CN116031772A - Power self-adaptive control module of mobile energy storage vehicle and application - Google Patents

Abstract

The application relates to the technical field of mobile energy storage, and discloses a mobile energy storage vehicle power self-adaptive control module and application, equipment shell, a plurality of louvres have all been run through to the both sides of equipment shell, equipment base is installed to equipment shell's bottom detachable, the inclined plane groove has been seted up at equipment shell's top, it has the protective cover to articulate between the inclined plane groove both sides cell wall, the square hole has been run through to have been seted up on the bottom cell wall in inclined plane groove. When the power supply system is used, the energy supply parameters of the movable energy storage vehicle can be set through the adjusting buttons along with the starting of the control module body, and after the parameters are set, the control module body can automatically adjust the power according to the power supply requirements, so that the actual load is met, the effect of accurate power output is achieved, the condition that the low-voltage switch of the platform is in power failure due to overload tripping is reduced, the power supply reliability is improved, and the experience of domestic electricity is improved.

Description

Power self-adaptive control module of mobile energy storage vehicle and application

Technical Field

The application relates to the technical field of mobile energy storage, in particular to a power self-adaptive control module and application of a mobile energy storage vehicle.

Background

When the power consumption peak period in summer is entered, capacity is insufficient in a plurality of areas, and the condition of heavy overload of a transformer occurs, the movable energy storage vehicle is required to be used for temporarily increasing capacity and supplying power in the areas, so that the capacity deficiency of the areas is relieved. At present, the mobile energy storage vehicle cannot acquire the real-time load of the platform area, can only operate according to a preset time-power curve, cannot accurately output power in real time according to the actual load of the platform area, and has the risk of insufficient power or overlarge real-time charging power which is sent out in real time. In order to solve the problem, a control module for adjusting the real-time power of the mobile energy storage vehicle is generally arranged on the mobile energy storage vehicle, so that the effect of enabling the energy storage vehicle to automatically adjust the power to accurately output the actual load is achieved, and the situation that the low-voltage switch of the transformer area is in power failure due to overload tripping is reduced.

However, in actual use, the control module has a high working temperature and a long working time, so that the control module is in fire risk, the existing control module is lack of a proper fire extinguishing device, and then when the control module is in fire condition, the mobile energy storage vehicle is easy to fire together.

Therefore, it is necessary to solve the above-mentioned problems by inventing a power adaptive control module and application of a mobile energy storage vehicle.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides a power self-adaptive control module and application of a mobile energy storage vehicle, and solves the problems in the background art.

In order to achieve the above purpose, the present application provides the following technical solutions:

the utility model provides a remove energy storage car power self-adaptation control module, includes the equipment shell, a plurality of louvres have all been run through to the both sides of equipment shell, equipment base is installed to equipment shell's bottom detachable, the inclined plane groove has been seted up at equipment shell's top, articulated between the inclined plane groove both sides cell wall have the protective cover, the square hole has been seted up in running through on the bottom cell wall in inclined plane groove, articulated between the cell wall of square hole both sides have the display screen, the display screen openly is down, and the hinge point in display screen and square hole is close to with the rear side in square hole, all articulated between display screen both sides and the protective cover bottom have first telescopic link, the storage groove has been seted up on the square hole front side cell wall, and is equipped with extinguishing device in the storage groove.

Preferably, the fire extinguishing device comprises a sealing plate, a plurality of storage tanks are arranged at the bottom of the sealing plate in parallel along two side directions, dry powder extinguishing agent is arranged in each storage tank, a cover plate matched with each storage tank is arranged at the bottom of each storage tank, the cover plate is hinged to the bottom of the sealing plate, a hinge point is close to the rear side of the cover plate, an air bag is arranged at the front side of the sealing plate, a second telescopic rod is fixedly connected between the front inner wall and the rear inner wall of the air bag, a first spring is sleeved on the second telescopic rod and is in a compressed state, a strip-shaped through hole is formed in the groove wall at the bottom of each storage tank, a heat conducting strip matched with the through hole is arranged in each through hole, and a heat conducting plate is fixedly connected to the bottom of each heat conducting strip and fixedly connected with the top inner wall of the equipment casing.

Preferably, the device base is provided with a control module body which is in wireless control, the control module body is positioned at the right bottom of the heat conducting plate, the rear side of the control module body is provided with a power socket, the power socket is arranged on the inner wall of the rear side of the device shell, the rear side of the power socket is connected with a power wire in an inserting mode, the power socket is electrically connected with the control module body through a wire, the top of the device shell is provided with a plurality of adjusting buttons, and the adjusting buttons are electrically connected with the control module body.

