CN216872168U - New forms of energy battery rack construction - Google Patents

Abstract

The utility model discloses a new energy battery rack structure which comprises a bottom cross beam assembly and a top cross beam assembly, wherein a first side vertical beam assembly, a second side vertical beam assembly and a middle vertical beam assembly are fixedly welded between the bottom cross beam assembly and the top cross beam assembly, a plurality of middle vertical beam assemblies are arranged and are respectively positioned between the first side vertical beam assembly and the second side vertical beam assembly, and conductive connection areas are respectively arranged at the installation positions of the first side vertical beam assembly, the second side vertical beam assembly, the middle vertical beam assembly, the bottom cross beam assembly and the top cross beam assembly. The new energy battery rack structure provided by the utility model has the advantages that the weight is light, the structural strength is good, the assembly is convenient, the fixation is firm, the precision is high, the stacking requirement of battery packs is met, meanwhile, racks with different layers and lines can be provided according to the market demand, the battery packs are limited by arranging the first limiting blocks and the second limiting blocks, the batteries can be conveniently pushed to the right position to be sensed, and the use is convenient.

Description

New forms of energy battery rack construction

Technical Field

The utility model relates to the technical field of batteries, in particular to a new energy battery rack structure.

Background

Along with the development of new forms of energy trade, the use of lithium cell is also more and more extensive, but current power field, most all separate battery box, high-voltage electronic components distinguish, and this kind has shortcomings such as bulky, weight is heavy, causes the direct range upon range of stack structure yielding not enough of battery package from this, can't satisfy the demand in the existing market and be unfavorable for industrial production, awaits the perfection. Therefore, a new energy battery frame structure is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a new energy battery frame structure which can effectively solve the problems in the background technology.

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

a new energy battery rack structure comprises a bottom cross beam assembly and a top cross beam assembly, wherein a first side vertical beam assembly, a second side vertical beam assembly and a middle vertical beam assembly are fixedly welded between the bottom cross beam assembly and the top cross beam assembly, and a plurality of middle vertical beam assemblies are arranged and are all positioned between the first side vertical beam assembly and the second side vertical beam assembly; the bottom cross beam assembly comprises two bottom first cross beams, a plurality of bottom second cross beams are fixedly mounted between the two bottom first cross beams through rivet pulling, and the plurality of bottom second cross beams are distributed at equal intervals and are fixedly welded with the bottom first cross beams; the top beam assembly comprises a top beam, the top beam is provided with two and two top beams, the top beam is riveted with two top beams and three top beams through rivets, the top beams are located between the two top beams, one ends of the two top beams and the three top beams are provided with vertical beam reinforcing rib fixing parts, and the vertical beam reinforcing rib fixing parts are fixedly welded with the two top beams.

Preferably, No. one limit is erected the roof beam subassembly and is included that a limit erects the roof beam and No. two limits erect the roof beam, No. one limit is erected roof beam and No. two limits and is erected common fixed mounting between the roof beam and have a plurality of guide rails, the equal fixed mounting in both sides has a limit to erect the roof beam and No. two limits about the opposition end that the roof beam was erected to a limit, No. one limit is erected roof beam and No. two limits and is kept away from the equal fixed mounting in one side of opposition end and has the limit to erect roof beam oblique angle strengthening rib, No. one limit is erected roof beam and No. two limits and is erected the both ends of roof beam and all with bottom crossbeam subassembly and top crossbeam subassembly fixed mounting, and No. one limit is erected roof beam triangle strengthening rib and the fixed welding of bottom crossbeam subassembly and top crossbeam subassembly that correspond.

Preferably, No. two limits are erected the roof beam subassembly and are included that No. three limits erect the roof beam and No. four limits are erected the roof beam, No. three limits are erected roof beam and No. four limits and are erected common fixed mounting between the roof beam and have a plurality of guide rails, No. three limits are erected roof beam and No. four limits and are erected the equal fixed mounting in both sides about the opposition end of roof beam and No. four limits and have No. two limits to erect the roof beam triangle strengthening rib, No. three limits are erected roof beam and No. four limits and are erected the both ends of roof beam and all with bottom crossbeam subassembly and top crossbeam subassembly fixed mounting, and No. two limits are erected roof beam triangle strengthening rib and the fixed welding of bottom crossbeam subassembly and top crossbeam subassembly that correspond.

