CN212542612U - Electric power energy storage equipment - Google Patents

Abstract

The embodiment of the utility model provides an electric power energy storage equipment relates to electric power energy storage technical field. The electric energy storage equipment comprises a protection mechanism, a temperature control mechanism and an electric energy storage mechanism. The protection mechanism comprises a bottom plate, a movable sealing cover and a plurality of protection supporting side plates, wherein the bottom plate and the movable sealing cover are oppositely arranged and are respectively connected with the plurality of protection supporting side plates to form a first accommodating space. The electric energy storage mechanism is accommodated in the first accommodating space and used for providing electric energy for an external load. The temperature control mechanism is arranged on the protection mechanism and used for regulating and controlling the temperature of the electric energy storage mechanism. Therefore, the temperature of the electric energy storage mechanism can be adjusted in real time through the temperature control mechanism, so that the electric energy storage mechanism is in a proper working temperature range, and the service life of the electric energy storage equipment is prolonged.

Description

Electric power energy storage equipment

Technical Field

The utility model relates to an electric power energy storage technical field particularly, relates to an electric power energy storage equipment.

Background

Along with the rapid development of social economy, the demand of human beings on energy is increasingly vigorous, the problems of energy shortage and environmental pollution caused by fossil energy are increasingly acute, the potential of new energy resources is high, the new energy resources can be continuously utilized, the new energy resources play an important role in meeting the energy demand, improving the energy structure, reducing the environmental pollution, promoting the economic development and the like, and the wide attention of the international society is drawn. Under the double pressure of energy safety and environmental protection, renewable energy power generation such as wind power generation and solar power generation with relatively mature technology and large-scale development conditions is rapidly developed in the world.

However, the existing power storage device is prone to cause the temperature of the structure to rise during the power storage and consumption processes, and further affects the service life of the device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric power energy storage equipment to current electric power energy storage equipment who proposes in solving above-mentioned background art is carrying out electric power storage and is consuming the process and easily causing structural temperature to rise, and then influences the life's of equipment problem.

The embodiment of the utility model is realized like this:

in a first aspect, an embodiment of the present invention provides an electric energy storage device, where the electric energy storage device includes a protection mechanism, a temperature control mechanism, and an electric energy storage mechanism;

the protection mechanism comprises a bottom plate, a movable sealing cover and a plurality of protection supporting side plates, wherein the bottom plate and the movable sealing cover are oppositely arranged and are respectively connected with the plurality of protection supporting side plates to form a first accommodating space;

the electric energy storage mechanism is accommodated in the first accommodating space and used for providing electric energy for an external load;

the temperature control mechanism is arranged on the protection mechanism and used for regulating and controlling the temperature of the electric energy storage mechanism.

In an optional embodiment, the plurality of protective supporting side plates include a first protective supporting side plate and a second protective supporting side plate, and the temperature control mechanism includes a heat dissipation device and a heating device;

the first protection supporting side plate and the second protection supporting side plate are arranged oppositely, the first protection supporting side plate comprises a first connecting positioning plate, and the second protection supporting side plate comprises a second connecting positioning plate;

the heat dissipation device is arranged on the first connecting positioning plate, accommodated in the accommodating space and used for dissipating heat of the electric energy storage mechanism;

the heating device is arranged on the second connecting and positioning plate through a fixed limiting ring, is accommodated in the accommodating space and is used for heating the electric energy storage mechanism.

In an optional embodiment, the heat dissipation device is any one or more of a heat dissipation fan box or a water-cooled heat sink, and the heating device is any one or more of a heating rack or an ethanol heater.

In an optional embodiment, the temperature control mechanism further includes a filtering sealing plate, which is disposed between the first connecting and positioning plate and the heat dissipation device, and is configured to filter air entering the heat dissipation device;

the filtering closing plate is further arranged between the second connecting and positioning device and the heating device and used for filtering air entering the heating device.

