CN219734835U - Connection structure is equipped in energy storage - Google Patents

Abstract

The utility model relates to the technical field of equipment installation, in particular to an energy storage equipment connecting structure, which solves the technical problem that the energy storage equipment in the prior art cannot be positioned and installed quickly when being connected and installed, and comprises the following components: a plurality of connection supports for supporting the equipment body; each connecting support is provided with a group of alignment connecting structures; each alignment structure can be connected with a matching structure; the matching structure is provided with a locking piece capable of rotating by a preset angle; the locking piece can lock the alignment connection structure and the matching structure on a prefabricated foundation. The technical scheme has the advantages that more space with controllable operation is provided when the connecting is matched, so that the connecting, positioning and locking are convenient; has the advantages of rapid assembly and positioning, safety and stability.

Description

Connection structure is equipped in energy storage

Technical Field

The utility model relates to the technical field of equipment installation, in particular to an energy storage equipment connecting structure.

Background

The energy storage equipment is an electric device, mainly takes an integrated battery as a core, is mainly used for system equipment driven by new energy, and is arranged in a box body in the main mode at present so as to be quickly put into use;

in the prior art, after the energy storage equipment arrives at a construction site, a concrete foundation needs to be poured, and if the energy storage equipment cannot be rapidly positioned based on different installation environments, the energy storage equipment is installed to exceed the time efficiency, so that potential safety hazards such as unstable installation and unexpected displacement can be caused.

Disclosure of Invention

The utility model provides a connecting structure of energy storage equipment, which aims to solve the technical problem that the energy storage equipment in the prior art cannot be positioned and installed quickly during connection and installation.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

an energy storage equipment connection structure, comprising:

a plurality of connection supports for supporting the equipment body;

the alignment connection structures are arranged on each connection support;

the matching structures can be connected with one matching structure on each alignment structure;

the matching structure is provided with a locking piece capable of rotating by a preset angle;

the locking piece can lock the alignment connection structure and the matching structure on a prefabricated foundation.

Specifically, the connection support is a support beam column, and a rib plate is arranged on the support beam column and used for connecting the equipment body and the side face of the support beam column;

the support beam column is vertically connected with the equipment body.

Specifically, the support beams are arranged symmetrically in pairs below the equipment body, and a plurality of support beams are arranged along the length direction of the equipment body.

Specifically, the alignment connection structure includes:

a first positioning plate and a second positioning plate parallel to the first positioning plate;

a positioning space is formed between the first positioning plate and the second positioning plate;

the first locating plate is located above the second locating plate.

Specifically, the first locating plate and the second locating plate are fixedly and vertically connected with the support beam column.

Specifically, the first locating plate is far away from one end of equipping the body is formed with the opening.

Specifically, the second positioning plate is used for being attached to a horizontal prefabricated surface of the prefabricated foundation;

a threaded hole is formed in one end, far away from the equipment body, of the second positioning plate;

the horizontal prefabrication surface of the prefabrication foundation is provided with prefabrication holes;

the diameter of the threaded hole is the same as that of the prefabricated hole.

Specifically, the mating structure includes:

a body capable of being disposed in the positioning space such that upper and lower thereof contact the first and second positioning plates, respectively;

the body is provided with a through groove, the forming direction of the through groove is perpendicular to the supporting beam column, and filling parts are formed on two sides of the through groove;

the bottom of the body is provided with a penetrating hole;

the penetration hole is concentric with the threaded hole.

Specifically, the method also comprises the following steps: the rotating threaded sleeve is connected with rotating shafts at two radial sides;

a rotating shaft hole is formed on the filling part;

the shaft sleeve is embedded in the rotating shaft hole;

the rotating shaft can penetrate into the shaft sleeve;

an internal threaded hole is formed in the rotary threaded sleeve.

Specifically, the locking member includes:

the screw body can be screwed into the internal threaded hole and screwed onto the threaded hole and the prefabricated hole through the penetration hole;

the first end of the screw body is provided with a nut end, and the nut end

Can be clamped on the notch.

The utility model has the following beneficial effects:

according to the technical scheme, the alignment connection structure is used as a basic calibration standard for positioning, the matched structure is used for positioning, the equipment body is stabilized, the locking piece has a rotatable preset angle, and more space with controllable operation is provided during matched connection, so that the connection, the positioning and the locking are facilitated; has the advantages of rapid assembly and positioning, safety and stability.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

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

FIG. 2 is a schematic view of a first positioning plate according to the present utility model;

fig. 3 is a schematic structural view of the mating structure of the present utility model.