Preferably, No. two limits erect the structure of roof beam triangle strengthening rib and the structure that No. one limit erected roof beam triangle strengthening rib the same, a guide rail and No. two guide rail relative distributions, and the equal integrated into one piece in one end of a guide rail and No. two guide rails has a stopper.

Preferably, the middle vertical beam assembly comprises a middle front vertical beam and a middle rear vertical beam, a plurality of three guide rails and four guide rails are fixedly mounted between the middle front vertical beam and the middle rear vertical beam, the three guide rails and the four guide rails are located at the left side and the right side of the middle front vertical beam and the middle rear vertical beam, three sides vertical beam triangular reinforcing ribs are fixedly mounted on the upper side and the lower side of opposite ends of the middle front vertical beam and the middle rear vertical beam, middle vertical beam inclined reinforcing ribs are fixedly mounted on the upper side and the lower side of the rear end of the middle rear vertical beam and are symmetrically distributed, two ends of the middle front vertical beam and the middle rear vertical beam are fixedly mounted with a bottom cross beam assembly and a top cross beam assembly, and the three sides vertical beam triangular reinforcing ribs and the middle vertical beam inclined reinforcing ribs are fixedly welded with the corresponding bottom cross beam assembly and the top cross beam assembly.

Preferably, No. three limits are erected roof beam triangle strengthening rib and No. two limits and are erected roof beam triangle strengthening rib and the structure that roof beam triangle strengthening rib was erected to the limit is the same with a limit, No. three guide rails and No. four guide rails are the same with the structure of a guide rail and No. two guide rails respectively, the equal integrated into one piece of one end of No. three guide rails and No. four guide rails has No. two stoppers, No. two stoppers are the same with the structure of a stopper and are located the homonymy.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the first side vertical beam assembly, the second side vertical beam assembly and the middle vertical beam assembly are arranged between the bottom cross beam assembly and the first side vertical beam assembly, and the frames with different number of layers and number of rows can be provided according to market demands by welding after the positions are determined through rivet pulling, so that the whole frame is convenient to assemble, firm in fixation and high in precision, and after the frame is assembled, the whole frame is structurally reinforced by arranging the first side vertical beam triangular reinforcing rib, the side vertical beam oblique angle reinforcing rib, the second side vertical beam triangular reinforcing rib, the second side vertical beam oblique angle reinforcing rib, the third side vertical beam triangular reinforcing rib and the middle vertical beam oblique reinforcing rib, and the stability is strong.

2. According to the battery pack, the first guide rail, the third guide rail, the fourth guide rail, the second guide rail, the third guide rail and the fourth guide rail are matched with each other, so that the battery pack is convenient to install, and the first limiting block and the second limiting block are arranged to limit the battery pack, so that the battery can be conveniently pushed to the right position to be sensed.

Drawings

Fig. 1 is a schematic overall structure diagram of a new energy battery rack structure according to the present invention;

fig. 2 is a schematic structural diagram of a bottom cross member assembly of a new energy battery rack structure according to the present invention;

fig. 3 is a schematic structural diagram of a top cross member assembly of a new energy battery rack structure according to the present invention;

fig. 4 is a schematic structural diagram of a first edge vertical beam assembly of a new energy battery rack structure according to the present invention;

fig. 5 is a schematic structural view of a second side vertical beam assembly of a new energy battery rack structure according to the present invention;

fig. 6 is a schematic structural diagram of a middle vertical beam assembly of a new energy battery rack structure according to the present invention.

In the figure: 1. a bottom cross beam assembly; 2. a first side vertical beam assembly; 3. a second side vertical beam assembly; 4. a middle vertical beam assembly; 5. a top cross-beam assembly; 6. a first cross beam at the bottom; 7. a second crossbeam at the bottom; 21. a first side vertical beam; 22. a second side vertical beam; 23. a first guide rail; 24. a first side vertical beam triangular reinforcing rib; 25. the edge vertical beam oblique angle reinforcing rib; 26. a first limiting block; 31. a third side vertical beam; 32. a fourth side vertical beam; 33. a second guide rail; 34. a second edge vertical beam triangular reinforcing rib; 35. a second side vertical beam oblique angle reinforcing rib; 41. a middle front vertical beam; 42. a middle rear vertical beam; 43. a third guide rail; 44. a fourth guide rail; 45. a third side vertical beam triangular reinforcing rib; 46. the middle vertical beam is provided with an inclined reinforcing rib; 47. a second limiting block; 51. a first cross beam at the top; 52. a second cross beam at the top; 53. a third beam at the top; 54. vertical beam strengthening rib mounting.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