In an optional embodiment, the power energy storage device further comprises a support mechanism, which is disposed on the bottom plate and is used for supporting the power energy storage device;

the supporting mechanism comprises a supporting column and a pulley, wherein one end of the supporting column is fixed on the bottom plate, and the other end of the supporting column is connected with the pulley.

In an optional embodiment, the plurality of protective supporting side plates further include a third protective supporting side plate and a fourth protective supporting side plate, and the power energy storage device further includes a side supporting mechanism, which is disposed on the third protective supporting side plate or the fourth protective supporting side plate and is used for supporting and fixing the power energy storage mechanism;

the side supporting mechanism comprises a guide adjusting sleeve, an adjusting telescopic rod, a connecting ear seat, a supporting foot plate and a clamping block;

the connecting lug seat is fixed on one side of the third protection supporting side plate or the fourth protection supporting side plate;

one end of the guide adjusting sleeve is connected with the connecting lug seat, and the other end of the guide adjusting sleeve is sleeved at one end of the adjusting telescopic rod;

the other end of the adjusting telescopic rod is connected with the supporting foot plate;

the clamping piece install in the third protection support curb plate or the fourth protection support curb plate is kept away from one side of connecting the ear seat, the clamping piece is used for being worked as adjust the telescopic link and fix when being in the extension state support sole.

In an alternative embodiment, the electric energy storage mechanism comprises a battery block, a sealing structure, an insulating fixed shell and a lifting handle;

the lifting handle is fixed at one end of the battery block;

the battery block is accommodated and sealed in the insulating fixed shell through the sealing structure.

In an alternative embodiment, the sealing structure comprises a sealing end cover and a sealing gasket, and the insulating fixing shell comprises a partition plate, a partition strip, a connecting fixing ring and a fixing shell;

the sealing end cover is connected with the fixed shell to form a second accommodating space;

the plurality of separating strips are respectively accommodated in the second accommodating space to form a plurality of accommodating sub-spaces, and a first gap is formed between one end of each separating strip and one side of the sealing end cover;

the battery blocks are accommodated in the accommodating sub-spaces in a one-to-one correspondence manner, and a second gap is formed between any two adjacent battery blocks;

the partition plate is accommodated in the first gap, a plurality of plug connectors are mounted on one side of the partition plate and are correspondingly plugged in the second gaps one by one, and the partition plate is used for fixing the battery blocks;

the connection fixing ring is sleeved on the plurality of battery blocks through the sealing gasket and used for connecting and fixing the plurality of battery blocks.

In an alternative embodiment, the connecting and fixing ring is provided with a positioning groove, and the sealing gasket is accommodated in the positioning groove.

In an alternative embodiment, the power storage device further comprises an anti-collision block and a buffer block;

the anti-collision block is arranged on the protection mechanism and used for protecting the electric energy storage equipment;

the buffer block is arranged on the electric energy storage mechanism and used for reducing the pressure between the movable sealing cover and the electric energy storage mechanism.

The embodiment of the utility model provides an electric power energy storage equipment, this electric power energy storage equipment include protection machanism, temperature control mechanism and electric power energy storage mechanism. The protection mechanism comprises a bottom plate, a movable sealing cover and a plurality of protection supporting side plates, wherein the bottom plate and the movable sealing cover are oppositely arranged and are respectively connected with the plurality of protection supporting side plates to form a first accommodating space. The electric energy storage mechanism is accommodated in the first accommodating space and used for providing electric energy for an external load. The temperature control mechanism is arranged on the protection mechanism and used for regulating and controlling the temperature of the electric energy storage mechanism. Therefore, the temperature of the electric energy storage mechanism can be adjusted in real time through the temperature control mechanism, so that the electric energy storage mechanism is in a proper working temperature range, and the service life of the electric energy storage equipment is prolonged.

