CN220830068U - Portable energy memory of portable - Google Patents

Abstract

The utility model discloses a mobile portable energy storage device, which relates to the technical field of energy storage devices and comprises a mobile assembly and an energy storage assembly, wherein the top of the mobile assembly is fixedly connected with the bottom of the energy storage assembly, the mobile assembly comprises a base, the top of the base is fixedly connected with the bottom of the energy storage assembly, the bottom of the base is rotationally connected with a mobile wheel, and the front of the base is provided with a containing cavity. According to the utility model, the handles on the rotating frame are pulled horizontally, the side guide rails on two sides are pulled out from the inside of the sliding groove under the action of the sliding strips, the rotating frame is stopped from being pulled out after the upper limit block and the lower limit block at the bottom of the side guide rails touch and limit in the pulling process, at the moment, the rotating frame is rotated upwards, the connecting blocks II on two sides of the rotating frame rotate under the rotating action, and as the connecting blocks II are L-shaped, when the connecting blocks II rotate to ninety degrees, the stop lever on the connecting blocks I clamps the end edges of the connecting blocks II.

Description

Portable energy memory of portable

Technical Field

The utility model relates to the technical field of energy storage devices, in particular to a mobile portable energy storage device.

Background

The new energy sources such as solar energy and wind power of the device for storing electric energy or other energy sources are clean energy sources in the new century, have no carbon content, little harm to the environment and rich and colorful resources, have the characteristic of being capable of regenerating, can be used by people continuously, are widely spread, are beneficial to scattered application and can be developed rapidly. Because new energy power generation is easily influenced by the change of various factors such as weather environment, the generated energy randomness is strong, the fluctuation is large, the control is difficult, and meanwhile, the energy storage power station is inconvenient for many small-scale distributed power stations.

For example, CN116259914B discloses a portable energy storage device that carries out transportation through the universal wheel of lower extreme and supports the energy storage device, and the bracing piece utilizes the ring frame to be connected fixedly with the extension rod, and the bracing piece articulates with the dead lever through the articulated frame, is convenient for adjust the angle of bracing piece through adjusting part, and stability to the energy storage device support can increase through the regulation to the angle, carries out the fixed of angle through screw barrel in the adjusting part and threaded rod between two bracing pieces, avoids the bracing piece to appear becoming flexible.

However, the above patent has a certain disadvantage that the movement mode of the energy storage power supply is complex, the energy storage power supply cannot be stored after reaching a designated position, and the occupied space is large; and the energy storage power supply cannot be protected in the moving process, so that the energy storage device is easily damaged due to jolt generated in the moving process.

Disclosure of utility model

The present utility model provides a portable energy storage device to solve the above-mentioned problems.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a portable energy memory, includes mobile unit and energy storage subassembly, mobile unit's top and energy storage subassembly's bottom fixed connection, mobile unit includes the base, the bottom fixed connection of the top of base and energy storage subassembly, the bottom of base rotates and is connected with the movable wheel, the front of base has been seted up and has been acceptd the chamber, the equal fixedly connected with spout in inner wall both sides of acceptment chamber, the inboard bottom fixedly connected with lower stopper of spout, the inner wall sliding connection of spout has the side rail, the top fixedly connected with draw runner of side rail, the bottom fixedly connected with of side rail goes up the stopper, the energy storage subassembly includes the bin, the bottom of bin and the top fixed connection of base, the movable slot has all been seted up to the inboard both walls of bin, the inside movable mounting of movable slot has the damping spring bar, the top fixedly connected with connecting plate of damping spring bar, the equal movable mounting spring in the inner wall both ends of damping chamber has the energy storage battery group.

The technical scheme of the utility model is further improved as follows: the front of the upper limiting block is movably clamped with the back of the lower limiting block, and a connecting block I is fixedly connected to the inner side of the side guide rail.

The technical scheme of the utility model is further improved as follows: the side of connecting block one rotates and is connected with the pivot, the back fixedly connected with pin of connecting block one, the other end fixedly connected with connecting block two of pivot.

The technical scheme of the utility model is further improved as follows: the surface of the second connecting block is movably clamped with the surface of the stop lever, and the other side of the second connecting block is fixedly connected with a rotating frame.

