CN212182179U - Energy storage equipment for redistributing electric energy among multiple devices - Google Patents

Abstract

The utility model relates to an energy storage equipment technical field, and an energy storage equipment of redistribution electric energy between multi-device is disclosed, including the energy storage box, the inside lower fixed surface of energy storage box is connected with the annular cover, be provided with energy storage power in the annular cover, and energy storage power fixed mounting is at the inside lower surface of energy storage box, energy storage power's output fixedly connected with leads electrical pillar, the electrically conductive dish of top fixedly connected with ring of leading electrical pillar, fixed the inlaying has a plurality of first conducting blocks that are annular evenly distributed on the outer lane lateral wall of the electrically conductive dish of ring, fixed the inlaying has a plurality of second conducting blocks corresponding with first conducting block on the inner wall of annular cover, sliding connection has the metal block of matching between first conducting block and the second conducting block, the last fixed surface of metal block is connected with the insulator spindle, and be connected through regulation and control mechanism between insulator spindle and the energy storage. The utility model discloses make energy storage equipment conveniently carry out electric energy fast distribution to a plurality of consumer as required.

Description

Energy storage equipment for redistributing electric energy among multiple devices

Technical Field

The utility model relates to an energy storage equipment technical field especially relates to an energy storage equipment of redistribution electric energy between many equipment.

Background

The discovery of electricity can be said to be a revolution of human history, but comes along with the increasing scarcity of resources in energy storage devices. The energy storage cabinet is applied to a power supply system, can select power supply of a power grid or power supply of the energy storage cabinet according to actual power supply needs, and generally comprises a battery unit, an inverter and a control unit, wherein the inverter converts external energy into electric energy which is transmitted to the battery unit for storage through the control unit.

Among the prior art, the energy storage cabinet is convenient to supply power to consumer, but, inconvenient distributes the electric energy between a plurality of consumer, and the circular telegram and the outage state of a plurality of equipment inconveniently carry out the fast switch-over as required.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that energy storage equipment is inconvenient to distribute the electric energy between a plurality of consumer among the prior art, and the energy storage equipment of redistribution electric energy between the multi-device that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an energy storage device for redistributing electric energy among multiple devices comprises an energy storage box, wherein the lower surface inside the energy storage box is fixedly connected with an annular sleeve, an energy storage power supply is arranged in the annular sleeve, the energy storage power supply is fixedly arranged on the lower surface of the inner part of the energy storage box, the output end of the energy storage power supply is fixedly connected with the conductive post, the top end of the conductive post is fixedly connected with an annular conductive disc, a plurality of first conductive blocks which are uniformly distributed in an annular shape are fixedly embedded on the side wall of the outer ring of the annular conductive disc, a plurality of second conductive blocks corresponding to the first conductive blocks are fixedly embedded on the inner wall of the annular sleeve, a matched metal block is connected between the first conductive block and the second conductive block in a sliding way, the upper surface of the metal block is fixedly connected with an insulating rod, the insulating rod is connected with the top of the energy storage box through a regulating mechanism, and the top of the energy storage box is provided with a plurality of annular and uniformly distributed threading holes;

regulation and control mechanism includes a plurality of recesses of seting up at energy storage tank top, and a plurality of recesses are annular evenly distributed, the tank bottom of recess is run through and upwards extends on the top of insulator spindle, sliding connection has the first magnetic path of matching in the recess, and first magnetic path is fixed cup joints on the insulator spindle, fixedly connected with spring between the tank bottom of first magnetic path and recess, and the spring housing establishes and sets up on the insulator spindle, the notch position department of recess rotates through the bearing symmetry and is connected with the commentaries on classics round pin, and the second magnetic path of laminating mutually with first magnetic path fixedly connected with of commentaries on classics round pin.

Preferably, the lower surface of the metal block is provided with a positioning block which is attached to the lower surface of the metal block, and the positioning block is fixedly connected to the inner wall of the annular sleeve.

Preferably, the top end of the insulating rod is fixedly connected with a pull ring.

Preferably, a plurality of insulating reinforcing rods are fixedly connected between the conductive posts and the annular conductive disc.

Preferably, a protective sleeve is fixedly arranged in the threading hole.

Preferably, the opposite sides of the first magnetic block and the second magnetic block are opposite in magnetism.

