CN218909188U - Full-automatic AB storehouse loading attachment of film product - Google Patents
Full-automatic AB storehouse loading attachment of film product Download PDFInfo
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- CN218909188U CN218909188U CN202223182033.1U CN202223182033U CN218909188U CN 218909188 U CN218909188 U CN 218909188U CN 202223182033 U CN202223182033 U CN 202223182033U CN 218909188 U CN218909188 U CN 218909188U
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- feeding
- supporting plate
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- runner
- bin supporting
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model relates to a film product feeding device, and provides a full-automatic AB bin feeding device for film products, which aims to solve the problems that large film products need to be stopped for feeding, the equipment width is too wide, the feeding quantity is small and the productivity is low; the utility model has the characteristics that the feeding of a large sheet of film products is not stopped, the equipment width is reasonable and the feeding quantity is large.
Description
Technical Field
The utility model relates to a film product feeding device, in particular to a full-automatic AB bin feeding device for film products.
Background
The existing medium and small polaroid detection and feeding device has a structure with three positions and two bins, the width is up to 2.2 meters, the width of the device can be increased along with the increase of the size of a product, the width can be up to 3.2 meters, and the layout in a customer factory is not easy;
meanwhile, the existing medium-large-sized equipment is of a one-position one-bin structure, the machine is required to stop for feeding, the weight of products is large, manual conveying and feeding are inconvenient, and the balls are slidably conveyed, but are directly arranged on a bin supporting plate, the occupied space in the height direction is large, the number of feeding at each time is reduced, and the productivity of the equipment is reduced.
Disclosure of Invention
The utility model aims to solve the technical problems that: in order to solve the problems of the need of stopping feeding of large film products, the over-wide equipment width, the small feeding quantity and the low productivity, the full-automatic AB bin feeding device for the film products is provided.
The technical scheme adopted for solving the technical problems is as follows: a full-automatic AB bin feeding device for film products comprises an A bin supporting plate, a B bin supporting plate, a front feeding jacking component and a rear feeding jacking component, wherein the width dimension of the A bin supporting plate is larger than that of the B bin supporting plate, and the A bin supporting plate and the B bin supporting plate are fed in turn; the front feeding jacking assembly and the rear feeding jacking assembly are arranged front and back, a feeding runner is arranged right above the front feeding jacking assembly, a lower layer conveying runner and an upper layer conveying runner are respectively arranged right above the rear feeding jacking assembly from bottom to top, the feeding runner and the lower layer conveying runner are in butt joint, the widths of the feeding runner and the lower layer conveying runner are equal, and the width of the upper layer conveying runner is larger than that of the lower layer conveying runner.
Further, when the A bin supporting plate is positioned in the feeding runner, the rear feeding jacking component lifts the B bin supporting plate to enable the B bin supporting plate to stay at the feeding position,
when the A bin supporting plate is lifted to the upper layer transmission runner by the front feeding jacking component, the B bin supporting plate is driven by the rear feeding jacking component to descend to the lower layer transmission runner,
when the A bin supporting plate is transmitted to the feeding position through the upper layer transmission flow channel, the front feeding jacking assembly is lowered, and the B bin supporting plate is transmitted to the feeding flow channel through the lower layer transmission flow channel.
Further, when the B bin supporting plate is conveyed to the lower layer conveying runner by the feeding runner, the front feeding jacking component is lifted, the A bin supporting plate is retracted to the front feeding jacking component by the upper layer conveying runner,
when the A bin supporting plate is driven by the front feeding jacking component to descend to the feeding flow channel, the B bin supporting plate is lifted by the rear feeding jacking component and penetrates through the middle area of the upper layer conveying flow channel to reach the feeding level.
Further, the A bin supporting plate and the B bin supporting plate are respectively provided with a plurality of through holes, and a ball mechanism is arranged in the middle of the feeding runner.
Further, the ball mechanism comprises balls, a ball mounting plate, a ball lifting cylinder and a ball lifting guide rail, the number of the balls is equal to the number of through holes in the A bin supporting plate and the B bin supporting plate, the balls are rotatably mounted on the ball mounting plate, and the ball lifting cylinder drives the ball mounting plate to vertically move up and down along the ball lifting guide rail.
The full-automatic AB bin feeding device for the film products has the advantages that firstly, the AB bin alternate feeding design is adopted, the problem that the machine is required to be stopped when large film products are fed is solved, meanwhile, the full-automatic AB bin feeding device is designed to be a two-position two-bin structure, and compared with the existing three-position two-bin structure, the space is saved; secondly, the structures of the two storage bins at two positions are arranged back and forth to prevent the width direction of the hair piece module from protruding, the width is 1.8 meters, and the problem that the layout in a customer factory is not easy is solved; the balls originally arranged on the bin supporting plate are arranged at the middle position of the feeding runner in the form of a ball mechanism, so that the feeding labor is saved, the feeding quantity is increased to the greatest extent, and the productivity is improved; in conclusion, the utility model has the characteristics of no stop of feeding of large film products, reasonable equipment width and large feeding quantity.
