CN114212338B - Aluminum shell conveying device of new energy storage module and preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of mechanical design, and particularly provides an aluminum shell conveying device of a new energy storage module and a preparation method of the aluminum shell conveying device. The invention has simple structure and high industrialization degree. Be equipped with quality testing portion, only the aluminum product board that the width reached to set for numerical value can just deviate from and transmit to next station through the output portion conveyer belt friction of output portion, and the aluminum product board that the width can not reach to set for numerical value can not deviate from because the unable friction action in the aluminum product board of the area surface of the output portion conveyer belt of output portion can not deviate from because of the friction, can only when aluminum product board receiver is down, deviate from through self gravity, save artifical quality testing, improve production efficiency.

Description

Aluminum shell conveying device of new energy storage module and preparation method thereof

Technical Field

The invention relates to the technical field of mechanical design, in particular to an aluminum shell conveying device of a new energy storage module and a preparation method thereof.

Background

Aluminum plates are a new material and are of various types. One of them upper surface stairstepping is sunken, and its transport after the processing needs to paste the mark and handle, then carries out artifical quality control to pasting the aluminium product board after the mark, carries out manual rejection with the aluminium product board that the width can not reach set value afterwards, wastes time and energy, needs to carry out the deepening to its conveying equipment and improves. In addition, the coating of paint is not allowed when the aluminum plate side is used, so that the coating of the antioxidant is needed to be carried out manually, and the additional working procedure time and the labor cost are increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an aluminum shell conveying device of a new energy storage module and a preparation method thereof.

The technical scheme for realizing the purpose of the invention is as follows: an aluminum shell conveying device of a new energy storage module comprises,

an input section for inputting to the aluminum plate;

a labeling part for labeling the aluminum plate input by the input part;

the quality inspection part comprises a quality inspection part rotating main shaft, a plurality of aluminum plate storage boxes are uniformly distributed on the circumference of the quality inspection part rotating main shaft, the length of an aluminum plate is longer than that of the aluminum plate storage boxes, and the aluminum plate storage boxes are provided with aluminum plate limiting clamping columns;

the output part comprises an output part conveying roller and an output part conveying belt driven by the output part conveying roller, and a gap between the output part conveying belts is constant;

two of the plurality of aluminum plate storage cases correspond to the input portion and the output portion respectively,

wherein, work as the input part is inputed the aluminum product board to corresponding to behind the aluminum product board receiver of input part, carry on spacingly by the spacing calorie of post of aluminum product board to the aluminum product board, subsides mark portion pastes the mark to the aluminum product board, then, quality testing portion rotary spindle drives and corresponds to the aluminum product board receiver of input part is rotatory to corresponding to the output part accords with the aluminum product board in the clearance between the output part conveyer belt is followed the output part is exported, is not conform to the aluminum product board in the clearance between the output part conveyer belt the aluminum product board receiver falls when changeing to perpendicular downward direction.

The aluminum plate storage box in the technical scheme is provided with the antioxidant coating component,

antioxidant coating subassembly includes coating, slide, traveller, elastic component, coating connect in the slide, slide sliding connection in the traveller, the elastic component connect in aluminum product board receiver with the slide.

According to the technical scheme, the elastic parts are two groups of compression springs which are in mirror symmetry along the sliding column.

According to the technical scheme, the output part is further provided with a labeling auxiliary plate, and the labeling auxiliary plate is used for auxiliary attachment of the aluminum material plate.

According to the technical scheme, the number of the output part conveying rollers is 4, the number of the output part conveying rollers is two-two symmetrical, the output part conveying roller shaft is connected between the two output part conveying rollers on the right side, the output part conveying roller shaft is connected with two output part bridging wheels, the two output part bridging wheels are connected with a labeling auxiliary plate base, and the labeling auxiliary plate is fixedly connected with the labeling auxiliary plate base.

According to the technical scheme, the labeling auxiliary plate base is connected with two symmetrical output part frame columns, and the two output part frame columns are respectively connected with two symmetrical output part conveying roller supporting columns.

Above-mentioned technical scheme the inner chamber size of aluminum product board receiver is by opening to inside diminishing gradually.