Other features and advantages of embodiments of the present invention will be set forth in the description which follows, or in part may be learned by the description or may be determined without doubt, or by practice of the above-described techniques of embodiments of the present invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is one of schematic structural diagrams of an electric power energy storage device according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of an electric energy storage device according to an embodiment of the present invention;

fig. 3 is a third schematic structural diagram of an electric energy storage device according to an embodiment of the present invention;

fig. 4 is a fourth schematic structural diagram of the power energy storage device according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of an electric energy storage mechanism according to an embodiment of the present invention;

fig. 6 is a fifth schematic structural view of an electric energy storage device according to an embodiment of the present invention;

fig. 7 is a sixth schematic view of a structure of an electric power energy storage device according to an embodiment of the present invention.

Icon: 1-an electrical energy storage device; 10-a guard mechanism; 11-a base plate; 12-a movable cover; 13-protective support side plates; 131-a first protective support side plate; 1311-first connecting and positioning plate; 132-a second protective support side panel; 1321-a second connection positioning plate; 133-a third protective support side panel; 20-temperature control mechanism; 21-a heat sink; 22-a heating device; 24-fixing a spacing ring; 30-an electric energy storage mechanism; 31-a battery block; 32-a sealing structure; 321-sealing the end cap; 322-a seal gasket; 33-an insulating stationary shell; 331-a partition plate; 332-a dividing strip; 333-connecting a fixed ring; 334-a stationary shell; 34-a lifting handle; 40-a support mechanism; 41-support column; 42-a pulley; 50-a lateral support mechanism; 51-a guide adjusting sleeve; 52-adjusting the telescopic rod; 53-connecting ear mount; 54-support foot plate; 55-clamping a clamping block; 60-an anti-collision block; 70-buffer block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship that the product of the present invention is usually placed when in use, the description is only for convenience of description and simplification of the present invention, and the indication or suggestion that the indicated device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be interpreted as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

As introduced in the background art, with the rapid development of socioeconomic, the demand of human beings for energy is increasingly vigorous, the problems of energy shortage and environmental pollution caused by fossil energy are increasingly acute, and new energy resources have great potential and can be continuously utilized, thereby playing an important role in meeting the energy demand, improving the energy structure, reducing the environmental pollution, promoting the economic development and the like, and having attracted the wide attention of the international society. Under the double pressure of energy safety and environmental protection, renewable energy power generation such as wind power generation and solar power generation with relatively mature technology and large-scale development conditions is rapidly developed in the world.

However, the existing power storage device is likely to cause the temperature of the structure to rise during the power storage and consumption processes, and further affects the service life of the power storage device.

In view of this, the embodiment of the utility model provides an electric power energy storage equipment carries out temperature regulation through increasing the electric power energy storage mechanism that temperature control mechanism includes to electric power energy storage equipment for electric power energy storage mechanism is in suitable temperature range, thereby increases electric power energy storage equipment's life. The above scheme is explained in detail below.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electric energy storage device 1 according to an embodiment of the present invention. The embodiment of the utility model provides an electric power energy storage equipment 1, electric power energy storage equipment 1 includes protection machanism 10, temperature control mechanism 20 and electric power energy storage mechanism 30.

The protection mechanism 10 includes a bottom plate 11, a movable cover 12 and a plurality of protection support side plates 13, wherein the bottom plate 11 and the movable cover 12 are disposed opposite to each other and are respectively connected to the plurality of protection support side plates 13 to form a first accommodating space.

The power storage mechanism 30 is accommodated in the first accommodating space and is used for providing electric energy for an external load.

The temperature control mechanism 20 is disposed on the protection mechanism 10, and is configured to regulate and control the temperature of the power energy storage mechanism 30.

The plurality of protective supporting side plates 13 and the bottom plate 11 may be integrally formed or detachably connected, and the movable cover 12 is connected to any one of the plurality of protective supporting side plates 13 through a hinge, so that the power energy storage mechanism 30 accommodated in the first accommodating space is convenient to replace or maintain.

The embodiment of the utility model provides a through increasing temperature control mechanism 20, can adjust electric power energy storage mechanism 30's temperature in real time, make it be in suitable operating temperature scope to increase electric power energy storage equipment 1's life.

