CN219970450U - Material frame is transported to car battery package - Google Patents

Abstract

The utility model discloses an automobile battery pack transferring material frame, which comprises a material frame, wherein turnover upright posts are arranged at four corners of the material frame, a supporting plate which is in contact with the ground is connected between the bottoms of two adjacent turnover upright posts, and a reinforcing column is vertically connected between the supporting plate and the material frame; the middle part of the material frame is connected with two main longitudinal beams in parallel, a rectangular first supporting part is arranged on the main longitudinal beam in a protruding mode, a first main cross beam, a second main cross beam and a third main cross beam are sequentially welded between two sides of the material frame along the length direction in parallel, the first main cross beam and the third main cross beam are respectively positioned at two ends of the first supporting part in the length direction, and the second main cross beam is positioned at the middle part of the first supporting part; a plurality of foldable positioning assemblies are arranged between the material frame and the first supporting part; and the material frame is also provided with a limiting component. The utility model has the advantages of stable structure, high reliability, convenient operation and the like.

Description

Material frame is transported to car battery package

Technical Field

The utility model relates to the technical field of material racks, in particular to an automobile battery pack transferring material rack.

Background

With the rapid development of new energy automobiles, the automobile battery is used as one of the core components of the electric automobile, and the utilization rate and the endurance performance requirements of the automobile battery are higher and higher. However, since the battery has high risk and susceptibility to damage, there is a higher demand for safe transportation and assembly of the battery. At present, in the automobile production process, the circumstances that needs circulation or stew with the battery package are related to, including needs concentrate the storage with the battery package, and in the circulation in-process, can constantly assemble the battery package on line on the car, in this in-process, need prevent that the damage such as scraping from appearing in the battery, avoid producing the potential safety hazard.

Currently, battery packs can be placed on a material rack during short-distance transportation and on-line assembly, and the battery packs are carried and protected through the material rack. After the battery packs are unloaded, empty racks are stacked and transported to a designated location for repositioning of the battery packs. However, some of the racks have a greater overall height, such that the racks have a greater height when stacked, and a higher stack also results in reduced stability, making it inconvenient to transport.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to solve the technical problems that: how to provide a conveniently transport work or material rest is transported to car battery package.

In order to solve the technical problems, the utility model adopts the following technical scheme: the material frame is characterized by comprising material frame frames, wherein turnover upright posts are arranged at four corners of each material frame, a supporting plate which is in contact with the ground is connected between the bottoms of two adjacent turnover upright posts, and a reinforcing column is vertically connected between the supporting plate and each material frame; the middle part of the material frame is connected with two main longitudinal beams in parallel, a rectangular first supporting part is arranged on the main longitudinal beam in a protruding mode, a first main cross beam, a second main cross beam and a third main cross beam are sequentially welded between two sides of the material frame along the length direction in parallel, the first main cross beam and the third main cross beam are respectively positioned at two ends of the first supporting part in the length direction, and the second main cross beam is positioned at the middle part of the first supporting part; a plurality of foldable positioning assemblies are arranged between the material frame and the first supporting part; and the material frame is also provided with a limiting component.

The structure has the following beneficial effects:

after the material rack is assembled on line, as the positioning component and the overturning upright post can be bent, when the material rack is empty, the material rack is convenient to bend and store, the height of the material rack can be reduced, and then a plurality of empty material racks are stacked and placed, so that the stacking and placing of the material racks are convenient to reduce and transport, and the empty material racks are convenient to transport;

the rectangular integral design of the material frame is provided with turnover upright posts at four corners so as to be convenient for placing the battery pack in the material frame when the battery pack is installed; meanwhile, the bottoms of two adjacent overturning upright posts on the four sides of the material frame are connected with supporting plates which are in contact with the ground, so that the bearing capacity and stability of the material frame can be enhanced; two main longitudinal beams are connected in parallel in the middle of the material frame, and rectangular first supporting parts are arranged on the main longitudinal beams in a protruding mode, so that stable support can be provided for the battery pack; in addition, a first main beam, a second main beam and a third main beam are sequentially welded in parallel between two sides of the material frame along the length direction, so that the overall rigidity and stability of the material frame can be enhanced;

set up a plurality of locating component between work or material rest frame and supporting part, can ensure that the battery package can not take place the displacement in the transportation process, simultaneously, install spacing subassembly on the work or material rest frame, can restrict the battery package in outlying position, avoid the battery package to receive the harm in the transportation process.

Further, a second supporting portion is arranged on the third main beam, a third supporting portion is arranged on the second main beam, the top surfaces of the first supporting portion, the second supporting portion and the third supporting portion are located on the same horizontal plane, and mounting holes are formed in the second supporting portion.

