Automatic collecting and stacking equipment for finished woven bags

By designing an automatic collection and stacking equipment for finished woven bags, and utilizing components such as a feeding mechanism and a lifting and positioning mechanism, the problem of ineffective stacking of woven bags of different widths has been solved, achieving efficient automated pressing and unloading operations, and improving the stacking efficiency of woven bags.

CN118183295BActive Publication Date: 2026-06-05RIZHAO JINDA PACKAGING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
RIZHAO JINDA PACKAGING MATERIALS CO LTD
Filing Date
2024-04-23
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing technologies cannot effectively crush and stack woven bags of different widths, resulting in low stacking efficiency.

Method used

An automatic collection and stacking device for finished woven bags was designed, including a feeding mechanism, a lifting and positioning mechanism, a side conveying mechanism, a conical roller mechanism, a telescopic guide plate mechanism, a lifting plate mechanism, and a conveying and pressing mechanism. Through the coordinated action of these mechanisms, adaptive adjustment and pressing stacking of woven bags of different widths can be achieved.

Benefits of technology

It improves the efficiency of woven bag collection and stacking, can adapt to woven bags of different widths, realizes automatic feeding and compaction stacking, and improves the overall operation efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a kind of finished woven bag automatic collection stacking equipment, it is related to woven bag stacking technical field, including work base, the work base is equipped with automatic unloading mechanism, work base is equipped with fixed frame, fixed frame is equipped with two feed mechanisms, two feed mechanisms are symmetrically arranged on fixed frame, lifting displacement mechanism is equipped on feed mechanism, side edge conveying mechanism is equipped on lifting displacement mechanism, a plurality of conical roller mechanisms are equipped on lifting displacement mechanism, telescopic guide plate mechanism is equipped between two lifting displacement mechanisms, lifting plate mechanism is equipped on work base, conveying and compacting mechanism is equipped on lifting plate mechanism, load-bearing plate is equipped on the side of lifting plate mechanism, the interval of two lifting displacement mechanisms can be adjusted by being equipped with feed mechanism, to adapt to the finished woven bag collection stacking of different width, finished woven bag unloading after stacking can be realized by automatic unloading mechanism, improve the efficiency of finished woven bag collection stacking.
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Description

Technical Field

[0001] This invention relates to the field of woven bag stacking technology, specifically to an automatic collection and stacking device for finished woven bags. Background Technology

[0002] Woven bags, also known as snake-skin bags, are a type of plastic bag used for packaging. They are typically made from various chemical plastic materials such as polyethylene and polypropylene.

[0003] In the prior art, a conveyor is used to transport the finished woven bags to the storage box, where they are stored. Support blocks are used to support the crushing columns and prevent them from falling due to their own weight. The crushing columns are used to flatten the woven bags conveyed on the conveyor surface. However, the prior art cannot crush and stack woven bags of different widths, so there is considerable room for improvement in the prior art. Summary of the Invention

[0004] This invention provides an automatic collection and stacking device for finished woven bags, which solves the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] An automatic collection and stacking device for finished woven bags includes a working base, an automatic feeding mechanism on the working base, a fixed frame on the working base, two feeding mechanisms symmetrically arranged on the fixed frame, a lifting and positioning mechanism on the feeding mechanism, a side conveying mechanism on the lifting and positioning mechanism, a plurality of conical roller mechanisms on the lifting and positioning mechanism, a telescopic guide plate mechanism between the two lifting and positioning mechanisms, a lifting plate mechanism on the working base, a conveying and pressing mechanism on the lifting plate mechanism, and a bearing plate on the side of the lifting plate mechanism. The feeding mechanism controls the distance between the two lifting and positioning mechanisms, the lifting and positioning mechanism adjusts the height of the side conveying mechanism and the conical roller mechanism, the telescopic guide plate mechanism guides the finished woven bags conveyed by the conveying and pressing mechanism, and the conveying and pressing mechanism conveys the finished woven bags and simultaneously presses and stacks them.

