Ribbon applicator

By designing a ribbon bonding machine, the automatic bonding of ribbons and partitions was achieved, solving the problem of limited production rhythm in existing technologies and improving the production efficiency of packaging boxes.

CN224490273UActive Publication Date: 2026-07-14DONGGUAN WEIAN AUTOMATION TECH LTD CO

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN WEIAN AUTOMATION TECH LTD CO
Filing Date
2025-07-04
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In existing technologies, the cutting and pasting of ribbons cannot be matched with automated packaging lines during the packaging box production process, resulting in limited production pace.

Method used

A ribbon bonding machine was designed, including a feeding mechanism, a conveying mechanism, a gluing mechanism, a ribbon output mechanism, and a discharge mechanism. The machine achieves tight bonding between the ribbon and the separator through an automated process, avoiding manual operation.

Benefits of technology

It achieves automated bonding of ribbons and partitions, perfectly matching the production rhythm with the subsequent automated packaging line, and significantly improving capacity.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224490273U_ABST
Patent Text Reader

Abstract

The application discloses a ribbon laminating machine, which comprises a workbench, a conveying frame arranged on the top of the workbench, a feeding mechanism arranged on one side of the top of the conveying frame and used for feeding a partition plate, a conveying mechanism arranged on the top of the conveying frame and used for conveying the partition plate, a gluing mechanism arranged on one side of the discharging mechanism and used for gluing the partition plate conveyed by the conveying mechanism, a ribbon output mechanism arranged on the top of the workbench and used for outputting a ribbon and cutting the ribbon, and a discharging mechanism arranged on the top of the workbench and close to the other side of the conveying frame and used for storing the partition plate with the ribbon. The ribbon laminating machine can solve the technical problem that the ribbon and the partition plate cannot be matched with a subsequent automatic packaging line.
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Description

Technical Field

[0001] This application relates to the field of packaging box production technology, and in particular to a ribbon laminating machine. Background Technology

[0002] In the production of packaging boxes, such as cigarette boxes, internal dividers are key components that enhance the product's perceived quality. These dividers are typically made of deformable materials, such as cardboard. They not only improve the product's appearance but also form an elastic support layer during transportation, protecting the product inside. To further enhance the packaging's aesthetics, decorative ribbons are often attached to the dividers. Currently, the cutting and attaching of these ribbons are done manually, limiting production speed and making it difficult to match the speed requirements of automated packaging lines, thus causing processing inconvenience. Utility Model Content

[0003] This application aims to address at least one of the technical problems existing in the prior art. To this end, this application proposes a ribbon bonding machine that solves the technical problem that ribbon bonding separators cannot be matched with subsequent automated packaging lines.

[0004] A ribbon bonding machine according to an embodiment of this application includes: a worktable; a conveyor frame disposed on the top of the worktable; and a feeding mechanism disposed on one side of the top of the conveyor frame for feeding a partition.

[0005] A conveying mechanism, located at the top of the conveyor frame, is used to convey the partitions; a gluing mechanism, located on one side of the feeding mechanism, is used to apply glue to the partitions conveyed by the conveying mechanism; a ribbon output mechanism, located at the top of the workbench, is used to output ribbons and cut them, so that the cut ribbons are pressed onto the glued partitions; a discharge mechanism, located at the top of the workbench, near the other side of the conveyor frame, is used to store the partitions with the glued ribbons. The ribbon output mechanism includes an output support frame, a mounting plate, a winding section, a cutting section, a conveying section, and a pressing section. The output support frame is located at the top of the workbench, and the mounting plate is located on one side of the support frame. The winding section, the cutting section, the conveying section, and the pressing section are sequentially located on one side of the mounting plate. The winding section conveys the ribbons to the cutting section for cutting, and the cutting section outputs the cut ribbons through the conveying section to the pressing section, where the pressing section presses the ribbons onto the glued partitions.

[0006] The ribbon bonding machine according to the embodiments of this application has at least the following beneficial effects: The feeding mechanism is located on one side of the top of the conveyor frame and is responsible for feeding the partition into the conveyor mechanism. When it is conveyed to the position of the gluing mechanism, the gluing mechanism applies glue to the surface of the partition. The ribbon output mechanism is the core of the entire system. It is fixed to the top of the workbench by the output support frame and integrates the feeding section, cutting section, conveying section and pressing section through the mounting plate. The feeding section is responsible for pulling the ribbon out of the ribbon roll and outputting it to the cutting section. After receiving the ribbon, the cutting section cuts the ribbon. The cut ribbon is captured by the conveying section and quickly moved to the pressing section. When the glued partition reaches the pressing position through the conveyor mechanism, the pressing section presses the ribbon onto the glued surface of the partition to ensure that the ribbon and the partition are tightly bonded. Finally, the discharging mechanism discharges the bonded partition. Through the fully automated process of bonding the ribbon and the partition, there is no need to rely on manual cutting and pasting by workers. The production rhythm is perfectly matched with the subsequent automated packaging line, solving the problem of inconvenient processing and significantly improving the production capacity.