The first supporting part, the second supporting part and the third supporting part are positioned on the same horizontal plane, so that more stable support can be provided for the battery pack. Meanwhile, the second supporting part is provided with the mounting holes, so that other additional components or equipment and the like can be conveniently mounted on the supporting part, and the flexibility of the material frame is improved.

Still further, the upper surfaces of the first support portion, the second support portion and the third support portion are covered with a protection layer, and the mounting hole penetrates through the protection layer.

The upper surfaces of the first supporting part, the second supporting part and the third supporting part are covered with protective layers, so that the battery pack can be effectively protected from external damage. Meanwhile, the mounting holes penetrate through the protective layer to provide reserved positions for other additional components, devices and the like or reserved holes for fixing and other functions.

Still further, the middle part of work or material rest frame still is provided with vice crossbeam, fixed mounting seat on first main beam and the vice crossbeam, the mount pad is less than first supporting part second supporting part and third supporting part.

And the upper surfaces of the first main beam and the auxiliary beam are fixedly provided with mounting seats. The mount height is less than first supporting part, second supporting part and third supporting part, avoids with battery package direct contact to can reserve the position and be used for the installation of other annexes etc..

Further, the limiting assembly comprises a base, a stop block is arranged on the base, and a rubber block which is vertically arranged is arranged on one side, close to the first supporting portion, of the stop block.

The limit assembly comprises a base and a stop block, and a rubber block vertically arranged is arranged on one side of the stop block, which is close to the supporting part. The battery packs can be prevented from moving or being damaged in the transferring process by the aid of the limiting assemblies, impact force on the battery packs is reduced through buffering force of the rubber blocks, and safety is improved.

Further, the locating component is including installing in base plate on the work or material rest frame, vertically be provided with the locating cylinder on the base plate, the breach has been seted up to the lateral wall of locating cylinder, the locating cylinder is located run through on the lateral wall of breach both sides and be provided with first bar hole, the locating cylinder is equipped with the reference column in the interpolation of locating cylinder, the bottom of reference column has radially outstanding spacing dish, the diameter of spacing dish is greater than the internal diameter of locating cylinder, the bottom of spacing dish is provided with the round platform, the round platform bottom have with the curved portion of breach looks adaptation, curved portion is through wearing to locate bolt rotatable cartridge in the locating cylinder in the first bar hole, the top of locating cylinder is sunken to be formed with and is the cone groove of back taper shape, the round platform with the cone groove cooperatees, the stake of inserting is connected to the upper end of reference column, the diameter of inserting stake is less than the reference column, just the top of stake upwards is the cone form along the axis extension.

Set up locating component, can realize the accurate positioning of battery package, prevent the displacement of battery package in transportation and use, ensure the security and the stability of battery package, can improve the installation effectiveness of battery package simultaneously.

Further, upset stand includes footing, fixed column and the movable column that sets gradually from bottom to top, the footing bottom sunken form the draw-in groove, the movable column top be provided with the fixture block of draw-in groove looks adaptation, one side of fixed column is equipped with the opening, the both sides of fixed column have link up and the second bar hole of vertical setting, the movable column is just right the both sides top of second bar hole is provided with the fixture block, the top of fixed column be provided with the bayonet socket of fixture block joint, the movable column is rotationally installed in the fixed column through wearing to locate the bolt in second bar hole, makes the movable column can be directed the opening direction rotation of fixed column reaches the horizontality.

The movable column can rotate to a horizontal state, so that the battery pack material rack can be folded when not used, the vertical space is saved, and the battery pack material rack is convenient to transport and store.

Further, hanging rings are arranged on the four inner sides of the material frame.

Lifting rings can be utilized for lifting, and the material rack device is convenient to transport.

Further, a card rack for placing labels is arranged on one side of the material rack frame.

The label can be conveniently placed on the label rack, so that the identification property of the battery pack material rack is improved, and the management and the use of the battery pack are convenient.

In summary, the utility model has the advantages of stable structure, high reliability, convenient operation, reduced height after the battery pack is detached, and the like.

Drawings

Fig. 1 is a schematic diagram of a frame structure for transferring an automobile battery pack.

Fig. 2 is a top view of an automotive battery pack transfer rack.

Fig. 3 is a side view of an automotive battery pack transfer rack.

Fig. 4 is an exploded view of the positioning assembly.

Fig. 5 is an exploded view of the inverted pillar.

FIG. 6 is a schematic diagram of a limiting component.

Detailed Description

The present utility model will be described in further detail with reference to examples.

