CN220264302U - Three-dimensional stock bin - Google Patents

Abstract

The utility model discloses a three-dimensional bin which comprises a bin mechanism, a feeding mechanism, a bin recycling mechanism and a lifting mechanism, wherein the feeding mechanism is arranged above the bin recycling mechanism, the lifting mechanism is arranged at one end of the feeding mechanism and one end of the bin recycling mechanism, the bin mechanism is conveyed to the lifting mechanism through the feeding mechanism, the lifting mechanism drives the bin mechanism to move to the bin recycling mechanism, and a bin is arranged on the bin mechanism. The three-dimensional bin can realize automatic feeding of EVA films and automatic recovery of empty bins, and has high automation degree.

Description

Three-dimensional stock bin

Technical Field

The utility model relates to the field of solar panel production, in particular to a three-dimensional storage bin.

Background

In the solar panel production process, an EVA film and an adhesive tape are required to be laid on a battery glass sheet. In the prior art, the EVA film and the adhesive tape are generally taken, moved and laid manually by workers, and the manual laying results in low laying speed and low efficiency. Therefore, a three-dimensional bin capable of automatically feeding EVA films is needed, and automation of laying EVA films is achieved.

Disclosure of Invention

The utility model aims to provide a three-dimensional bin which can realize automatic feeding of EVA films and automatic recovery of empty bins and has high automation degree.

The technical scheme is as follows:

the three-dimensional feed bin comprises a feed bin mechanism, a feed bin recovery mechanism and a lifting mechanism, wherein the feed mechanism is arranged above the feed bin recovery mechanism, the lifting mechanism is arranged at one end of the feed mechanism and one end of the feed bin recovery mechanism, the feed bin mechanism is conveyed to the lifting mechanism through the feed mechanism, the lifting mechanism drives the feed bin mechanism to move to the feed bin recovery mechanism, and the feed bin mechanism is provided with a feed bin.

In one embodiment, the bin mechanism comprises a bin bottom plate, and a first bin assembly, a second bin assembly and a third bin assembly fixed on the bin bottom plate, wherein the first bin assembly is arranged along the length direction of the bin bottom plate, and the second bin assembly and the third bin assembly are arranged along the width direction of the bin bottom plate.

In one embodiment, the first bin assembly includes a first bin baffle and a plurality of first bin baffles disposed opposite to each other, the plurality of first bin baffles being disposed between two first bin baffles, and a first bin being formed between two first bin baffles and the plurality of first bin baffles.

In one embodiment, the first bin partition plate is provided with a plurality of brushes, the plurality of brushes are arranged at intervals along the height direction of the first bin partition plate, and materials in the first bin are in contact friction with the brushes in the process of taking out.

In one embodiment, the second bin assembly includes two second bin baffles and a plurality of opposing second bin baffles, the plurality of second bin baffles being disposed between the two second bin baffles, respectively, and a second bin being formed between the two second bin baffles and the plurality of second bin baffles.

In one embodiment, the third bin assembly includes two third bin baffles and a plurality of opposing third bin baffles, the plurality of third bin baffles being disposed between the two third bin baffles, respectively, and a third bin being formed between the two third bin baffles and the plurality of third bin baffles.

In one embodiment, the second bin partition plate and the third bin partition plate are respectively provided with a plurality of brushes, the brushes are arranged at intervals along the height direction of the second bin partition plate and the height direction of the third bin partition plate, and materials in the second bin and the third bin are in contact friction with the brushes in the process of taking out.

In one embodiment, the bin mechanism further comprises two bin adjusting assemblies, wherein the two bin adjusting assemblies are respectively connected with the second bin assembly and the third bin assembly, and the two bin adjusting assemblies respectively adjust the widths of the second bin and the third bin.

In one embodiment, the bin adjusting assembly comprises an adjusting bottom plate and an adjusting connecting plate, the adjusting bottom plate is movably connected with the bin bottom plate, the adjusting connecting plate is fixed on the adjusting bottom plate, and the adjusting connecting plate is connected with the second bin partition plate or the third bin partition plate.

In one embodiment, the adjusting bottom plate is provided with an adjusting groove, the bin bottom plate is provided with an adjusting hole, and the adjusting bottom plate is movably connected with the bin bottom plate through the adjusting groove and the adjusting hole; the regulating bottom plate is provided with a limiting groove, the bin bottom plate is provided with a limiting column, and the limiting column is positioned in the limiting groove.