Further, referring to fig. 2, fig. 3 and fig. 4, the plurality of protective supporting side plates 13 include a first protective supporting side plate 131 and a second protective supporting side plate 132, and the temperature control mechanism 20 includes a heat dissipation device 21 and a heating device 22.

The first shield supporting side plate 131 is disposed opposite to the second shield supporting side plate 132, the first shield supporting side plate 131 includes a first connection positioning plate 1311, and the second shield supporting side plate 132 includes a second connection positioning plate 1321.

The heat sink 21 is mounted on the first connecting positioning plate 1311 and is accommodated in the accommodating space for dissipating heat of the power energy storage mechanism 30.

The heating device 22 is mounted on the second connecting and positioning plate 1321 through the fixed limiting ring 24, and is accommodated in the accommodating space for heating the power energy storage mechanism 30.

The heat dissipation device 21 is one or more of a heat dissipation fan box and a water-cooling heat sink, and the heating device 22 is one or more of a heating rack and an ethanol heater.

As a possible implementation scenario, the heat dissipation device 21 is a heat dissipation fan box, and the heating device 22 is a heating rack. When the temperature of the power energy storage mechanism 30 is too high, the fan motor in the cooling fan box is turned on, and the air flow is accelerated to take away the heat, so that the temperature of the power energy storage mechanism 30 is reduced. When the temperature of the power energy storage mechanism 30 is too low, the power supply of the heating wire inside the heating rack is switched on, and the low-temperature air is further heated, so that the temperature of the power energy storage mechanism 30 is increased. This brings the temperature of the electric power storage mechanism 30 to the appropriate operating temperature.

As an alternative embodiment, the temperature control mechanism 20 further includes a filtering sealing plate disposed between the first connecting and positioning plate 1311 and the heat sink 21 for filtering air entering the heat sink 21. The filtering sealing plate is further disposed between the second connection positioning plate 1321 and the heating device 22 for filtering air entering the heating device 22.

Thereby avoid the raise dust among the adverse circumstances to get into heat abstractor 21 or heating device 22 and get into electric power energy storage mechanism 30, reduce the mechanical damage that electric power energy storage mechanism 30 and the inside other devices of first accommodation space caused because of the raise dust to increase electric power energy storage equipment 1's life.

Further, the power energy storage device 1 further includes a voltage inverter, a wire protective tube, and a sealing block.

The voltage inverter is connected to the power storage mechanism 30 at one end, and is configured to convert the voltage provided by the power storage mechanism 30 into a voltage usable by an external load.

The voltage inverter is also connected to one end of a wire containment tube for containing the wire connecting the voltage inverter to an external load.

The sealing block is provided with a through hole, the other end of the wire protecting tube penetrates through the through hole, and the sealing block is used for sealing the protecting mechanism 10.

Further, as a possible implementation manner, the power energy storage device 1 further includes a supporting mechanism 40, and the supporting mechanism 40 is disposed on the bottom plate 11 and is used for supporting the power energy storage device 1.

The supporting mechanism 40 includes a supporting column 41 and a pulley 42, one end of the supporting column 41 is fixed on the bottom plate 11, and the other end is connected with the pulley 42.

Wherein, support column 41 and pulley 42 are a plurality of, in the embodiment of the utility model, support column 41 and pulley 42 are 4, and every support column 41 one end welded fastening is in four extreme angle departments of bottom plate 11, and every support column 41's the other end passes through the screw thread and is connected with pulley 42. Can adjust the height of pulley 42 before the use, and then can adjust the height of protection machanism 10, be convenient for be applied to different work scenes, during the use, accessible pulley 42 changes the position, is convenient for support protection machanism 10.

Further, on the basis, in order to further enable the power energy storage device 1 to adapt to complex terrains, the embodiment of the present invention provides that the power energy storage device 1 further includes a side supporting mechanism 50.

The plurality of protective support side plates 13 further include a third protective support side plate 133 and a fourth protective support side plate (not shown), and the electric power energy storage device 1 further includes a side support mechanism 50, and the side support mechanism 50 is disposed on the third protective support side plate 133 and is used for supporting and fixing the electric power energy storage mechanism 30. Wherein, the third protection supporting side plate 133 is disposed opposite to the fourth protection supporting side plate.

