CN220082740U - Distributed mobile energy storage equipment - Google Patents

Abstract

The utility model discloses a distributed mobile energy storage device, which relates to the technical field of mobile energy storage devices and comprises a base, wherein the top end of the base is provided with a mounting mechanism, positioning mechanisms are arranged on two sides of the mounting mechanism, and an energy storage box is arranged in the mounting mechanism; the mounting mechanism comprises a first sliding rail and a second sliding rail, wherein the first sliding rail is arranged at the top end of the base, the first sliding rail is internally provided with a first sliding block and a second sliding block, and the top end of the first sliding block is connected with a storage box. According to the utility model, the storage box is pulled out by the handle, meanwhile, the two sides of the storage box are contacted with the second sloping plates on the two sides, the rack drives the first sloping plates on the top ends of the sliding blocks to move through movement, then the energy storage box is placed into the storage box, the storage box is pushed back by the handle, when the storage box is abutted against the first sloping plates, the second sloping plates are reset, and then the limit posts at the bottom ends of the limit plates are inserted into the hole slots formed in the surfaces of the second sloping plates until the limit posts are inserted into the bottom ends of the base for fixing, so that the energy storage box is protected, and the energy storage box is protected in all directions during transportation.

Description

Distributed mobile energy storage equipment

Technical Field

The utility model relates to the technical field of mobile energy storage equipment, in particular to distributed mobile energy storage equipment.

Background

The energy storage technology is various, and the electric power energy storage technology suitable for renewable energy power generation and intelligent micro-grid comprises the following steps: pumped storage, compressed air storage, lead-acid batteries, lithium ion batteries, sodium-sulfur batteries, flow batteries, supercapacitors, flywheel energy storage, superconductive energy storage and the like. In recent years, with the rapid development of renewable energy power generation and smart grid technologies and applications, power energy storage technologies and applications thereof have also been rapidly developed.

In terms of the current state of the art for energy storage of various types of electric power, in general, two problems are faced: high cost and insufficient technology. Thus, other electric energy storage technologies than pumped storage have not been implemented for large scale applications. In the application of distributed renewable energy sources, the heat storage technology can be used for solar heat storage, micro gas turbine power generation waste heat storage, electric power peak shaving heat storage and the like, and the cascade utilization of energy sources is realized through heat storage, so that the energy source utilization efficiency is improved. The heat storage technology can be divided into three categories of sensible heat storage, latent heat storage and chemical heat storage according to the heat storage principle;

the prior patent (bulletin number: CN 217843179U) relates to a distributed mobile energy storage device, which comprises an installation cylinder and a positioning cylinder, wherein when the distributed energy storage device needs to be moved, an energy storage box and a base are installed on a vehicle body through an installation component, and the energy storage box and the base are fixed through a positioning mechanism, so that the distributed mobile energy storage device is compared with the prior installation mode, and the rapid installation and the disassembly of the energy storage box and the base are realized, thereby facilitating the overhaul of the energy storage device.

To above-mentioned problem, current patent gives the solution, installs on the automobile body through installation component through energy storage case and base, and rethread positioning mechanism fixes, because only can fix the energy storage case through base and automobile body surface, can not transport steadily, can lead to the energy storage case to drop.

Disclosure of Invention

Based on this, an object of the present utility model is to provide a distributed mobile energy storage device, so as to solve the technical problems set forth in the background above.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the distributed mobile energy storage device comprises a base, wherein the top end of the base is provided with a mounting mechanism, positioning mechanisms are arranged on two sides of the mounting mechanism, and an energy storage box is arranged inside the mounting mechanism;

the utility model provides a mounting mechanism, including two sets of slide rail that the base top set up, all be equipped with two sets of slide blocks in the slide rail, no. one slide block top is connected with deposits the case, it is equipped with the energy storage case to deposit incasement portion, no. one slide rail one side is equipped with No. two slide rails, no. two slide rail outer walls are equipped with the slider, slider one side is equipped with the rack, the slider top is equipped with the connecting block, the connecting block top is equipped with a swash plate, the one end that the slider was kept away from to the rack is equipped with the gear, the one end that the rack was kept away from to the gear is equipped with No. two racks, no. two one end that the gear was kept away from to No. two racks is equipped with the slide bar, no. two slide blocks bottom is equipped with No. three slide rails, slide bar one side top is equipped with No. two swash plates, no. two slot has been seted up on the swash plate surface, no. two slot inside is equipped with spacing post, the spacing post top is equipped with the limiting plate, it is equipped with the handle to deposit case one side.