The specific implementation method comprises the following steps: as shown in fig. 1 to 6, an automobile battery pack transferring material frame comprises a material frame 1, wherein turnover upright posts 2 are arranged at four corners of the material frame 1, a supporting plate 3 which is in contact with the ground is connected between the bottoms of two adjacent turnover upright posts 2, and a reinforcing column 31 is vertically connected between the supporting plate 3 and the material frame 1 for reinforcing the stability and bearing capacity of the material frame 1; two main longitudinal beams 11 are connected in parallel to the middle of the material frame 1, a rectangular first supporting portion 4 is arranged on the main longitudinal beams 11 in a protruding mode, a first main cross beam 12, a second main cross beam 13 and a third main cross beam 14 are sequentially welded in parallel between two sides of the material frame 1 along the length direction, the first main cross beam 12 and the third main cross beam 14 are respectively located at two ends of the first supporting portion 4 along the length direction, and the second main cross beam 13 is located at the middle of the first supporting portion 4; a plurality of foldable positioning assemblies 6 are arranged between the material frame 1 and the first supporting part 4 so as to position and install the battery pack on the material frame 1; and the material frame 1 is also provided with a limiting component 5 for preventing the battery pack from sliding off the material frame 1. In a specific implementation, hanging rings 16 are arranged on the four inner sides of the material frame 1. And a card holder 17 for placing a label is provided at one side of the work frame 1.

The material frame 1 is of a main structure, is supported by a first main beam 12, a second main beam 13 and a third main beam 14 as strength in the transverse direction, is connected to two sides of the material frame 1 by two main longitudinal beams 11 in the longitudinal direction, and is combined with the structures of a bottom supporting plate 3 and the like, so that the material frame has certain stability and bearing capacity while ensuring the strength of the material frame, has a simple structure, can reduce the weight per se and can reduce the production cost, and the components are formed by welding a plurality of steel pipes; because the battery package only uses the work or material rest temporarily in scenes such as short distance transportation, assembly on line, can only set up locating component 6 on one side, utilize locating component 6 on one side can realize the location to the battery package, avoid installing a plurality of locating components 6 and make be difficult to with the hole accurate positioning of battery package four sides when the location, in this way, the convenient operation can improve the placement efficiency of battery package.

In implementation, the third main beam 14 is provided with the second supporting portion 7, the second main beam 13 is provided with the third supporting portion 8, the top surfaces of the first supporting portion 4, the second supporting portion 7 and the third supporting portion 8 are located on the same horizontal plane, and the second supporting portion 7 is provided with the mounting hole 71. The upper surfaces of the first support part 4, the second support part 7 and the third support part 8 are covered with a protective layer 41, the protective layer 41 may be made of rubber, and the mounting holes 71 penetrate through the protective layer 41. The middle part of work or material rest frame 1 still is provided with vice crossbeam 15, fixed mount pad 151 on first main crossbeam 12 and the vice crossbeam 15, mount pad 151 is less than first supporting part 4 second supporting part 7 and third supporting part 8.

As shown in fig. 4, in implementation, the positioning assembly 6 includes a substrate 61 mounted on the material frame, a positioning cylinder 62 is vertically disposed on the substrate 61, a notch 621 is provided on a side wall of the positioning cylinder 62, a first bar hole 622 is disposed on a side wall of two sides of the positioning cylinder 62 in a penetrating manner, a positioning column 63 is inserted into the positioning cylinder 62, a radially protruding limiting disc 631 is disposed at a bottom of the positioning column 63, a diameter of the limiting disc 631 is greater than an inner diameter of the positioning cylinder 62, a round table 632 is disposed at a bottom of the limiting disc 631, a turning portion 633 adapted to the notch 621 is disposed at a bottom of the round table 632, the turning portion 633 is rotatably inserted into the positioning cylinder 62 through a bolt penetrating through the first bar hole 622, a conical groove 622 is formed in a recessed manner at a top of the positioning cylinder 62, the round table 632 is matched with the conical groove 622, a pile 64 is connected to an upper end of the positioning column 63, the pile 64 is smaller in diameter and extends to the top of the positioning column 64 in a horizontal direction along the notch 621.

As shown in fig. 5, when in implementation, the overturning upright post 2 comprises a bottom 21, a fixed post 22 and a movable post 23 which are sequentially arranged from bottom to top, a clamping groove is formed at the bottom of the bottom 21 in a recessed manner, a clamping block which is matched with the clamping groove is arranged at the top of the movable post 23, and the clamping groove and the clamping block are clamped on a material rack which is stacked up and down, so that the material rack is stacked more firmly, one side of the fixed post 22 is provided with an opening, two sides of the fixed post 22 are provided with second strip-shaped holes 221 which are communicated and vertically arranged, clamping blocks 231 are arranged above two sides of the second strip-shaped holes 221, clamping holes 222 which are clamped with the clamping blocks 232 are arranged at the top of the movable post 23, and the movable post 23 is rotatably arranged in the fixed post 22 through bolts which penetrate through the second strip-shaped holes 221, so that the movable post 23 can rotate to a horizontal state in the opening direction of the fixed post 22.

