by cyclic reciprocation, the integral heat dissipation effect is improved, and the working stability of the battery is maintained

Drawings

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

FIG. 2 is a schematic partial cross-sectional view of the overall structure of the present invention.

FIG. 3 is a schematic view of a part of the structure of the present invention.

FIG. 4 is a schematic cross-sectional view of a portion of the structure of the present invention.

FIG. 5 is a schematic view of a portion of a liquid cooling module according to the present invention.

Fig. 6 is a schematic view of the structure of the battery mounting assembly of the present invention.

FIG. 7 is a schematic view of a portion of a dust-proof assembly according to the present invention.

FIG. 8 is a schematic view of a dust-proof assembly and an air-cooling assembly according to the present invention.

Fig. 9 is a schematic view of a dustproof assembly structure of the present invention.

Fig. 10 is an enlarged view of fig. 9a in accordance with the present invention.

In the figure: 1. a container body; 2. a battery mounting assembly; 201. a battery mounting rack; 202. a liquid-cooled battery pack; 203. a base; 204. fixing the sliding rail; 3. an air cooling assembly; 301. a mounting groove; 302. an air supply assembly; 303. a wind storage box; 304. an air inlet; 305. a wind storage cavity; 306. an air outlet; 307. the first air outlet pipeline; 308. an air draft assembly; 309. the second air outlet pipeline; 4. a dust-proof assembly; 401. a first dust cap; 402. a dust removal box; 403. a sliding track frame; 404. a support shaft; 405. a rotating drum; 406. a cavity; 407. air gathering holes; 408. a brush; 409. cleaning a cotton plate; 4010. a slide block; 4011. a sewage storage bag; 4012. a driving motor; 4013. a blower; 4014. clamping blocks; 4015. a force control spring; 4016. a fixing ring; 4017. a spring plate; 4018. a flow guide force plate; 4019. a second dust cover; 5. a first thermal insulation plate; 6. a liquid cooling assembly; 601. a liquid cooling host; 602. a liquid cooling water inlet main pipe; 603. a liquid cooling water outlet main pipe; 604. a liquid cooling vertical water inlet pipe; 605. a shunt; 606. liquid cooling vertical water outlet pipe; 7. a fire fighting assembly; 8. an electrical bin; 9. and a second heat insulating plate.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of protection of the present invention.

First embodiment

The invention provides a technical scheme, as shown in fig. 1 to 10, of an energy storage container, which comprises a container body 1, wherein the container body 1 mainly comprises a battery mounting assembly 2, an air cooling assembly 3, a dust prevention assembly 4 and a liquid cooling assembly 6, and the periphery of the container body 1 is provided with container body doors at corresponding positions.

As shown in fig. 3 and 6, the battery mounting assembly 2 comprises a battery mounting frame 201 and a liquid cooling battery pack 202, a base 203 is arranged at the bottom end of the battery mounting frame 201, a sliding groove is formed in the center of the base 203, a plurality of fixed sliding rails 204 are uniformly arranged on the upper surface of the bottom plate of the container body 1, the outer surfaces of the fixed sliding rails 204 are in sliding fit with the inner parts of the sliding grooves, a limiting mechanism is arranged on the fixed sliding rails 204, a plurality of battery accommodating grooves are formed in the battery mounting frame 201, and the inner parts of the battery accommodating grooves are fixedly connected with the liquid cooling battery pack 202 through screws.

The container body 1 is except that the right side boxboard all installs the box door, the front and back both sides set up the box door and are convenient for to the installation detection maintenance of inside battery installation component 2, two battery mounting bracket 201 are two rows and three lines of distributions in container body 1 inside, reserve the follow-up subassembly installation space between two rows of battery mounting bracket 201, the maintenance passageway has been got rid of, space utilization and the energy storage density of container body 1 have been improved effectively, set up base 203 in battery mounting bracket 201 bottom simultaneously, the inside spout of base 203 cooperates with the fixed slide rail 204 on the container body 1, be provided with stop gear on the fixed slide rail 204, carry out the locking to spout and fixed slide rail 204 through stop gear, the stability and the security of battery mounting bracket 201 have been strengthened, the battery mounting bracket 201 has been avoided producing the displacement and has brought the security risk.

