CN114744348B - Electrochemical energy storage device adapting to multiple types of electric appliances - Google Patents

Abstract

The utility model discloses electrochemical energy storage equipment adapting to multiple types of electric appliances, which comprises an energy storage box, wherein the front surface of the energy storage box is provided with a box cover through lotus leaves, one side inner wall of the energy storage box is provided with storage plates which are arranged at equal intervals up and down, the bottom wall of the energy storage box and the top of the storage plates are respectively provided with first damping springs which are uniformly arranged, the top of each first damping spring is provided with a first foam cushion, the top wall of the energy storage box and the bottom of the storage plate are respectively provided with a second damping spring which is uniformly arranged, the bottom of each second damping spring is provided with a second foam cushion, and the top of each first foam cushion is provided with a storage battery main body. According to the utility model, the energy storage box, the first damping spring, the first foam cushion, the second damping spring and the second foam cushion are arranged, so that when the energy storage box is impacted, the first foam cushion and the second foam cushion can play a certain limiting role and drive the first foam cushion and the second foam cushion to squeeze the first damping spring and the second damping spring.

Description

Electrochemical energy storage device adapting to multiple types of electric appliances

Technical Field

The utility model relates to the technical field of electrochemical energy storage, in particular to an electrochemical energy storage device adapting to multiple types of electric appliances.

Background

The energy storage technology mainly refers to the storage of electric energy, the stored energy can be used as emergency energy, and also can be used for storing energy when the load of a power grid is low, but the existing energy storage equipment can only charge a single electric appliance, the practicability is poor, and the conversion can not be carried out according to the time, so that the electrochemical energy storage equipment adapting to multiple types of electric appliances is urgently needed.

The existing electrochemical energy storage device has the following defects:

1. patent document CN216436861U discloses a charging station energy storage equipment management device, has solved the problem that charging station energy storage equipment is difficult to change, and the device includes energy storage equipment case, case lid, telescopic subassembly and energy storage equipment change mechanism, the back of energy storage equipment case is connected with the case lid through telescopic subassembly, install energy storage equipment change mechanism on the side of case lid orientation energy storage equipment case, energy storage equipment change mechanism is used for changing the position of energy storage equipment in the energy storage equipment case. The position of the energy storage equipment is replaced, and the management of the energy storage equipment is further realized, the management is performed inside the energy storage box, the safety is high, manual operation is not needed, the equipment is replaced timely, however, the electrochemical energy storage equipment in the above-mentioned publication mainly considers how to improve the use safety of the energy storage box, and the problem that a damping structure is not arranged inside the existing energy storage box is not considered;

2. patent document CN215971265U discloses a mobile energy storage device convenient for getting on and off, including mobile energy storage device body, set up between the tail end of the cargo carrying compartment of transport vehicle and ground and be used for assisting the auxiliary loading and unloading structure and the loading and unloading subassembly of mobile energy storage device when the mobile energy storage device body gets on and off, the loading and unloading subassembly is connected between mobile energy storage device body and cargo carrying compartment and is used for driving the mobile energy storage device body to slide in cargo carrying compartment or auxiliary loading and unloading structure when the mobile energy storage device body gets on and off. According to the utility model, through the auxiliary loading and unloading structure and the loading and unloading assembly connected between the mobile energy storage equipment body and the truck carriage, the loading and unloading of the mobile energy storage equipment body can be realized without a lifting tool car, so that the overall operation cost can be reduced, the application range of the mobile energy storage equipment is expanded, the rotation rate of a transport vehicle can be improved, but the electrochemical energy storage equipment in the above publication mainly considers how to reduce the operation cost and the application range of an energy storage box, and can not charge electric appliances of different types, and the flexibility is poor;

3. patent document CN215578724U discloses an integrated energy storage device comprising: the energy storage device comprises an energy storage device main body and a heat dissipation device arranged on one side of the energy storage device main body; a vent hole and a main magnet are arranged on one side, close to the heat radiating device, of the energy storage equipment main body; the heat dissipation device comprises an air guide frame and a fan accommodating frame; the fan accommodating frame is arranged on one side, far away from the energy storage equipment main body, of the air guide frame, and is provided with an electric fan; the air guide frame is characterized in that an air guide magnet is arranged on the inner side of the air guide frame, the main body magnet is matched with the air guide magnet, and gaps are formed around the inner side of the air guide frame and the outer side of the energy storage equipment main body. The utility model has the beneficial effects that: through the heat abstractor that is arranged on one side of the energy storage equipment main body, the energy storage equipment main body is provided with ventilation holes on one side close to the heat abstractor, and gaps are formed on the inner side of the air guide frame and the periphery of the outer side of the energy storage equipment main body, so that the outer side wall of the energy storage equipment main body and the energy storage equipment main body can be subjected to the electrochemical energy storage equipment in the above publication, however, how to improve the heat dissipation capacity of the electrochemical energy storage equipment is mainly considered, the limit fixation of a wire tube or a wire and the like cannot be carried out when the conventional electrochemical energy storage equipment is used, and more wires are very easy to wind together to cause abrasion, so that the service life is influenced;