Drawings
The utility model will be further described with reference to the drawings and examples.
Fig. 1 is a schematic structural view of the present utility model.
Fig. 2 is a partial structural schematic of the present utility model.
Fig. 3 is a schematic structural view of a part of the front loading jack assembly of the present utility model.
In the figure: the automatic feeding device comprises a bin A supporting plate, a bin B supporting plate, a front feeding lifting assembly, a rear feeding lifting assembly, a feeding runner, a lower conveying runner, an upper conveying runner, a through hole, balls, a ball mounting plate, a ball lifting cylinder and a ball lifting guide rail.
Detailed Description
The utility model will now be described in further detail with reference to the drawings and a preferred embodiment. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.
The full-automatic AB storehouse loading attachment of film product as shown in figures 1 to 3, including A storehouse layer board 1, B storehouse layer board 2, preceding material loading jacking subassembly 3 and back material loading jacking subassembly 4, A storehouse layer board 1 width dimension is greater than B storehouse layer board 2 width dimension, preceding material loading jacking subassembly 3 and back material loading jacking subassembly 4 set up from front to back, be provided with material loading runner 5 directly over preceding material loading jacking subassembly 3, set up lower floor's transmission runner 6 and upper transmission runner 7 respectively from bottom to top directly over the back material loading jacking subassembly 4 through the mounting bracket, material loading runner 5 dock and the width of material loading runner 5 and lower floor's transmission runner 6 equals, the width of upper transmission runner 7 is greater than the width of lower floor's transmission runner 6.
The ball mechanism is installed in the intermediate position of material loading runner 5, in order to further save space, install the top at preceding material loading jacking subassembly 3 with ball mechanism, ball mechanism includes ball 9, ball mounting panel 10, ball lift cylinder 11 and ball lift rail 12, the quantity of ball 9 equals 35 with the through-hole 8 quantity on A storehouse layer board 1 and the B storehouse layer board 2, ball 9 rotates and installs in ball mounting panel 10 or install on ball mounting panel 10, ball lift cylinder 11 drives ball mounting panel 10 and follows ball lift rail 12 vertical up-and-down motion, the bottom of ball lift cylinder 11 is connected with the top of preceding material loading jacking subassembly 3, empty A storehouse layer board 1 or B storehouse layer board 2 returns back to material loading runner 5, ball mechanism jack-up and pass through the through-hole 8 on A storehouse layer board 1 and the B storehouse layer board 2, ball 9 atress rotation is used for realizing reducing the friction between product and the layer board when the blowing, the ball mechanism descends after the blowing is accomplished.
When in specific work
S1: the empty A bin supporting plate 1 is positioned on the feeding runner 5, the ball mechanism is lifted, the balls 9 pass through the through holes 8 to be exposed, the ball mechanism is lowered after the feeding is completed by manual or mechanical hand, the stop blocks are arranged around the feeding by the manual or mechanical hand, and the stop blocks are detachable stop blocks of magnetic attraction type and are used for limiting the displacement of products during feeding; the B-bin pallet 2 filled with the product at the same time stays at the loading position under the lifting of the rear loading jacking assembly 4, and the product on the B-bin pallet 2 is transferred by the rear equipment.
S2: after the products on the B bin supporting plate 2 are transferred, the A bin supporting plate 1 filled with the products is lifted to the upper layer conveying runner 7 by the front feeding jacking component 3, and the empty B bin supporting plate 2 is driven by the rear feeding jacking component 4 to descend to the lower layer conveying runner 6.
S3: the A bin supporting plate 1 filled with the product is transmitted to the upper material level through the upper layer transmission flow channel 7, the product on the A bin supporting plate 1 is transferred by the rear equipment, meanwhile, the front feeding jacking component 3 descends, and the empty B bin supporting plate 2 is transmitted to the feeding flow channel 5 through the lower layer transmission flow channel 6.
S4: the empty B bin supporting plate 1 is located on the feeding runner 5, the ball mechanism is lifted, the balls 9 penetrate through the through holes 8 to be exposed, the ball mechanism is lowered after the feeding is completed by manual or mechanical hand, the stop blocks are placed around the feeding by manual or mechanical hand, the stop blocks are detachable stop blocks of magnetic attraction type, and the stop blocks are used for limiting the displacement of products during feeding.
S5: the B bin supporting plate 2 filled with the product is conveyed to the lower conveying runner 6 through the feeding runner 5, the front feeding jacking component 3 ascends, and the empty A bin supporting plate 1 is retracted to the front feeding jacking component through the upper conveying runner 7.