The advantages and principles of the utility model are described below:

be provided with feed bin mechanism, feed bin recovery mechanism and elevating system on the three-dimensional feed bin of this application, the EVA membrane is placed in feed bin of feed bin mechanism. The feed bin mechanism carries out the material loading of EVA membrane by feed mechanism to the material loading position, and after the EVA membrane material loading was accomplished, feed mechanism carried empty feed bin mechanism to elevating system to carry empty feed bin mechanism to feed bin recovery mechanism by elevating system, carry out empty feed bin mechanism by feed bin recovery mechanism at last. The automatic feeding of EVA membrane and the automatic recovery of empty feed bin mechanism can be realized to this application, and degree of automation is high, has improved work efficiency.

Drawings

FIG. 1 is a schematic structural view of a solid silo;

FIG. 2 is a schematic structural view of a solid silo;

FIG. 3 is another schematic structural view of a solid silo;

fig. 4 is an enlarged view of a portion of a solid silo.

Reference numerals illustrate:

1. a stock bin mechanism; 2. a feed mechanism; 3. a bin recycling mechanism; 4. a lifting mechanism; 10. a bottom plate of the stock bin; 11. a first silo assembly 1; 12. a second bin assembly; 13. a third silo assembly 1; 110. a first bin baffle; 111. a first bin separator; 14. a brush; 120. a second bin baffle; 121. a second bin separator; 130. a third bin baffle; 131. a third bin separator; 15. a bin adjustment assembly; 150. adjusting the bottom plate; 151. adjusting the connecting plate; 152. an adjustment tank; 153. a limit groove; 154. a limit column; 155. a graduated scale; 16. a handle.

Detailed Description

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "middle," "inner," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

As shown in fig. 1 to 4, the embodiment discloses a three-dimensional silo, which comprises a silo mechanism 1, a feeding mechanism 2, a silo recycling mechanism 3 and a lifting mechanism 4. Wherein, feed mechanism 2 is arranged in the top of feed bin recovery mechanism 3, elevating system 4 is arranged in feed mechanism 2 reaches feed bin recovery mechanism 3's one end. The feed bin mechanism 1 is conveyed to the lifting mechanism 4 through the feeding mechanism 2, the lifting mechanism 4 drives the feed bin mechanism 1 to move to the feed bin recycling mechanism 3, and the feed bin mechanism 1 is provided with a feed bin.

The three-dimensional bin of this embodiment is provided with a bin mechanism 1, a feeding mechanism 2, a bin recycling mechanism 3 and a lifting mechanism 4, and EVA films are placed in the bin of the bin mechanism 1. The feed bin mechanism 1 carries out the material loading of EVA membrane by feed mechanism 2 to the material loading position, and after the EVA membrane material loading was accomplished, feed mechanism 2 carried empty feed bin mechanism 1 to elevating system 4 to carry empty feed bin mechanism 1 to feed bin recovery mechanism 3 by elevating system 4, carry out empty feed bin mechanism 1 by feed bin recovery mechanism 3 at last. The embodiment can realize automatic feeding of EVA films and automatic recovery of the empty bin mechanism 1, has high automation degree and improves working efficiency.

The feeding mechanism 2 and the bin recycling mechanism 3 of the embodiment are driven by a motor to rotate by a belt to realize conveying, and the lifting mechanism 4 is driven by a cylinder to move up and down. The feeding mechanism 2 and the bin recycling mechanism 3 of the embodiment are similar to the conveying mechanism structure on the existing intelligent conveying production line, and the lifting mechanism 4 is similar to the lifting mechanism structure on the existing intelligent conveying production line.

Further, the bin mechanism 1 comprises a bin bottom plate 10, and a first bin assembly 11, a second bin assembly 12 and a third bin assembly 13 which are fixed on the bin bottom plate 10. The first bin assembly 11 is arranged along the length direction of the bin bottom plate 10, and the second bin assembly 12 and the third bin assembly 13 are arranged along the width direction of the bin bottom plate 10. The first bin assembly 11, the second bin assembly 12 and the third bin assembly 13 can be used for placing EVA films with different specifications.