[0007] As a preferred embodiment of the present invention, the automatic feeding mechanism includes a feeding groove formed on a working base, a feeding baffle shaft rotatably connected to the working base within the feeding groove, a feeding baffle shaft rotatably connected to a feeding baffle, a first rotating seat fixedly connected to the working base, a first push rod rotatably connected to the first rotating seat, a second rotating seat rotatably connected to the end of the first push rod away from the first rotating seat, and a fixed connection between the second rotating seat and the feeding baffle.

[0008] As a preferred embodiment of the present invention, the feeding mechanism includes a second push rod fixed to the fixed frame, the second push rod being fixedly connected to the feeding plate, the feeding plate being fixedly connected to the slide rod, the slide rod passing through the fixed frame and being slidably connected to the fixed frame.

[0009] As a preferred embodiment of the present invention, the lifting and positioning mechanism includes a feed frame fixed on a slide rod, a first motor is provided on the feed frame, the output shaft of the first motor is fixedly connected to a threaded rod, the threaded rod and the feed frame are rotatably connected, the threaded rod is threadedly connected to a lifting plate, and the lifting plate and the feed frame are slidably connected.

[0010] As a preferred embodiment of the present invention, the side conveying mechanism includes a motor bracket fixed to the lifting plate, a second motor fixedly connected to the motor bracket, a first side conveying wheel fixedly connected to the output shaft of the second motor, the first side conveying wheel rotatably connected to the lifting plate, a side conveyor belt drivingly connected to the first side conveying wheel, a second side conveying wheel drivingly connected to the side conveyor belt, and the second side conveying wheel rotatably connected to the lifting plate.

[0011] As a preferred embodiment of the present invention, the conical roller mechanism includes an installation groove formed on a lifting plate, a first spring fixedly connected to the lifting plate within the installation groove, a slider fixedly connected to the first spring, a slider and a lifting plate slidably connected, and a terminal conical wheel rotatably connected to the slider.

[0012] As a preferred embodiment of the present invention, the telescopic guide plate mechanism includes a fixed guide shell, two telescopic guide shell grooves are provided inside the fixed guide shell, the two telescopic guide shell grooves are symmetrically arranged on the fixed guide shell, a second spring is fixedly connected to the fixed guide shell within the telescopic guide shell groove, the second spring is fixedly connected to the telescopic guide shell, the telescopic guide shell and the fixed guide shell are slidably connected, and the telescopic guide shell and the lifting plate are fixedly connected.

[0013] As a preferred embodiment of the present invention, the lifting plate mechanism includes a third push rod fixed to the working base, the third push rod being fixedly connected to the lifting block, the lifting block being fixedly connected to two side plates, the two side plates being symmetrically arranged on the lifting block, the bearing plate being located inside the side plates, and the bearing plate and the side plates being slidably connected.

[0014] As a preferred embodiment of the present invention, the conveying and pressing mechanism includes a lifting groove formed on the lifting block, a third spring fixedly connected to the lifting block within the lifting groove, the third spring fixedly connected to the lifting seat, the lifting seat and the lifting block being slidably connected, a third motor provided on the side of the lifting seat, the output shaft of the third motor fixedly connected to the lifting wheel, the lifting wheel and the lifting seat being rotatably connected, a first conveying wheel and a second conveying wheel being rotatably connected between the two side plates, a fixed plate fixedly connected between the two side plates, a fourth push rod fixedly connected to the fixed plate, a slide plate fixedly connected to the fourth push rod, the slide plate and the side plates being slidably connected, a fifth push rod fixedly connected to the slide plate, a pressing wheel seat fixedly connected to the fifth push rod, the pressing wheel seat being rotatably connected to the pressing wheel, and the first conveying wheel, the second conveying wheel, the lifting wheel and the pressing wheel being drively connected to the conveyor belt.

