CN216958311U - Assembled battery power dissipation frame - Google Patents

Abstract

The utility model discloses an assembled battery dissipating frame which comprises a plurality of lattice beams and two cross beams, wherein the lattice beams are connected between the two cross beams to form a frame for supporting a battery, the lattice beams and the cross beams are made of rectangular pipe section materials through blanking, two rows of leg assemblies which are arranged at equal intervals are arranged on the front side and the rear side of the frame, each row of leg assemblies are connected through a scissor type connecting rod assembly, the scissor type connecting rod assembly is made of a plurality of groups of two flat rods which are hinged in the middle, each leg assembly comprises a bottom pipe and a top pipe, a first inserting column which is inserted into the bottom pipe is arranged at the lower end of each top pipe, the first inserting columns are connected with the bottom pipes through pins, the inner side surfaces of the bottom pipes and the inner side surfaces of the top pipes are fixedly connected with studs, the studs are used for hinging the end parts of the two flat rods, chucks are inserted into the upper ends of the leg assemblies, and the chucks are used for clamping the cross beams and the lattice beams. This bulk frame adopts the modularized design, can preprocess to the scene and assemble, and the preparation is convenient, can be according to nimble adjustment length of on-the-spot demand and height.

Description

Assembled battery power dissipation frame

Technical Field

The utility model relates to the technical field of a force dispersing frame, in particular to an assembled battery force dispersing frame.

Background

The storage battery is more and more common in our life, and the stacking of the storage battery becomes a concern of people, and considering the economic reason, the large-capacity battery of the current machine room is generally a lead-acid battery, the weight of the battery is large, the local load capacity of the battery stacked on the ground to the ground is large, the local load capacity of the battery stacked on the ground can exceed the local bearing capacity of the ground, the ground is crushed, and if the machine room is positioned on a floor, potential safety hazards can also occur.

At present, a large-area force dispersing frame is generally manufactured to support a battery, pressure load is distributed to a large-area ground, the whole size of the force dispersing frame is large, transportation is inconvenient, the existing force dispersing frame is generally manufactured by cutting section materials on site and performing blanking welding, the field blanking welding manufacturing is often limited by field operation conditions, operation equipment and accurate quantity of section material are required to be transported to the site, and therefore manufacturing is inconvenient.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a battery dissipating rack, which solves the above problems.

In order to achieve the purpose, the utility model provides the following technical scheme: an assembled battery dissipating force frame comprises a plurality of lattice beams and two cross beams, wherein the lattice beams are connected between the two cross beams to form a frame for supporting a battery, the lattice beams and the cross beams are made of rectangular pipe section materials in a blanking mode, two rows of leg assemblies which are arranged at equal intervals are arranged on the front side and the rear side of the frame, each row of leg assemblies are connected through a shear type connecting rod assembly, the shear type connecting rod assembly is made of a plurality of groups of two flat rods hinged to the middle portion, each leg assembly comprises a bottom pipe and a top pipe, a first inserting column which is inserted into the bottom pipe is arranged at the lower end of each top pipe, the first inserting columns are connected with the bottom pipe through pins, the inner side faces of the bottom pipe and the top pipe are fixedly connected with studs, and the studs are used for hinging the end portions of the two flat rods;

the upper end of landing leg subassembly is pegged graft and is had the chuck, and the chuck includes square supporting shoe and fixes the second in the chuck bottom and insert the post, and the upside of supporting shoe is equipped with crisscross draw-in groove, the crossbeam joint is between every row of chuck, the gridwork is connected respectively between two chucks of two symmetries.

Preferably, the side surface of the first inserting column is provided with a plurality of positioning holes which are vertically arranged at equal intervals, the bottom tube is provided with pin holes with the same size as the positioning holes, and the height of the first inserting column is fixed to the corresponding positioning holes through the pin holes in an inserting manner of bolts.

Preferably, the lower end of the bottom pipe is welded with a bottom plate, the length and width of the bottom plate are larger than the section size of the bottom pipe, and the bottom pipe and the top pipe are both rectangular pipe structures.

Preferably, the opening part on draw-in groove four sides is equipped with the slot that vertical runs through respectively, the equal fixedly connected with inserted block in tip both sides of gridwork girder, crossbeam, inserted block and slot phase-match are pegged graft and are realized that the level restraint is fixed.