As an optimized technical scheme of the distributed mobile energy storage equipment, the bottom end of the limiting column is inserted into the insertion groove formed in the bottom end of the base, arc grooves are formed in two ends of the limiting column, protruding blocks are formed in one sides of the arc grooves, a first spring is arranged at one end, away from the arc grooves, of each protruding block, the first spring is arranged on the inner wall of each spring groove, one end, away from the protruding blocks, of each first spring is fixed on one side of an inner cavity of each spring groove, and each spring groove is formed in the base.

As a preferred technical scheme of the distributed mobile energy storage equipment, the storage box is fixedly connected with the first sliding block at the bottom end, the storage box is made of rubber, and a plurality of groups of circular hole grooves are formed in the surface of the storage box and are distributed according to an array.

As a preferred technical scheme of the distributed mobile energy storage equipment, the positioning mechanism comprises a sleeve arranged at the top end of the base, a spring is arranged at the bottom end of an inner cavity of the sleeve, one end, far away from the bottom end of the sleeve, of the spring is connected to the bottom end of a loop bar, and the top end of the loop bar is connected with a top plate.

As a preferable technical scheme of the distributed mobile energy storage equipment, the loop bar is arranged in the inner cavity of the sleeve, the top plate is fixedly connected with the loop bar, and the top plate is made of rubber.

As an optimized technical scheme of the distributed mobile energy storage equipment, a pushing handle is arranged on one side of a base, a shock absorption shell is arranged at the bottom end of the base, and universal wheels are arranged at the bottom end of the shock absorption shell.

As a preferable technical scheme of the distributed mobile energy storage equipment, four groups of damping shells and universal wheels are arranged at the bottom end of the base, damping pieces are arranged in the damping shells, and the four groups of damping shells are distributed at four corners of the base.

In summary, the utility model has the following advantages:

according to the utility model, the storage box is pulled out through the handle, meanwhile, the two sides of the storage box are contacted with the second sloping plates on the two sides, the rack drives the first sloping plates on the top ends of the sliding blocks to move through movement, then the energy storage box is placed into the storage box, the storage box is pushed back through the handle, when the storage box is abutted against the first sloping plates, the second sloping plates are reset, and then the limiting columns at the bottom ends of the limiting plates are inserted into the hole grooves formed in the surfaces of the second sloping plates until the limiting columns are inserted into the bottom ends of the base to be fixed, so that the energy storage box is protected, and the energy storage box is protected in all directions during transportation.

Drawings

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

FIG. 2 is a schematic view of a universal wheel structure according to the present utility model;

FIG. 3 is a schematic view of a mounting mechanism according to the present utility model;

FIG. 4 is a schematic view of a positioning mechanism according to the present utility model;

fig. 5 is an interior elevation view of the base of the present utility model.

In the figure: 100. a base; 200. a mounting mechanism; 300. a positioning mechanism; 400. an energy storage tank;

110. a damper shell; 120. a universal wheel; 130. pushing hands; 140. a spring groove; 150. a first spring; 160. a bump;

210. a first slide rail; 220. a first sliding block; 230. a storage case; 240. a second slide rail; 241. a slide block; 242. a connecting block; 243. a first sloping plate; 250. a gear; 260. a second rack; 261. a slide bar; 262. a third slide rail; 263. a second sloping plate; 270. a limit column; 280. a limiting plate;

310. a sleeve; 320. a spring; 330. a loop bar; 340. and a top plate.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

1-5, the distributed mobile energy storage device comprises a base 100, wherein the top end of the base 100 is provided with a mounting mechanism 200, two sides of the mounting mechanism 200 are provided with positioning mechanisms 300, and an energy storage box 400 is arranged inside the mounting mechanism 200;