Compared with the prior art, the utility model provides an energy storage equipment of redistribution electric energy between many equipment possesses following beneficial effect:

this energy storage equipment of redistribution electric energy between many equipment, through setting up the annular cover, energy storage power supply, it leads electrical pillar, the annular conducting disc, first conducting block, the second conducting block, the metal block, the insulator spindle, regulation and control mechanism and through wires hole, regulation and control mechanism conveniently regulates and control the position of metal block as required, when metal block and first conducting block and second conducting block are laminated each other, can communicate energy storage power supply, when metal block and first conducting block and second conducting block separate, can break off energy storage power supply, all be connected with the wire on a plurality of second conducting blocks, the wire passes the wire hole and is connected with external consumer, can control the circular telegram and the outage state of consumer fast through the control metal block, thereby make energy storage equipment conveniently carry out the electric energy fast distribution to a plurality of consumers as required.

The part that does not relate to in the device all is the same with prior art or can adopt prior art to realize, the utility model discloses make energy storage equipment conveniently carry out the electric energy rapid distribution to a plurality of consumer as required.

Drawings

Fig. 1 is a schematic structural diagram of an energy storage device for redistributing electric energy among multiple devices according to the present invention;

fig. 2 is an enlarged view of a portion a in fig. 1.

In the figure: the energy storage device comprises an energy storage box 1, an annular sleeve 2, an energy storage power supply 3, a conductive column 4, an annular conductive disc 5, a first conductive block 6, a second conductive block 7, a metal block 8, an insulating rod 9, a threading hole 10, a groove 11, a first magnetic block 12, a spring 13, a rotating pin 14, a second magnetic block 15, a positioning block 16, a pull ring 17, an insulating reinforcing rod 18 and a protective sleeve 19.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-2, an energy storage device for redistributing electric energy among multiple devices comprises an energy storage box 1, an annular sleeve 2 is fixedly connected to the lower surface inside the energy storage box 1, an energy storage power supply 3 is arranged in the annular sleeve 2, the energy storage power supply 3 is fixedly installed on the lower surface inside the energy storage box 1, a conductive column 4 is fixedly connected to the output end of the energy storage power supply 3, an annular conductive disc 5 is fixedly connected to the top end of the conductive column 4, a plurality of first conductive blocks 6 which are uniformly distributed in an annular shape are fixedly embedded on the outer side wall of the annular conductive disc 5, a plurality of second conductive blocks 7 corresponding to the first conductive blocks 6 are fixedly embedded on the inner wall of the annular sleeve 2, matched metal blocks 8 are slidably connected between the first conductive blocks 6 and the second conductive blocks 7, an insulating rod 9 is fixedly connected to the upper surface of each metal block 8, and the insulating rod 9 is connected with the top of the, the top of the energy storage box 1 is provided with a plurality of threading holes 10 which are uniformly distributed in a ring shape;

the regulating mechanism comprises a plurality of grooves 11 arranged at the top of the energy storage box 1, the grooves 11 are uniformly distributed in an annular shape, the top end of an insulating rod 9 penetrates through the bottom of the groove 11 and extends upwards, a matched first magnetic block 12 is connected in the groove 11 in a sliding manner, the first magnetic block 12 is fixedly sleeved on the insulating rod 9, a spring 13 is fixedly connected between the first magnetic block 12 and the bottom of the groove 11, the spring 13 is sleeved on the insulating rod 9, the notch position of the groove 11 is symmetrically and rotatably connected with a rotating pin 14 through a bearing, the top end of the rotating pin 14 is fixedly connected with a second magnetic block 15 attached to the first magnetic block 12, the second magnetic block 15 is deflected to drive the rotating pin 14 to rotate, so that the first magnetic block 12 is separated from the second magnetic block 15, the spring 13 drives the first magnetic block 12 to reset and ascend, the first magnetic block 12 drives the insulating rod 9 to synchronously ascend, so that the metal block 8 is separated from the first conductive block 6 and the second guide block 7, can break off energy storage power supply 3, it makes metal block 8 laminate each other with first conducting block 6 and second conducting block 7 to push down insulator spindle 9, can communicate energy storage power supply 3, all be connected with the wire on a plurality of second conducting blocks 7 (not marked in the picture), the wire passes wire guide 10 and is connected with external consumer, can control the circular telegram and the outage state of consumer fast through 8 positions of control metal block, thereby make energy storage equipment conveniently carry out the electric energy to a plurality of consumers as required and distribute fast.