As shown in fig. 1-6, a new energy battery rack structure comprises a bottom cross beam assembly 1 and a top cross beam assembly 5, wherein a first side vertical beam assembly 2, a second side vertical beam assembly 3 and a middle vertical beam assembly 4 are fixedly welded between the bottom cross beam assembly 1 and the top cross beam assembly 5, a plurality of middle vertical beam assemblies 4 are arranged and are respectively positioned between the first side vertical beam assembly 2 and the second side vertical beam assembly 3, and in order to ensure the equipotential of the whole rack, the installation positions of the first side vertical beam assembly 2, the second side vertical beam assembly 3, the middle vertical beam assembly 4, the bottom cross beam assembly 1 and the top cross beam assembly 5 are respectively provided with an electric conduction connection area; the bottom cross beam assembly 1 comprises a first bottom cross beam 6, two first bottom cross beams 6 are arranged, a plurality of second bottom cross beams 7 are fixedly mounted between the two first bottom cross beams 6 through rivet pulling, riveting and welding, and the plurality of second bottom cross beams 7 are distributed at equal intervals and fixedly welded with the first bottom cross beams 6; top beam assembly 5 includes crossbeam 51 No. one in top, crossbeam 51 No. one in top is provided with two, rivet fixed mounting through the rivet between two crossbeam 51 No. two in top No. two crossbeams 52 and No. three crossbeams 53 in a plurality of tops, and No. three crossbeams 53 in a plurality of tops are located between two crossbeams 52 in top, the one end of No. two crossbeams 52 in top and No. three crossbeam 53 in top all is provided with perpendicular roof beam strengthening rib mounting 54, and perpendicular roof beam strengthening rib mounting 54 and equal crossbeam 51 fixed weld No. two in top.

First limit vertical beam subassembly 2 includes that first limit vertical beam 21 and second limit vertical beam 22, common fixed mounting has a plurality of guide rails 23 between first limit vertical beam 21 and second limit vertical beam 22, both sides all fixed mounting has first limit vertical beam triangle strengthening rib 24 about the opposite end of first limit vertical beam 21 and second limit vertical beam 22, one side that first limit vertical beam 21 and second limit vertical beam 22 kept away from the opposite end all fixed mounting has limit vertical beam oblique angle strengthening rib 25, the both ends of first limit vertical beam 21 and second limit vertical beam 22 all with bottom crossbeam subassembly 1 and top crossbeam subassembly 5 fixed mounting, and first limit vertical beam triangle strengthening rib 24 and corresponding bottom crossbeam subassembly 1 and top crossbeam subassembly 5 fixed welding; the second side vertical beam assembly 3 comprises a third side vertical beam 31 and a fourth side vertical beam 32, a plurality of second guide rails 33 are fixedly mounted between the third side vertical beam 31 and the fourth side vertical beam 32, a second side vertical beam triangular reinforcing rib 34 is fixedly mounted on the upper side and the lower side of the opposite end of the third side vertical beam 31 and the fourth side vertical beam 32, a second side vertical beam oblique angle reinforcing rib 35 is fixedly mounted on one side, far away from the opposite end, of the third side vertical beam 31 and the fourth side vertical beam 32, two ends of the third side vertical beam 31 and the fourth side vertical beam 32 are fixedly mounted with the bottom cross beam assembly 1 and the top cross beam assembly 5, and the second side vertical beam triangular reinforcing rib 34 is fixedly welded with the corresponding bottom cross beam assembly 1 and the top cross beam assembly 5; the structure of the second side vertical beam triangular reinforcing rib 34 is the same as that of the first side vertical beam triangular reinforcing rib 24, the whole machine frame is reinforced in structure, the stability is high, the first guide rail 23 and the second guide rail 33 are distributed oppositely, and a first limiting block 26 is integrally formed at one end of the first guide rail 23 and one end of the second guide rail 33; the middle vertical beam assembly 4 comprises a middle front vertical beam 41 and a middle rear vertical beam 42, a plurality of third guide rails 43 and fourth guide rails 44 are fixedly arranged between the middle front vertical beam 41 and the middle rear vertical beam 42, the third guide rails 43 and the fourth guide rails 44 are positioned at the left side and the right side of the middle front vertical beam 41 and the middle rear vertical beam 42, three side vertical beam triangular reinforcing ribs 45 are fixedly arranged at the upper side and the lower side of the opposite ends of the middle front vertical beam 41 and the middle rear vertical beam 42, middle vertical beam inclined reinforcing ribs 46 are fixedly arranged at the upper side and the lower side of the rear end of the middle rear vertical beam 42, the two middle vertical beam inclined reinforcing ribs 46 are symmetrically distributed, the whole machine frame has a structure reinforcing effect and is strong in stability, the two ends of the middle front vertical beam 41 and the middle rear vertical beam 42 are fixedly arranged with the bottom cross beam assembly 1 and the top cross beam assembly 5, the three side vertical beam triangular reinforcing ribs 45 and the middle vertical beam inclined reinforcing ribs 46 are fixedly welded with the corresponding bottom cross beam assembly 1 and the top cross beam assembly 5, bolts of M8 are arranged on each layer of the third side vertical beam 31, the third side vertical beam 31 and the middle front vertical beam 41, which are matched with the guide rail, and are used for grounding the battery pack; no. three limits erect roof beam triangle strengthening rib 45 and No. two limits erect roof beam triangle strengthening rib 34 and the limit erects roof beam triangle strengthening rib 24's the same structure with a limit, No. three guide rail 43 and No. four guide rail 44 respectively with a guide rail 23 and No. two guide rail 33's structure the same, the battery package of easy to assemble, the equal integrated into one piece of No. three guide rail 43 and No. four guide rail 44 has No. two stopper 47, No. two stopper 47 is the same with a stopper 26's structure and is located the homonymy, carry on spacingly to the battery package, conveniently advance to target in place the battery and carry out the perception.