[0007] Additional aspects and advantages of this application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of this application. Attached Figure Description

[0008] The present application will be further described below with reference to the accompanying drawings and embodiments, wherein:

[0009] Figure 1 This is a schematic diagram of the ribbon bonding machine of this application;

[0010] Figure 2 for Figure 1 A schematic diagram of the feeding mechanism in the middle;

[0011] Figure 3 for Figure 1 A schematic diagram of the material suction nozzle in the middle;

[0012] Figure 4 for Figure 1 A schematic diagram of the material discharge storage rack in the middle;

[0013] Figure 5 for Figure 1 A schematic diagram of the adhesive application mechanism in the diagram;

[0014] Figure 6 for Figure 1 A schematic diagram of the conveyor frame in the diagram;

[0015] Figure 7 for Figure 1 A schematic diagram of the conveying mechanism in the diagram;

[0016] Figure 8 for Figure 1 A schematic diagram of the feeding pusher in the middle;

[0017] Figure 9 for Figure 1 A schematic diagram of the ribbon output mechanism in the diagram;

[0018] Figure 10 for Figure 9 A schematic diagram of the conveyor section in the middle;

[0019] Figure 11 for Figure 9 A schematic diagram of the cutting section in the diagram;

[0020] Figure 12 for Figure 9 A schematic diagram of the pressing section in the middle;

[0021] Figure 13 for Figure 1 A schematic diagram of the material discharge mechanism in the middle;

[0022] Figure 14 for Figure 10 Enlarged view of point A in the image;

[0023] Figure 15 for Figure 12 Enlarged view of point B in the image.

[0024] Figure label:

[0025] Workbench 100, conveyor rack 110, partition 120, ribbon 130;

[0026] Feeding mechanism 200, feeding storage rack 210, feeding storage cavity 211, limiting protrusion 212, discharge opening 213, material picking groove 220, material picking rod 221, material picking nozzle 222, material picking cylinder 223;

[0027] Glue application mechanism 300, glue application bracket 310, connecting plate 311, limiting plate 312, glue application mounting base 320, glue application nozzle 321, glue application seat 322, glue inlet valve 323;

[0028] Conveying mechanism 400, conveying chute 410, conveying base frame 420, conveying screw 421, conveying nut 422, conveying motor 423, conveying movable seat 430, conveying lifting seat 431, lifting cylinder 432, connecting arm 433, feeding pusher 434, feeding limit notch 435;

[0029] The ribbon output mechanism 500, output support frame 501, mounting plate 502, feeding section 510, feeding plate 511, ribbon unloading drum 512, guide roller 513, cutting section 520, first movable frame 521, first limit cylinder 5210, first limit roller 5211, first conveyor wheel 5212, first transmission wheel 5213, first transmission belt 5214, second transmission wheel 5215, third transmission wheel 5216, second transmission belt 5217, fourth transmission wheel 5218, drive motor 5220, cutting limit cylinder 5221, cutting fixing frame 5222, first cutting shears 5223, second cutting shears 5224, cutting interval 5225. First transmission seat 5226, first transmission cavity 5227, cutting movable frame 5228, conveying part 530, fifth transmission wheel 5301, third transmission belt 5302, sixth transmission wheel 5303, seventh transmission wheel 531, fourth transmission belt 532, second movable frame 533, second limiting cylinder 534, eighth transmission wheel 535, second conveying wheel 5351, third conveying wheel 5352, setting frame 536, second limiting roller 5361, third limiting roller 5362, second transmission seat 537, second transmission cavity 5371, pressing part 540, third transmission seat 541, third transmission cavity 542, pressing cylinder 543, pressing block 544;

[0030] Discharge mechanism 600, discharge storage rack 610, discharge storage cavity 611, discharge top plate 612, lifting device 620, material sorting bracket 630, material sorting cylinder 631, material sorting push block 632, material sorting guide slope 633, material sorting connecting groove 640. Detailed Implementation

[0031] The embodiments of this application are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this application, and should not be construed as limiting this application.

[0032] In the description of this application, it should be understood that the orientation descriptions, such as up, down, front, back, left, right, 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 this application 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 this application.

[0033] In the description of this application, "several" means one or more, "multiple" means two or more, "greater than," "less than," and "exceeding" are understood to exclude the stated number, while "above," "below," and "within" are understood to include the stated number. The use of "first" and "second" in the description is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, or implicitly indicating the number of indicated technical features, or implicitly indicating the order of the indicated technical features.

[0034] In the description of this application, unless otherwise expressly defined, terms such as "setup," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this application in conjunction with the specific content of the technical solution.

[0035] In the description of this application, the terms "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., refer to specific features, structures, materials, or characteristics described in connection with that embodiment or example, which are included in at least one embodiment or example of this application. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0036] Reference Figures 1 to 15 The ribbon bonding machine according to an embodiment of this application includes:

[0037] Workbench 100;

[0038] The conveyor frame 110 is located on top of the workbench 100;

[0039] The feeding mechanism 200 is located on one side of the top of the conveyor frame 110 and is used to feed the partition 120.

[0040] The conveying mechanism 400 is located on top of the conveying frame 110 and is used to convey the partition 120.

[0041] The glue-applying mechanism 300 is located on one side of the feeding mechanism 200 and is used to apply glue to the partition 120 conveyed by the conveying mechanism 400.

[0042] The ribbon output mechanism 500 is located on the top of the workbench 100 and is used to output the ribbon 130 and cut the ribbon 130 so that the cut ribbon 130 is pressed onto the glued partition 120.

[0043] The discharge mechanism 600 is located on the top of the workbench 100, on the other side near the conveyor frame 110, and is used to store the partition 120 on which the ribbon 130 is attached.