In other embodiments, the side support mechanism 50 may also be disposed on the fourth protective support side panel.

The side supporting mechanism 50 comprises a guiding adjusting sleeve 51, an adjusting telescopic rod 52, a connecting lug seat 53, a supporting foot plate 54 and a clamping block 55.

The connecting lug seat 53 is fixed to one side of the third guard supporting side plate 133 or the fourth guard supporting side plate.

One end of the guiding adjusting sleeve 51 is connected with the connecting ear seat 53, and the other end is sleeved at one end of the adjusting telescopic rod 52.

The other end of the adjusting telescopic rod 52 is connected with the supporting foot plate 54. The clamping block 55 is mounted on the third protection supporting side plate 133 or the fourth protection supporting side plate and away from one side of the connecting lug seat 53, and the clamping block 55 is used for fixing the supporting foot plate 54 when the adjusting telescopic rod 52 is in the extending state.

As an optional implementation manner, one end of the guiding adjustment sleeve 51 may be connected to the connecting ear seat 53 through a positioning pin, so that the guiding adjustment sleeve 51 can rotate clockwise and counterclockwise relative to the connecting ear seat 53, and meanwhile, the other end of the guiding adjustment sleeve 51 is sleeved on the adjustment telescopic rod 52 through a thread, so that the adjustment telescopic rod 52 adjusts the length relative to the guiding adjustment sleeve 51.

When not in use, the adjusting telescopic rod 52 is in a shortened state, and the supporting leg plate 54 is fixed on the clamping block 55, so that the whole side supporting mechanism 50 is attached to the third protecting supporting side plate 133 or the fourth protecting supporting side plate, and is convenient to store.

During the use, then will be fixed in the support foot board 54 on clamping piece 55 and take off, will adjust telescopic link 52 according to the topography and adjust to suitable length to through rotating direction adjusting collar 51, make and adjust telescopic link 52 and be in suitable angle, and then can support protection machanism 10 and electric power energy storage mechanism 30.

Alternatively, both the side supporting mechanism 50 and the supporting mechanism 40 may be mounted on the protection mechanism 10, or alternatively mounted on the protection mechanism 10 as required.

Further, the power energy storage device 1 further comprises an anti-collision block 60 and a buffer block 70.

The crash block 60 is mounted to the protection mechanism 10 for protecting the electric power energy storage device 1.

The buffer block 70 is mounted on the power storage mechanism 30 and is used for relieving the pressure between the movable cover 12 and the power storage mechanism 30.

Wherein, the buffer block 70 is fixed on the top of the electric energy storage mechanism 30 in a bonding manner, when the movable sealing cover 12 is covered on the protection mechanism 10 through the hinge, the buffer block 70 can reduce the pressure of the movable sealing cover 12 between the electric energy storage mechanism 30, play a role in buffering, and reduce the vibration of the electric energy storage mechanism 30 caused by road surface bumping in the transportation process.

Meanwhile, the first protection supporting side plate 131, the second protection supporting side plate 132, the third protection supporting side plate 133 and the fourth protection supporting side plate included in the protection mechanism 10 can be provided with a plurality of anti-collision blocks 60, so that damage caused by rollover of the electric energy storage mechanism 30 is avoided, and the service life of the electric energy storage device 1 is further prolonged.

Further, referring to fig. 5, the power storage mechanism 30 includes a battery block 31, a sealing structure 32, an insulating fixing case 33, and a lifting handle 34.

A lift handle 34 is fixed to one end of the battery block 31.

The battery block 31 is accommodated and sealed in the insulating fixing case 33 by the sealing structure 32.

The battery block 31 can be moved by lifting the handle 34, so that the assembly, maintenance, movement and the like of the power energy storage mechanism 30 by a user are more convenient. Meanwhile, the battery block 31 is sealed in the insulating fixing shell 33 through the sealing structure 32, so that water splashing can be prevented from entering the battery block 31, the phenomenon that short circuit occurs inside the battery block 31 due to water splashing is avoided, and the safety of the electric energy storage mechanism 30 is improved.