The utility model is a new energy battery rack structure, in the specific using process, a first side vertical beam component 2, a second side vertical beam component 3 and a middle vertical beam component 4 are arranged between a bottom cross beam component 1 and the first side vertical beam component 2, the positions are determined by rivet pulling and riveting, then welding is carried out, the whole rack is convenient to assemble, firm to fix and high in precision, racks with different layers and rows can be provided according to market demands, after the assembly is finished, the whole rack has a structure reinforcing effect and strong stability by arranging a first side vertical beam triangular reinforcing rib 24, a side vertical beam oblique angle reinforcing rib 25, a second side vertical beam triangular reinforcing rib 34, a second side vertical beam oblique angle reinforcing rib 35, a third side vertical beam triangular reinforcing rib 45 and a middle vertical beam oblique reinforcing rib 46, and the first guide rail 23 and the third guide rail 43 and the fourth guide rail 44, and the second guide rail 33 and the third guide rail 43 and the fourth guide rail 44 are mutually matched, battery package easy to assemble, and through setting up stopper 26 and No. two stopper 47, carry on spacingly to the battery package, conveniently impel the perception of targetting in place to the battery.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a new forms of energy battery rack construction, includes bottom beam assembly (1) and top beam assembly (5), its characterized in that: a first side vertical beam assembly (2), a second side vertical beam assembly (3) and a middle vertical beam assembly (4) are fixedly welded between the bottom cross beam assembly (1) and the top cross beam assembly (5), and a plurality of middle vertical beam assemblies (4) are arranged and are all positioned between the first side vertical beam assembly (2) and the second side vertical beam assembly (3);

the bottom cross beam assembly (1) comprises a first bottom cross beam (6), two first bottom cross beams (6) are arranged, a plurality of second bottom cross beams (7) are fixedly mounted between the two first bottom cross beams (6) through rivet pulling, and the plurality of second bottom cross beams (7) are distributed at equal intervals and are fixedly welded with the first bottom cross beams (6);

top crossbeam subassembly (5) are including crossbeam (51) No. one at top, crossbeam (51) No. one at top is provided with two, two rivet fixed mounting through the rivet between crossbeam (51) at top has crossbeam (52) No. two at two tops and crossbeam (53) No. three at a plurality of tops, and crossbeam (53) No. three at a plurality of tops is located between crossbeam (52) No. two at two tops, the one end of crossbeam (52) No. two at top and crossbeam (53) No. three at top all is provided with perpendicular roof beam strengthening rib mounting (54), just erects roof beam strengthening rib mounting (54) and crossbeam (51) fixed weld No. two equal tops.