S6: the B-bin supporting plate 2 filled with the products is lifted by the rear feeding jacking component 4, passes through the middle area of the upper layer conveying runner 7 to reach the feeding level, and the products on the B-bin supporting plate 2 are transferred by rear equipment, and meanwhile, the empty A-bin supporting plate 1 is driven by the feeding jacking component to descend to the feeding runner 5.
The steps S1-S6 are repeated repeatedly in a reciprocating manner, so that the A-bin supporting plate 1 and the B-bin supporting plate 2 are fed in turn, and the feeding level of the A-bin supporting plate 1 and the feeding level of the B-bin supporting plate 2 are at the same position.
The front feeding jacking component 3 and the rear feeding jacking component 4 adopt the existing conventional lifting equipment, such as air cylinder lifting equipment, electric cylinder lifting equipment and the like, and the structures of the feeding runner 5, the lower layer conveying runner 6 and the upper layer conveying runner 7 are the same and are the existing chain type conveying, and the structures of the feeding runner 5, the lower layer conveying runner 6 and the upper layer conveying runner 7 can be intuitively seen through the drawings, so that the description of the specific structures of the feeding runner 5, the lower layer conveying runner 6 and the upper layer conveying runner 7 is omitted.
The foregoing description is merely illustrative of specific embodiments of the utility model, and the utility model is not limited to the details shown, since modifications and variations of the foregoing embodiments may be made by those skilled in the art without departing from the spirit and scope of the utility model.
Claims (5)
1. Full-automatic AB storehouse loading attachment of film product, its characterized in that: the feeding device comprises an A bin supporting plate, a B bin supporting plate, a front feeding jacking assembly and a rear feeding jacking assembly, wherein the width dimension of the A bin supporting plate is larger than that of the B bin supporting plate, and the A bin supporting plate and the B bin supporting plate are fed in turn; the front feeding jacking assembly and the rear feeding jacking assembly are arranged front and back, a feeding runner is arranged right above the front feeding jacking assembly, a lower layer conveying runner and an upper layer conveying runner are respectively arranged right above the rear feeding jacking assembly from bottom to top, the feeding runner and the lower layer conveying runner are in butt joint, the widths of the feeding runner and the lower layer conveying runner are equal, and the width of the upper layer conveying runner is larger than that of the lower layer conveying runner.
2. A fully automated AB bin loading apparatus for film products as claimed in claim 1, wherein: when the A bin supporting plate is positioned in the feeding runner, the rear feeding jacking component lifts the B bin supporting plate to enable the B bin supporting plate to stay at the feeding level,
when the A bin supporting plate is lifted to the upper layer transmission runner by the front feeding jacking component, the B bin supporting plate is driven by the rear feeding jacking component to descend to the lower layer transmission runner,
when the A bin supporting plate is transmitted to the feeding position through the upper layer transmission flow channel, the front feeding jacking assembly is lowered, and the B bin supporting plate is transmitted to the feeding flow channel through the lower layer transmission flow channel.
3. A fully automated AB bin loading apparatus for film products as claimed in claim 1, wherein: when the B bin supporting plate is conveyed to the lower layer conveying runner by the feeding runner, the front feeding jacking component is lifted, the A bin supporting plate is retracted to the front feeding jacking component by the upper layer conveying runner,
when the A bin supporting plate is driven by the front feeding jacking component to descend to the feeding flow channel, the B bin supporting plate is lifted by the rear feeding jacking component and penetrates through the middle area of the upper layer conveying flow channel to reach the feeding level.
4. A fully automatic AB bin feeding device for film products as claimed in any one of claims 1, 2, 3, wherein: the A bin supporting plate and the B bin supporting plate are respectively provided with a plurality of through holes, and a ball mechanism is arranged in the middle of the feeding runner.
5. The full-automatic AB bin loading device of claim 4, further comprising: the ball mechanism comprises balls, a ball mounting plate, a ball lifting cylinder and a ball lifting guide rail, the number of the balls is equal to the number of through holes in the supporting plates of the bin A and the bin B, the balls are rotatably mounted on the ball mounting plate, and the ball lifting cylinder drives the ball mounting plate to vertically move up and down along the ball lifting guide rail.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223182033.1U CN218909188U (en) | 2022-11-30 | 2022-11-30 | Full-automatic AB storehouse loading attachment of film product |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223182033.1U CN218909188U (en) | 2022-11-30 | 2022-11-30 | Full-automatic AB storehouse loading attachment of film product |
Publications (1)
Publication Number | Publication Date |
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CN218909188U true CN218909188U (en) | 2023-04-25 |
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CN202223182033.1U Active CN218909188U (en) | 2022-11-30 | 2022-11-30 | Full-automatic AB storehouse loading attachment of film product |
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2022
- 2022-11-30 CN CN202223182033.1U patent/CN218909188U/en active Active
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