As shown in fig. 2, 4 and 6, the air cooling assembly 3 mainly comprises an air supply assembly 302, an air storage box 303 and an air exhausting assembly 308, a top plate of the container body 1 is provided with a mounting groove 301, an inner cavity bottom plate of the mounting groove 301 is fixedly connected with the lower end face of the air supply assembly 302, a plurality of air inlets 304 are formed in positions, corresponding to the upper end face of the air storage box 303, of the inner cavity bottom plate of the mounting groove 301, an air storage cavity 305 is arranged in the air storage box 303, evenly distributed air outlets 306 are formed in front of and behind two side plates of the air storage box 303, and outer walls of the front side plate and the rear side plate of the air storage box 303 are fixedly connected with two rows of battery mounting frames 201.

It should be noted that, the air supply assembly 302 includes a fan and a refrigerating sheet, and the fan is controlled to forward rotate so as to send external air into the air storage box 303, and meanwhile, the temperature in the container body 1 is detected in real time by setting a temperature sensor in the container body 1, and the refrigerating efficiency of the refrigerating sheet is regulated, so that the temperature in the container body 1 is regulated and controlled in real time, and the problem that the device is damaged due to overhigh temperature or overlow temperature in the container body 1 is avoided.

As shown in fig. 2 and 4, a second heat insulation plate 9 is arranged on the left side of the upper surface of the bottom plate of the container body 1 relative to the battery installation assembly 2, an electric bin 8 is arranged on the left side of the second heat insulation plate 9, a wind shield is arranged on the outer side of the electric bin 8, a partition plate is arranged on the upper side of the electric bin 8, two first air outlet pipelines 307 are arranged at the upper left side of the second heat insulation plate 9, an air suction assembly 308 is respectively arranged at the left end of the first air outlet pipelines 307, second air outlet pipelines 309 are respectively arranged at the air outlet ends of the air suction assembly 308, and second dust covers 4019 are connected to the outer threads of the second air outlet pipelines 309.

Through air supply assembly 302 work, carry the air inlet 304 to collect in the inside air storage chamber 305 of air storage case 303 with cold wind, air storage chamber 305 can collect the cold wind and keep in, guarantee that its inside cold wind pressure distributes evenly, be provided with evenly distributed's air outlet 306 on the air storage case 303 curb plate, the inside air regulation valve that is provided with of air outlet 306, adjust the air outlet of air outlet 306 through the air regulation valve, make air outlet 306 can be through air outlet 306 with the even battery installation component 2 of sending into of cold wind, carry out even air supply heat dissipation to whole battery compartment inside, avoid appearing the temperature layering and cause the damage to the battery, the air after the heat transfer is in time taken out through first air-out pipeline 307 through exhaust assembly 308 simultaneously, avoid appearing inside air to get rid of untimely, cause the phenomenon of extrusion damage to battery assembly.

It should be noted that, the amount of cold air entering the air storage box 303 through the air inlet 304 in unit time is greater than the amount of cold air discharged to the battery mounting assembly 2 through the air outlet 306, so that each air outlet 306 can uniformly discharge cold air outwards, and the problem that the battery is damaged due to temperature stratification is avoided.