The technical scheme of the utility model is further improved as follows: the inner wall of the buffer cavity is fixedly connected with a guide rod at the hollow part of the spring, and the surface of the guide rod is movably connected with a sliding block at the other end of the spring.

The technical scheme of the utility model is further improved as follows: the top fixedly connected with two-way articulated rod of slider, the other end of two-way articulated rod and the bottom fixed connection of connecting plate.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical progress:

The utility model provides a movable portable energy storage device, wherein a handle on a rotating frame is pulled horizontally, side guide rails on two sides are pulled out from the inside of a chute under the action of a slide bar, the rotating frame is stopped from pulling after an upper limit block and a lower limit block at the bottom of the side guide rails touch and limit in the pulling process, at the moment, the rotating frame is rotated upwards, a connecting block II on two sides of the rotating frame rotates under the rotating action, and as the connecting block II is L-shaped, a stop lever on the connecting block I clamps the end edge of the connecting block II when the connecting block II rotates to ninety degrees, so that the rotating frame can not rotate after the rotating frame is in a vertical state only by rotating ninety degrees, and the vertical rotating frame is pulled to drive the whole base to move under the action of a moving wheel, so that an energy storage battery pack can be more portable when in use, and can be integrally accommodated in a cavity without moving, and a large amount of space is not occupied.

The utility model provides a movable portable energy storage device, which is characterized in that an energy storage battery pack on a storage groove is driven by a base and a movable wheel to move, when jolt vibration occurs in the moving process, a connecting plate is contracted and descended by damping spring rods at two sides to perform vibration reduction, the two ends of a bi-directional hinging rod start rotating due to the descent of the connecting plate, at the moment, a sliding block at the bottom end of the bi-directional hinging rod rotates along with the descent of the bi-directional hinging rod, the surface of a guide rod slides outwards, a spring is extruded while sliding, jolt vibration generated during moving is further buffered by the contraction of the damping spring rods and the spring, so that damage to parts in the energy storage battery pack caused by jolt vibration is avoided, and the energy storage battery pack can safely and stably reach a designated position.

Drawings

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

FIG. 2 is a front elevational view of the structure of the present utility model;

FIG. 3 is a schematic view of a moving assembly according to the present utility model;

FIG. 4 is an enlarged view of the structure at A of the present utility model;

FIG. 5 is an enlarged view of the structure of the present utility model at B

Fig. 6 is a cross-sectional view of the structure of the energy storage assembly of the present utility model.

In the figure: 1. a moving assembly; 11. a base; 12. a housing chamber; 13. a side rail; 14. a slide bar; 15. a chute; 16. a rotating frame; 17. a moving wheel; 18. a first connecting block; 19. a rotating shaft; 110. a second connecting block; 111. a stop lever; 112. a lower limiting block; 113. an upper limiting block; 2. an energy storage assembly; 21. a storage tank; 22. a buffer chamber; 23. a guide rod; 24. a spring; 25. a slide block; 26. a bi-directional hinge rod; 27. a movable groove; 28. damping spring rod; 29. a connecting plate; 210. an energy storage battery.

Detailed Description

The utility model is further illustrated by the following examples:

Example 1

As shown in fig. 1-6, the utility model provides a mobile portable energy storage device, which comprises a mobile component 1 and an energy storage component 2, wherein the top of the mobile component 1 is fixedly connected with the bottom of the energy storage component 2, the mobile component 1 comprises a base 11, the top of the base 11 is fixedly connected with the bottom of the energy storage component 2, the bottom of the base 11 is rotatably connected with a mobile wheel 17, the front of the base 11 is provided with a containing cavity 12, both sides of the inner wall of the containing cavity 12 are fixedly connected with a chute 15, the bottom of the inner side of the chute 15 is fixedly connected with a lower limit block 112, the inner wall of the chute 15 is slidably connected with a side guide rail 13, the top of the side guide rail 13 is fixedly connected with a slide bar 14, the bottom of the side guide rail 13 is fixedly connected with an upper limit block 113, the energy storage component 2 comprises a storage groove 21, the bottom of the storage groove 21 is fixedly connected with the top of the base 11, both inner side walls of the storage groove 21 are provided with movable grooves 27, the inside of the movable grooves 27 are movably provided with damping spring rods 28, the top of the damping spring rods 28 are fixedly connected with connecting plates 29, the tops of the connecting plates 29 are fixedly provided with energy storage battery packs 210, the inner side bottoms of the storage cavities 21 are provided with buffer cavities 22, and both ends of the inner walls of the buffer cavities 22 are movably provided with springs 24.