[0044] The ribbon output mechanism 500 includes an output support frame 501, a mounting plate 502, a feeding section 510, a cutting section 520, a conveying section 530, and a pressing section 540. The output support frame 501 is located on the top of the workbench 100, and the mounting plate 502 is located on one side of the support frame. The feeding section 510, the cutting section 520, the conveying section 530, and the pressing section 540 are sequentially located on one side of the mounting plate 502. The feeding section 510 is used to convey the ribbon 130 to the cutting section 520 for cutting. The cutting section 520 outputs the cut ribbon 130 through the conveying section 530 to the pressing section 540, so that the pressing section 540 presses the ribbon 130 onto the glued partition 120.

[0045] Understandably, the feeding mechanism 200 is located on one side of the top of the conveyor frame 110 and is responsible for feeding the partition 120 (e.g., cardboard) into the conveyor mechanism 400. When it is conveyed to the position of the gluing mechanism 300, the gluing mechanism 300 applies glue to the surface of the partition 120. The ribbon output mechanism 500 is the core of the entire system. It is fixed to the top of the workbench 100 by the output support frame 501 and integrates the winding section 510, the cutting section 520, the conveying section 530, and the pressing section 540 through the mounting plate 502. The winding section 510 is responsible for pulling the ribbon 130 out of the ribbon 130 roll and outputting it to the cutting section 520. The cutting section 520 receives the ribbon. After step 130, the ribbon 130 is cut. The cut ribbon 130 is captured by the conveyor 530 and quickly moved to the pressing section 540. When the glued partition 120 reaches the pressing position via the conveyor 400, the pressing section 540 presses the ribbon 130 onto the glued surface of the partition 120, ensuring that the ribbon 130 and the partition 120 are tightly bonded. Finally, the unloading mechanism 600 unloads the bonded partition 120. Through the fully automated process of bonding the ribbon 130 and the partition 120, there is no need to rely on manual cutting and pasting by workers. The production rhythm is perfectly matched with the subsequent automated packaging line, solving the problem of inconvenient processing and significantly improving production capacity.

[0046] Reference Figures 9 to 12 According to some embodiments of this application, the feeding section 510 includes a feeding plate 511, a ribbon unwinding drum 512, and a guide roller 513. The feeding plate 511 is disposed at one end of the mounting plate 502. The ribbon unwinding drum 512 is rotatably connected to one side of the feeding plate 511. The guide roller 513 is rotatably connected to one side of the mounting plate 502. The ribbon 130 is wound and stored in the ribbon unwinding drum 512. The guide roller 513 is used to wind the ribbon 130 and is in rolling engagement with the ribbon 130.

[0047] Understandably, the feed plate 511 is fixed to one end of the mounting plate 502 as a base, providing rigid support for the ribbon unwinding drum 512. The ribbon 130 roll is installed on the unwinding drum, so that the pulled-out section of the ribbon 130 rolls in cooperation with the guide roller 513. The ribbon 130 is gradually pulled out to the cutting section 520. As the cutting section 520 conveys the ribbon 130, the ribbon 130 maintains a constant micro-tension between the ribbon unwinding drum 512 and the guide roller 513. This tension not only prevents the ribbon 130 from sag and knot, but also prevents the ribbon 130 from deforming and breaking due to excessive tension.

[0048] Reference Figures 9 to 12 According to some embodiments of this application, the cutting section 520 includes a first movable frame 521, a first limiting cylinder 5210, a first limiting roller 5211, a first conveying roller 5212, a first transmission roller 5213, a first transmission belt 5214, a second transmission roller 5215, a third transmission roller 5216, a second transmission belt 5217, a fourth transmission roller 5218, and a transmission motor 5220. The first conveying roller 5212 is rotatably connected to one side of the mounting plate 502. 212 is located near the guide roller 513. The first conveyor wheel 5212 is used to wind the ribbon 130, so that the first conveyor wheel 5212 conveys the ribbon 130. The first drive wheel 5213 and the second drive wheel 5215 are rotatably connected to the other side of the mounting plate 502. The first drive belt 5214 is sleeved on the outside of the first drive wheel 5213 and the second drive wheel 5215, so that the first drive wheel 5213 and the second drive wheel 5215 are connected for transmission. The first conveyor wheel 5212 and the second drive wheel 5215 are connected for transmission. 15. Coaxial transmission: The third transmission wheel 5216 and the fourth transmission wheel 5218 are rotatably connected to one side of the mounting plate 502. The second transmission belt 5217 is sleeved on the outside of the third transmission wheel 5216 and the fourth transmission wheel 5218, making the third transmission wheel 5216 and the fourth transmission wheel 5218 drive each other. The third transmission wheel 5216 is coaxially driven with the first transmission wheel 5213. The transmission motor 5220 is located on the other side of the mounting plate 502, and the transmission motor 5220 drives the fourth transmission wheel 5216. 18 rotates, the first movable frame 521 is slidably connected to the other side of the mounting plate 502, the first limiting cylinder 5210 is located on the other side of the mounting plate 502, the first limiting cylinder 5210 drives the first movable frame 521 to move, one side of the first movable frame 521 approaches the side of the first conveyor wheel 5212, the first limiting roller 5211 is rotatably connected to one side of the first movable frame 521, so that the first limiting roller 5211 and the winding ribbon 130 of the first conveyor wheel 5212 roll in cooperation.