Preferably, screw holes communicated with the clamping grooves are formed in four sides of the supporting block respectively, and bolts are screwed into the screw holes to fix the lattice beams or the cross beams at corresponding positions.

Compared with the prior art, the utility model has the beneficial effects that: through adjusting scissors link assembly length, can adjust the interval of adjacent landing leg subassembly and the height of landing leg subassembly, every row's landing leg subassembly and scissors link assembly can be prefabricated and assemble in the mill to can shorten length and conveniently transport. The top of each supporting leg component is provided with a supporting block in an inserted connection mode, and the supporting blocks are installed with the grid beams and the cross beams forming the framework in a clamped mode, so that the grid beams and the cross beams can be cut and fed in a factory according to actual requirements and then transported to a site to be built and assembled. In conclusion, the scattered force frame adopts the modularized design, can be assembled on site after being preprocessed, is convenient to manufacture, and can flexibly adjust the length and the height according to the site requirements.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a leg assembly according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a chuck according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of a grid beam according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a chuck according to a second embodiment of the present invention.

In the figure: 1. a grid beam; 2. a cross beam; 3. a scissor link assembly; 4. a chuck; 41. a supporting block; 42. a second insert post; 43. a card slot; 44. a slot; 45. a screw hole; 5. a leg assembly; 51. a bottom tube; 52. jacking pipes; 53. a first insert post; 54. a stud; 55. positioning holes; 56. a base plate; 57. a bolt; 6. and (5) inserting the blocks.

Detailed Description

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

Example one

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an assembled battery power dissipation frame, includes a plurality of gridwells 1 and two crossbeams 2, gridwells 1 connects and constitutes the frame that supports the battery between two crossbeams 2, gridwells 1 and crossbeams 2 all adopt the unloading of rectangular pipe section bar to make, both sides are provided with two rows of leg assembly 5 that arrange equidistantly around the frame, connect through cutting formula link assembly 3 between every row of leg assembly 5, it is made at middle part articulated flat bar by two of a plurality of groups to cut formula link assembly 3, it can the telescopic adjustment length to cut formula link assembly 3.

The landing leg assembly 5 comprises a bottom pipe 51 and a top pipe 52, a first inserting column 53 inserted with the bottom pipe 51 is arranged at the lower end of the top pipe 52, the first inserting column 53 is in pin connection with the bottom pipe 51, studs 54 are fixedly connected with the inner side surfaces of the bottom pipe 51 and the top pipe 52, the studs 54 are used for hinging the end parts of two flat rods, after the scissor type connecting rod assembly 3 is contracted, the landing leg assemblies 5 in each row are mutually closed, the length is shortened, the transportation is convenient, the height of the landing leg assembly 5 can also be adjusted, a plurality of positioning holes 55 vertically and equidistantly arranged are arranged on the side surface of the first inserting column 53, the bottom pipe 51 is provided with pin holes with the same size as the positioning holes 55, the height of the first inserting column 53 is fixed to the corresponding positioning holes 55 through the pin holes, a bottom plate 56 is welded at the lower end of the bottom pipe 51, the long-wide size of the bottom plate 56 is larger than the cross-sectional size of the bottom pipe 51, and the bottom pipe 51 and the top pipe 52 are both rectangular pipe structures,

the upper end of landing leg subassembly 5 is pegged graft and is had chuck 4, chuck 4 includes square supporting shoe 41 and fixes the second in chuck 4 bottom and insert post 42, the second is inserted post 42 and is pegged graft with the inner chamber of push pipe 52, the realization is to the installation of chuck 4, the upside of supporting shoe 41 is equipped with criss-cross draw-in groove 43, 2 joints of crossbeam are between every row of chuck 4, grider 1 connects respectively between two chucks 4 of two symmetries, the opening part of draw-in groove 43 four sides is equipped with vertical slot 44 that runs through respectively, grider 1, the equal fixedly connected with inserted block 6 in the tip both sides of crossbeam 2, inserted block 6 is pegged graft with slot 44 phase-match and is realized that the level restraint is fixed, thereby conveniently install grider 1 and crossbeam 2 at the scene.