Preferably, the heat dissipation fan group is detachably mounted on the inner wall of the rear side of the equipment shell, a plurality of heat dissipation fans are mounted on the heat dissipation fan group, and the plurality of heat dissipation fans are all inclined downwards and are opposite to the control module body.

Preferably, the equipment shell both sides all are equipped with the baffle, a plurality of and louvre assorted connecting hole has been run through along both sides direction to the baffle, and a plurality of connecting holes and a plurality of louvres one-to-one, the front and back side of baffle all is equipped with L shape slat, L shape slat and the side inner wall fixed connection of equipment shell, and the relative one side cooperation of two L shape slats forms the guide rail, baffle slidable mounting is in this guide rail, fixedly connected with third telescopic link between the bottom of baffle and the equipment base, and the second spring has been cup jointed on the third telescopic link, the top of baffle is from the back gradually upwards slope, and the top of two baffles is equipped with same depression bar, rotate on the depression bar and cup jointed two connecting blocks, the connecting block top corresponds all set up the spacing groove on heating panel and the equipment shell top inner wall, spacing groove and storage groove intercommunication, and two connecting blocks pass the bottom fixed connection of two spacing grooves and closing plate respectively.

Preferably, the top of the equipment shell and the receiving groove are inclined upwards from front to back, and the top of the equipment shell is parallel to the top of the baffle.

Preferably, a clamping groove matched with the pressure rod is formed in the top of the baffle, and the maximum distance between the clamping groove and the pressure rod is equal to the maximum movement distance of the sealing plate.

Preferably, a filter screen is arranged in the square hole, and the periphery of the filter screen is detachably connected with the periphery inner wall of the square hole.

Preferably, the rear ends of the second telescopic rods penetrate and are inserted into the front sides of the air bags, the same connecting plate is fixedly connected between the rear ends of the second telescopic rods, and the connecting plate is tightly attached to the front sides of the sealing plates.

A use comprising a mobile energy storage vehicle power adaptive control module according to any one of claims 1-9.

The application provides a mobile energy storage vehicle power self-adaptive control module and application, possesses following beneficial effect:

this remove energy storage car power self-adaptation control module, through being equipped with the control module body, during the use, along with the control module body is started, can set up the energy supply parameter of removing the energy storage car through adjusting button, after the parameter sets for, the control module body can be according to power supply demand automatically regulated power to deal with actual load, reach accurate effect of power, reduce the district low voltage switch because of overload trip power failure's condition, promote power supply reliability, and improve the experience of domestic electricity.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive faculty for a person skilled in the art.

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

FIG. 2 is a schematic view of the external structure of the housing of the apparatus of the present invention;

FIG. 3 is a schematic view of the internal structure of the device housing of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3 in accordance with the present invention;

FIG. 5 is a perspective cross-sectional view of FIG. 2 in accordance with the present invention;

FIG. 6 is an enlarged view of portion B of FIG. 5 in accordance with the present invention;

fig. 7 is a perspective sectional view of a structure other than the protective cover in the present invention;

FIG. 8 is a schematic perspective view of a sealing plate, a cover plate and an airbag according to the present invention;

fig. 9 is an enlarged view of a portion C of fig. 8 in the present invention.

In the figure: 1. an equipment housing; 2. an equipment base; 3. a protective cover; 4. a display screen; 5. a first telescoping; 6. a fire extinguishing device; 61. a sealing plate; 62. a cover plate; 63. an air bag; 64. a second telescopic rod; 65. a first spring; 66. a heat conducting strip; 67. a heat conductive plate; 7. a control module body; 8. a power socket; 9. a power line; 10. an adjustment button; 11. a heat dissipation fan; 12. a baffle; 13. l-shaped laths; 14. a third telescopic rod; 15. a second spring; 16. a compression bar; 17. a connecting block; 18. a clamping groove; 19. a filter screen; 20. and (5) connecting a plate.

Detailed Description

In order to make the application objects, features and advantages of the present application more obvious and understandable, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

In the description of the present application, it should be understood that the terms "upper," "lower," "top," "bottom," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

The technical solution of the present application will be further described with reference to fig. 1 to 9 and by means of specific embodiments.

