CN220180753U

CN220180753U - Support for power exchange station

Info

Publication number: CN220180753U
Application number: CN202321611438.4U
Authority: CN
Inventors: 李国庆; 朱刚; 孔超群; 牟东; 周爱军; 郑云飞
Original assignee: Suzhou Hanteng New Energy Technology Co ltd
Current assignee: Suzhou Hanteng New Energy Technology Co ltd
Priority date: 2023-06-25
Filing date: 2023-06-25
Publication date: 2023-12-15
Anticipated expiration: 2033-06-25

Abstract

The utility model relates to a bracket for a power exchange station, and relates to the technical field of power exchange stations, comprising a support vertical rod, wherein the bottom end of the support vertical rod is provided with a bottom connecting seat; two top connecting plates are arranged at the top ends of the supporting vertical rods and are respectively positioned on two opposite side walls of the supporting vertical rods; the lateral support cross beam is fixedly connected to the support vertical rod and comprises a left connecting table and a right connecting table which are respectively positioned on two opposite side walls of the support vertical rod. The utility model has the advantages of simplicity, convenience and lower cost.

Description

Support for power exchange station

Technical Field

The utility model relates to the technical field of power exchange stations, in particular to a bracket for a power exchange station.

Background

In recent years, the electric automobile market has shown explosive growth, more and more traditional automobile manufacturers are added to electric automobile camps, and as emission regulations are further tightened, electric automobiles have become necessary to replace traditional fuel automobiles, so more and more power exchanging stations are built.

The outer frame of the heavy vehicle power exchange station at the present stage is basically designed and transported in a container mode, the design mode is suitable for the heavy truck power exchange station, and for the heavy mine truck power exchange station, because the requirements on bearing capacity and transportation are higher, if the container type structure is used for continuously manufacturing the outer frame of the mine truck power exchange station, the problems of special transportation, inconvenient assembly and the like are easily brought, and the overall cost is improved.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a bracket for a power exchange station, which has the advantages of simplicity, convenience and lower cost.

The above object of the present utility model is achieved by the following technical solutions:

the bracket for the power exchange station comprises a support vertical rod, wherein a bottom connecting seat is arranged at the bottom end of the support vertical rod;

two top connecting plates are arranged at the top ends of the supporting vertical rods and are respectively positioned on two opposite side walls of the supporting vertical rods;

the lateral support cross beam is fixedly connected to the support vertical rod and comprises a left connecting table and a right connecting table which are respectively positioned on two opposite side walls of the support vertical rod.

The utility model is further provided with: the base connecting seat comprises a bottom plate and a plurality of reinforcing plates fixedly connected to the bottom plate, wherein a plurality of connecting holes are formed in the bottom plate, the connecting holes are arranged at four corners of the bottom plate at intervals, one end of each reinforcing plate is connected with the bottom plate, and one end of each reinforcing plate is connected with a supporting vertical rod.

The utility model is further provided with: the reinforcing plates are arranged on the side walls of the supporting vertical rods at intervals, and the number of the reinforcing plates on any two opposite side walls is equal.

The utility model is further provided with: each top connecting plate is connected with a stabilizing plate on one side of the support vertical rod, the stabilizing plate is arranged along the length direction of the support vertical rod, the length of the stabilizing plate in the length direction of the support vertical rod is longer than the length of the top connecting plate in the length direction of the support vertical rod, and the top end of the stabilizing plate is higher than the top end of the support vertical rod in the vertical direction.

The utility model is further provided with: the left connecting table comprises a top access plate, a bottom access plate and a middle plate, wherein the top access plate and the bottom access plate are arranged along the horizontal direction, and the middle plate is arranged along the vertical direction.

The utility model is further provided with: the right connection table comprises a right connection plate, a top plate arranged at the top end of the right connection plate and an inclined plate arranged at the bottom end of the right connection plate, wherein the length direction of the top plate is set along the direction away from the right connection plate, the inclined plate is inclined towards the top plate and away from one end of the right connection plate, a connection support plate is arranged on one end face of the top plate, away from the inclined plate, and a plurality of waist-shaped holes are formed in the connection support plate.

The utility model is further provided with: two support plates which are arranged in a cross staggered mode are arranged between the top plate and the inclined plate, and the length direction of one support plate is consistent with the length direction of the top plate.

The utility model is further provided with: the support vertical rod is an H-shaped steel rod.