4. patent document CN214958068U discloses an energy storage equipment with waterproof construction, including the energy storage equipment body, the middle part fixed mounting at energy storage equipment body top has the hydraulic stem, the top fixed mounting of hydraulic stem has the kicking block, the equal fixed mounting in top at both ends about the hydraulic stem has the guide board, two the equal fixed mounting in top of guide board has the guide block. According to the utility model, the effect of water prevention on the energy storage equipment body in rainy season can be realized through the matching of the guide plate, the guide block and the water flowing groove, when rainwater falls to the outer surface of the water blocking block, the water blocking block can prevent the rainwater from entering the energy storage equipment body through the ventilation net, so that the damage of the rainwater to the energy storage equipment body is reduced, and the economic loss is caused.

Disclosure of Invention

The utility model aims to provide an electrochemical energy storage device which is suitable for multiple types of electrical appliances and solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the electrochemical energy storage equipment suitable for the multi-model electric appliances comprises an energy storage box, wherein the front surface of the energy storage box is provided with a box cover through lotus leaves, and the front surface of the energy storage box is of an open structure;

the storage box comprises an energy storage box body, wherein a storage plate which is vertically and equidistantly arranged is arranged on the inner wall of one side of the energy storage box body, first damping springs which are uniformly arranged are arranged on the bottom wall of the energy storage box body and the top of the storage plate body, first sponge cushions are arranged on the top of the first damping springs, second damping springs which are uniformly arranged are arranged on the top wall of the energy storage box body and the bottom of the storage plate body, second sponge cushions are arranged on the bottom of the second damping springs, and heat-conducting silica gel pads are arranged on the bottom of the second sponge cushions;

the top of the first foam-rubber cushion is provided with a storage battery main body, and the top of the storage battery main body is attached to the bottom of the heat-conducting silica gel cushion.

Preferably, the charging interface that arranges around being provided with of one side outer wall of battery main part, the internal surface of charging interface installs the connector, and multiunit crossover sub is installed to the one end of connector, and one side outer wall of crossover sub is provided with symmetrical arrangement's jack, and the inserted bar is installed to the inside gomphosis of jack, and the visor is installed to the one end of inserted bar, and the protection pad is installed to one side outer wall of visor, and the pull rod is installed to the opposite side outer wall of visor.

Preferably, the front of energy storage case is provided with puts the thing groove, and put the thing groove and be located one side of first damping spring, put the internally mounted in thing groove and put the thing piece, the baffle is installed at the top of putting the thing piece, one side outer wall of baffle runs through and is provided with the first notch of evenly arranging, the diapire of first notch is provided with the evenly arranged and puts the thing hole, the internally mounted in thing hole installs the pin, and the pin is "J" font, one side outer wall of baffle is provided with the spout, the internally mounted of spout has the slider, the clamp splice is installed down to one side outer wall of slider, the top of clamp splice is provided with the connecting hole of evenly arranging down, the internally mounted of connecting hole installs the connecting rod, the top of connecting rod installs the clamp splice, upward the clamp splice all runs through with one side outer wall of clamp splice down and is provided with the recess, and the recess is "C" font structure.

Preferably, a side inner wall of the energy storage box and a side outer wall of the baffle are provided with uniformly arranged limiting holes, a group of limiting holes are located above a side of the storage plate, a group of limiting holes are located in front of the first sponge cushion, the surface of the energy storage box and the surface of the baffle, which are close to each other, are detachably provided with limiting plates which are arranged at equal intervals, a slot hole is formed in a penetrating mode in one side outer wall of the limiting plate, a connecting block is arranged in the center of the slot hole, iron springs are arranged on the inner side outer wall of the connecting block, inserting blocks are arranged at one ends of the two groups of iron springs, the inserting blocks extend into the limiting holes, a second notch is formed in the front of the limiting plate in a penetrating mode, a stop block is arranged on the outer surface of the inserting blocks, the stop block is located inside the second notch, a protection pad is arranged on the back of the limiting plate, and the back of the protection pad is attached to the front of the storage battery body.