As shown in fig. 7, 8 and 9, the dust-proof assembly 4 mainly comprises a first dust-proof cover 401 and a dust-proof box 402, the short side plate of the first dust-proof cover 401 is fixedly connected with the short side plate of the mounting groove 301 through bolts, a supporting shaft 404 is arranged in the inner cavity of the dust-proof box 402, the rear end of the supporting shaft 404 is movably connected with the rear side plate of the dust-proof box 402 through bearings, the front end of the supporting shaft 404 penetrates and extends to the outer side of the front side plate of the dust-proof box 402, a driving motor 4012 is arranged on the outer side of the front side plate of the dust-proof box 402, an output shaft of the driving motor 4012 is fixedly connected with the rear end of the supporting shaft 404 through a coupler, a rotary drum 405 is welded on the outer wall of the supporting shaft 404 coaxially, a cavity 406 is formed in the interior of the rotary drum 405, an air gathering hole 407 is formed in the inner wall of the cavity 406, one end of the air gathering hole 407 penetrates and extends to the outer wall of the rotary drum 405, a brush 408 is arranged at the outer end of the air gathering hole 408, and the outer end of the brush 408 contacts with the upper end surface of the first dust-proof cover.

It should be noted that, the brush plate of the brush 408 is provided with a plurality of air outlet holes in a linear array, and the plurality of air outlet holes on the same brush plate are communicated with the air gathering holes 407, so that the air in the cavity 406 can be exhausted outwards through the air gathering holes 407 and the air outlet holes.

As shown in fig. 9, a sliding track frame 403 is provided at the top of the first dust cover 401, sliding grooves are provided at the inner sides of two long sides of the sliding track frame 403, a cleaning cotton plate 409 is provided at the right end of the bottom of the dust box 402, the bottom side of the cleaning cotton plate 409 contacts with the upper end surface of the first dust cover 401, sliding blocks 4010 are welded on the outer walls of the front and rear side plates of the dust box 402 respectively, the outer walls of the sliding blocks 4010 are in sliding fit with the sliding grooves, a dirt collecting port is provided at the left side of the dust box 402, a dirt storage bag 4011 is provided at the outer side of the dirt collecting port, a blower 4013 is provided at the rear side of the dust box 402, and a blowing port of the blower 4013 is communicated with a cavity 406 of the rotary drum 405.

Through setting up slider 4010 and being used for horizontal stable drive dust removal case 402 to slide in slide rail frame 403, dust removal case 402 one end fixed connection's clean cotton board 409 contacts with first dust cover 401, and clean cotton board 409 carries out the secondary to first dust cover 401 surface when dust removal case 402 collects impurity, and the inside rotary drum 405 one end of dust removal case 402 and back shaft 404 sealing connection, the rotary drum 405 other end and air-blower 4013 sealing connection.

Strong wind is conveyed to the cavity 406 in the rotary drum 405 through the blower 4013, wind power is gathered through the air gathering holes 407 and then blown into the dust collection box 402, impurities on the surface of the first dust cover 401 are blown up under the action of the strong wind, meanwhile, the driving motor 4012 is started, the driving motor 4012 drives the rotary drum 405 to rotate clockwise through the supporting shaft 404, the impurities in the dust collection box 402 are blown into the dirt storage bag 4011 leftwards along with the wind, the dirt storage bag 4011 is made of cotton and hemp, sand and impurities can be filtered in the dirt storage bag 4011 under the condition that the wind power circulation is not influenced, the dust prevention effect of the first dust cover 401 is guaranteed, the problem that the dust prevention effect of the first dust cover 401 is influenced, the external impurities enter a battery bin and the pollution and interference to devices in the battery bin are avoided, and the problem of stable operation of the whole system is influenced.

As shown in fig. 10, a clamping block 4014 is welded and connected to the inner wall of the right side of the dust collection box 402, a plurality of evenly distributed force control springs 4015 are disposed in the inner cavity of the clamping block 4014, fixing rings 4016 are respectively welded on the surfaces of the force control springs 4015, elastic plates 4017 are disposed on the left side surfaces of the fixing rings 4016, a flow guide force control plate 4018 is movably connected to the left end of each elastic plate 4017, and the flow guide force control plate 4018 is movably connected with the inner wall of the dust collection box 402 through a rotating shaft.