In summary, the beneficial technical effects of the utility model are as follows:

1. the power exchange station factory building is formed by assembling a plurality of brackets, the on-site assembly can be performed by only transporting the brackets to the landing site, the transportation requirement is reduced, the operability and the manufacturability are high, and the cost is saved;

2. the bottom connecting seat is matched with the bearing foundation, so that the bearing requirement of the bearing seat on heavy battery equipment can be met, and the stability is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a bracket in an embodiment of the present utility model;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a schematic view of the right connecting station according to the embodiment of the present utility model;

fig. 5 is a reference view of a stent in use.

In the figure, 1, a supporting vertical rod; 2. a bottom connecting seat; 21. a bottom plate; 211. a connection hole; 22. a reinforcing plate; 3. a top connection plate; 31. a stabilizing plate; 4. a lateral support beam; 41. a left connecting table; 411. a top access panel; 412. a bottom lapping plate; 413. an intermediate plate; 42. a right connecting table; 421. a right connecting plate; 422. a top plate; 423. a sloping plate; 424. connecting a support plate; 425. a waist-shaped hole; 426. and a support plate.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The utility model discloses a bracket for a power exchange station, which comprises a long supporting vertical rod 1, wherein the supporting vertical rod 1 is made of H-shaped steel. The stabilizing plates 31 are connected to the two side walls of the top end of the vertical support rod 1, the stabilizing plates 31 are rectangular, the length direction of the stabilizing plates 31 is consistent with the length direction of the vertical support rod 1, and when the vertical support rod 1 is in a vertical state, the top end of the stabilizing plates 31 is higher than the top end of the vertical support rod 1 in the vertical direction. Each stabilizing plate 31 is connected with a top connecting plate 3 on an end face deviating from the support vertical rod 1, and the length of the top connecting plate 3 in the length direction of the support vertical rod 1 is smaller than the length of the stabilizing plate 31 in the length direction of the support vertical rod 1. When the assembly operation is carried out, the top stress diagonal bracing beams are connected between the top connecting plates 3 of the different support vertical rods 1, so that the function of supporting the top of the power exchange station factory building is achieved.

The bottom fixedly connected with bottom plate 21 of support montant 1, bottom plate 21 and the terminal surface butt of support montant 1, bottom plate 21 and support montant 1 mutually perpendicular are offered on the bottom plate 21 and are run through the connecting hole 211 that bottom plate 21 set up, and connecting hole 211 interval distribution is in the four corners of bottom plate 21, and in this embodiment, the quantity of connecting hole 211 in the four corners of bottom plate 21 all sets up to one. The bottom plate 21 is connected with a plurality of reinforcing plates 22, one side surface of the reinforcing plates is connected with the bottom plate 21, the other side surface of the reinforcing plates is connected with the supporting vertical rods 1, and the reinforcing plates 22 are in vertical relation with the bottom plate 21 and the supporting vertical plates. A plurality of reinforcing plates 22 are connected to each side of the support vertical rod 1, and the number of reinforcing plates 22 on the opposite side walls is equal. The bottom plate 21 and the reinforcing plate 22 jointly form a bottom connecting seat 2, and the bottom connecting seat 2 is fixedly connected with the foundation embedded bolts, so that the bracket is fixed.

The middle part of supporting montant 1 is connected with left connection platform 41, left connection platform 41 includes top strap 411, the end strap 412 that sets up along the horizontal direction, top strap 411 is parallel to each other with end strap 412, be provided with intermediate lamella 413 between top strap 411 and the end strap 412, intermediate lamella 413 sets up along vertical direction, the top of intermediate lamella 413 links to each other with the lower terminal surface of top strap 411, the bottom of intermediate lamella 413 links to each other with the up end of end strap 412, intermediate lamella 413 one side links to each other with supporting montant 1, left connection platform 41 wholly becomes the I shape.

The support montant 1 deviates from and is connected with right connection platform 42 on the lateral wall of left connection platform 41, and right connection platform 42 includes along laminating right connecting plate 421 on support montant 1 lateral wall, and the top of right connecting plate 421 is connected with roof 422, and roof 422 sets up along the horizontal direction, and roof 422 and top strap 411 are located same height, and the length direction of roof 422 sets up along the direction of keeping away from right connecting plate 421. The bottom of right connecting plate 421 is connected with swash plate 423, and swash plate 423 is set up towards the one end slope that roof 422 kept away from right connecting plate 421. Two support plates 426 are arranged between the top plate 422 and the sloping plate 423, wherein the length direction of one support plate 426 is consistent with the length direction of the top plate 422, and the other support plate 426 is arranged along the width direction of the top plate 422, namely, the two support plates 426 are arranged in a cross staggered manner. The upper end face of the top plate 422 is connected with a connecting support plate 424, and waist-shaped holes 425 are formed in four corners of the connecting support plate 424.