[0015] The present invention has the following advantages:

[0016] The feeding mechanism allows for adjustment of the distance between the two lifting and positioning mechanisms to accommodate the collection and stacking of finished woven bags of different widths. The automatic unloading mechanism unloads the finished woven bags after stacking. The side conveying mechanism transports the guided finished woven belts, and the conical roller mechanism supports the finished woven bags. The lifting plate mechanism drives the conveying and pressing mechanism to rise and fall, adapting to the stacking height of the finished woven bags. The conveying and pressing mechanism transports and presses the finished woven bags, and the bearing plate supports the sides of the finished woven bags, improving the efficiency of finished woven bag collection and stacking. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of an automatic collection and stacking device for finished woven bags.

[0018] Figure 2 This is a second-view structural diagram of an automated collection and stacking equipment for finished woven bags.

[0019] Figure 3 This is a schematic diagram of the lifting plate mechanism and the conveying and pressing mechanism in an automatic collection and stacking equipment for finished woven bags.

[0020] Figure 4 This is a schematic diagram of the lifting and positioning mechanism, side conveying mechanism, and conical roller mechanism in an automatic collection and stacking equipment for finished woven bags.

[0021] Figure 5 A cross-sectional view of the conical roller mechanism in an automated collection and stacking equipment for finished woven bags.

[0022] Figure 6 A cross-sectional view of the telescopic guide plate mechanism in an automated collection and stacking equipment for finished woven bags.

[0023] In the diagram: 1. Working base; 2. Automatic feeding mechanism; 201. Feeding chute; 202. Feeding baffle shaft; 203. Feeding baffle; 204. First rotating seat; 205. First push rod; 206. Second rotating seat; 3. Fixed frame; 4. Feeding mechanism; 401. Second push rod; 402. Feeding plate; 403. Slide rod; 5. Lifting and positioning mechanism; 501. Feeding frame; 502. First motor; 503. Threaded rod; 504. Lifting plate; 6. Side conveying mechanism; 601. Motor bracket; 602. Second motor; 603. First side conveyor wheel; 604. Side conveyor belt; 605. Second side conveyor wheel; 7. Conical roller mechanism; 701. Mounting groove; 702. First spring; 703. 704. Slider; 8. End cone wheel; 9. Telescopic guide plate mechanism; 10. Fixed guide shell; 11. Telescopic guide shell groove; 12. Second spring; 13. Telescopic guide shell; 14. Lifting plate mechanism; 15. Third push rod; 16. Lifting block; 17. Side plate; 18. Conveying and pressing mechanism; 19. Lifting groove; 10. Third spring; 10. Lifting seat; 10. Third motor; 10. Lifting wheel; 10. First conveying wheel; 10. Second conveying wheel; 10. Fixed plate; 10. Fourth push rod; 10. Slide plate; 10. Fifth push rod; 10. Pressing wheel seat; 10. Pressing wheel; 10. Conveyor belt; 11. Bearing plate. Detailed Implementation

[0024] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.

[0025] It should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the present invention.

[0026] Example 1, please refer to Figures 1-6An automatic collection and stacking device for finished woven bags includes a working base 1, an automatic feeding mechanism 2 on the working base 1, a fixed frame 3 on the working base 1, two feeding mechanisms 4 symmetrically arranged on the fixed frame 3, a lifting and positioning mechanism 5 on the feeding mechanism 4, a side conveying mechanism 6 on the lifting and positioning mechanism 5, several conical roller mechanisms 7 on the lifting and positioning mechanism 5, a telescopic guide plate mechanism 8 between the two lifting and positioning mechanisms 5, a lifting plate mechanism 9 on the working base 1, a conveying and pressing mechanism 10 on the lifting plate mechanism 9, and a bearing plate 11 on the side of the lifting plate mechanism 9. The feeding mechanism 4 is used to control the distance between the two lifting and positioning mechanisms 5, the lifting and positioning mechanism 5 is used to adjust the height of the side conveying mechanism 6 and the conical roller mechanism 7, the telescopic guide plate mechanism 8 is used to guide the finished woven bags conveyed by the conveying and pressing mechanism 10, and the conveying and pressing mechanism 10 is used to convey the finished woven bags and simultaneously press and stack them.