When strong wind blows on the diversion force control plate 4018, the bottom of the diversion force control plate 4018 moves backwards slightly, in order to avoid the excessive rigidity of the diversion force control plate 4018, the diversion force control plate 4018 is damaged when the strong wind blows, under the trial of the cooperation of the force control spring 4015 and the elastic sheet 4017, the diversion force control plate 4018 can adapt to the wind intensity to swing, the strong wind in the dust collection box 402 is subjected to wind power regulation, the wind in the dust collection box 402 is uniform, the phenomenon of wind disturbance is avoided, insufficient impurity cleaning is caused, the dust in the dust collection box 402 is lifted under the action of the brush 408 in order to avoid the phenomenon that the impurity is lifted up in the dust collection box 402 and is conveyed into the dust storage bag 4011 under the rotation of the brush 408.

As shown in fig. 3 and 5, the liquid cooling assembly 6 mainly comprises a liquid cooling main body 601, a liquid cooling water inlet main pipe 602 and a liquid cooling water outlet main pipe 603, wherein the liquid cooling water inlet main pipe 602 is surrounded outside the bottom side of the battery mounting frame 201, the liquid cooling water outlet main pipe 603 is surrounded outside the upper side of the battery mounting frame 201, the liquid cooling water inlet main pipe 602 and the liquid cooling water outlet main pipe 603 are respectively connected with the battery mounting frame 201 through a binding belt, and a first heat insulation plate 5 is arranged on the right side of the bottom plate upper surface of the container body 1 corresponding to the battery mounting frame 201.

One end of the liquid cooling water inlet main pipe 602 and one end of the liquid cooling water outlet main pipe 603 respectively penetrate through and extend to the right side of the first heat insulation plate 5, the liquid cooling main pipe 601 is arranged on the right side of the first heat insulation plate 5, the liquid cooling main pipe 601 is fixedly connected with one end of the liquid cooling water inlet main pipe 602 and one end of the liquid cooling water outlet main pipe 603 respectively, a plurality of liquid cooling vertical water inlet pipes 604 are arranged on the liquid cooling water inlet main pipe 602, and a plurality of liquid cooling vertical water outlet pipes 606 are arranged on the liquid cooling water outlet main pipe 603.

The liquid cooling vertical water inlet pipe 604 is respectively provided with a plurality of shunt pipes 605, the liquid cooling vertical water outlet pipe 606 is respectively provided with a plurality of shunt pipes 605, one end side of the liquid cooling battery pack 202 is provided with a heat exchange piece, the liquid inlet and outlet of the heat exchange piece are respectively fixedly connected with the shunt pipes 605 on the liquid cooling vertical water inlet pipe 604 and the liquid cooling vertical water outlet pipe 606, and the right side of the corresponding liquid cooling host 601 on the upper surface of the bottom plate of the container body 1 is provided with a fire assembly 7.

During operation of the liquid cooling assembly 6, the liquid cooling host 601 conveys cooling liquid to each liquid cooling water inlet main pipe 602 through the liquid cooling water inlet main pipe 602, then conveys the cooling liquid to the heat exchange piece on the liquid cooling battery pack 202 through the branch pipe 605 on the liquid cooling water inlet main pipe 602, the cooling liquid after temperature heat exchange in the liquid cooling battery pack 202 through the heat exchange piece also enters the liquid cooling vertical water inlet pipe 604 through the branch pipe 605 on the liquid outlet end, then is converged to the liquid cooling water outlet main pipe 603, and the flowing cooling liquid is conveyed back to the liquid cooling host 601 through the liquid cooling water outlet main pipe 603 for cooling, so that the liquid cooling of the battery body is realized by circulating and reciprocating, the overall heat dissipation effect is improved, and the working stability of the battery is maintained.