Example two

Please refer to fig. 5, which is different from the first embodiment: the fixing modes of the grid beam 1 and the cross beam 2 after being clamped with the clamping groove 43 are different. Specifically, screw holes 45 communicated with the clamping grooves 43 are respectively formed in four sides of the supporting block 41, and after bolts are screwed into the screw holes 45, the front ends of the bolts abut against the side surfaces of the lattice beam 1 or the cross beam 2 to realize fixation.

The working principle is as follows: this scattered power frame is equipped with two rows of landing leg subassembly 5, connect through scissors formula link assembly 3 between every row of landing leg subassembly 5, landing leg subassembly 5 is including the bottom tube 51 and the push pipe 52 of pegging graft each other, the flat bar tip of constituteing landing leg subassembly 5 is articulated with the side of bottom tube 51 or push pipe 52, consequently, adjust link assembly 3 length, can adjust the interval of adjacent landing leg subassembly 5 and the height of landing leg subassembly 5, every row of landing leg subassembly 5 can shorten and conveniently transport to the scene, also can be according to in-service use needs height-adjusting, conveniently walk the line.

The top of each supporting leg component 5 is provided with a supporting block 41 in an inserted connection mode, and the supporting blocks 41 are connected with the grid beams 1 and the cross beams 2 forming the framework in a clamped mode, so that the grid beams 1 and the cross beams 2 can be cut and blanked in a factory according to actual requirements and then transported to a site to be built and assembled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and all the equivalent substitutions and changes according to the technical solution and the utility model concept of the present invention should be covered within the scope of the present invention.

Claims (5)

1. The utility model provides an assembled battery power dissipation frame, includes a plurality of gridwells (1) and two crossbeams (2), gridwells (1) connect and constitute the frame that supports the battery between two crossbeams (2), and gridwells (1) and crossbeam (2) all adopt the unloading of rectangular pipe section bar to make, both sides are provided with two rows of landing leg components (5) of arranging, its characterized in that equally spaced around the frame: each row of the supporting leg assemblies (5) are connected through a scissor type connecting rod assembly (3), the scissor type connecting rod assembly (3) is made of a plurality of groups of two flat rods hinged to the middle portion, each supporting leg assembly (5) comprises a bottom pipe (51) and a top pipe (52), a first inserting column (53) inserted into the bottom pipe (51) is arranged at the lower end of the top pipe (52), the first inserting column (53) is in pin connection with the bottom pipe (51), the inner side surfaces of the bottom pipe (51) and the top pipe (52) are fixedly connected with studs (54), and the studs (54) are used for hinging the end portions of the two flat rods;

the upper end of landing leg subassembly (5) is pegged graft and is had chuck (4), and chuck (4) are inserted post (42) including square supporting shoe (41) and the second of fixing in chuck (4) bottom, and the upside of supporting shoe (41) is equipped with criss-cross draw-in groove (43), crossbeam (2) joint is between every row of chuck (4), gridwork (1) is connected respectively between two chucks (4) of two symmetries.

2. The assembled battery dissipation rack of claim 1, wherein: the side surface of the first inserting column (53) is provided with a plurality of positioning holes (55) which are vertically arranged at equal intervals, the bottom tube (51) is provided with pin holes with the same size as the positioning holes (55), and the height of the first inserting column (53) is fixed to the corresponding positioning holes (55) through the pin holes to insert the inserting pins (57).

3. The assembled battery dissipation rack of claim 2, wherein: the lower end of the bottom pipe (51) is welded with a bottom plate (56), the length and width of the bottom plate (56) are larger than the section size of the bottom pipe (51), and the bottom pipe (51) and the top pipe (52) are both rectangular pipes.

4. The assembled battery dissipation rack of claim 1, wherein: the opening part on draw-in groove (43) four sides is equipped with vertical slot (44) that run through respectively, the equal fixedly connected with inserted block (6) in tip both sides of gridwork roof beam (1), crossbeam (2), inserted block (6) and slot (44) phase-match are pegged graft and are realized that the level restraint is fixed.

5. The assembled battery dissipation rack of claim 1, wherein: screw holes (45) communicated with the clamping grooves (43) are respectively formed in four sides of the supporting block (41), and bolts are screwed into the screw holes (45) to fix the lattice beam (1) or the cross beam (2) at the corresponding position.

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