Reference numerals in the drawings denote:

the device comprises a connecting support 10, an equipment body 1, an alignment connecting structure 20, a matching structure 30, a locking piece 40, a prefabricated foundation 100 and a rib plate 11;

the first positioning plate 201, the second positioning plate 202, the screw hole 212, the pre-fabricated hole 101, the body 301, the through groove 302, the filling portion 303, and the penetration hole 330;

a rotating shaft hole 312, a shaft sleeve 314, a rotating shaft 311, a screw body 401 and a nut end 402.

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, based on the embodiments of the utility model, which a person of ordinary skill in the art would obtain without inventive faculty, are within the scope of the utility model; it should be noted that, for convenience of description, in the present utility model, a "left side" is a "first end", a "right side" is a "second end", an "upper side" is a "first end", and a "lower side" is a "second end" in the present view, and the description is for clearly expressing the technical solution, and should not be construed as unduly limiting the technical solution of the present utility model.

The utility model provides a connection structure of energy storage equipment, which is shown in fig. 1-3, and comprises: a plurality of connection supports 10 for supporting the equipment body 1; an alignment connection structure 20, wherein each connection support 10 is provided with a group of alignment connection structures 20; a mating structure 30, each alignment structure 20 can be connected to a mating structure 30; the matching structure 30 is provided with a locking piece 40 which can rotate for a preset angle; the locking member 40 is capable of locking the alignment connection structure 20, the mating structure 30 to a prefabricated foundation 100; according to the technical scheme, the alignment connection structure 20 is used as a basic calibration standard for positioning, the matched structure 30 is used for positioning, the equipment body 1 is stabilized, the locking piece 40 has a rotatable preset angle, and more space with controllable operation is provided during matched connection, so that the connection, positioning and locking are facilitated; has the advantages of rapid assembly and positioning, safety and stability.

In a specific embodiment, referring to fig. 1-3, the connection support 10 is a support beam column, and a rib plate 11 is arranged on the support beam column, and the rib plate 11 is used for connecting the equipment body 1 and the side surface of the support beam column; the support beam column is vertically connected with the equipment body 1; further strengthening the support for the equipment body 1, making the whole more stable.

In a specific embodiment, referring to fig. 1-3, the support beams are arranged symmetrically in pairs below the equipment body 1, and a plurality of support beams are arranged along the length direction of the equipment body 1.

In one embodiment, referring to fig. 1-3, the alignment connection structure 20 includes: a first positioning plate 201 and a second positioning plate 202 parallel thereto; a positioning space is formed between the first positioning plate 201 and the second positioning plate 202; the first positioning plate 201 is located above the second positioning plate 202; the device can be intuitively used as an auxiliary positioning and auxiliary hoisting part during hoisting assembly, so that the assembly and positioning processes are quicker, and the construction strength is reduced.

In one embodiment, referring to fig. 1-3, a first positioning plate 201 and a second positioning plate 202 are fixedly and vertically connected to a support beam.

In a specific embodiment, referring to fig. 1-3, a notch 210 is formed at an end of the first positioning plate 201 away from the apparatus body 1.

In one embodiment, referring to FIGS. 1-3, a second positioning plate 202 is used to fit over a horizontal pre-form surface of pre-form foundation 100; the end of the second positioning plate 202, which is far away from the equipment body 1, is provided with a threaded hole 212; the horizontal prefabricated surface of the prefabricated foundation 100 is provided with prefabricated holes 101; the threaded bore 212 is the same diameter as the preformed bore 101; the above arrangement facilitates the use of the hole as a locating reference in construction.

In one particular embodiment, referring to FIGS. 1-3, the mating structure 30 includes: a body 301 capable of being disposed in a positioning space such that upper and lower thereof contact the first and second positioning plates 201 and 202, respectively; the body 301 is formed with a through groove 302, the direction in which the through groove 302 is formed is perpendicular to the support beam column, and the filling portions 303 are formed on both sides of the through groove 302; the bottom of the body 301 is provided with a penetration hole 330; the penetration hole 330 is concentric with the screw hole 212.