Second embodiment

In the practical use process, operators find that when the dust removing box 402 is driven to slide on the first dust cover 401 through the set sliding block 4010, if the dust removing box 402 is in sealed sliding connection with the first dust cover 401, dust on the first dust cover 401 is blocked outside the dust removing box 402, so that the dust cannot enter the dust storing bag 4011 through the dust removing box 402, and if the first dust cover 401 and the dust removing box 402 are directly provided with gaps, the dust in the dust removing box 402 is blown out of the dust removing box 402 under the blowing of the blower 4013, the dust cannot be cleaned effectively, meanwhile, the dust can only be cleaned above the first dust cover 401, and after the dust removing device is used for a long time, the dust falls into the first dust cover 401, so that the air supply assembly 302 is blocked, the cooling effect of the dust removing device is affected, and the dust removing effect is poor, so that the dust cannot be separated from the first dust cover 401, and therefore, the dust removing device is improved according to the embodiment.

The brush hair comb is arranged on the surface, contacted with the brush 408, of the flow guide force control plate 4018, and a sealing strip component is arranged at one end, close to the first dust cover 401, of the flow guide force control plate 4018.

Firstly, when the floating ash on the surface of the first dust cover 401 needs to be cleaned, the dust removal box 402 is driven to slide on the first dust cover 401 through the sliding block 4010, the cleaning cotton plate 409 contacted with the first dust cover 401 slides on the surface of the first dust cover 401 to scoop up the floating ash on the surface of the first dust cover 401, in the process, the driving motor 4012 is controlled to drive the supporting shaft 404 to rotate, so that the hairbrush 408 sleeved on the rotary drum 405 outside the supporting shaft 404 rotates clockwise, and when the hairbrush 408 rotates to be contacted with the cleaning cotton plate 409 and continuously rotates towards the direction of the dirt storage bag 4011, the rotating hairbrush 408 takes away dust on the cleaning cotton plate 409 and sends the dust into the dirt storage bag 4011, so that the first-stage cleaning of the first dust cover 401 is completed; when the brush 408 rotates in the direction of the flow guide plate 4018 and contacts the flow guide plate 4018 through the dirt storage bag 4011, the flow guide plate 4018 is extruded by the brush 408, the flow guide plate 4018 rotates in the direction of the elastic sheet 4017 under the extrusion of the brush 408 and simultaneously extrudes the elastic sheet 4017, and when the brush 408 rotates in the direction far away from the flow guide plate 4018, the flow guide plate 4018 is restored to the initial state under the action of the elastic sheet 4017, in the process, the brush hair comb is arranged on the flow guide plate 4018 to clean dust adsorbed on the brush 408, and meanwhile the cleaned dust falls to the first dust cover 401 again in the reciprocating motion process of the flow guide plate 4018 and is collected through the cleaning cotton plate 409, so that the dust on the surface of the first dust cover 401 is cleaned, and the dust adsorbed on the brush 408 is cleaned effectively.

Secondly, when the cleaning of the stubborn dust on the local surface of the first dust cover 401 is needed, the air blowing is carried out to the cavity 406 by controlling the air blower 4013, meanwhile, the brush 408 is driven to rotate by the driving motor 4012, the vertically arranged brush 408 bends under the action of the resistance of the air because the brush 408 can receive the resistance of the air in the rotating process, the wind discharged by the air gathering holes 407 is still kept in a state vertical to the brush plate by adjusting the wind power of the air blower 4013, in the state, when the brush plate rotates to the side opposite to the air guiding force control plate 4018, the wind discharged by the air gathering holes 407 firstly contacts with the air guiding force control plate 4018 and extrudes the air guiding force control plate 4018, and when the brush plate rotates to the position away from the air guiding force control plate 4018, the brush 408 contacts with the air guiding force control plate 4018, the flow guide force control plate 4018 is extruded, the rotation speed of the driving motor 4012 is regulated, the flow guide force control plate 4018 is always extruded under the action of wind power blown by the hairbrush 408 and the air blower 4013, so that the sealing strip component on the flow guide force control plate 4018 is in sealing contact with the first dust cover 401, the air blower 4013 is prevented from blowing dust in the dust removal box 402 outwards when working, meanwhile, the dust stubborn on the surface of the first dust cover 401 is strongly cleaned by the wind power blown by the air blower 4013, the dust at the position is conveyed into the dust storage bag 4011 by matching with the rotation of the hairbrush 408, the second-order cleaning of the first dust cover 401 is completed, the dust between the dust storage bag 4011 and the dust removal box 402 is cleaned by the arrangement of the air gathering hole 407, the dust is prevented from being blocked between the dust storage bag 4011 and the dust removal box 402, resulting in a problem that dust cannot be effectively collected.