Preferably, the size of the first foam cushion is equal to that of the storage battery main body, the size of the first foam cushion is larger than that of the second foam cushion, and the second damping spring is positioned at the center of the storage plate;

the number of the switching joints is three, and the switching joints are connected with the charging interfaces in a jogged manner;

the sliding grooves and the first notch are distributed at intervals, the sliding blocks are positioned in the middle of the stop lever, the grooves and the connecting holes are distributed at intervals, the upper clamping block and the lower clamping block are positioned on one side of the baffle, the adapter is positioned in the sliding grooves, and the sliding blocks move in the sliding grooves towards the vertical direction;

the dog can be in the inside horizontal slip of second notch, and the inserted block can be in the inside of slotted hole towards horizontal direction flexible, and another group of locating hole is located the below of first notch.

Preferably, the outer wall of one side of baffle is provided with the slot of evenly arranging, and the internal surface of slot is laminated mutually with one side surface of putting the thing board, slot and spacing hole interval distribution, and the slot is located the top of first notch.

Preferably, the outer wall of one side of the energy storage box is provided with uniformly arranged connecting grooves in a penetrating mode.

Preferably, the top of the energy storage box is provided with uniformly arranged heat dissipation holes in a penetrating mode.

Preferably, the electrochemical energy storage device comprises the following working steps:

s1, before the electrochemical energy storage device is used, firstly, inserting a storage block into the storage groove, and pushing a baffle plate so as to drive the storage block to move in the storage groove;

s2, the storage battery main body can be placed on the first foam cushion, and the top of the storage battery main body can be attached to the bottom of the heat-conducting silica gel pad at the bottom of the second foam cushion;

s3, pressing the insert block, so that the insert block can be driven to shrink into the slot hole under the action of the iron spring, then the limiting plate can be placed between the energy storage box and the baffle plate, the insert block is loosened, and finally the insert block can extend into the limiting hole under the action of the iron spring along with continuous movement of the limiting plate, so that a certain limiting and fixing effect is achieved, and further the protection effect on the storage battery main body is improved;

s4, selecting a proper connector to be screwed in the charging interface according to actual needs, and selecting a proper adapter to be matched with an electric appliance according to actual needs when the charging interface is used.

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

s11, in the process, along with the continuous movement of the baffle, the slot is gradually embedded with the storage plate, so that a certain supporting effect is achieved, and the stability of the storage battery main body during placement is improved;

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

s21, in the process, after the energy storage box is collided, the storage battery main body in the energy storage box can shake to a certain extent, and at the moment, the first damping spring and the second damping spring can generate certain interaction force, so that the first damping spring and the second damping spring can be driven to be extruded with the first spongy cushion and the second spongy cushion, thereby being beneficial to improving the damping effect and further reducing the probability of damage of the storage battery main body due to collision;

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

s41, in the process, the pull rod is pulled firstly, so that the inserted rod on the protection cover is driven to be not embedded with the jack any more, and then the conversion connector can be exposed;

and S42, before the adapter is connected with the electric appliance, the lead is firstly passed through the first notch and the sliding block is moved in the sliding groove until the adapter can be positioned in the groove, then the connecting rod is inserted into the connecting hole, so that the upper clamping block and the lower clamping block are connected together, then the adapter can be limited in a space formed by the upper clamping block and the lower clamping block, and the adapter is connected with the electric appliance after passing through the connecting groove.

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

1. according to the utility model, the storage battery main body is arranged on the first sponge cushion and can be attached to the heat-conducting silica gel cushion by arranging the energy storage box, the object placing plate, the first damping spring, the first sponge cushion, the second damping spring, the second sponge cushion and the heat-conducting silica gel cushion, and when the energy storage box is collided, the first sponge cushion and the second sponge cushion can play a certain limiting role and drive the first sponge cushion and the second sponge cushion to squeeze the first damping spring and the second damping spring, so that the damping effect is improved.

2. Before the battery is used, the connectors with different conversion connectors are connected with the charging interface, when the battery is needed to be used, the proper conversion connectors are selected according to different selected electric appliances, and the pull rod is pulled, so that the insertion rod is not embedded with the insertion hole any more, and then the protective cover can be taken down from the conversion connector, thereby being convenient for a worker to charge different electric appliances.