The first bin assembly 11 includes a first bin baffle 110 and a plurality of first bin baffles 111 disposed opposite to each other, the plurality of first bin baffles 111 being disposed between two first bin baffles 110, respectively, and a first bin being formed between two first bin baffles 110 and the plurality of first bin baffles 111. In order to facilitate the material taking of the materials in the first material bin, a plurality of brushes 14 are arranged on the first material bin partition 111, the brushes 14 are arranged at intervals along the height direction of the first material bin partition 111, and the materials in the first material bin are in contact friction with the brushes 14 in the process of taking out. By friction of the brush 14 with the material, adhesion of two or more materials to each other is avoided.

The second bin assembly 12 includes two second bin baffles 120 and a plurality of opposing second bin baffles 121, the plurality of second bin baffles 121 being disposed between the two second bin baffles 120, respectively, and a second bin being formed between the two second bin baffles 120 and the plurality of second bin baffles 121. In order to facilitate the taking out of the materials in the second bin, a plurality of brushes 14 are arranged on the second bin partition plate 121, the brushes 14 are arranged at intervals along the height direction of the second bin partition plate 121, and the materials in the second bin are in contact friction with the brushes 14 in the taking out process.

The third bin assembly 13 includes two third bin baffles 130 and a plurality of opposite third bin baffles 131, the plurality of third bin baffles 131 being respectively disposed between the two third bin baffles 130, and a third bin being formed between the two third bin baffles 130 and the plurality of third bin baffles 131. In order to facilitate the taking out of the materials in the third storage bin, a plurality of brushes 14 are arranged on the third storage bin partition plate 131, the brushes 14 are arranged at intervals along the height direction of the third storage bin partition plate 131, and the materials in the third storage bin are in contact friction with the brushes 14 in the taking out process.

In order to be suitable for the storage of the materials of different specifications, the bin mechanism 1 further comprises two bin adjusting assemblies 15, and the two bin adjusting assemblies 15 are respectively connected with the second bin assembly 12 and the third bin assembly 13. The width of the second bin and the width of the third bin are respectively adjusted by the two bin adjusting assemblies 15.

Preferably, the bin adjusting assembly 15 includes an adjusting bottom plate 150 and an adjusting connecting plate 151, the adjusting bottom plate 150 is movably connected with the bin bottom plate 10, the adjusting connecting plate 151 is fixed on the adjusting bottom plate 150, and the adjusting connecting plate 151 is connected with the second bin partition 121 or the third bin partition 131. The adjusting bottom plate 150 is provided with an adjusting groove 152, the bin bottom plate 10 is provided with an adjusting hole, and the adjusting bottom plate 150 is movably connected with the bin bottom plate 10 through the adjusting groove 152 and the adjusting hole. The adjusting bottom plate 150 is provided with a limit groove 153, the bin bottom plate 10 is provided with a limit column 154, and the limit column 154 is positioned in the limit groove 153.

When the width of the second bin or the third bin needs to be adjusted, the adjusting bottom plate 150 is moved, after the adjusting bottom plate 150 is moved to a preset position, the adjusting bottom plate 150 is fixed with the bin bottom plate 10 through bolts, and due to the fact that the limiting columns 154 and the limiting grooves 153 are arranged, the adjusting bottom plate 150 can be prevented from shifting in the moving process.

In order to ensure the accuracy of the moving position of the adjusting floor 150, a scale 155 is further provided on the bin floor 10, the scale is located at the end of the adjusting floor 150, and the adjusting floor 150 moves with reference to the scale 155 during the moving process.

In order to facilitate the taking and placing of the bin bottom plate 10, handles 16 are also provided on opposite sides of the bin bottom plate 10.

The material loading function of not shutting down of material can be realized to three-dimensional feed bin of this embodiment, specifically does: two or more stock bin mechanisms 1 are simultaneously conveyed on the feeding mechanism 2, and the stock bin mechanisms 1 with EVA films placed are sequentially conveyed to the upper material level. After the EVA film on the first bin mechanism 1 is taken out, the second bin mechanism 1 is conveyed to the feeding position for feeding. The first bin mechanism 1 is conveyed to the lifting mechanism 4, and the lifting mechanism 4 conveys the first bin mechanism 1 to the bin recycling mechanism 3 to be conveyed out and taken away manually. After one or two empty bin mechanisms 1 are conveyed out, a reminding component can be arranged to remind feeding, then EVA films are manually placed on the empty bin mechanisms 1, and after the EVA films are placed, the bin mechanisms 1 are placed on the feeding mechanism 2 to continue feeding.