[0049] It is understandable that when the drive motor 5220 drives the fourth drive wheel 5218 to rotate, since the second drive belt 5217 is sleeved on the outside of the third drive wheel 5216 and the fourth drive wheel 5218, the rotation of the fourth drive wheel 5218 drives the third drive wheel 5216 to rotate synchronously through the second drive belt 5217. The third drive wheel 5216 is coaxially driven with the first drive wheel 5213, and the first drive wheel 5213 drives the second drive wheel 5215 to rotate through the first drive belt 5214. The second drive wheel 5215 is coaxially driven with the first conveyor wheel 5212. The shaft drive ultimately drives the first conveyor wheel 5212 to rotate continuously. At this time, the ribbon 130 enters the first conveyor wheel 5212 through the guide roller 513. The first limit cylinder 5210 pushes the first movable frame 521 to move, so that the first limit roller 5211 presses against the first conveyor wheel 5212. The ribbon 130 is rolled and pressed between the limit roller and the first conveyor wheel 5212. When the first conveyor wheel 5212 rotates, the first conveyor wheel 5212 drives the ribbon 130 to be conveyed, and the ribbon 130 drives the first limit roller 5211 to roll, so as to limit the conveying of the ribbon 130.

[0050] In addition, limiting discs can be set on both sides of the first conveyor wheel 5212. The diameter of the limiting discs is larger than that of the first conveyor wheel 5212, and the two limiting discs are separated to form a limiting interval. So when the first conveyor wheel 5212 conveys the ribbon 130, the ribbon 130 is located within the limiting interval formed by the two limiting discs, thereby preventing the ribbon 130 from falling off the first conveyor wheel 5212.

[0051] Reference Figures 9 to 14According to some embodiments of this application, the cutting unit 520 includes a cutting limiting cylinder 5221, a cutting fixing frame 5222, a cutting movable frame 5228, a movable frame, a first cutting scissors 5223, a second cutting scissors 5224, and a first transmission seat 5226. The first transmission seat 5226 is located on one side of the mounting plate 502, and one side of the first transmission seat 5226 is close to the first conveying wheel 5212. A first transmission cavity 5227 is formed inside the first transmission seat 5226 for threading the ribbon 130. The cutting fixing frame 5222 is located on one side of the mounting plate 502, and the first cutting scissors 5223 are located on the cutting fixing frame 5224. On one side of 222, the cutting frame 5228 is slidably connected to the other side of the mounting plate 502. One side of the cutting frame 5228 is close to the first cutting shear 5223, and the second cutting shear 5224 is located on one side of the cutting frame 5228. The first cutting shear 5223 and the second cutting shear 5224 are close to the other side of the first transmission seat 5226. The first cutting shear 5223 and the second cutting shear 5224 are separated to form a cutting interval 5225. One side of the cutting interval 5225 is connected to the first transmission cavity 5227. The cutting limit cylinder 5221 is located on the other side of the mounting plate 502, and the cutting limit cylinder 5221 drives the cutting frame 5228 to move.

[0052] Understandably, after the ribbon 130 is output from the first conveyor wheel 5212, it will pass through the first transmission cavity 5227 of the first transmission seat 5226. Under the limit of the first transmission cavity 5227, the ribbon 130 is forced to remain straight, avoiding twisting and deviation before cutting. When the ribbon 130 is output from the first transmission cavity 5227 to the cutting interval 5225, the cutting limit cylinder 5221 drives the cutting movable frame 5228 to move. The cutting movable frame 5228 drives the second cutting scissors 5224 to move towards the first cutting scissors 5223, and finally cuts the ribbon 130, thus replacing the manual cutting method.

[0053] Furthermore, a first beveled blade can be formed on one side of the first cutting shears 5223, and a second beveled blade can be formed on one side of the second cutting shears 5224. The first and second beveled blades are offset from each other, and both the first and second beveled blades face the cutting interval 5225. Thus, when the second cutting shears 5224 moves close to the first cutting shears 5223, the first and second beveled blades can be completely offset and closed. The offset movement of the first and second beveled blades forms a progressive cut, dispersing the shearing force into a continuous action. Compared with stamping cutting, it reduces the instantaneous impact force and avoids crushing and fraying at the edge of the ribbon 130.