3. According to the utility model, the conversion connector passes through the first notch on the baffle, and then the sliding block is pushed in the chute, so that the conversion connector can be positioned in the groove on the lower clamping block, then the connecting rod is inserted into the connecting hole, so that the upper clamping block and the lower clamping block can be connected together, the conversion connector can be limited in a space formed by the upper clamping block and the lower clamping block to a certain extent, the blocking rod is inserted into the object placing hole at the opposite position, and the sliding block can be limited and fixed, and therefore the winding abrasion probability between the line pipes can be reduced to a certain extent.

4. According to the utility model, the limiting plate, the connecting block, the iron spring, the inserting block, the slot hole, the second slot hole, the stop block, the limiting hole and the protective pad are arranged, the inserting block is pressed to be positioned in the slot hole, then the inserting block is pushed into a side space formed by the baffle plate and the energy storage box, and then the inserting block can be driven to extend into the limiting hole under the action of the iron spring, and the protective pad on the limiting plate is driven to be attached to the storage battery main body, so that the protection of the storage battery main body can be improved to a certain extent.

Drawings

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

FIG. 2 is a schematic view showing an assembled structure of a first shock absorbing spring and a first foam pad according to the present utility model;

FIG. 3 is a schematic view of an assembled structure of a baffle and a lower clamp block of the present utility model;

FIG. 4 is a schematic plan view of an assembled structure of a second cushion spring and a second foam pad according to the present utility model;

fig. 5 is a schematic view of an assembled structure of a battery body according to the present utility model;

FIG. 6 is a schematic diagram of an assembled structure of a limiting plate according to the present utility model;

FIG. 7 is a schematic diagram of an assembled structure of a connection block and an insert block of the present utility model;

FIG. 8 is a schematic diagram of an assembled structure of an energy storage tank according to the present utility model;

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

In the figure: 1. an energy storage tank; 2. a storage plate; 3. a first damper spring; 4. a first foam pad; 5. a second damper spring; 6. a second sponge pad; 7. a thermally conductive silicone pad; 8. a battery main body; 9. a charging interface; 10. a connector; 11. a conversion joint; 12. a jack; 13. a rod; 14. a protective cover; 15. a protective pad; 16. a storage groove; 17. a storage block; 18. a baffle; 19. a chute; 20. a lower clamping block; 21. a connection hole; 22. a connecting rod; 23. an upper clamping block; 24. a storage hole; 25. a stop lever; 26. a limiting plate; 27. a connecting block; 28. an iron spring; 29. inserting blocks; 30. a slot hole; 31. a second notch; 32. a stop block; 33. a limiting hole; 34. a protective pad; 35. a slot; 36. a connecting groove; 37. and the heat dissipation holes.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

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

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

Referring to fig. 2, 4 and 9, an embodiment of the present utility model is provided: the utility model provides an electrochemical energy storage equipment of many models of adaptation electrical apparatus, including energy storage case 1, put thing board 2 and battery main part 8, the case lid is installed through the lotus leaf in the front of energy storage case 1, the front of energy storage case 1 is open structure, the thing board 2 of putting of equidistance arrangement about one side inner wall installation of energy storage case 1, the diapire of energy storage case 1 and the first damping spring 3 of evenly arranging are all installed at the top of putting thing board 2, first foam-rubber cushion 4 is installed at the top of first damping spring 3, the second damping spring 5 of evenly arranging is all installed to the roof of energy storage case 1 and the bottom of putting thing board 2, second foam-rubber cushion 6 is installed to the bottom of second damping spring 5, heat conduction silica gel pad 7 is installed at the bottom of second foam-rubber cushion 6, battery main part 8 has been placed at the top of first foam-rubber cushion 4, and the bottom of battery main part 8 is laminated mutually, the size of first foam-rubber cushion 4 is greater than the size of second foam-rubber cushion 6, second damping spring 5 is located the central point 2 and locates at the roof of thing board, the outer wall position of energy storage case 1 is evenly arranged in the slot 35 and the slot 35 is arranged to one side of evenly arranged, slot 35 is arranged with the surface of slot 35, slot 35 is evenly arranged in the slot 35 side, slot 35 is evenly arranged on one side of slot 35.