The left connecting table 41 and the right connecting table 42 form a lateral supporting beam 4 of the bracket, and when the power exchange station factory building is assembled, the moving rail of the power exchange robot can be connected to the lateral supporting beam 4 to play a role of fixing the rail.

The implementation principle of the embodiment is as follows: after the brackets are transported to the point to be assembled, transverse connecting rods are connected among the brackets, and then top stress diagonal bracing beams are installed at the tops of the brackets, so that a row of supports are formed, and multiple rows of supports are assembled in the same mode, so that a frame-type factory building structure is formed. According to the utility model, the factory building structure is formed by the outer frames assembled by the plurality of brackets, the brackets can be assembled on site only by being transported to the landing site, the transportation requirement is reduced, the operability and the manufacturability are high, and the cost is saved.

The embodiments of the present utility model are all preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims

1. The utility model provides a trade power station and use support, includes support montant (1), its characterized in that: the bottom end of the supporting vertical rod (1) is provided with a bottom connecting seat (2);

two top connecting plates (3) are arranged at the top end of the supporting vertical rod (1), and the two top connecting plates (3) are respectively positioned on two opposite side walls of the supporting vertical rod (1);

the support vertical rod (1) is fixedly connected with a lateral support cross beam (4), and the lateral support cross beam (4) comprises a left connecting table (41) and a right connecting table (42) which are respectively positioned on two opposite side walls of the support vertical rod (1).

2. A stand for a power exchange station according to claim 1, characterized in that: the base connecting seat (2) comprises a bottom plate (21) and a plurality of reinforcing plates (22) fixedly connected to the bottom plate (21), a plurality of connecting holes (211) are formed in the bottom plate (21), the connecting holes (211) are arranged at four corners of the bottom plate (21) at intervals, one end of each reinforcing plate (22) is connected with the bottom plate (21), and the other end of each reinforcing plate is connected with the supporting vertical rod (1).

3. A stand for a power exchange station according to claim 2, characterized in that: the reinforcing plates (22) are arranged on the side walls of the supporting vertical rods (1) at intervals, and the number of the reinforcing plates (22) on any two opposite side walls is equal.

4. A stand for a power exchange station according to claim 1, characterized in that: each top connecting plate (3) is connected with a stabilizing plate (31) towards one side of the supporting vertical rod (1), the stabilizing plate (31) is arranged along the length direction of the supporting vertical rod (1), the length of the stabilizing plate (31) in the length direction of the supporting vertical rod (1) is longer than the length of the top connecting plate (3) in the length direction of the supporting vertical rod (1), and the top end of the stabilizing plate (31) is higher than the top end of the supporting vertical rod (1) in the vertical direction.

5. A stand for a power exchange station according to claim 1, characterized in that: the left connecting table (41) comprises a top butt strap (411), a bottom butt strap (412) and a middle plate (413) which are arranged in the horizontal direction and arranged in the vertical direction, and two ends of the middle plate (413) are respectively connected with the top butt strap (411) and the bottom butt strap (412).

6. A stand for a power exchange station as claimed in claim 5, wherein: the right connection table (42) comprises a right connection plate (421), a top plate (422) arranged at the top end of the right connection plate (421) and a sloping plate (423) arranged at the bottom end of the right connection plate (421), wherein the length direction of the top plate (422) is set along the direction away from the right connection plate (421), the sloping plate (423) is inclined towards the top plate (422) away from one end of the right connection plate (421), a connection support plate (424) is arranged on one end surface of the top plate (422) away from the sloping plate (423), and a plurality of waist-shaped holes (425) are formed in the connection support plate (424).

7. A stand for a power exchange station as claimed in claim 6, wherein: two support plates (426) which are arranged in a cross staggered mode are arranged between the top plate (422) and the inclined plate (423), and the length direction of one support plate (426) is consistent with the length direction of the top plate (422).

8. A stand for a power exchange station according to claim 1, characterized in that: the supporting vertical rod (1) is an H-shaped steel rod.