In this embodiment, the energy storage battery fixed on the energy storage component 2 can be moved in a portable manner through the moving component 1, and can be folded and accommodated after moving to a designated position, so that a large amount of space is not occupied, the energy storage component is convenient and rapid to unfold and move, jolt is not avoided in the moving process, and the damage to the energy storage battery is reduced by the energy storage component 2 in a vertically repeated shrinkage manner, so that the damage to internal parts caused by jolt is avoided.

Example 2

As shown in fig. 1-6, on the basis of embodiment 1, the present utility model provides a technical solution: preferably, the front surface of the upper limiting block 113 is movably clamped with the back surface of the lower limiting block 112, the inner side of the side guide rail 13 is fixedly connected with a first connecting block 18, the side surface of the first connecting block 18 is rotatably connected with a rotating shaft 19, the back surface of the first connecting block 18 is fixedly connected with a stop lever 111, the other end of the rotating shaft 19 is fixedly connected with a second connecting block 110, the surface of the second connecting block 110 is movably clamped with the surface of the stop lever 111, and the other side of the second connecting block 110 is fixedly connected with a rotating frame 16.

In this embodiment, the handle on the rotating frame 16 is pulled horizontally, the side rails 13 on two sides are pulled out from the inside of the sliding groove 15 under the action of the sliding bar 14, the rotating frame 16 is pulled out until the upper limit block 113 and the lower limit block 112 at the bottom of the side rails 13 touch and limit in the pulling process, at this time, the rotating frame 16 is rotated upwards, the connecting blocks 110 on two sides rotate under the rotating action, and as the connecting blocks 110 are L-shaped, when the connecting blocks rotate to ninety degrees, the stop lever 111 on the connecting block 18 clamps the end edge of the connecting blocks 110, so that the rotating frame 16 can only rotate to ninety degrees and then cannot rotate in a vertical state, and at this time, the vertical rotating frame 16 is pulled to drive the whole base 11 to move under the action of the moving wheel 17, so that the energy storage battery pack 210 can be more portable when in use, and can be taken in the whole accommodating cavity 12 without occupying a large amount of space when no moving.

Example 3

As shown in fig. 1-6, on the basis of embodiment 1, the present utility model provides a technical solution: preferably, the inner wall of the buffer cavity 22 is fixedly connected with a guide rod 23 at the hollow part of the spring 24, the surface of the guide rod 23 is movably connected with a sliding block 25 at the other end of the spring 24, the top of the sliding block 25 is fixedly connected with a bidirectional hinging rod 26, and the other end of the bidirectional hinging rod 26 is fixedly connected with the bottom of the connecting plate 29.

In this embodiment, the base 11 and the moving wheel 17 drive the energy storage battery 210 on the storage tank 21 to move, when jolt vibration occurs in the moving process, the connecting plate 29 contracts and descends through the damping spring rods 28 on two sides to perform vibration reduction, the two ends of the bi-directional hinged rod 26 start to rotate due to the descending of the connecting plate 29, at this time, the sliding block 25 at the bottom end of the bi-directional hinged rod 26 rotates along with the descending of the bi-directional hinged rod 26, slides outwards on the surface of the guide rod 23, and presses the spring 24 while sliding, jolt vibration generated during moving is further buffered through the contraction of the damping spring rods 28 and the spring 24, so that damage to parts in the energy storage battery 210 caused by jolt vibration is avoided, and the energy storage battery 210 can safely and stably reach a designated position.

The working principle of the mobile portable energy storage device is specifically described below.