2. The new energy battery rack structure of claim 1, wherein: a limit erects roof beam subassembly (2) and erects roof beam (22) including a limit erects roof beam (21) and No. two limits, No. one limit erects roof beam (21) and No. two limits erect between roof beam (22) common fixed mounting have a plurality of guide rail (23), the equal fixed mounting in both sides has a limit to erect roof beam triangle strengthening rib (24) about the opposition end that roof beam (21) and No. two limits erected roof beam (22) is erected on a limit, No. one limit erects roof beam (21) and No. two limits erects roof beam (22) and keeps away from the equal fixed mounting in one side of opposition end and has limit to erect roof beam oblique angle strengthening rib (25), No. one limit erects roof beam (21) and No. two limits and erects the both ends of roof beam (22) and all with bottom crossbeam subassembly (1) and top crossbeam subassembly (5) fixed mounting, and erect roof beam triangle strengthening rib (24) and the bottom crossbeam subassembly (1) and the top crossbeam subassembly (5) fixed welding that correspond on one limit.

3. The new energy battery rack structure of claim 2, wherein: no. two limits are erected roof beam subassembly (3) and are erected roof beam (31) and No. four limits and erect roof beam (32) including No. three limits, No. three limits are erected roof beam (31) and No. four limits and are erected common fixed mounting between roof beam (32) and have a plurality of guide rail (33) two times, No. three limits are erected roof beam (31) and No. four limits and are erected roof beam triangular strengthening rib (34) on the opposite end of roof beam (32) about the equal fixed mounting in both sides, No. three limits are erected roof beam (31) and No. four limits and are erected roof beam (32) and keep away from the equal fixed mounting in one side of opposite end and have No. two limits to erect roof beam oblique angle strengthening rib (35), No. three limits are erected roof beam (31) and No. four limits and are erected the both ends of roof beam (32) and all with bottom crossbeam subassembly (1) and top crossbeam subassembly (5) fixed mounting, and No. two limits are erected roof beam triangular strengthening rib (34) and bottom crossbeam subassembly (1) and top crossbeam subassembly (5) fixed welding that correspond.

4. The new energy battery rack structure of claim 3, wherein: no. two structures that the roof beam triangle strengthening rib (34) was erected on limit are the same with the structure that roof beam triangle strengthening rib (24) was erected on an limit, guide rail (23) and No. two guide rail (33) distribute relatively, and the equal integrated into one piece of one end of guide rail (23) and No. two guide rail (33) has stopper (26).

5. The new energy battery rack structure of claim 1, wherein: erect roof beam subassembly (4) including middle preceding perpendicular roof beam (41) and middle back and erect roof beam (42), erect roof beam (41) and middle back before the middle and erect between roof beam (42) common fixed mounting have a plurality of guide rails (43) No. three and guide rail (44) No. four, and guide rail (43) No. four and guide rail (44) are located the left and right sides both sides of middle preceding perpendicular roof beam (41) and middle back perpendicular roof beam (42), erect roof beam (41) and middle back and erect the equal fixed mounting in both sides about the opposition end of roof beam (42) and have three limits and erect roof beam triangle strengthening rib (45) before the middle, erect roof beam (42) after the middle the rear end about both sides equal fixed mounting have middle perpendicular roof beam oblique strengthening rib (46), and two middle perpendicular roof beam oblique strengthening ribs (46) are the symmetric distribution, erect roof beam (41) and middle back both ends of roof beam (42) all with bottom crossbeam subassembly (1) and top crossbeam subassembly (5) fixed mounting before the middle, and the third side vertical beam triangular reinforcing rib (45) and the middle vertical beam inclined reinforcing rib (46) are fixedly welded with the corresponding bottom cross beam assembly (1) and the top cross beam assembly (5).

6. The new energy battery rack structure according to claim 5, wherein: no. three limits are erected roof beam triangle strengthening rib (45) and No. two limits and are erected roof beam triangle strengthening rib (34) and the structure that roof beam triangle strengthening rib (24) was erected on one limit the same, No. three guide rail (43) and No. four guide rail (44) are the same with the structure of a guide rail (23) and No. two guide rail (33) respectively, the equal integrated into one piece of one end of No. three guide rail (43) and No. four guide rail (44) has No. two stopper (47), No. two stopper (47) are the same with the structure of a stopper (26) and are located the homonymy.

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