[0027] The feeding mechanism 4 includes a second push rod 401 fixed to the fixed frame 3. The second push rod 401 is fixedly connected to the feeding plate 402, and the feeding plate 402 is fixedly connected to the slide rod 403. The slide rod 403 passes through the fixed frame 3 and is slidably connected to the fixed frame 3. The lifting and positioning mechanism 5 includes a feeding frame 501 fixed to the slide rod 403. A first motor 502 is provided on the feeding frame 501. The output shaft of the first motor 502 is fixedly connected to the threaded rod 503. The threaded rod 503 and the feeding frame 501 are rotatably connected. The threaded rod 503 is threadedly connected to the lifting plate 504. The lifting plate 504 and the feeding frame 501 are slidably connected.

[0028] Specifically, activating the second push rod 401 can move the feed plate 402, which in turn moves the slide rod 403, thereby moving the feed frame 501 to adjust the distance between the two symmetrically arranged feed frames 501. If the height of the lifting plate 504 needs to be adjusted, the first motor 502 is activated, which can rotate the threaded rod 503, thereby raising or lowering the lifting plate 504.

[0029] The side conveying mechanism 6 includes a motor bracket 601 fixed to the lifting plate 504. The motor bracket 601 is fixedly connected to a second motor 602. The output shaft of the second motor 602 is fixedly connected to a first side conveying wheel 603. The first side conveying wheel 603 is rotatably connected to the lifting plate 504. The first side conveying wheel 603 is drive-connected to a side conveyor belt 604. The side conveyor belt 604 is drive-connected to a second side conveying wheel 605. The second side conveying wheel 605 is rotatably connected to the lifting plate 504. The conical roller mechanism 7 includes a mounting groove 701 opened on the lifting plate 504. A first spring 702 is fixedly connected to the lifting plate 504 within the mounting groove 701. The first spring 702 is fixedly connected to a slider 703. The slider 703 is slidably connected to the lifting plate 504. The slider 703 is rotatably connected to an end conical wheel 704. The telescopic guide plate mechanism 8 includes a fixed guide shell 801, within which two telescopic guide shell grooves 802 are provided. The two telescopic guide shell grooves 802 are symmetrically arranged on the fixed guide shell 801. A second spring 803 is fixedly connected to the fixed guide shell 801 within the telescopic guide shell grooves 802. The second spring 803 is fixedly connected to a telescopic guide shell 804. The telescopic guide shell 804 and the fixed guide shell 801 are slidably connected. The telescopic guide shell 804 and the lifting plate 504 are fixedly connected. The lifting plate mechanism 9 includes a third push rod 901 fixed to the working base 1. The third push rod 901 is fixedly connected to a lifting block 902. The lifting block 902 is fixedly connected to two side plates 903, which are symmetrically arranged on the lifting block 902. A bearing plate 11 is located within the side plates 903, and the bearing plate 11 and the side plates 903 are slidably connected. The conveying and pressing mechanism 10 includes a lifting groove 1001 formed on the lifting block 902. A third spring 1002 is fixedly connected to the lifting block 902 within the lifting groove 1001. The third spring 1002 is fixedly connected to a lifting seat 1003. The lifting seat 1003 and the lifting block 902 are slidably connected. A third motor 1004 is provided on the side of the lifting seat 1003. The output shaft of the third motor 1004 is fixedly connected to a lifting wheel 1005. The lifting wheel 1005 and the lifting seat 1003 are rotatably connected. A first conveying wheel 1006 and a second conveying wheel 1006 are rotatably connected between the two side plates 903. The conveyor wheel 1007 is fixedly connected to the fixed plate 1008 between the two side plates 903. The fixed plate 1008 is fixedly connected to the fourth push rod 1009. The fourth push rod 1009 is fixedly connected to the slide plate 1010. The slide plate 1010 and the side plate 903 are slidably connected. The slide plate 1010 is fixedly connected to the fifth push rod 1011. The fifth push rod 1011 is fixedly connected to the pressure wheel seat 1012. The pressure wheel seat 1012 is rotatably connected to the pressure wheel 1013. The first conveyor wheel 1006, the second conveyor wheel 1007, the lifting wheel 1005 and the pressure wheel 1013 are connected to the conveyor belt 1014.