Example 1:

the application provides a technical scheme: the utility model provides a portable energy storage car power self-adaptation control module, including equipment shell 1, equipment shell 1's both sides all run through and have seted up a plurality of louvres, equipment shell 1's bottom detachable installs equipment base 2, the inclined plane groove has been seted up at equipment shell 1's top, articulated have the shield cover 3 between the inclined plane groove both sides cell wall, square hole has been seted up in the run-through on the bottom cell wall in inclined plane groove, articulated between the cell wall of square hole both sides have display screen 4, display screen 4 is openly down, and the pin joint of display screen 4 and square hole is close to with the rear side in square hole, all articulate first flexible 5 pole between display screen 4 both sides and the shield cover 3 bottom, set up the storage tank on the square hole front side pore wall, and be equipped with extinguishing device 6 in the storage tank, be equipped with filter screen 19 in the square hole, detachable all around with the square hole inner wall connection together, install wireless control's control module body 7 on the equipment base 2, and control module body 7 is located the positive bottom of heat-conducting plate 67, the rear side of control module body 7 is equipped with supply socket 8, supply socket 8 installs on equipment shell 1 rear side inner wall, and the fan 8 is installed with a plurality of electric fan modules 10 and is connected with the fan module 7, the fan 11 is installed to the fan module group is installed to the fan module 10, and is connected with a plurality of electric fan module 11 on the electric fan module 11, and the electric property is connected with a plurality of fan module 11, and is installed down to the fan module 11.

Before use, the control module body 7 is connected into a power supply through a power line 9, and then the wireless control module in the control module body 7 is in wireless connection with a monitoring system in the mobile energy storage vehicle, so that the problem of difficult on-site wiring of the existing control module is solved;

when the movable energy storage vehicle is used, the protective cover 3 is opened, the display screen 4 is gradually deflected upwards and finally in a vertical state under the pulling of the two first telescopic 5 rods, then the control module body 7 is started, energy supply parameters of the movable energy storage vehicle are set through the adjusting buttons 10, after the parameters are set, the control module body 7 can automatically adjust power according to power supply requirements, so that actual load is met, the effect of accurate power output is achieved, the condition that a low-voltage switch in a platform area has power failure due to overload tripping is reduced, the power supply reliability is improved, and the experience of domestic electricity is improved;

in addition, when the display screen 4 is in a vertical state in use, the square hole is in an open state, so that a heat radiation outlet of the equipment shell 1 can be increased, the heat radiation effect of the control module body 7 is improved by matching with the heat radiation effect of the heat radiation fan 11 on the control module body 7, and the filter screen 19 in the square hole can intercept external sundries to prevent the sundries from entering the equipment shell 1 through the square hole;

through being equipped with extinguishing device 6 in accomodating the inslot, when control module body 7 conflagration took place, extinguishing device 6 can pop out from accomodating the inslot automatically to when sealing square hole, release dry powder extinguishing agent, and then put out a fire to control module body 7 and operate, avoid the intensity of a fire to enlarge the safety in utilization that influences the removal energy storage car.

As shown in fig. 5, fig. 6, fig. 8 and fig. 9, the fire extinguishing device 6 comprises a sealing plate 61, a plurality of storage grooves are formed in parallel along two side directions at the bottom of the sealing plate 61, dry powder fire extinguishing agent is arranged in each storage groove, a cover plate 62 matched with the storage groove is arranged at the bottom of each storage groove, the cover plate 62 is hinged with the bottom of the sealing plate 61, the hinge point is close to the rear side of the cover plate 62, an air bag 63 is arranged at the front side of the sealing plate 61, a second telescopic rod 64 is fixedly connected between the rear inner walls of the front side of the air bag 63, a first spring 65 is sleeved on the second telescopic rod 64, the first spring 65 is in a compressed state, a strip-shaped through hole is formed in the groove wall corresponding to the bottom of the air bag 63 in a penetrating manner, a heat conducting strip 66 matched with the through hole is arranged in the through hole, a heat conducting plate 67 is fixedly connected to the bottom of the heat conducting strip 66, the heat conducting plate 67 is fixedly connected with the inner walls of the top of the equipment shell 1, the rear end of the second telescopic rod 64 penetrates through the front side of the air bag 63, a same connecting plate 20 is fixedly connected between the rear ends of the plurality of the second telescopic rods 64, and the front side of the connecting plate 20 is tightly attached to the front side of the sealing plate 61;

when the control module body 7 catches fire, because the control module is located at the bottom of the heat conducting plate 67, along with the heating of the heat conducting plate 67 by fire, heat can be transferred to the air bag 63 through the heat conducting plate 67 and the heat conducting strip 66, and the air bag 63 is melted and broken along with the continuous heating, and at the moment after the air bag 63 breaks, the first springs are not limited by the air bag 63 any more, at this time, the corresponding second telescopic rods 64 are pushed by the first springs 65 to be suddenly stretched, and the connecting plates 20 are connected between the second telescopic rods 64, so that the sealing plates 61 can be synchronously pushed to pop out of the storage groove under the connecting action of the connecting plates 20;