[0054] Reference Figures 9 to 15According to some embodiments of this application, the conveying unit 530 includes a fifth drive wheel 5301, a third drive belt 5302, a sixth drive wheel 5303, a fourth drive belt 532, a second movable frame 533, a second limiting cylinder 534, a seventh drive wheel 531, an eighth drive wheel 535, a second conveying wheel 5351, a third conveying wheel 5352, a setting frame 536, a second limiting roller 5361, a third limiting roller 5362, and a second drive seat 537. The second conveying wheel 5351 is rotatably connected to one side of the mounting plate 502. The second conveying wheel 5351 is located near the other side of the cutting interval 5225. The second conveying wheel 5351 is used to wrap the cut ribbon 130, so that the first conveying wheel 5212 is positioned on the cut ribbon 130. The conveying mechanism includes a second transmission seat 537 located on one side of the mounting plate 502, near the second conveying wheel 5351. A second transmission cavity 5371 is provided inside the second transmission seat 537 for threading the ribbon 130. A third conveying wheel 5352 is rotatably connected to one side of the mounting plate 502, near the other side of the second transmission seat 537. The third conveying wheel 5352 is used to wind the cut ribbon 130, thus conveying the cut ribbon 130. A second movable frame 533 is slidably connected to the other side of the mounting plate 502. A second limiting cylinder 534 is located on the other side of the mounting plate 502 and drives the second movable frame 535. 3. The moving frame 536 is located on one side of the second movable frame 533, close to the second transmission seat 537, with one end of the frame 536 close to the second conveyor wheel 5351 and the other end close to the third conveyor wheel 5352. The second limiting roller 5361 is rotatably connected to one end of the frame 536, so that the second limiting roller 5361 and the winding ribbon 130 of the third conveyor wheel 5352 roll in cooperation. The third limiting roller 5362 is rotatably connected to the other end of the frame 536, so that the third limiting roller 5362 and the winding ribbon 130 of the third conveyor wheel 5352 roll in cooperation. The fifth transmission wheel 5301 and the sixth transmission wheel 5303 are rotatably connected to the other side of the mounting plate 502. The drive motor 522... The fifth transmission wheel 5301 is driven to rotate. The third transmission belt 5302 is sleeved on the outside of the fifth transmission wheel 5301 and the sixth transmission wheel 5303, so that the fifth transmission wheel 5301 and the sixth transmission wheel 5303 are connected to each other. The sixth transmission wheel 5303 is coaxially driven with the second conveyor wheel 5351. The seventh transmission wheel 531 is located on one side of the sixth transmission wheel 5303, and the seventh transmission wheel 531 is coaxially driven with the sixth transmission wheel 5303. The eighth transmission wheel 535 is rotatably connected to the other side of the mounting plate 502. The fourth transmission belt 532 is sleeved on the outside of the eighth transmission wheel 535 and the seventh transmission wheel 531, so that the eighth transmission wheel 535 and the seventh transmission wheel 531 are connected to each other. The eighth transmission wheel 535 is coaxially driven with the third conveyor wheel 5352.

[0055] Understandably, when the drive motor 5220 drives the fifth drive wheel 5301 to rotate, the fifth drive wheel 5301 drives the sixth drive wheel 5303 to rotate via the third drive belt 5302. Since the sixth drive wheel 5303 is coaxially driven with the second conveyor wheel 5351, it will drive the second conveyor wheel 5351 to rotate. At the same time, the sixth drive wheel 5303 is coaxially driven with the seventh drive wheel 531. The seventh drive wheel 531 drives the eighth drive wheel 535 to rotate via the fourth drive belt 532. Since the eighth drive wheel 535 is coaxially driven with the third conveyor wheel 5352, it will drive the third conveyor wheel 5352 to rotate. At this time, the second limit cylinder 534 drives the second movable frame 533 to move. The second movable frame 533 drives one end of the setting frame 536 to approach the second conveyor wheel 5351. The other end of 36 is close to the third conveyor wheel 5352, so that the second limiting roller 5361 is close to the third conveyor wheel 5352 and the third limiting roller 5362 is close to the third conveyor wheel 5352. When the cut ribbon 130 is output, it will first pass through the second conveyor wheel 5351. The second conveyor wheel 5351 drives the ribbon 130 to be conveyed, and the ribbon 130 drives the second limiting roller 5361 to roll. Then it passes through the second transmission cavity 5371 inside the second transmission seat 537 to correct the conveying position of the cut ribbon 130. Then it passes through the third conveyor wheel 5352. The third conveyor wheel 5352 drives the ribbon 130 to be conveyed, and the ribbon 130 drives the third limiting roller 5362 to roll. This makes it easier to clamp and convey the cut ribbon 130, ensuring that the ribbon 130 enters the pressing station in a straight state.

[0056] In addition, limiting discs similar to those of the first conveyor wheel 5212 can be provided on both sides of the third conveyor wheel 5352, so that when the third conveyor wheel 5352 conveys the ribbon 130, the ribbon 130 is located within the limiting interval formed by the two limiting discs, thereby preventing the ribbon 130 from detaching from the third conveyor wheel 5352.

[0057] Reference Figures 9 to 12 According to some embodiments of this application, the pressing part 540 includes a third transmission seat 541, a pressing cylinder 543, and a pressing block 544. The third transmission seat 541 is located on one side of the mounting plate 502, and one side of the third transmission seat 541 is close to the third conveying wheel 5352. A third transmission cavity 542 is provided inside the third transmission seat 541 for threading the cut ribbon 130. The pressing cylinder 543 is located on one side of the mounting plate 502, and the pressing block 544 is located at the piston rod end of the pressing cylinder 543. The pressing block 544 is close to the other side of the third transmission seat 541, and the bottom of the pressing block 544 faces the partition 120 conveyed by the conveying mechanism 400.

[0058] Understandably, when the cut ribbon 130 is output from the third conveyor wheel 5352, it will enter the third transmission cavity 542 of the third transmission seat 541 to correct the conveying position of the cut ribbon 130. When the glued partition 120 is moved to the pressing station by the conveying mechanism 400, the cut ribbon 130 is output from the third transmission cavity 542. At this time, the pressing cylinder 543 drives the pressing block 544 to descend. Since the pressing block 544 is close to the other side of the third transmission seat 541, when the pressing block 544 descends, it will cause the ribbon 130 to be pressed onto the glue layer of the partition 120, so that the ribbon 130 is fully soaked with glue, thereby achieving the bonding of the ribbon 130 and improving the firmness of the ribbon 130.