[0030] Specifically, the finished woven bags to be stacked are placed on the conveyor belt 1014. At this time, the third motor 1004 is turned on, driving the lifting wheel 1005 to rotate. The rotation of the lifting wheel 1005 drives the conveyor belt 1014 to rotate, thereby moving the finished woven bags. The finished woven bags are positioned between the side conveyor belt 604 and the end cone wheel 704 via the telescopic guide plate mechanism 8. Then, the second motor 602 is turned on, driving the first side conveyor wheel 603 to rotate, thereby driving the side conveyor belt 6014 to rotate. 4. When the side conveyor belt 604 rotates, it can move the finished woven bag to the designated position. When the finished woven bag needs to be placed and pressed, the fifth push rod 1011 is opened, which drives the pressing wheel seat 1012 and the pressing wheel 1013 to descend, so that the conveyor belt 1014 presses against the finished woven bag, and the side of the finished woven bag falls from between the side conveyor belt 604 and the end cone wheel 704 onto the working base 1. The fourth push rod 1009 is opened, which can drive the pressing wheel 1013 to move laterally to compact the finished woven bag.

[0031] Example 2, see below. Figures 1-2 In this embodiment of the invention, the automatic feeding mechanism 2 includes a feeding groove 201 formed on a working base 1, a feeding baffle shaft 202 rotatably connected to the working base 1 within the feeding groove 201, a feeding baffle shaft 202 rotatably connected to a feeding baffle 203, a first rotating seat 204 fixedly connected to the working base 1, a first push rod 205 rotatably connected to the first rotating seat 204, and a second rotating seat 206 rotatably connected to the end of the first push rod 205 away from the first rotating seat 204, and the second rotating seat 206 and the feeding baffle 203 fixedly connected.

[0032] Specifically, activating the first push rod 205 enables the discharge baffle 203 to rotate around the discharge baffle shaft 202, thereby unloading the finished woven bags on the discharge baffle 203.

[0033] In the implementation of this invention, firstly, depending on the width of the finished woven bags to be stacked, the feeding mechanism 4 is activated to adjust the distance between the two lifting and positioning mechanisms 5. At this time, the width of the telescopic guide plate mechanism 8 will also change accordingly, and the length of the bearing plate 11 extending from the lifting plate mechanism 9 will be adjusted to support the edge of the finished woven bags. Then, the finished woven bags to be stacked are placed in the conveying and pressing mechanism 10. The conveying and pressing mechanism 10 can drive the finished conveying bags to the position of the telescopic guide plate mechanism 8. Under the guidance of the telescopic guide plate mechanism 8, the finished woven bags will be placed between the side conveying mechanism 6 and the conical roller mechanism 7. At this time, activating the conveying and pressing mechanism 10 can press and stack the finished woven bags.

[0034] This invention, by setting a feeding mechanism 4, can adjust the distance between two lifting and positioning mechanisms 5 to accommodate the collection and stacking of finished woven bags of different widths. The automatic feeding mechanism 2 can unload the finished woven bags after stacking. The side conveying mechanism 6 can convey the guided finished woven belt. The conical roller mechanism 7 can support the finished woven bags. The lifting plate mechanism 9 can drive the conveying and pressing mechanism 10 to rise and fall, so as to change with the stacking height of the finished woven bags. The conveying and pressing mechanism 10 can convey the finished woven bags and press them. The bearing plate 11 can support the sides of the finished woven bags, thus improving the efficiency of collecting and stacking finished woven bags.