The method also comprises the following steps: the rotary screw sleeve 310, two radial sides of which are connected with a rotary shaft 311; the filling portion 303 is formed with a rotation shaft hole 312; the shaft hole 312 is embedded with a shaft sleeve 314; the rotating shaft 311 can penetrate into the shaft sleeve 314; the rotating threaded sleeve 310 has an internally threaded bore 320 formed therein.

The screw cap 310 is rotatable, so that the screw body 401 is brought into the screw body in time during assembly, and the influence on assembly and positioning is small, and rapid installation and positioning can be realized by rotating the screw cap 310.

In addition, the locking member 40 includes: a screw body 401 which can be screwed into the internal screw hole 320 and screwed onto the screw hole 212 and the pre-fabricated hole 101 through the penetration hole 330; the first end of the screw body 401 is provided with a nut end 402, the nut end 402 being capable of being snapped onto the notch portion 210.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. An energy storage equipment connection structure, characterized by comprising:

a plurality of connection supports (10) for supporting the equipment body (1);

an alignment connection structure (20), wherein each connection support (10) is provided with a group of alignment connection structures (20);

the matching structures (30), each alignment connection structure (20) can be connected with one matching structure (30);

a locking piece (40) capable of rotating for a preset angle is arranged on the matching structure (30);

the locking element (40) is capable of locking the alignment connection (20) and the mating structure (30) to a prefabricated foundation (100).

2. The energy storage equipment connecting structure according to claim 1, wherein the connecting support (10) is a support beam column, a rib plate (11) is arranged on the support beam column, and the rib plate (11) is used for connecting the equipment body (1) and the side surface of the support beam column;

the supporting beam column is vertically connected with the equipment body (1).

3. The energy storage equipment connection structure according to claim 2, characterized in that the support beams are arranged in a pairwise symmetrical manner below the equipment body (1) and a plurality of support beams are arranged along the length direction of the equipment body (1).

4. The energy storage equipment connection structure according to claim 2, wherein the alignment connection structure (20) comprises:

a first positioning plate (201) and a second positioning plate (202) parallel thereto;

a positioning space is formed between the first positioning plate (201) and the second positioning plate (202);

the first positioning plate (201) is located above the second positioning plate (202).

5. The energy storage equipment connection structure according to claim 4, wherein the first positioning plate (201) and the second positioning plate (202) are fixedly and vertically connected with the support beam.

6. The energy storage equipment connection structure according to claim 5, characterized in that an end of the first positioning plate (201) remote from the equipment body (1) is formed with a notch portion (210).

7. The energy storage equipment connection structure of claim 6, wherein the second positioning plate (202) is adapted to fit on a horizontal prefabricated surface of a prefabricated foundation (100);

one end of the second positioning plate (202) far away from the equipment body (1) is provided with a threaded hole (212);

a horizontal prefabrication surface of the prefabrication foundation (100) is provided with prefabrication holes (101);

the threaded hole (212) is the same diameter as the preformed hole (101).

8. The energy storage equipment connection structure according to claim 7, wherein the mating structure (30) comprises:

a body (301) capable of being disposed in the positioning space such that upper and lower thereof contact the first positioning plate (201) and the second positioning plate (202), respectively;

the body (301) is formed with a through groove (302), the direction in which the through groove (302) is formed is perpendicular to the support beam column, and filling parts (303) are formed on two sides of the through groove (302);

a penetrating hole (330) is formed in the bottom of the body (301);

the penetration hole (330) is concentric with the screw hole (212).

9. The energy storage device connection structure of claim 8, further comprising: a rotary threaded sleeve (310), two radial sides of which are connected with a rotary shaft (311);

a rotation shaft hole (312) is formed in the filling part (303);

a shaft sleeve (314) is embedded in the rotating shaft hole (312);

the rotating shaft (311) can penetrate into the shaft sleeve (314);

an internally threaded bore (320) is formed in the rotating threaded sleeve (310).

10. The energy storage equipment connection structure according to claim 9, wherein the locking member (40) comprises:

a screw body (401) which can be screwed into the internal threaded hole (320) and screwed onto the threaded hole (212) and the prefabricated hole (101) through the penetration hole (330);

the first end of the screw body (401) is provided with a nut end (402), the nut end (402)

Can be clamped on the notch (210).