As shown in fig. 1-6, by horizontally pulling the handle on the rotating frame 16, the side rails 13 at two sides are pulled out from the inside of the sliding groove 15 under the action of the sliding bar 14, and after the upper limit block 113 and the lower limit block 112 at the bottom of the side rails 13 touch and limit in the pulling process, the rotating frame 16 is stopped from pulling, at this time, the rotating frame 16 is rotated upwards, the connecting blocks two 110 at two sides rotate under the rotating action, because the connecting blocks two 110 are L-shaped, when the connecting blocks two 110 rotate to ninety degrees, the stop lever 111 on the connecting block one 18 clamps the end edge of the connecting blocks two 110, so that the rotating frame 16 can only rotate ninety degrees and can not rotate after being in a vertical state, at this time, the vertical rotating frame 16 is pulled to drive the whole base 11 to move under the action of the moving wheel 17, so that the energy storage battery pack 210 can be more portable when in use, when jolt vibration occurs in the moving process, the connecting plate 29 contracts and descends through the damping spring rods 28 on two sides to perform vibration reduction, the two ends of the bi-directional hinged rod 26 start to rotate due to the descending of the connecting plate 29, at the moment, the sliding block 25 at the bottom end of the bi-directional hinged rod 26 rotates along with the descending of the bi-directional hinged rod 26, the surface of the guide rod 23 slides outwards, the spring 24 is extruded while sliding, jolt vibration generated in moving is further buffered through the contraction of the damping spring rods 28 and the spring 24, damage to parts in the energy storage battery pack 210 caused by vibration generated by jolt is avoided, the energy storage battery pack 210 can safely and stably reach a designated position, and the whole body can be taken in the accommodating cavity 12 without occupying a large amount of space.

The foregoing utility model has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (6)

1. A mobile portable energy storage device comprising a mobile assembly (1) and an energy storage assembly (2), characterized in that: the top of the moving assembly (1) is fixedly connected with the bottom of the energy storage assembly (2);

The movable assembly (1) comprises a base (11), the top of the base (11) is fixedly connected with the bottom of the energy storage assembly (2), the bottom of the base (11) is rotationally connected with a movable wheel (17), a containing cavity (12) is formed in the front of the base (11), sliding grooves (15) are fixedly connected to two sides of the inner wall of the containing cavity (12), a lower limiting block (112) is fixedly connected to the bottom of the inner side of the sliding groove (15), a side guide rail (13) is slidably connected to the inner wall of the sliding groove (15), a sliding strip (14) is fixedly connected to the top of the side guide rail (13), and an upper limiting block (113) is fixedly connected to the bottom of the side guide rail (13).

The energy storage assembly (2) comprises a storage groove (21), the bottom of the storage groove (21) is fixedly connected with the top of the base (11), movable grooves (27) are formed in two inner side walls of the storage groove (21), damping spring rods (28) are movably mounted in the movable grooves (27), connecting plates (29) are fixedly connected to the top ends of the damping spring rods (28), energy storage battery packs (210) are fixedly mounted on the top of the connecting plates (29), buffer cavities (22) are formed in the bottoms of the inner sides of the storage groove (21), and springs (24) are movably mounted at two ends of the inner walls of the buffer cavities (22).

2. A mobile portable energy storage device as defined in claim 1, wherein: the front face of the upper limiting block (113) is movably clamped with the back face of the lower limiting block (112), and a first connecting block (18) is fixedly connected to the inner side of the side guide rail (13).

3. A mobile portable energy storage device as defined in claim 2, wherein: the side of the first connecting block (18) is rotationally connected with a rotating shaft (19), the back of the first connecting block (18) is fixedly connected with a stop lever (111), and the other end of the rotating shaft (19) is fixedly connected with a second connecting block (110).

4. A portable, mobile, energy storage device according to claim 3, wherein: the surface of the second connecting block (110) is movably clamped with the surface of the stop lever (111), and the other side of the second connecting block (110) is fixedly connected with a rotating frame (16).

5. A mobile portable energy storage device as defined in claim 1, wherein: the inner wall of the buffer cavity (22) is fixedly connected with a guide rod (23) at the hollow part of the spring (24), and a sliding block (25) is movably connected with the surface of the guide rod (23) and the other end of the spring (24).

6. A portable, mobile, energy storage device as defined in claim 5, wherein: the top of slider (25) fixedly connected with two-way articulated rod (26), the other end of two-way articulated rod (26) is connected with the bottom of connecting plate (29) fixedly.