In the above process, the extrusion force of the air blown by the blower 4013 to the flow guiding force control plate 4018 is the same as the extrusion force of the brush 408 to the flow guiding force control plate 4018, so that the sealing strip assembly on the flow guiding force control plate 4018 is always attached to the first dust cover 401, and a stable sealing connection is formed between the dust collection box 402 and the first dust cover 401.

Thirdly, only the dust on the surface of the first dust cover 401 can be effectively cleaned through the operation, when the dust blocked in the first dust cover 401 needs to be cleaned, the blowing-out wind power of the blower 4013 is regulated to enable the wind power blown out by the blower 4013 to extrude the flow control force plate 4018 more than the extrusion force of the brush 408 to the flow control force plate 4018, the brush is driven to rotate through the driving motor 4012, in the process, the gas sprayed out by the air gathering holes 407 is firstly contacted with the flow control force plate 4018 and extrudes the flow control force plate 4018, the flow control force plate 4018 rotates in the direction of the first dust cover 401, the first dust cover 401 is extruded, and when the air gathering holes 407 rotate in the direction away from the flow control force plate 4018, the flow control force plate 4018 rebounds under the action of the elastic sheet 4017, and meanwhile the brush 408 moves to the flow control force plate 4018 to extrude the flow control force plate 4018 to enable the flow control force plate 4018 to be attached to the first dust cover 401, and the dust cover 401 is continuously attached to the first dust cover 401 under the condition that the direction of the air gathering holes 407 is kept away from the direction of the flow control force plate 4018, and the first dust cover 401 is continuously extruded under the action of the direction of the flow control force of the first dust cover 401, and the direction of the flow control plate 4018 is continuously extruded by the flow control force control plate 4018, and the flow control force is continuously extruded by the flow control plate 4018 under the direction of the air gathering holes 401 is continuously attached to the direction of the flow control force control plate 4018.

Finally, after long-term use, part of fine dust can pass through the first dust cover 401 and fall on the air supply assembly 302, at this time, all the air outlets 306 are closed through the air quantity regulating valve arranged on the air outlets 306, so that the air in the air storage cavity 305 cannot be discharged outwards, meanwhile, the air supply assembly 302 at the bottom of the dust removal box 402 is controlled to change the air supply direction to move the air in the air storage cavity 305 to the direction of the dust removal box 402 through the air supply assembly 302 at the position, the rest of the air supply assemblies 302 still continue to supply air to the air storage cavity 305, so that sufficient air is always reserved in the air storage cavity 305, at this time, the fine dust adsorbed on the air supply assembly 302 on the dust removal box 402 is delivered into the dust storage bag 4011 by matching with the rotation of the hairbrush 408, and therefore, the dust on the air supply assembly 302 is cleaned outwards, the air quantity of each layer of battery installation assembly 2 can be regulated in a self-adaptive manner by controlling the opening size of the air quantity regulating valve, and the abnormal operation of the battery package 202 at the layer is prevented from being higher than the temperature of other layers, and the heat dissipation uniformity of the battery installation device is further improved.