[0059] Reference Figures 1 to 8 According to some embodiments of this application, the conveying mechanism 400 includes a conveying base 420, a conveying screw 421, a conveying nut 422, a conveying motor 423, a conveying movable seat 430, a conveying lifting seat 431, a lifting cylinder 432, a connecting arm 433, a feeding pusher 434, and a feeding limit notch 435. The conveying base 420 is located inside the conveying frame 110. The conveying screw 421 is laterally rotatably connected to the inside of the conveying base 420. The conveying nut 422 is sleeved on the outside of the conveying screw 421. The conveying motor 423 is located on one side of the conveying base 420 and is used to drive the conveying screw 421 to rotate. The conveying movable seat 430 is located on one side of the conveying nut 422. The lifting cylinder 432 is located on the conveying movable seat. On one side of 430, a conveying lifting seat 431 is located at the piston rod end of a lifting cylinder 432. The lifting cylinder 432 drives the conveying lifting seat 431 to rise and fall. A connecting arm 433 is located on the top of the conveying lifting seat 431. There are multiple feeding pushers 434, which are equally spaced on the top of the connecting arm 433. The feeding pushers 434 are used to push the partition 120 on the top of the conveying frame 110. A feeding limiting notch 435 is provided on one side of the feeding pusher 434. The feeding limiting notch 435 is used to accommodate one side of the partition 120. A conveying chute 410 is provided laterally on the top of the conveying frame 110, so that multiple feeding pushers 434 can pass through the conveying chute 410. The multiple feeding pushers 434 slide in cooperation with the conveying chute 410.

[0060] Understandably, when the partition 120 is fed from the feeding mechanism 200, the partition 120 will be located at the top of the conveyor frame 110. At this time, the lifting cylinder 432 drives the conveyor lifting seat 431 to rise, and the connecting arm 433 is located at the top of the conveyor lifting seat 431. The feeding pusher 434 passes through the conveying chute 410 at the top of the conveyor frame 110 and drives the conveying screw 421 to rotate through the conveying motor 423. The conveying nut 422 moves horizontally along the axial direction of the conveying screw 421 to drive the overall displacement of the conveyor movable seat 430. Since the lifting cylinder 432 is located on one side of the conveyor movable seat 430 and the conveyor lifting seat 431 is located at the piston rod end of the lifting cylinder 432, multiple feeding pushers 434 are connected by the connecting arm 432. 3. Fixed on the conveyor lifting seat 431, so that when the conveyor movable seat 430 moves, it will drive multiple feeding pushers 434 to move. The feeding pushers 434 push the partition 120 to move. When the feeding pushers 434 push, the partition 120 will be limited within the feeding limit notch 435, thereby preventing the partition 120 from falling off the feeding pushers 434. After a batch of partitions 120 is pushed, the lifting cylinder 432 drives the conveyor lifting seat 431 to descend, the conveyor motor 423 drives the conveyor screw 421 to rotate, and the conveyor nut 422 moves in the opposite direction along the conveyor screw 421, so that the feeding pushers 434 reset, so that the feeding pushers 434 can push the next batch of partitions 120.

[0061] Reference Figures 1 to 2 According to some embodiments of this application, the feeding mechanism 200 includes a feeding storage rack 210, limiting protrusions 212, a picking rod 221, a picking nozzle 222, and a picking cylinder 223. The feeding storage rack 210 is located on the top side of the conveyor frame 110. A feeding storage cavity 211 is formed inside the feeding storage rack 210. Multiple limiting protrusions 212 are located inside the feeding storage cavity 211. A discharge opening 213 is formed at the bottom of the feeding storage rack 210, communicating with the feeding storage cavity 211. Below the limiting protrusion 212, the discharge opening 213 faces the top of the conveyor frame 110. A material picking groove 220 is provided inside one side of the conveyor frame 110. The material picking rod 221 is slidably connected to the material picking groove 220. The material picking nozzle 222 is located at one end of the material picking rod 221, so that the material picking rod 221 drives the material picking nozzle 222 to pass through the discharge opening 213 and the feeding storage cavity 211. The material picking nozzle 222 is connected to an external vacuum source through a pipe. The material picking cylinder 223 is located inside the workbench 100. The material picking cylinder 223 drives the material picking rod 221 to rise and fall.

[0062] Understandably, the partition 120 is stored in the feeding storage cavity 211 before discharge. Multiple limiting protrusions 212 limit the edges of the partition 120. However, when feeding is required, the picking cylinder 223 drives the picking rod 221 to rise, thereby causing the picking rod 221 to pass through the discharge opening 213 and the feeding storage cavity 211, so that the picking nozzle 222 approaches the partition 120 in the feeding storage cavity 211. Since the picking nozzle 222 is connected to an external vacuum source through a pipe, the picking nozzle 222 will generate suction on the partition 120, causing the partition 120 to... The material is picked up by the pick-up nozzle 222, and the pick-up cylinder 223 drives the pick-up rod 221 to descend. The partition 120 will pass through the discharge opening 213 under the drive. When it passes the limiting protrusion 212, since the partition 120 is a deformable material (e.g., cardboard), the edge of the partition 120 will deform when it passes the limiting protrusion 212 under the drive of the pick-up nozzle 222, so that the partition 120 can pass through the limiting protrusion 212. Finally, the partition 120 is placed on the conveyor frame 110, and the pick-up nozzle 222 stops generating suction so that the conveying mechanism 400 can convey the partition 120.