Further, first foam-rubber cushion 4 is pushed down at first, just can place battery main part 8 on first foam-rubber cushion 4 then, then loosen first foam-rubber cushion 4, then battery main part 8 can rebound to initial position department under the effect of first damping spring 3 upwards, and then can drive battery main part 8 and the heat conduction silica gel pad 7 of second foam-rubber cushion 6 bottom and contact, after energy storage case 1 receives the striking, can the inside battery main part 8 can produce vibrations and rocking of certain frequency, when battery main part 8 rocks from top to bottom, can extrude first damping spring 3 and second damping spring 5 respectively, thereby reach the absorbing effect.

Referring to fig. 5, an embodiment of the present utility model is provided: the utility model provides an adapt multi-model electrical apparatus's electrochemical energy storage equipment, including charging interface 9 and visor 14, the one side outer wall of battery main part 8 is provided with the interface 9 that charges that arranges from beginning to end, the connector 10 is installed to the internal surface mounting of interface 9 that charges, multiunit crossover sub 11 is installed to the one end of connector 10, one side outer wall of crossover sub 11 is provided with symmetrical arrangement's jack 12, inserted bar 13 is installed to the inside gomphosis of jack 12, visor 14 is installed to the one end of inserted bar 13, protection pad 15 is installed to one side outer wall of visor 14, the pull rod is installed to the opposite side outer wall of visor 14, the quantity of crossover sub 11 is three sets of, the gomphosis is connected between crossover sub 11 and the interface 9 that charges.

Further, when the connector 10 is inserted into the charging port 9 and power is required to be supplied to the electric appliance, the connector 11 is appropriately switched according to the type of the electric appliance, and the pull rod is pulled to fit the plug 13 on the protective cover 14 into the insertion hole 12. The protective cover 14 can then be removed from the adapter 11 so that the protective pad 15 no longer protects the interior of the adapter 11 and can then be connected to the appliance via the adapter 11.

Referring to fig. 1 and 3, an embodiment of the present utility model is provided: the utility model provides an electrochemical energy storage equipment of adaptation multi-model electrical apparatus, including putting thing groove 16 and putting thing piece 17, the front of energy storage case 1 is provided with puts thing groove 16, and put thing groove 16 and be located one side of first damping spring 3, put the inside slidable mounting of thing groove 16 and put thing piece 17, the baffle 18 is installed at the top of putting thing piece 17, one side outer wall of baffle 18 runs through and is provided with the first notch of evenly arranging, the diapire of first notch is provided with evenly arranging put thing hole 24, the internally chimeric of putting thing hole 24 installs pin 25, and pin 25 is "J" font, one side outer wall of baffle 18 is provided with spout 19, the inside slidable mounting of spout 19 has the slider, lower clamp splice 20 is installed to one side outer wall of slider, the top of lower clamp splice 20 is provided with evenly arranging connecting hole 21, the internally chimeric of connecting hole 21 installs connecting rod 22, the top of connecting rod 22 installs clamp splice 23, one side outer wall of upper clamp splice 23 and lower clamp splice 20 all runs through and is provided with the recess, and the recess is "C" structure, the spout 19 is the spacer bar is located the spacer bar with first notch interval, the slider is located the spacer bar 25 and is located down the upper clamp splice 19 of the spacer bar, the spacer bar is located at one side of the vertical position of the slider 19, the spacer bar is located at the spacer bar 19 in the upper side of the vertical clamp splice 19, the spacer bar is located at the spacer bar 19.

Further, the slider is first pushed in the chute 19. The lower clamping block 20 is driven to move, the adapter 11 is then passed through the first notch on the baffle 18 and can be positioned in the groove on the lower clamping block 20, then the connecting rod 22 at the bottom of the upper clamping block 23 can be inserted into the connecting hole 21, and then the stop lever 25 is inserted into the storage hole 24 so as to be positioned on two sides of the sliding block. Thereby playing a certain limiting role, and then the adapter 11 can be limited in the space formed by the upper clamping block 23 and the lower clamping block 20, so that the probability of winding abrasion between the wire pipes can be reduced to a certain extent.