the installation mechanism 200 comprises two groups of first sliding rails 210 arranged at the top end of the base 100, two groups of first sliding blocks 220 are arranged in the first sliding rails 210, the top end of the first sliding blocks 220 is connected with a storage box 230, an energy storage box 400 is arranged inside the storage box 230, a second sliding rail 240 is arranged on one side of the first sliding rails 210, a sliding block 241 is arranged on the outer wall of the second sliding rail 240, a rack is arranged on one side of the sliding block 241, a connecting block 242 is arranged at the top end of the sliding block 242, a first inclined plate 243 is arranged at the top end of the connecting block 242, a gear 250 is arranged at one end of the rack, which is far away from the sliding block 241, a second rack 260 is arranged at one end of the gear 250, a sliding rod 261 is arranged at one end of the second rack 260, two groups of second sliding blocks are arranged at the bottom end of the sliding rod 261, a third sliding rail 262 is arranged at the bottom end of the second sliding block, a second inclined plate 263 is arranged at the top end of the sliding rod 261, a hole groove is formed in the surface of the second inclined plate 263, a limit column 270 is arranged inside the hole groove, a limit plate 280 is arranged at the top of the limit column 270, and a handle is arranged at one side of the storage box 230.

The storage box 230 is pulled out by the handle, the storage box 230 slides on the first slide rail 210 through the first slide block 220 at the bottom, meanwhile, the two sides of the storage box 230 touch the second slide plate 263 at the two sides, the second slide plate 263 moves through the matching of the second slide block at the bottom of the slide bar 261 and the third slide rail 262, the second rack 260 arranged at one side of the slide bar 261 rotates with the rack at one end of the slide block 241, the rack moves through the first slide plate 243 which moves to drive the top of the slide block 241, then the energy storage box 400 is placed in the storage box 230, the storage box 230 is pushed back by the handle, when the storage box 230 abuts against the first slide plate 243, the second slide plate 263 is reset, and the limiting post 270 at the bottom of the limiting plate 280 is inserted into a hole groove formed in the surface of the second slide plate 263 until the bottom of the base 100 is inserted for fixing, so that the energy storage box 400 is protected, and the energy storage box 400 is protected in all-directions during transportation.

Referring to fig. 2 to 5, the bottom end of the limiting post 270 is inserted into an insertion slot formed in the bottom end of the base 100, both ends of the limiting post 270 are provided with arc slots, one side of each arc slot is provided with a bump 160, one end of each bump 160 away from the arc slot is provided with a first spring 150, the first spring 150 is disposed on the inner wall of the spring slot 140, one end of the first spring 150 away from the bump 160 is fixed on one side of the inner cavity of the spring slot 140, and the spring slot 140 is disposed inside the base 100.

The limiting column 270 is inserted into the insertion groove, and then the arc grooves on two sides of the limiting column 270 are extruded by the first spring 150 to be clamped with the protruding blocks 160, so that the limiting is performed, and the fixing effect is achieved.

Referring to fig. 1 and 2, a storage box 230 is fixedly connected to a first slider 220 at a bottom end, the storage box 230 is made of rubber, and a plurality of groups of circular holes are formed in a surface of the storage box 230 and are distributed according to an array.

The storage case 230 is made of rubber, and a plurality of groups of circular holes are formed in the surface of the storage case, so that the energy storage case 400 can be fully cooled.

Referring to fig. 1 and 3, the positioning mechanism 300 includes a sleeve 310 disposed at the top end of the base 100, a spring 320 disposed at the bottom end of an inner cavity of the sleeve 310, one end of the spring 320 away from the bottom end of the sleeve 310 is connected to the bottom end of a sleeve rod 330, the top end of the sleeve rod 330 is connected to a top plate 340, the sleeve rod 330 is disposed in the inner cavity of the sleeve 310, the top plate 340 is fixedly connected with the sleeve rod 330, and the top plate 340 is made of rubber.

When contacting with the installation mechanism 200, the top end of the storage box 230 jacks up the top plate 340, the sleeve rod 330 ascends and descends in the sleeve, downward force is applied to the top plate 340 by the pressure of the spring 320, the top of the storage box 230 is sealed by the top plate 340, and the top plate 340 is made of rubber material, so that the energy storage box 400 can be protected.

Referring to fig. 1 and 2, a pushing handle 130 is disposed on one side of the base 100, a shock absorbing shell 110 is disposed at the bottom end of the base 100, universal wheels 120 are disposed at the bottom end of the shock absorbing shell 110, four groups of shock absorbing shells 110 and universal wheels 120 are disposed at the bottom end of the base 100, damping members are disposed inside the shock absorbing shells 110, and the four groups of shock absorbing shells 110 are distributed at four corners of the base 100.

The pushing hands 130 can facilitate the pushing of a person, the four groups of damping shells 110 and universal wheels 120 arranged at the bottom end of the base 100 can facilitate the pushing of the base 100, and the damping shells 110 can absorb shock of the base 100 when moving.