[0063] Reference Figures 1 to 5 According to some embodiments of this application, the glue application mechanism 300 includes a glue application bracket 310, a connecting plate 311, a limiting plate 312, a glue application mounting base 320, a glue application nozzle 321, a glue application seat 322, and a glue inlet valve 323. The glue application bracket 310 is disposed on one side of the material storage rack 210. There are multiple connecting plates 311, which are disposed on one side of the glue application bracket 310. There are multiple limiting plates 312, which are respectively disposed on the multiple connecting plates 311. One end of 11 is positioned so that the limiting plate 312 is close to the top of the conveyor frame 110. The glue application mounting base 320 is located on one side of the glue application bracket 310. The glue application seat 322 is located at the bottom of the glue application mounting base 320. The glue application nozzle 321 is located at the bottom of the glue application seat 322 and faces the top of the conveyor frame 110. The glue inlet valve 323 is located on one side of the glue application seat 322 and is connected to the glue application nozzle 321. The glue inlet valve 323 is connected to an external glue supply pipe.

[0064] Understandably, when the partition 120 is discharged onto the conveyor frame 110, the conveying mechanism 400 conveys the partition 120. When it is conveyed to the bottom of the limiting plate 312, since the limiting plate 312 is close to the top of the conveyor frame 110, the partition 120 is flattened under the limiting of the conveying mechanism 400 and the limiting plate 312. Then, after passing under the glue spray nozzle 321, the glue inlet valve 323 is opened, so that the external glue supply pipe supplies glue to the glue spray nozzle 321 to facilitate the application of glue to the partition 120.

[0065] Reference Figures 1 to 13According to some embodiments of this application, the discharge mechanism 600 includes a discharge storage rack 610, a discharge top plate 612, a lifting device 620, a material handling bracket 630, a material handling cylinder 631, a material handling pusher 632, and a material handling connecting groove 640. The discharge storage rack 610 is located on the top of the workbench 100, and is located on the other side of the conveyor frame 110. A discharge storage cavity 611 is formed inside the discharge storage rack 610. The discharge top plate 612 is slidably connected to the interior of the discharge storage cavity 611. The lifting device 620 is located inside the workbench 100 and drives the discharge top plate 612 to rise and fall. One side of the conveyor frame 110... A material feeding connection groove 640 is provided on the side, which connects to the discharge storage cavity 611. A material feeding support 630 is located on the other side of the top of the conveyor frame 110. A material feeding pusher 632 is movably connected to the bottom of the material feeding support 630 and faces the material feeding connection groove 640. A material feeding guide slope 633 is formed on one side of the material feeding pusher 632 and is close to the discharge storage cavity 611. A material feeding cylinder 631 is located on the top of the material feeding support 630 and drives the material feeding pusher 632 to rise and fall.

[0066] Understandably, when the partition 120 with the ribbon 130 attached is conveyed to the discharge storage cavity 611, the lifting device 620 drives the discharge top plate 612 to rise. The discharge top plate 612 will reduce the height of the discharge storage cavity 611, reducing the free fall time of the partition 120 and preventing the partition 120 from deviating significantly from its position when falling into the discharge storage cavity 611. When a large number of partitions 120 are stacked in the discharge storage cavity 611, if the stacked partitions 120... When the material deviates from one side of the conveyor frame 110, the material handling cylinder 631 drives the material handling pusher 632 to descend. Since one side of the material handling pusher 632 is formed with a material handling guide slope 633, the material handling guide slope 633 is close to the discharge storage cavity 611. As the material handling pusher 632 is inserted into the material handling connecting groove 640, the stacked partition 120 is pushed back into the discharge storage cavity 611 by the material handling guide slope 633, thereby preventing the partition 120 from leaving the discharge storage cavity 611.

[0067] The embodiments of this application have been described in detail above with reference to the accompanying drawings. However, this application is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of this application. Furthermore, unless otherwise specified, the embodiments and features described in the embodiments of this application can be combined with each other.

Claims

1. A ribbon laminating machine, characterized in that, include: Workbench; A conveyor frame is located on top of the workbench; A feeding mechanism, located on one side of the top of the conveyor frame, is used to feed the partitions; A conveying mechanism, located at the top of the conveyor frame, is used to convey the partitions; An adhesive application mechanism is located on one side of the feeding mechanism and is used to apply adhesive to the partitions being conveyed by the conveying mechanism. A ribbon output mechanism is located on the top of the workbench and is used to output ribbons and cut the ribbons so that the cut ribbons are pressed onto the glued partition. The unloading mechanism is located on the top of the workbench, near the other side of the conveyor frame, and is used to store the partition with the ribbon attached. The ribbon output mechanism includes an output support frame, a mounting plate, a feeding section, a cutting section, a conveying section, and a pressing section. The output support frame is located on the top of the workbench, and the mounting plate is located on one side of the support frame. The feeding section, the cutting section, the conveying section, and the pressing section are sequentially located on one side of the mounting plate. The feeding section is used to convey the ribbon to the cutting section for cutting. The cutting section outputs the cut ribbon through the conveying section to the pressing section, so that the pressing section presses the ribbon onto the glued partition.