It should be noted that, in the invention, the bristle comb is arranged on the surface of the flow guiding force control plate 4018 contacted with the brush 408, the sealing strip component is arranged at one end of the flow guiding force control plate 4018 close to the first dust cover 401, when the rotary drum 405 is controlled to rotate, the brush 408 is attached to the flow guiding force control plate 4018, impurities on the bristle 408 are effectively separated, the flow guiding force control plate 4018 is attached to the first dust cover 401 in a sealing way by matching with the blowing of the blower 4013, impurities on the surface of the first dust cover 401 are blown up under the action of strong wind, dust is sent to the dust storage bag 4011 by matching with the brush 408, meanwhile, the first dust cover 401 is vibrated by changing the size of wind, and the dust which is difficult to remove is separated from the first dust cover 401, so that the dust removing effect of the device is further improved.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The energy storage container is characterized by comprising a container body (1), wherein a battery mounting assembly (2), an air cooling assembly (3), a dust prevention assembly (4) and a liquid cooling assembly (6) are arranged in the container body (1);

the battery mounting assembly (2) comprises a battery mounting frame (201) and a liquid cooling battery pack (202), a base (203) is arranged at the bottom end of the battery mounting frame (201), a chute is arranged at the center of the base (203), a plurality of fixed sliding rails (204) are uniformly arranged on the upper surface of a bottom plate of the container body (1), the outer surfaces of the fixed sliding rails (204) are in sliding fit with the inside of the chute, a limiting mechanism is arranged on the fixed sliding rails (204), a plurality of battery accommodating grooves are formed in the battery mounting frame (201), and the inside of each battery accommodating groove is fixedly connected with the liquid cooling battery pack (202);

the air cooling assembly (3) comprises an air supply assembly (302), an air storage box (303) and an air exhausting assembly (308), wherein a top plate of the container body (1) is provided with a mounting groove (301), an inner cavity bottom plate of the mounting groove (301) is fixedly connected with the lower end face of the air supply assembly (302), a plurality of air inlets (304) are formed in corresponding positions of the inner cavity bottom plate of the mounting groove (301) and the upper end face of the air storage box (303), an air storage cavity (305) is formed in the air storage box (303), evenly distributed air outlets (306) are formed in front and rear side plates of the air storage box (303), an air quantity regulating valve is arranged in each air outlet (306), and the air quantity regulating valve is used for controlling the opening size of the air outlet (306), and the outer walls of the front side plate and the rear side plates of the air storage box (303) are fixedly connected with the battery mounting frame (201);

the dustproof assembly (4) comprises a first dustproof cover, a flow guide force control plate (4018) and a hairbrush (408), wherein a bristle comb is arranged on one surface, in contact with the hairbrush (408), of the flow guide force control plate (4018), and a sealing strip assembly is arranged at one end, close to the first dustproof cover (401), of the flow guide force control plate (4018).

2. An energy storage container as claimed in claim 1, wherein: the dustproof assembly (4) comprises a first dustproof cover (401) and a dust removal box (402), the short side plate of the first dustproof cover (401) is fixedly connected with the short side plate of the mounting groove (301), a supporting shaft (404) is arranged in an inner cavity of the dust removal box (402), the supporting shaft (404) is movably connected with the dust removal box (402), the front end of the supporting shaft (404) penetrates through and extends to the outer side of the front side plate of the dust removal box (402), a driving motor (4012) is arranged on the outer side of the front side plate of the dust removal box (402), and an output shaft of the driving motor (4012) is fixedly connected with the rear end of the supporting shaft (404).

3. An energy storage container as claimed in claim 2, wherein: the utility model discloses a dust cover, including back shaft (404), rotary drum (405) is welded to back shaft (404) outer wall coaxial, cavity (406) have been seted up to the inside of rotary drum (405), be provided with on the inner wall of cavity (406) and gather gas pocket (407), gather gas pocket (407) one end and run through and extend to rotary drum (405) outer wall, gather gas pocket (407) outer end is provided with brush (408), brush (408) outer end and first dust cover (401) up end contact.

4. An energy storage container as claimed in claim 2, wherein: the dust collection device is characterized in that a sliding track frame (403) is arranged at the top end of the first dust cover (401), sliding grooves are formed in the inner sides of two long sides of the sliding track frame (403), a cleaning cotton plate (409) is arranged at the left end of the bottom of the dust collection box (402), the bottom side of the cleaning cotton plate (409) is in contact with the upper end face of the first dust cover (401), sliding blocks (4010) are respectively arranged on the outer walls of the front side and the rear side of the dust collection box (402), the outer walls of the sliding blocks (4010) are in sliding fit with the sliding grooves, a dirt collection opening is formed in the left side of the dust collection box (402), and a dirt storage bag (4011) is arranged on the outer side of the dirt collection opening.