According to the technical scheme, the rotating main shaft of the quality inspection part is divided into 4 blocks in a clearance mode, and each block is connected with the aluminum plate storage box.

According to the technical scheme, the rotating main shaft of the quality inspection part is connected with the protruding reinforcing ribs, and the reinforcing ribs are connected with the aluminum plate storage box.

A preparation method of an aluminum shell conveying device of a new energy storage module comprises the following steps:

s1, after the aluminum plate is input into the aluminum plate storage box corresponding to the input part by the input part, the aluminum plate is limited by the aluminum plate limiting clamping column;

s2, labeling the aluminum plate after limiting by the labeling part;

s3, the quality inspection part rotating main shaft drives the aluminum plate storage box corresponding to the input part to rotate to the position corresponding to the output part, and the aluminum plates conforming to the gap between the output part conveyor belts are output from the output part; the aluminum plate not conforming to the gap between the output conveyor belts falls down when the aluminum plate storage box is rotated to a vertically downward direction.

After the technical scheme is adopted, the invention has the following positive effects:

(1) the invention has simple structure and high industrialization degree. Be equipped with quality testing portion, only the width reaches the aluminum product board of setting for numerical value and just can deviate from and transmit to next station through the output part conveyer belt friction of output part, and the width can not reach the aluminum product board of setting for numerical value and can't rub and deviate from because the unable friction action in the aluminum product board of the area surface of the output part conveyer belt of output part can only be when aluminum product board receiver is downward, deviate from through self gravity, save artifical quality testing, improve production efficiency.

(2) The antioxidant coating assembly is arranged in the aluminum plate storage box and is provided with the coating layer, the sliding seat, the sliding column and the elastic piece with smaller elasticity, so that the side surface of the aluminum plate which is not allowed to be coated with paint can be fully contacted with the coating layer containing the antioxidant under the action of the self gravity of the aluminum plate, and the operation process without manpower is completed.

(3) The output part of the invention is also provided with a labeling auxiliary plate, which can effectively assist labeling when the single-side labeling or the double-side labeling of the aluminum plate is needed, so that the single-side labeling is more stable, or the double-side labeling can be effectively completed.

(4) The quality inspection part provided by the invention has a stable rotating main shaft structure, and a manual rotating wheel is arranged to manually rotate the opening direction of the aluminum plate storage box, so that the coating layer is added with the antioxidant.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of an output portion according to the present invention;

FIG. 3 is a schematic view of the inner cavity of the aluminum plate storage case of the present invention.

In the figure: the aluminum plate labeling machine comprises an input part 100, a labeling part 200, a quality detection part 300, a quality detection part rotating main shaft 310, an aluminum plate storage box 320, an aluminum plate limiting clamping column 321, an output part 400, an output part conveying roller 410, an output part conveying belt 420, a coating layer 510, a sliding seat 520, a sliding column 530, an elastic piece 540, a labeling auxiliary plate 430, an output part conveying roller shaft 440, an output part bridging wheel 450, a labeling auxiliary plate base 460, an output part frame column 470, an output part conveying roller supporting column 480, a reinforcing rib 330, a manual rotating wheel 340, a driving motor 350 and a reduction box 360.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

(example 1)

Referring to fig. 1 to 3, the present invention provides an aluminum housing conveying device of a new energy storage module, including,

an input unit 100, the input unit 100 being used for inputting to the aluminum plate;

a labeling part 200, wherein the labeling part 200 is used for labeling the aluminum plate input by the input part 100;

the quality inspection part 300, the quality inspection part 300 includes the quality inspection part rotates the main axis 310, the quality inspection part rotates the main axis 310 and is distributed with a plurality of aluminum plate storage boxes 320 all around, the length of the aluminum plate is longer than the length of the aluminum plate storage box 320, the aluminum plate storage box 320 has aluminum plate spacing clip column 321; the inner chamber size of aluminum product board receiver 320 is by opening to inside diminishing gradually, makes things convenient for the entering location of aluminum product board.