As shown in fig. 6, the limiting assembly 5 includes a base 51, on the base 51, a block 52 is installed, and a rubber block 521 disposed vertically is disposed on a side of the block 52 near the first supporting portion 4. The rubber block 521 abuts against the four sides of the battery pack and provides cushioning.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. The material frame is characterized by comprising material frame frames, wherein turnover upright posts are arranged at four corners of each material frame, a supporting plate which is in contact with the ground is connected between the bottoms of two adjacent turnover upright posts, and a reinforcing column is vertically connected between the supporting plate and each material frame; the middle part of the material frame is connected with two main longitudinal beams in parallel, a rectangular first supporting part is arranged on the main longitudinal beam in a protruding mode, a first main cross beam, a second main cross beam and a third main cross beam are sequentially welded between two sides of the material frame along the length direction in parallel, the first main cross beam and the third main cross beam are respectively positioned at two ends of the first supporting part in the length direction, and the second main cross beam is positioned at the middle part of the first supporting part; a plurality of foldable positioning assemblies are arranged between the material frame and the first supporting part; and the material frame is also provided with a limiting component.

2. The automobile battery pack transfer rack of claim 1, wherein the third main beam is provided with a second supporting portion, the second main beam is provided with a third supporting portion, the top surfaces of the first supporting portion, the second supporting portion and the third supporting portion are located on the same horizontal plane, and the second supporting portion is provided with a mounting hole.

3. The automobile battery pack transfer rack of claim 2, wherein upper surfaces of the first, second, and third support portions are covered with a protective layer, and the mounting hole penetrates the protective layer.

4. The vehicle battery pack transfer rack of claim 3, wherein a secondary beam is further provided in the middle of the rack frame, and mounting seats are fixed to the first primary beam and the secondary beam, and the mounting seats are lower than the first support portion, the second support portion, and the third support portion.

5. The vehicle battery pack transfer rack of claim 1, wherein the limit assembly comprises a base, wherein a stop block is mounted on the base, and a rubber block arranged vertically is arranged on one side of the stop block, which is close to the first supporting portion.

6. The automobile battery pack transferring rack of claim 1, wherein the positioning assembly comprises a substrate arranged on the rack frame, a positioning cylinder is vertically arranged on the substrate, a notch is formed in the side wall of the positioning cylinder, a first bar-shaped hole is formed in the side wall of the positioning cylinder, a positioning column is inserted in the positioning cylinder, a limiting disc protruding in the radial direction is arranged at the bottom of the positioning column, the diameter of the limiting disc is larger than the inner diameter of the positioning cylinder, a round table is arranged at the bottom of the limiting disc, a turning part matched with the notch is arranged at the bottom of the round table, the turning part is rotatably inserted in the positioning cylinder through a bolt penetrating through the first bar-shaped hole, a conical groove in an inverted conical shape is formed in the top of the positioning cylinder in a recessed mode, the round table is matched with the conical groove, a pile is connected to the upper end of the positioning column, the diameter of the pile is smaller than that of the positioning column, and the top of the pile extends upwards along the axis.

7. The automobile battery pack transferring rack of claim 1, wherein the overturning upright column comprises a foot, a fixed column and a movable column which are sequentially arranged from bottom to top, a clamping groove is formed in the bottom of the foot in a sunken mode, a clamping block matched with the clamping groove is arranged at the top of the movable column, an opening is formed in one side of the fixed column, second strip-shaped holes which penetrate through and are vertically arranged are formed in two sides of the fixed column, clamping blocks are arranged above two sides of the movable column, clamping holes which are opposite to the second strip-shaped holes are formed in the upper sides of the two sides of the movable column, clamping openings which are clamped with the clamping blocks are formed in the top ends of the fixed column, and the movable column is rotatably arranged in the fixed column through bolts penetrating through the second strip-shaped holes, so that the movable column can rotate to a horizontal state towards the opening direction of the fixed column.

8. The automobile battery pack transfer rack of claim 1, wherein the four inner sides of the rack frame are provided with hanging rings.

9. The car battery pack transfer magazine of claim 1, wherein one side of the magazine frame is provided with a card rack for placing labels.