[0035] Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. An automatic collection and stacking device for finished woven bags, comprising a working base, characterized in that, The working base is equipped with an automatic feeding mechanism, a fixed frame, and two feeding mechanisms symmetrically arranged on the fixed frame. Each feeding mechanism has a lifting and positioning mechanism, a side conveying mechanism, and several conical roller mechanisms. A telescopic guide plate mechanism is located between the two lifting and positioning mechanisms. The working base also has a lifting plate mechanism with a conveying and pressing mechanism. A bearing plate is located on the side of the lifting plate mechanism. The feeding mechanism controls the distance between the two lifting and positioning mechanisms, the lifting and positioning mechanism adjusts the height of the side conveying mechanism and the conical roller mechanism, the telescopic guide plate mechanism guides the finished woven bags conveyed by the conveying and pressing mechanism, and the conveying and pressing mechanism conveys the finished woven bags while simultaneously pressing and stacking them. The feeding mechanism includes a second push rod fixed to the fixed frame, the second push rod being fixedly connected to the feed plate, the feed plate being fixedly connected to the slide rod, the slide rod passing through the fixed frame and being slidably connected to the fixed frame; The lifting and positioning mechanism includes a feed frame fixed on a slide rod, a first motor on the feed frame, a threaded rod fixedly connected to the output shaft of the first motor, a rotatable connection between the threaded rod and the feed frame, a lifting plate threadedly connected to the threaded rod, and a slidable connection between the lifting plate and the feed frame. The side conveying mechanism includes a motor bracket fixed to the lifting plate, a second motor fixedly connected to the motor bracket, a first side conveying wheel fixedly connected to the output shaft of the second motor, a first side conveying wheel rotatably connected to the lifting plate, a side conveyor belt drivingly connected to the first side conveying wheel, a second side conveying wheel drivingly connected to the side conveyor belt, and a second side conveying wheel rotatably connected to the lifting plate. The conical roller mechanism includes a mounting groove on the lifting plate, a first spring fixedly connected to the lifting plate within the mounting groove, a slider fixedly connected to the first spring, a sliding connection between the slider and the lifting plate, and a rotating connection between the slider and the end conical wheel. The telescopic guide plate mechanism includes a fixed guide shell, two telescopic guide shell grooves are provided inside the fixed guide shell, the two telescopic guide shell grooves are symmetrically arranged on the fixed guide shell, a second spring is fixedly connected to the fixed guide shell located in the telescopic guide shell groove, the second spring is fixedly connected to the telescopic guide shell, the telescopic guide shell and the fixed guide shell are slidably connected, and the telescopic guide shell and the lifting plate are fixedly connected. The lifting plate mechanism includes a third push rod fixed on the working base, the third push rod is fixedly connected to the lifting block, the lifting block is fixedly connected to two side plates, the two side plates are symmetrically arranged on the lifting block, the bearing plate is located inside the side plate, and the bearing plate and the side plate are slidably connected. The conveying and pressing mechanism includes a lifting groove on the lifting block, a third spring fixedly connected to the lifting block within the lifting groove, the third spring fixedly connected to the lifting seat, the lifting seat and the lifting block slidably connected, a third motor on the side of the lifting seat, the output shaft of the third motor fixedly connected to the lifting wheel, the lifting wheel and the lifting seat rotatably connected, a first conveying wheel and a second conveying wheel rotatably connected between the two side plates, a fixed plate fixedly connected between the two side plates, a fourth push rod fixedly connected to the fixed plate, a slide plate fixedly connected to the fourth push rod, the slide plate and the side plates slidably connected, a fifth push rod fixedly connected to the slide plate, a pressing wheel seat fixedly connected to the fifth push rod, the pressing wheel seat rotatably connected to the pressing wheel, and the first conveying wheel, the second conveying wheel, the lifting wheel and the pressing wheel are connected to the conveyor belt.

2. The automatic collection and stacking equipment for finished woven bags according to claim 1, characterized in that, The automatic feeding mechanism includes a feeding trough opened on the working base, a feeding baffle shaft rotatably connected to the working base inside the feeding trough, a feeding baffle shaft rotatably connected to the feeding baffle, a first rotating seat fixedly connected to the working base, a first push rod rotatably connected to the first rotating seat, a second rotating seat rotatably connected to the end of the first push rod away from the first rotating seat, and a fixed connection between the second rotating seat and the feeding baffle.