and along with closing plate 61 removes from accomodating the inslot, after accomodating the apron 62 of thing groove bottom and removing the groove, because apron 62 no longer receives the supporting role of accomodating groove bottom cell wall, apron 62 can deflect downwards under the effect of gravity this moment, thereby make the bottom of putting the thing groove opened, and be located the dry powder fire extinguishing agent of putting in the thing inslot then can follow and put out the thing inslot, thereby put out a fire operation to control module body 7, after closing plate 61 moves out the groove completely under the effect of a plurality of first springs 65, closing plate 61 can seal the square hole, thereby avoid the fire to outwards spread through square hole, improve the fire extinguishing effect of dry powder fire extinguishing agent.

As shown in fig. 3-6, two sides of the equipment shell 1 are respectively provided with a baffle 12, the baffle 12 is penetrated and provided with a plurality of connecting holes matched with the radiating holes along the two side directions, the connecting holes are in one-to-one correspondence with the radiating holes, the front side and the rear side of the baffle 12 are respectively provided with an L-shaped slat 13, the L-shaped slat 13 is fixedly connected with the inner wall of the side face of the equipment shell 1, one side opposite to the two L-shaped slats 13 is matched with form a guide rail, the baffle 12 is slidably arranged in the guide rail, a third telescopic rod 14 is fixedly connected between the bottom of the baffle 12 and the equipment base 2, a second spring 15 is sleeved on the third telescopic rod 14, the top of the baffle 12 is gradually inclined upwards from front to back, the top of the two baffles 12 is provided with the same pressure bar 16, the pressure bar 16 is rotatably sleeved with two connecting blocks 17, the heat dissipation plate corresponding to the top of the connecting blocks 17 and the inner wall of the top of the equipment shell 1 are provided with limit grooves which are communicated with the storage grooves, the two connecting blocks 17 respectively penetrate through the two limit grooves to be fixedly connected with the bottom of the sealing plate 61, the top of the baffle 12 is provided with a clamping groove 18 matched with the pressure bar 16, the maximum distance between the clamping groove 18 and the pressure bar 16 is equal to the maximum movement distance of the sealing plate 61, the top of the equipment shell 1 and the storage grooves are inclined upwards from front to back, and the top of the equipment shell 1 is parallel to the top of the baffle 12;

after the airbag 63 melts and breaks under the heat conduction effect of the heat conduction plate 67 and the heat conduction strips 66, the sealing plate 61 pops up in the accommodating groove under the action of the plurality of first springs 65 along with the release of the elastic potential energy of the first springs 65, in the process, the compression rod 16 rolls along the tops of the two baffles 12 under the driving of the sealing plate 61 along with the movement of the sealing plate 61, and the two baffles 12 can gradually move downwards under the pressing of the compression rod 16, so that the third telescopic rod 14 and the second spring 15 are compressed;

and along with the downward movement of baffle 12, the connecting hole on the baffle 12 staggers with the louvre on the equipment shell 1 gradually, when the depression bar 16 moves to baffle 12 top draw-in groove 18 position, depression bar 16 can block into draw-in groove 18 to lock closing plate 61 and baffle 12 current position, and the connecting hole on the baffle 12 staggers with the louvre on the equipment shell 1 completely, thereby realized the sealed operation to the louvre, simultaneously, closing plate 61 also seals square hole completely just, equipment shell 1 inside is in sealed state this moment, thereby can avoid outside air to enter into inside the equipment shell 1, and then play the effect of isolating oxygen, improve the fire extinguishing efficiency of dry powder fire extinguishing agent.

Example 2:

the embodiment provides a mobile energy storage vehicle power adaptive control application, which comprises the mobile energy storage vehicle power adaptive control module in embodiment 1.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

The above embodiments are merely for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. The utility model provides a mobile energy storage car power self-adaptation control module and application, includes equipment shell (1), its characterized in that: the utility model discloses a fire extinguishing device, including equipment shell (1), inclined plane groove, square hole, display screen (4), hinge point and square hole's rear side are close to, all hinge has first flexible (5) pole between display screen (4) both sides and the bottom of protective cover (3), the storage tank has been seted up on the wall of square hole front side pore, and is equipped with fire extinguishing device (6) in the storage tank.