The output part 400, the output part 400 includes output part conveyor rollers 410, output part conveyor belts 420 driven by the output part conveyor rollers 410, and the gap between the output part conveyor belts 420 is constant;

two of the plurality of aluminum plate storage cases 320 correspond to the input portion 100 and the output portion 400 respectively,

the preparation method comprises the following steps:

s1, after the aluminum plate is inputted into the aluminum plate storage box 320 corresponding to the input part 100 by the input part 100, the aluminum plate is limited by the aluminum plate limiting clamping column 321;

s2, the labeling part 200 labels the aluminum plate;

s3, the quality inspection section rotating main shaft 310 rotates the aluminum plate storage case 320 corresponding to the input section 100 to the position corresponding to the output section 400, and the aluminum plate corresponding to the gap between the output section conveyors 420 is output from the output section 400, and the aluminum plate not corresponding to the gap between the output section conveyors 420 falls when the aluminum plate storage case 320 is rotated to the vertically downward direction.

In this embodiment, the input portion 100 and the output portion 400 may be identical in component parts, and they are arranged in mirror symmetry with respect to the quality inspection portion 300, and the input portion 100 inputs the aluminum plate into the aluminum plate storage case 320, and the output portion 400 removes the aluminum plate from the aluminum plate storage case 320.

The labeling part 200 is an existing labeling machine, and includes a recycling tray, a guiding wheel, a tensioning wheel, a photoelectric detection sensor, a peeling tool bit, a vacuum generator, a labeling cylinder, and the like, and is mainly used for labeling the side of the aluminum plate opposite to the opening of the aluminum plate storage box 320. The main installation and use of the method are not limited too much, and the understanding of the skilled person should not be affected here.

A plurality of aluminum plate storage boxes 320 are uniformly distributed on the circumference of the quality testing part rotating main shaft 310 of the quality testing part 300, so as to ensure uniform stress on the quality testing part rotating main shaft 310 and prolong the service life of the quality testing part rotating main shaft 310. The quality inspection part rotating main shaft 310 is connected to a driving motor 350 and a reduction box 360 and then is driven to rotate at a speed suitable for inputting and outputting of the aluminum plates on the input part 100 and the output part 400. Spacing calorie of post 321 of aluminum product board is located the intermediate position of the biggest one side inner wall of aluminum product board receiver 320 surface area, and the biggest one side of aluminum product board surface area corresponds the spacing calorie of post 321 of aluminum product board and is equipped with the indent, and consequently the indent position is located the intermediate position of the biggest one side of aluminum product board surface area, and the aluminum product board only can get into aluminum product board receiver 320 after indent and the spacing calorie of post 321 of aluminum product board correspond. After the aluminum plate is inputted into the aluminum plate storage box 320 by the input portion 100, the aluminum plate is locked to the aluminum plate storage box 320 by the stopper. The quality inspection portion rotating main shaft 310 rotates clockwise, and after the aluminum plate falls down by gravity and enters the aluminum plate storage box 320 in a more fitting manner, the aluminum plate storage box 320 and the aluminum plate rotate to be flush with the output portion 400. The output part conveyors 420 are arranged at a set interval, and the output part conveyors 420 of the output part 400 cannot be reached by the aluminum plate having a width not reaching a set value. The qualified aluminum plate is rotated by the output part conveyor belt 420 of the output part 400, and the end face of the aluminum plate extending out of the aluminum plate storage box 320 is gradually moved out by using friction force, so that the qualified aluminum plate is output to the next station. The unqualified aluminum plate continues to rotate along with the main shaft 310 of the quality inspection part until the opening of the aluminum plate storage box 320 faces downwards, and the aluminum plate completely falls off from the aluminum plate storage box 320, and is automatically removed. In the downward opening of the aluminum plate storage case 320, an unqualified aluminum plate storage case or storage case may be provided for recycling, which will not be described herein.

(example 2)

This embodiment is different from embodiment 1 in that the aluminum sheet storage case 320 is provided with an antioxidant coating member,

the antioxidant coating assembly includes a coating layer 510, a slider 520, a sliding pillar 530, and an elastic member 540, wherein the coating layer 510 is connected to the slider 520, the slider 520 is slidably connected to the sliding pillar 530, and the elastic member 540 is connected to the aluminum plate storage case 320 and the slider 520.