The lower surface of metal block 8 is equipped with the locating piece 16 of laminating mutually, and locating piece 16 fixed connection is on the inner wall of annular cover 2, and when metal block 8 descends and contradicts with locating piece 16, at this moment, metal block 8 laminates each other with first conducting block 6 and second conducting block 7 to make things convenient for metal block 8 to fix a position.

The top end of the insulating rod 9 is fixedly connected with a pull ring 17, so that the insulating rod 9 is conveniently driven to slide.

A plurality of insulating reinforcing rods 18 are fixedly connected between the conductive columns 4 and the annular conductive disc 5, so that the supporting stability is improved.

A protective sleeve 19 is fixedly arranged in the threading hole 10, so that the wire is protected conveniently.

The opposite sides of the first magnetic block 12 and the second magnetic block 15 are opposite in magnetism, so that the first magnetic block 12 and the second magnetic block 15 can generate attraction force, and stability is guaranteed.

The utility model discloses in, second magnetic path 15 deflects, it rotates to drive round pin 14, make first magnetic path 12 and the separation of second magnetic path 15, spring 13 will drive first magnetic path 12 and reset and rise, first magnetic path 12 drives insulator spindle 9 and rises in step, thereby make metal block 8 and first conducting block 6 and the separation of second conducting block 7, can break off energy storage power supply 3, it makes metal block 8 and first conducting block 6 and the laminating of second conducting block 7 each other to push down insulator spindle 9, can communicate energy storage power supply 3, all be connected with the wire on a plurality of second conducting blocks 7, the wire passes wire guide 10 and is connected with external consumer, can control the circular telegram and the outage state of consumer fast through control metal block 8 positions, thereby make the energy storage equipment conveniently carry out the electric energy to a plurality of consumers as required and distribute fast.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The energy storage device comprises an energy storage box (1) and is characterized in that an annular sleeve (2) is fixedly connected to the lower surface inside the energy storage box (1), an energy storage power source (3) is arranged in the annular sleeve (2), the energy storage power source (3) is fixedly installed on the lower surface inside the energy storage box (1), a conductive column (4) is fixedly connected to the output end of the energy storage power source (3), an annular conductive disc (5) is fixedly connected to the top end of the conductive column (4), a plurality of first conductive blocks (6) which are uniformly distributed in an annular shape are fixedly embedded on the outer ring side wall of the annular conductive disc (5), a plurality of second conductive blocks (7) corresponding to the first conductive blocks (6) are fixedly embedded on the inner wall of the annular sleeve (2), and matched metal blocks (8) are slidably connected between the first conductive blocks (6) and the second conductive blocks (7), the upper surface of the metal block (8) is fixedly connected with an insulating rod (9), the insulating rod (9) is connected with the top of the energy storage box (1) through a regulating mechanism, and the top of the energy storage box (1) is provided with a plurality of annular and uniformly distributed threading holes (10);

regulation and control mechanism includes a plurality of recess (11) of seting up at energy storage box (1) top, and a plurality of recess (11) are annular evenly distributed, the tank bottom of recess (11) is run through and upwards extends on the top of insulator spindle (9), sliding connection has first magnetic path (12) of matching in recess (11), and first magnetic path (12) are fixed cup joints on insulator spindle (9), fixedly connected with spring (13) between the tank bottom of first magnetic path (12) and recess (11), and spring (13) cover establish and set up on insulator spindle (9), the notch position department of recess (11) rotates through the bearing symmetry and is connected with round pin (14), and the second magnetic path (15) that the top fixedly connected with of round pin (14) and first magnetic path (12) laminated mutually.

2. The energy storage device for redistributing electric energy among multiple devices according to claim 1, wherein the lower surface of the metal block (8) is provided with a positioning block (16) which is attached to the lower surface of the metal block, and the positioning block (16) is fixedly connected to the inner wall of the annular sleeve (2).

3. An energy storage device for redistributing electric energy between devices according to claim 1, characterized in that a pull ring (17) is fixedly connected to the top end of the insulating rod (9).

4. An energy storage device for redistributing electric energy between multiple devices according to claim 1, characterized in that a plurality of insulating reinforcing rods (18) are fixedly connected between the conductive posts (4) and the annular conductive disc (5).

5. An energy storage device for redistributing electric energy between devices as claimed in claim 1, wherein a protective sheath (19) is fixedly mounted in the threading hole (10).

6. An energy storage device for redistributing electrical energy between multiple devices as claimed in claim 1, wherein the facing sides of the first magnetic block (12) and the second magnetic block (15) are magnetically opposite.

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