Referring to fig. 6, 7 and 8, an embodiment of the present utility model provides: the utility model provides an electrochemical energy storage equipment of adaptation multi-model electrical apparatus, including limiting plate 26 and spread groove 36, one side inner wall of tank 1 and one side outer wall of baffle 18 all are provided with spacing hole 33 of evenly arranging, and wherein a set of spacing hole 33 is located the side top of locating object board 2, wherein a set of spacing hole 33 is located the place ahead of first foam-rubber cushion 4, the surface demountable installation that tank 1 and baffle 18 are close to each other has the limiting plate 26 of arranging from top to bottom, one side outer wall of limiting plate 26 runs through and is provided with slotted hole 30, the internally mounted of limiting plate 26 has connecting block 27, and connecting block 27 is located the central point department of slotted hole 30, the inboard outer wall that comes of connecting block 27 all installs iron spring 28, the cartridge 29 is all installed to the one end of two sets of iron springs 28, and the inside that cartridge 29 extends into spacing hole 33, the front of limiting plate 26 runs through and is provided with second notch 31, the surface mounting of cartridge 29 has dog 32, and dog 32 is located the inside of second notch 31, the back mounting of limiting plate 26 has protection 34, and the back of protection 34 and the front of battery main part 8 laminating, the front of protection pad can be in the inside of a set of horizontal slot opening 31 at the inside of second notch 31, the horizontal direction of the second notch can slide in the inside of the second notch 31, the inside the horizontal direction of the second notch is able to slide in the notch 30.

Further, after the storage battery main body 8 is placed, the limiting plate 26 is aligned with the inner wall of one side of the energy storage box 1 and the outer wall of one side of the baffle 18, and the stop block 32 is shifted to enable the stop block 32 to move towards the center position in the second notch 31, so that the insert block 29 can be driven to press the iron spring 28 towards the connecting block 27, at the moment, the insert block 29 can shrink into the slot hole 30, then the limiting plate 26 is pushed inwards until the protection pad 34 can be attached to the front surface of the storage battery main body 8, and meanwhile, the stop block 32 is released, and then the insert block 29 can be driven to extend into the limiting hole 33 under the action of the iron spring 28, so that the protection of the storage battery main body 8 is improved to a certain extent.

Further, the electrochemical energy storage device comprises the following working steps:

s1, before the electrochemical energy storage device is used, firstly, inserting the object placing block 17 into the object placing groove 16, and pushing the baffle 18, so as to drive the object placing block 17 to move in the object placing groove 16;

s2, the storage battery main body 8 can be placed on the first foam cushion 4, and the top of the storage battery main body 8 can be attached to the bottom of the heat conduction silica gel pad 7 at the bottom of the second foam cushion 6;

s3, pressing the insert block 29, so that the insert block 29 can be driven to shrink into the slot hole 30 under the action of the iron spring 28, then the limiting plate 26 can be placed between the energy storage box 1 and the baffle 18, the insert block 29 is loosened, and the insert block 29 finally extends into the limiting hole 33 under the action of the iron spring 28 along with continuous movement of the limiting plate 26, so that a certain limiting and fixing effect is achieved, and the protection effect on the storage battery main body 8 is improved;

and S4, selecting a proper connector 10 to be screwed in the charging interface 9 according to actual needs, and selecting a proper adapter 11 to be matched with an electric appliance according to actual needs when the electric appliance is used.

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

s11, in the process, along with the continuous movement of the baffle 18, the slot 35 is gradually embedded with the storage plate 2, so that a certain bearing function is achieved, and the stability of the storage battery main body 8 during placement is improved;

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

s21, in the process, after the energy storage box 1 is collided, the storage battery main body 8 in the energy storage box 1 can shake to a certain extent, and at the moment, the first damping spring 3 and the second damping spring 5 can generate certain interaction force, so that the first damping spring 3 and the second damping spring 5 can be driven to be extruded with the first foam cushion 4 and the second foam cushion 6, thereby being beneficial to improving the damping effect, and further reducing the probability of damage of the storage battery main body 8 due to collision;

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

s41, in the process, the pull rod is pulled firstly, so that the inserting rod 13 on the protective cover 14 is driven to be no longer embedded with the jack 12, and then the adapter 11 can be exposed;

and S42, before the adapter 11 is connected with the electric appliance, a wire passes through the first notch and moves the sliding block in the sliding groove 19 until the adapter 11 can be positioned in the groove, then the connecting rod 22 is inserted into the connecting hole 21, so that the upper clamping block 23 and the lower clamping block 20 are connected together, then the adapter 11 can be limited in a space formed by the upper clamping block 23 and the lower clamping block 20, and the adapter 11 can be connected with the electric appliance after passing through the connecting groove 36.