When the storage box 230 is pulled out through the handle, the storage box 230 slides on the first slide rail 210 through the first slide block 220 at the bottom, meanwhile, the two sides of the storage box 230 touch the second slide plate 263 at the two sides, the second slide plate 263 moves through the matching of the second slide block at the bottom of the slide bar 261 and the third slide rail 262, the second rack 260 arranged at one side of the slide bar 261 rotates with the rack at one end of the slide block 241, the rack moves through the first slide plate 243 at the top of the slide block 241, then the energy storage box 400 is placed in the storage box 230, the storage box 230 is pushed back through the handle, when the storage box 230 abuts against the first slide plate 243, the second slide plate 263 is reset, and the limiting post 270 at the bottom of the limiting plate 280 is inserted into a hole groove formed in the surface of the second slide plate 263 until the bottom of the base 100 is inserted for fixing, so that the energy storage box 400 is protected, and the energy storage box 400 is protected in all directions during transportation.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (7)

1. A distributed mobile energy storage device comprising a base (100), characterized in that: the top end of the base (100) is provided with a mounting mechanism (200), two sides of the mounting mechanism (200) are provided with positioning mechanisms (300), and an energy storage box (400) is arranged in the mounting mechanism (200);

the mounting mechanism (200) comprises two groups of slide rails (210) arranged at the top end of the base (100), two groups of slide blocks (220) are arranged in the slide rails (210), the top end of the slide blocks (220) is connected with a storage box (230), an energy storage box (400) is arranged inside the storage box (230), two slide rails (240) are arranged at one side of the slide rails (210), a slide block (241) is arranged on the outer wall of the two slide rails (240), racks are arranged on one side of the slide block (241), connecting blocks (242) are arranged at the top ends of the slide blocks (241), gears (250) are arranged at one ends of the racks, which are far away from the slide blocks (241), racks (260) are arranged at one ends, which are far away from the gears (250), of the racks (260), slide bars (261) are arranged at one ends, which are far away from the gears (250), two groups of the slide blocks are arranged at the bottom end of the slide bars (261), three slide rails (262) are arranged at the bottom end, two sides of the slide bars (261) are provided with slide blocks (263), two slide blocks (263) are arranged at one side, a limiting column (270) are arranged at the top end, a limiting column (270) is arranged at the surface, and a limiting column (270) is arranged at the top end, a handle is arranged on one side of the storage box (230).

2. A distributed mobile energy storage device according to claim 1, wherein: the utility model discloses a base, including base (100) and spacing post (270), insert the insertion groove that base (100) bottom was seted up in spacing post (270) bottom, spacing post (270) both ends all are equipped with the arc wall, arc wall one side all is equipped with lug (160), the one end that arc wall was kept away from to lug (160) is equipped with spring (150), spring (150) set up at spring groove (140) inner wall, the one end that lug (160) was kept away from to spring (150) is fixed in spring groove (140) inner chamber one side, spring groove (140) set up inside base (100).

3. A distributed mobile energy storage device according to claim 1, wherein: the storage box (230) is fixedly connected with the first sliding block (220) at the bottom end, the storage box (230) is made of rubber, and a plurality of groups of circular hole grooves are formed in the surface of the storage box (230) and are distributed according to the array.

4. A distributed mobile energy storage device according to claim 1, wherein: the positioning mechanism (300) comprises a sleeve (310) arranged at the top end of the base (100), a spring (320) is arranged at the bottom end of an inner cavity of the sleeve (310), one end, far away from the bottom end of the sleeve (310), of the spring (320) is connected to the bottom end of a loop bar (330), and the top end of the loop bar (330) is connected with a top plate (340).

5. A distributed mobile energy storage device as defined in claim 4, wherein: the loop bar (330) is arranged in the inner cavity of the sleeve (310), the top plate (340) is fixedly connected with the loop bar (330), and the top plate (340) is made of rubber.

6. A distributed mobile energy storage device according to claim 1, wherein: the base (100) one side is equipped with pushing hands (130), base (100) bottom is equipped with damper (110), damper (110) bottom is equipped with universal wheel (120).

7. A distributed mobile energy storage device according to claim 1, wherein: four groups of damping shells (110) and universal wheels (120) are arranged at the bottom end of the base (100), damping pieces are arranged inside the damping shells (110), and the four groups of damping shells (110) are distributed at four corners of the base (100).