Further, referring to fig. 6 and 7, as a possible implementation manner, the sealing structure 32 includes a sealing end cap 321 and a sealing gasket 322, and the insulating fixing casing 33 includes a partition 331, a partition strip 332, a connecting fixing ring 333 and a fixing casing 334.

The sealing end cap 321 is connected to the fixing shell 334 to form a second accommodating space.

The plurality of separating strips 332 are respectively accommodated in the second accommodating space to form a plurality of accommodating sub-spaces, and a first gap is formed between one end of each separating strip 332 and one side of the sealing end cover.

The battery blocks 31 are multiple, the battery blocks 31 are accommodated in the accommodating sub-spaces in a one-to-one correspondence manner, and a second gap is formed between any two adjacent battery blocks 31.

The partition plate 331 is accommodated in the first gap, a plurality of plug connectors are mounted on one side of the partition plate 331, the plurality of plug connectors are correspondingly plugged in the plurality of second gaps one by one, and the partition plate 331 is used for fixing the plurality of battery blocks 31.

The connection fixing ring 333 is sleeved on the plurality of battery blocks 31 through the gasket 322, and is used for connecting and fixing the plurality of battery blocks 31.

One end of each of the division bars 332 may be welded and fixed in the fixing shell 334 at the same interval to form a plurality of accommodating sub-spaces. Since the separation strip 332 may form a gap between two adjacent battery blocks 31, the battery blocks 31 may be fixed using the separation plate 331 including the plug connector, and the battery blocks 31 or the lead connected to the battery blocks 31 may be prevented from being broken due to shaking.

The connecting and fixing ring 333 may be fixed to an upper end surface of the fixing casing 334 by a screw, the connecting and fixing ring 333 further has a positioning groove, and the gasket 322 is accommodated in the positioning groove. Further, the sealing end cap 321 may be fixed to the connection fixing ring 333 by using screws, so that the sealing end cap 321 and the fixing shell 334 fix the battery block 31 in all directions.

To sum up, the embodiment of the utility model provides an electric power energy storage equipment 1 and temperature regulation and control method, this electric power energy storage equipment 1 includes protection machanism 10, temperature control mechanism 20 and electric power energy storage mechanism 30. The protection mechanism 10 includes a bottom plate 11, a movable cover 12 and a plurality of protection support side plates 13, wherein the bottom plate 11 and the movable cover 12 are disposed opposite to each other and are respectively connected to the plurality of protection support side plates 13 to form a first accommodating space. The power storage mechanism 30 is accommodated in the first accommodating space and is used for providing electric energy for an external load. The temperature control mechanism 20 is disposed on the protection mechanism 10, and is configured to regulate and control the temperature of the power energy storage mechanism 30. Therefore, the temperature of the electric energy storage mechanism 30 can be adjusted in real time through the temperature control mechanism 20, so that the electric energy storage mechanism is in a suitable working temperature range, and the service life of the electric energy storage device 1 is prolonged.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The electric energy storage equipment is characterized by comprising a protection mechanism, a temperature control mechanism and an electric energy storage mechanism;

the protection mechanism comprises a bottom plate, a movable sealing cover and a plurality of protection supporting side plates, wherein the bottom plate and the movable sealing cover are oppositely arranged and are respectively connected with the plurality of protection supporting side plates to form a first accommodating space;

the electric energy storage mechanism is accommodated in the first accommodating space and used for providing electric energy for an external load;

the temperature control mechanism is arranged on the protection mechanism and used for regulating and controlling the temperature of the electric energy storage mechanism.