Working principle: before the electrochemical energy storage device is used, firstly, the object placing block 17 is inserted into the object placing groove 16, the baffle plate 18 is pushed, the object placing block 17 is driven to move in the object placing groove 16, then the storage battery main body 8 is placed on the first sponge cushion 4, the inserting block 29 is pushed until the inserting block 29 can shrink into the groove hole 30, then the limiting plate 26 is pushed into the middle of the energy storage box 1 and the baffle plate 18, the inserting block 29 is loosened, at the moment, the inserting block 29 can extend into the limiting hole 33 under the action of the iron spring 28, and after the energy storage box 1 is impacted, the first sponge cushion 4 and the second sponge cushion 6 can be driven to be extruded, so that the protection effect of the electrochemical energy storage device can be improved to a certain extent;

the wire is then passed through the first slot so that the adapter 11 can be confined in the space formed by the upper and lower clamp blocks 23 and 20, and the adapter 11 is connected to the appliance after passing through the connection slot 36.

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

Claims (8)

1. Electrochemical energy storage equipment of adaptation multi-model electrical apparatus, including energy storage case (1), its characterized in that: the front of the energy storage box (1) is provided with a box cover through lotus leaves, and the front of the energy storage box (1) is of an open structure;

the storage box comprises an energy storage box body, and is characterized in that an object placing plate (2) which is arranged vertically at equal intervals is arranged on the inner wall of one side of the energy storage box body (1), first damping springs (3) which are uniformly arranged are arranged on the bottom wall of the energy storage box body (1) and the top of the object placing plate (2), first foam-rubber pads (4) are arranged on the top of the first damping springs (3), second damping springs (5) which are uniformly arranged are arranged on the top wall of the energy storage box body (1) and the bottom of the object placing plate (2), second foam-rubber pads (6) are arranged on the bottom of the second damping springs (5), and heat-conducting silica gel pads (7) are arranged on the bottom of the second foam-rubber pads (6);

the top of the first foam cushion (4) is provided with a storage battery main body (8), and the top of the storage battery main body (8) is attached to the bottom of the heat-conducting silica gel pad (7);

the charging device comprises a storage battery main body (8), wherein a charging interface (9) which is arranged front and back is arranged on the outer wall of one side of the storage battery main body (8), a connector (10) is arranged on the inner surface of the charging interface (9), a plurality of groups of conversion connectors (11) are arranged at one end of the connector (10), symmetrically arranged jacks (12) are arranged on the outer wall of one side of the conversion connectors (11), inserted bars (13) are arranged in the jacks (12) in a jogged mode, a protective cover (14) is arranged at one end of each inserted bar (13), a protective pad (15) is arranged on the outer wall of one side of each protective cover (14), and a pull rod is arranged on the outer wall of the other side of each protective cover (14);

the front of energy storage case (1) is provided with puts thing groove (16), and put one side of thing groove (16) and be located first damping spring (3), the inside slidable mounting who puts thing groove (16) has put thing piece (17), baffle (18) are installed at the top of putting thing piece (17), the first notch that is provided with evenly arranging is run through to one side outer wall of baffle (18), the diapire of first notch is provided with evenly arranging puts thing hole (24), put the internally fitting of thing hole (24) and install pin (25), and pin (25) are "J" font, one side outer wall of baffle (18) is provided with spout (19), the inside slidable mounting of spout (19) has the slider, one side outer wall of slider installs down clamp splice (20), the top of lower clamp splice (20) is provided with connecting hole (21) of evenly arranging, connecting rod (22) are installed to the internally fitting of connecting rod (22), upward clamp splice (23) all run through with one side outer wall of lower clamp splice (20) and are provided with the recess, and the recess is "C" font structure.

2. An electrochemical energy storage device adapted for multiple-model electrical appliances according to claim 1, characterized in that: the utility model discloses a battery protection device, including storage box (1), baffle (18), storage box (1), wherein a set of spacing hole (33) is located the side top of putting thing board (2), wherein a set of spacing hole (33) is located the place ahead of first foam-rubber cushion (4), surface demountable installation that storage box (1) and baffle (18) are close to each other has limiting plate (26) of equidistance arrangement from top to bottom, one side outer wall of limiting plate (26) runs through and is provided with slotted hole (30), the internally mounted of limiting plate (26) has connecting block (27), and connecting block (27) are located the central point department of slotted hole (30), iron spring (28) are all installed to the both sides outer wall of connecting block (27), insert block (29) are all installed to the one end of two sets of iron springs (28), and insert block (29) extend into the inside of spacing hole (33), the front of limiting plate (26) runs through and is provided with second notch (31), insert block (29)'s surface mounting dog (32), and dog (32) are located the inside of second notch (31), limit pad (34) are installed to the front of the inside of protection device (34) and protection device is attached to the back of the main part (8).