5. An energy storage container as claimed in claim 2, wherein: the dust removal box is characterized in that a blower (4013) is arranged on the rear side of the dust removal box (402), a blowing port of the blower (4013) is communicated with the cavity (406), a clamping block (4014) is arranged on the inner wall of the dust removal box (402), a plurality of evenly distributed force control springs (4015) are arranged in the inner cavity of the clamping block (4014), fixing rings (4016) are respectively welded on the surfaces of the force control springs (4015), elastic pieces (4017) are arranged on the left side surfaces of the fixing rings (4016), a flow guide force control plate (4018) is movably connected to the left end of each elastic piece (4017), and the flow guide force control plate (4018) is movably connected with the inner wall of the dust removal box (402) through a rotating shaft.

6. An energy storage container as claimed in claim 1, wherein: the liquid cooling assembly (6) mainly comprises a liquid cooling host machine (601), a liquid cooling water inlet main pipe (602) and a liquid cooling water outlet main pipe (603), the liquid cooling water inlet main pipe (602) is arranged outside the bottom side of the battery mounting frame (201), the liquid cooling water outlet main pipe (603) is arranged outside the upper side of the battery mounting frame (201), the liquid cooling water inlet main pipe (602) and the liquid cooling water outlet main pipe (603) are fixedly connected with the battery mounting frame (201) respectively, and a first heat insulation plate (5) is arranged on the right side of the corresponding battery mounting frame (201) on the upper surface of the bottom plate of the container body (1).

7. An energy storage container as in claim 6, wherein: the liquid cooling water inlet main pipe (602) and the liquid cooling water outlet main pipe (603) are respectively penetrated and extended to the right side of the first heat insulation plate (5), the liquid cooling host machine (601) is arranged on the right side of the first heat insulation plate (5), the liquid cooling host machine (601) is respectively fixedly connected with one ends of the liquid cooling water inlet main pipe (602) and the liquid cooling water outlet main pipe (603), a plurality of liquid cooling vertical water inlet pipes (604) are arranged on the liquid cooling water inlet main pipe (602), and a plurality of liquid cooling vertical water outlet pipes (606) are arranged on the liquid cooling water outlet main pipe (603).

8. An energy storage container as in claim 7, wherein: the liquid cooling vertical water inlet pipe (604) and the liquid cooling vertical water outlet pipe (606) are respectively provided with a plurality of shunt pipes (605), one end side of the liquid cooling battery pack (202) is provided with a heat exchange piece, and the liquid inlet and the liquid outlet of the heat exchange piece are respectively fixedly connected with the shunt pipes (605) on the liquid cooling vertical water inlet pipe (604) and the liquid cooling vertical water outlet pipe (606).

9. An energy storage container as in claim 7, wherein: the fire-fighting device is characterized in that a fire-fighting assembly (7) is arranged on the right side of the container body (1) bottom plate, corresponding to the liquid cooling host (601), a second heat insulation plate (9) is arranged on the left side of the container body (1) bottom plate, corresponding to the battery installation assembly (2), an electric bin (8) is arranged on the left side of the second heat insulation plate (9), a wind shield is arranged on the outer side of the electric bin (8), and a partition plate is arranged on the upper side of the electric bin (8).

10. An energy storage container as claimed in claim 9, wherein: the upper left side of second thermal insulation board (9) is provided with two first air-out pipelines (307), first air-out pipeline (307) left end is provided with convulsions subassembly (308) respectively, convulsions subassembly (308) air-out end all is provided with second air-out pipeline (309), second air-out pipeline (309) external screw thread connection has second dust cover (4019).