The coating layer 510 may be, but is not limited to, a sponge or the like, and is mainly used to retain a certain amount of antioxidant, so as to facilitate the coating of the antioxidant on the side of the aluminum plate where the paint is not allowed to be coated. The side of the aluminum plate that is not allowed to be painted, i.e., the side of the aluminum plate facing the opening of the aluminum plate storage case 320, also faces the coating layer 510. The traveller 530 is located the central point of aluminum product board receiver 320 and puts, and elastic component 540 is two sets of compression spring along traveller 530 mirror symmetry, and used compression spring's elasticity can be less, makes things convenient for when the opening of aluminum product board receiver 320 upwards, and the aluminum product board can contact coating layer 510 better under the effect of self gravity, also can make simultaneously aluminium material board and aluminum product board receiver 320 accomodate more laminating to this operation process under accomplishing not having the manual work. Of course, the compression spring force is not too limited here.

(example 3)

The present embodiment is different from embodiment 1 in that the output part 400 is further provided with a labeling auxiliary plate 430, and the labeling auxiliary plate 430 is used for auxiliary bonding to the aluminum plate. The labeling part 200 may have a label size larger than that of the aluminum plate opposite to the opening of the aluminum plate storage box 320 according to the size of the label to be labeled, and needs to be attached to the other side, and the labeling auxiliary plate 430 assists in labeling the larger label. Of course, it can be understood that even if the size of the label is smaller than the side of the aluminum plate facing away from the opening of the aluminum plate storage case 320, the labeling auxiliary plate 430 can make the single-sided labeling more stable by elastic collision. The label sticking auxiliary plate 430 is an arc-shaped baffle plate with good resilience, the material of the arc-shaped baffle plate is reasonably selected and matched according to the requirement, and the arc-shaped baffle plate can be made of elastic materials such as plastics, rubber, acetate fibers and the like without being limited too much.

Output portion transfer roller 410 has 4 two bisymmetry, is connected with output portion transfer roller 440 between two output portion transfer rollers 410 on the right, and output portion transfer roller 440 is connected with two output portion bridging wheels 450, and two output portion bridging wheels 450 are connected with mark auxiliary plate base 460, and mark auxiliary plate 430 is fixed connection in mark auxiliary plate base 460. The labeling auxiliary plate base 460 is mainly used to connect and place the labeling auxiliary plate 430 so as to fix it in a certain position. The output transfer roller shaft 440 may be rotatably coupled to the two output bridging wheels 450 by using a bearing, and the output transfer roller 410 does not rotate the output bridging wheels 450 together, thereby providing a stable working environment for the base 460 of the auxiliary labeling plate and the auxiliary labeling plate 430 thereon.

The labeling auxiliary board base 460 is connected with two symmetrical output frame columns 470, and the two output frame columns 470 are respectively connected with two symmetrical output conveying roller support columns 480. The output part 400 utilizes the output part frame column 470, the output part conveying roller support column 480, the labeling auxiliary board base 460 and the output part bridging wheel 450 to jointly form an installation framework of the output part conveying roller shaft 440, and the connection is stable and reliable.

(example 4)

The present embodiment is different from embodiment 1 in that the quality inspection part rotating main shaft 310 is divided into 4 pieces with a gap, and aluminum plate storage cases 320 are connected to each piece. The rotating main shaft 310 of the quality inspection part is hollow and is composed of 4 connecting arc sheets, so that the use amount of steel is reduced while the stable structure of the rotating main shaft 310 of the quality inspection part is ensured, and the cost is effectively saved.

The quality inspection part rotating main shaft 310 is connected with a convex reinforcing rib 330, and the reinforcing rib 330 is connected with an aluminum plate storage box 320. The reinforcing rib 330 is used for reinforcing the structural stability of the quality inspection part rotating main shaft 310 of the 4 connecting arc pieces.