2. The electric energy storage device according to claim 1, wherein the plurality of protective supporting side plates comprise a first protective supporting side plate and a second protective supporting side plate, and the temperature control mechanism comprises a heat dissipation device and a heating device;

the first protection supporting side plate and the second protection supporting side plate are arranged oppositely, the first protection supporting side plate comprises a first connecting positioning plate, and the second protection supporting side plate comprises a second connecting positioning plate;

the heat dissipation device is arranged on the first connecting positioning plate, accommodated in the accommodating space and used for dissipating heat of the electric energy storage mechanism;

the heating device is arranged on the second connecting and positioning plate through a fixed limiting ring, is accommodated in the accommodating space and is used for heating the electric energy storage mechanism.

3. The electric energy storage device according to claim 2, wherein the heat dissipation device is any one or more of a heat dissipation fan box or a water cooling radiator, and the heating device is any one or more of a heating rack or an ethanol heater.

4. The electric energy storage device according to claim 2, wherein the temperature control mechanism further comprises a filter sealing plate, the filter sealing plate is disposed between the first connection positioning plate and the heat dissipation device, and is configured to filter air entering the heat dissipation device;

the filtering closing plate is further arranged between the second connecting and positioning device and the heating device and used for filtering air entering the heating device.

5. The power storage device of claim 1, further comprising a support mechanism disposed on the base plate for supporting the power storage device;

the supporting mechanism comprises a supporting column and a pulley, wherein one end of the supporting column is fixed on the bottom plate, and the other end of the supporting column is connected with the pulley.

6. The electric energy storage device according to claim 1 or 5, wherein the plurality of protective supporting side plates further include a third protective supporting side plate and a fourth protective supporting side plate, and the electric energy storage device further includes a side supporting mechanism, the side supporting mechanism is disposed on the third protective supporting side plate or the fourth protective supporting side plate, and is used for supporting and fixing the electric energy storage mechanism;

the side supporting mechanism comprises a guide adjusting sleeve, an adjusting telescopic rod, a connecting ear seat, a supporting foot plate and a clamping block;

the connecting lug seat is fixed on one side of the third protection supporting side plate or the fourth protection supporting side plate;

one end of the guide adjusting sleeve is connected with the connecting lug seat, and the other end of the guide adjusting sleeve is sleeved at one end of the adjusting telescopic rod;

the other end of the adjusting telescopic rod is connected with the supporting foot plate;

the clamping piece install in the third protection support curb plate or the fourth protection support curb plate is kept away from one side of connecting the ear seat, the clamping piece is used for being worked as adjust the telescopic link and fix when being in the extension state support sole.

7. The electrical energy storage device of claim 1, wherein the electrical energy storage mechanism comprises a battery block, a sealing structure, an insulating stationary housing, and a lifting handle;

the lifting handle is fixed at one end of the battery block;

the battery block is accommodated and sealed in the insulating fixed shell through the sealing structure.

8. The electrical energy storage device of claim 7, wherein said sealing structure comprises a sealing end cap and a gasket, and said insulating stationary housing comprises a divider plate, a divider strip, a connecting stationary ring, and a stationary housing;

the sealing end cover is connected with the fixed shell to form a second accommodating space;

the plurality of separating strips are respectively accommodated in the second accommodating space to form a plurality of accommodating sub-spaces, and a first gap is formed between one end of each separating strip and one side of the sealing end cover;

the battery blocks are accommodated in the accommodating sub-spaces in a one-to-one correspondence manner, and a second gap is formed between any two adjacent battery blocks;

the partition plate is accommodated in the first gap, a plurality of plug connectors are mounted on one side of the partition plate and are correspondingly plugged in the second gaps one by one, and the partition plate is used for fixing the battery blocks;

the connection fixing ring is sleeved on the plurality of battery blocks through the sealing gasket and used for connecting and fixing the plurality of battery blocks.

9. The electrical energy storage device of claim 8, wherein the connection retaining ring defines a positioning groove, and the gasket is received in the positioning groove.

10. The power storage device of claim 1, further comprising an anti-collision block and a buffer block;

the anti-collision block is arranged on the protection mechanism and used for protecting the electric energy storage equipment;

the buffer block is arranged on the electric energy storage mechanism and used for reducing the pressure between the movable sealing cover and the electric energy storage mechanism.

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