The embodiments of the present utility model are not limited thereto, and the present utility model may be modified, substituted or combined in various other forms without departing from the basic technical spirit of the present utility model, which falls within the scope of the claims, according to the above-described aspects of the present utility model, using the general knowledge and conventional means of the art.

Claims (10)

1. The three-dimensional feed bin is characterized by comprising a feed bin mechanism, a feeding mechanism, a feed bin recovery mechanism and a lifting mechanism, wherein the feeding mechanism is arranged above the feed bin recovery mechanism, the lifting mechanism is arranged at one end of the feeding mechanism and one end of the feed bin recovery mechanism, the feed bin mechanism is conveyed to the lifting mechanism through the feeding mechanism, the lifting mechanism drives the feed bin mechanism to move to the feed bin recovery mechanism, and the feed bin mechanism is provided with a feed bin.

2. The stereoscopic feed bin of claim 1, wherein the feed bin mechanism comprises a feed bin bottom plate, and a first feed bin assembly, a second feed bin assembly, and a third feed bin assembly fixed to the feed bin bottom plate, the first feed bin assembly being disposed along a length direction of the feed bin bottom plate, the second feed bin assembly and the third feed bin assembly being disposed along a width direction of the feed bin bottom plate.

3. The stereoscopic feed bin of claim 2, wherein the first feed bin assembly comprises a first feed bin baffle and a plurality of oppositely disposed first feed bin baffles, the plurality of first feed bin baffles being disposed between two first feed bin baffles, respectively, the first feed bin being formed between two first feed bin baffles and the plurality of first feed bin baffles.

4. The stereoscopic feed bin of claim 3, wherein the first feed bin partition plate is provided with a plurality of brushes, the plurality of brushes are arranged at intervals along the height direction of the first feed bin partition plate, and materials in the first feed bin are contacted and rubbed with the brushes in the process of taking out.

5. The stereoscopic feeder of any one of claims 2 to 4, wherein the second feeder assembly comprises two second feeder baffles and a plurality of opposing second feeder baffles, the plurality of second feeder baffles being disposed between the two second feeder baffles, respectively, and a second feeder being formed between the two second feeder baffles and the plurality of second feeder baffles.

6. The stereoscopic feeder of claim 5, wherein the third feeder assembly comprises two third feeder baffles and a plurality of opposing third feeder baffles, the plurality of third feeder baffles being disposed between the two third feeder baffles, respectively, and a third feeder being formed between the two third feeder baffles and the plurality of third feeder baffles.

7. The three-dimensional storage bin according to claim 6, wherein a plurality of brushes are arranged on the second storage bin partition plate and the third storage bin partition plate, the brushes are arranged at intervals along the height direction of the second storage bin partition plate and the height direction of the third storage bin partition plate, and materials in the second storage bin and the third storage bin are in contact friction with the brushes in the process of taking out.

8. The stereoscopic feeder of claim 7, wherein the feeder mechanism further comprises two feeder adjustment assemblies connected to the second feeder assembly and the third feeder assembly, respectively, the two feeder adjustment assemblies adjusting the widths of the second feeder and the third feeder.

9. The stereoscopic feed bin of claim 8, wherein the feed bin adjusting assembly comprises an adjusting bottom plate and an adjusting connecting plate, the adjusting bottom plate is movably connected with the feed bin bottom plate, the adjusting connecting plate is fixed on the adjusting bottom plate, and the adjusting connecting plate is connected with the second feed bin partition plate or the third feed bin partition plate.

10. The three-dimensional storage bin according to claim 9, wherein the adjusting bottom plate is provided with an adjusting groove, the storage bin bottom plate is provided with an adjusting hole, and the adjusting bottom plate is movably connected with the storage bin bottom plate through the adjusting groove and the adjusting hole; the regulating bottom plate is provided with a limiting groove, the bin bottom plate is provided with a limiting column, and the limiting column is positioned in the limiting groove.