The quality inspection part rotating main shaft 310 is also connected to a manual turning wheel 340. Quality control portion rotating main shaft 310 is connected with manual runner 340, and wherein, manual runner 340 drives quality control portion rotating main shaft 310 through manual rotation and rotates, and then, quality control portion rotating main shaft 310 drives a plurality of aluminum product board receivers 320 and rotates to this manual regulation aluminum product board receiver 320's opening direction. When the opening direction of the aluminum sheet storage case 320 is upward, the coating layer 510 may be added with the antioxidant manually from above the opening of the aluminum sheet storage case 320.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The aluminum shell conveying device of the new energy storage module is characterized by comprising an input part (100), wherein the input part (100) is used for inputting an aluminum plate; a labeling part (200), wherein the labeling part (200) is used for labeling the aluminum plate input by the input part (100); the quality detection part (300) comprises a quality detection part rotating main shaft (310), a plurality of aluminum plate storage boxes (320) are uniformly distributed on the circumference of the quality detection part rotating main shaft (310), the length of an aluminum plate is longer than that of the aluminum plate storage box (320), and the aluminum plate storage box (320) is provided with aluminum plate limiting clamping columns (321); the output part (400) comprises output part conveying rollers (410) and output part conveying belts (420) driven by the output part conveying rollers (410), and gaps between the output part conveying belts (420) are constant; two of the plurality of aluminum plate storage cases (320) correspond to the input portion (100) and the output portion (400), respectively; the output part (400) is also provided with a labeling auxiliary plate (430), and the labeling auxiliary plate (430) is used for assisting in attaching the aluminum plate; the number of the output part conveying rollers (410) is 4, the output part conveying rollers (440) are symmetrically arranged in pairs, two output part conveying roller shafts (410) on the right side are connected between the two output part conveying rollers, the output part conveying roller shafts (440) are connected with two output part bridging wheels (450), the two output part bridging wheels (450) are connected with a labeling auxiliary plate base (460), and the labeling auxiliary plate (430) is fixedly connected to the labeling auxiliary plate base (460); the labeling auxiliary plate base (460) is connected with two symmetrical output part frame columns (470), and the two output part frame columns (470) are respectively connected with two symmetrical output part conveying roller supporting columns (480);

the aluminum plate storage box (320) is provided with an antioxidant coating assembly; the antioxidant coating assembly comprises a coating layer (510), a sliding seat (520), a sliding column (530) and an elastic piece (540), wherein the coating layer (510) is connected to the sliding seat (520), the sliding seat (520) is connected to the sliding column (530) in a sliding mode, and the elastic piece (540) is connected to the aluminum plate storage box (320) and the sliding seat (520); the elastic members (540) are two groups of compression springs which are in mirror symmetry along the sliding column (530).

2. The aluminum shell conveying device of the new energy storage module as claimed in claim 1, wherein: the inner chamber size of aluminum product board receiver (320) is by opening to inside diminishing gradually.

3. The aluminum shell conveying device of the new energy storage module as claimed in claim 1, wherein: the rotating main shaft (310) of the quality inspection part is divided into 4 blocks at intervals, and each block is connected with the aluminum plate storage box (320).

4. The aluminum shell conveying device of the new energy storage module as claimed in claim 1, wherein: quality testing portion rotating main shaft (310) is connected with bellied strengthening rib (330), strengthening rib (330) are connected with aluminum plate receiver (320).

5. The method for preparing the aluminum shell conveying device of the new energy storage module according to claim 1, characterized by comprising the following steps:

s1, when the input part (100) inputs the aluminum plate into the aluminum plate storage box (320) corresponding to the input part (100), the aluminum plate is limited by an aluminum plate limiting clamping column (321);

s2, labeling the aluminum plate after limiting by the labeling part (200);

s3, the quality inspection part rotating main shaft (310) drives the aluminum plate storage box (320) corresponding to the input part (100) to rotate to the position corresponding to the output part (400), and the aluminum plate according with the gap between the output part conveyor belts (420) is output from the output part (400); the aluminum plate not conforming to the gap between the output conveyor belts (420) falls when the aluminum plate storage case (320) is rotated to a vertically downward direction.

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