3. An electrochemical energy storage device adapted for multiple-model electrical appliances according to claim 2, characterized in that: the size of the first foam cushion (4) is equal to that of the storage battery main body (8), the size of the first foam cushion (4) is larger than that of the second foam cushion (6), and the second damping spring (5) is positioned at the center of the storage plate (2);

the number of the switching joints (11) is three, and the switching joints (11) are connected with the charging interface (9) in a jogged manner;

the sliding grooves (19) and the first notch are distributed at intervals, the sliding blocks are positioned in the middle of the stop lever (25), the grooves and the connecting holes (21) are distributed at intervals, the upper clamping block (23) and the lower clamping block (20) are positioned on one side of the baffle plate (18), the adapter (11) is positioned in the sliding grooves (19), and the sliding blocks move in the sliding grooves (19) towards the vertical direction;

the stop block (32) can horizontally slide in the second notch (31), the insertion block (29) can horizontally stretch out and draw back in the slot hole (30), and the other group of limiting holes (33) are positioned below the first notch.

4. An electrochemical energy storage device adapted for multiple-model electrical appliances according to claim 2, characterized in that: the outer wall of one side of baffle (18) is provided with slot (35) of evenly arranging, and the internal surface of slot (35) is laminated mutually with one side surface of putting thing board (2), slot (35) and spacing hole (33) interval distribution, and slot (35) are located the top of first notch.

5. An electrochemical energy storage device adapted for multiple-model electrical appliances according to claim 1, characterized in that: the outer wall of one side of the energy storage box (1) is provided with uniformly arranged connecting grooves (36) in a penetrating mode.

6. An electrochemical energy storage device adapted for multiple-model electrical appliances according to claim 1, characterized in that: the top of the energy storage box (1) is provided with uniformly arranged heat dissipation holes (37) in a penetrating mode.

7. Use of an electrochemical energy storage device adapted to a multi-model electrical consumer according to any of claims 1-6, the electrochemical energy storage device comprising the following working steps:

s1, before the electrochemical energy storage device is used, firstly, inserting a storage block (17) into the storage groove (16) and pushing a baffle (18), so as to drive the storage block (17) to move in the storage groove (16);

s2, the storage battery main body (8) can be placed on the first foam cushion (4), and the top of the storage battery main body (8) can be attached to the bottom of the heat-conducting silica gel pad (7) at the bottom of the second foam cushion (6);

s3, pressing the insert block (29) so as to drive the insert block (29) to shrink into the slot hole (30) under the action of the iron spring (28), then placing the limiting plate (26) between the energy storage box (1) and the baffle plate (18), loosening the insert block (29), and finally extending the insert block (29) into the limiting hole (33) under the action of the iron spring (28) along with continuous movement of the limiting plate (26), so that a certain limiting and fixing effect is achieved, and the protection effect on the storage battery main body (8) is improved;

s4, a proper connector (10) is selected according to actual needs and screwed in the charging interface (9), and when the charging connector is used, a proper adapter (11) can be selected according to actual needs to be matched with an electric appliance.

8. The method of using an electrochemical energy storage device adapted for multiple models of electrical appliances according to claim 7, characterized in that in step S1, it further comprises the following steps:

s11, in the process, along with the continuous movement of the baffle plate (18), the slot (35) is gradually embedded with the storage plate (2), so that a certain supporting effect is achieved, and the stability of the storage battery main body (8) during placement is improved;

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

s21, in the process, after the energy storage box (1) is collided, the storage battery main body (8) in the energy storage box (1) can shake to a certain extent, and at the moment, the first damping spring (3) and the second damping spring (5) can generate certain interaction force, so that the first damping spring and the second damping spring can be driven to be extruded with the first foam-rubber cushion (4) and the second foam-rubber cushion (6), thereby being beneficial to improving the damping effect and further reducing the probability of damage of the storage battery main body (8) due to collision;

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

s41, in the process, the pull rod is pulled firstly, so that the inserting rod (13) on the protective cover (14) is driven to be no longer embedded with the jack (12), and then the adapter (11) can be exposed;

s42, before the adapter (11) is connected with the electric appliance, a wire passes through the first notch and moves the sliding block in the sliding groove (19) until the adapter (11) can be positioned in the groove, then the connecting rod (22) is inserted into the connecting hole (21), so that the upper clamping block (23) and the lower clamping block (20) are connected together, then the adapter (11) can be limited in a space formed by the upper clamping block (23) and the lower clamping block (20), and the adapter (11) can be connected with the electric appliance after passing through the connecting groove (36).