2. The mobile energy storage vehicle power self-adaptive control module and application according to claim 1, wherein the fire extinguishing device (6) comprises a sealing plate (61), a plurality of object placing grooves are formed in the bottom of the sealing plate (61) in parallel along two side directions, dry powder fire extinguishing agent is arranged in each object placing groove, a cover plate (62) matched with the storage groove is arranged at the bottom of each object placing groove, the cover plate (62) is hinged to the bottom of the sealing plate (61), a hinging point is close to the rear side of the cover plate (62), an air bag (63) is arranged at the front side of the sealing plate (61), a second telescopic rod (64) is fixedly connected between the front side and the rear inner wall of the air bag (63), a first spring (65) is sleeved on the second telescopic rod (64), the first spring (65) is in a compressed state, a strip-shaped through hole is formed in the groove wall at the bottom of the object placing groove corresponding to the bottom of the air bag (63), a heat conducting strip (66) matched with the through hole is arranged in the through hole, a heat conducting plate (67) is fixedly connected to the bottom of the heat conducting strip (66), and the heat conducting plate (67) is fixedly connected to the heat conducting plate (67) and the inner wall (1) of the heat conducting device.

3. The mobile energy storage vehicle power adaptive control module of claim 2, wherein: install wireless control's control module body (7) on equipment base (2), and control module body (7) are located the positive bottom of heat-conducting plate (67), the rear side of control module body (7) is equipped with supply socket (8), supply socket (8) are installed on equipment shell (1) rear side inner wall, the rear side of supply socket (8) is pegged graft and is had power cord (9), and electric connection has the wire between supply socket (8) and control module body (7), a plurality of adjustment button (10) are installed at equipment shell (1) top, and a plurality of adjustment button (10) all with control module body (7) electric connection.

4. The mobile energy storage vehicle power adaptive control module of claim 3, wherein: the device comprises a device shell (1), wherein a cooling fan group is detachably arranged on the inner wall of the rear side of the device shell, a plurality of cooling fans (11) are arranged on the cooling fan group, and the cooling fans (11) are inclined downwards and are opposite to a control module body (7).

5. The mobile energy storage vehicle power adaptive control module of claim 4, wherein: the device comprises a device shell (1), baffle plates (12) are arranged on two sides of the device shell (1), a plurality of connecting holes matched with the radiating holes are formed in the baffle plates (12) in a penetrating mode along two sides, the connecting holes and the radiating holes are in one-to-one correspondence, L-shaped battens (13) are arranged on the front side and the back side of the baffle plates (12), the L-shaped battens (13) are fixedly connected with the side inner walls of the device shell (1), one sides of the two L-shaped battens (13) opposite to each other are matched to form a guide rail, the baffle plates (12) are slidably mounted in the guide rail, a third telescopic rod (14) is fixedly connected between the bottom of the baffle plates (12) and the device base (2), a second spring (15) is sleeved on the third telescopic rod (14), the tops of the baffle plates (12) are gradually inclined upwards from front to back, the tops of the two baffle plates (12) are provided with one pressing rod (16), two connecting blocks (17) are rotatably sleeved on the tops of the L-shaped battens (13), and the inner walls of the top of the device shell (1) are provided with guide rails, and the limit grooves are formed in the top of the device shell (1), and the limit grooves are communicated with the limit grooves and the limit grooves are respectively and the limit grooves are communicated with the limit grooves and the limit grooves are formed in the limit grooves 61.

6. The mobile energy storage vehicle power adaptive control module of claim 5, wherein: the top of the equipment shell (1) and the storage groove are inclined upwards from front to back, and the top of the equipment shell (1) is parallel to the top of the baffle plate (12).

7. The mobile energy storage vehicle power adaptive control module of claim 5, wherein: a clamping groove (18) matched with the pressing rod (16) is formed in the top of the baffle plate (12), and the maximum distance between the clamping groove (18) and the pressing rod (16) is equal to the maximum movement distance of the sealing plate (61).

8. The mobile energy storage vehicle power adaptive control module of claim 1, wherein: the square hole is internally provided with a filter screen (19), and the periphery of the filter screen (19) is detachably connected with the inner walls of the periphery of the square hole.

9. The mobile energy storage vehicle power adaptive control module of claim 7, wherein: the rear ends of the second telescopic rods (64) penetrate and are inserted into the front sides of the air bags (63), one connecting plate (20) is fixedly connected between the rear ends of the second telescopic rods (64), and the connecting plate (20) is tightly attached to the front sides of the sealing plates (61).

10. A use comprising a mobile energy storage vehicle power adaptive control module according to any one of claims 1-9.

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