2. The ribbon bonding machine according to claim 1, characterized in that, The feeding section includes a feeding plate, a ribbon unwinding drum, and a guide roller. The feeding plate is located at one end of the mounting plate. The ribbon unwinding drum is rotatably connected to one side of the feeding plate. The guide roller is rotatably connected to one side of the mounting plate. The ribbon is wound and stored in the ribbon unwinding drum. The guide roller is used to wind the ribbon and is in rolling cooperation with the ribbon.

3. The ribbon bonding machine according to claim 2, characterized in that, The cutting section includes a first movable frame, a first limiting cylinder, a first limiting roller, a first conveyor wheel, a first transmission wheel, a first transmission belt, a second transmission wheel, a third transmission wheel, a second transmission belt, a fourth transmission wheel, and a transmission motor. The first conveyor wheel is rotatably connected to one side of the mounting plate and is close to the guide roller. The first conveyor wheel is used to wind the ribbon and transport it. The first and second transmission wheels are rotatably connected to the other side of the mounting plate. The first transmission belt is sleeved on the outside of the first and second transmission wheels, enabling them to drive each other. The first conveyor wheel and the second transmission wheel are coaxially driven. The third and fourth transmission wheels... A second transmission belt is rotatably connected to one side of the mounting plate, and is sleeved on the outside of the third and fourth transmission wheels, so that the third and fourth transmission wheels are connected for transmission. The third transmission wheel is coaxially driven with the first transmission wheel. The transmission motor is located on the other side of the mounting plate, and drives the fourth transmission wheel to rotate. The first movable frame is slidably connected to the other side of the mounting plate. The first limiting cylinder is located on the other side of the mounting plate, and drives the first movable frame to move. One side of the first movable frame approaches the side of the first conveyor wheel. The first limiting roller is rotatably connected to one side of the first movable frame, so that the first limiting roller and the ribbon wound on the first conveyor wheel roll in cooperation.

4. The ribbon bonding machine according to claim 3, characterized in that, The cutting unit includes a cutting limiting cylinder, a cutting fixing frame, a cutting movable frame, a movable frame, a first cutting scissors, a second cutting scissors, and a first transmission seat. The first transmission seat is located on one side of the mounting plate, with one side close to the first conveyor wheel. A first transmission cavity is formed inside the first transmission seat for threading the ribbon. The cutting fixing frame is located on one side of the mounting plate, and the first cutting scissors are located on one side of the cutting fixing frame. The cutting movable frame is slidably connected to the other side of the mounting plate, with one side of the cutting movable frame close to the first cutting scissors. The second cutting scissors are located on one side of the cutting movable frame, with the first and second cutting scissors close to the other side of the first transmission seat. The first and second cutting scissors are separated to form a cutting interval, and one side of the cutting interval communicates with the first transmission cavity. The cutting limiting cylinder is located on the other side of the mounting plate and drives the cutting movable frame to move.

5. The ribbon bonding machine according to claim 4, characterized in that, The conveying unit includes a fifth drive wheel, a third drive belt, a sixth drive wheel, a fourth drive belt, a second movable frame, a second limit cylinder, a seventh drive wheel, an eighth drive wheel, a second conveying wheel, a third conveying wheel, a setting frame, a second limit roller, a third limit roller, and a second drive seat. The second conveying wheel is rotatably connected to one side of the mounting plate, and the second conveying wheel is close to the other side of the cutting interval. The second conveying wheel is used to wind the cut ribbon, so that the first conveying wheel conveys the cut ribbon. The second drive seat is located on one side of the mounting plate, and one side of the second drive seat is close to the... The second conveyor wheel has a second transmission cavity inside the second transmission seat for threading the ribbon. The third conveyor wheel is rotatably connected to one side of the mounting plate and close to the other side of the second transmission seat. The third conveyor wheel is used to wind the cut ribbon and transport it. The second movable frame is slidably connected to the other side of the mounting plate. The second limiting cylinder is located on the other side of the mounting plate and drives the second movable frame to move. The setting frame is located on one side of the second movable frame and close to the second transmission seat, with one end of the setting frame close to the second conveyor wheel and the other end close to the third conveyor wheel. The second limiting roller is rotatably connected to one end of the setting frame, allowing it to roll in cooperation with the ribbon wound on the third conveyor wheel. The third limiting roller is rotatably connected to the other end of the setting frame, allowing it to roll in cooperation with the ribbon wound on the third conveyor wheel. The fifth and sixth transmission wheels are rotatably connected to the other side of the mounting plate. The transmission motor drives the fifth transmission wheel to rotate. The third transmission belt is sleeved on the outside of the fifth and sixth transmission wheels, connecting the fifth and sixth transmission wheels. The sixth transmission wheel is coaxially driven with the second conveyor wheel. The seventh transmission wheel is located on one side of the sixth transmission wheel and is coaxially driven with the sixth transmission wheel. The eighth transmission wheel is rotatably connected to the other side of the mounting plate. The fourth transmission belt is sleeved on the outside of the eighth and seventh transmission wheels, connecting the eighth and seventh transmission wheels. The eighth transmission wheel is coaxially driven with the third conveyor wheel.

6. The ribbon bonding machine according to claim 5, characterized in that, The pressing part includes a third transmission seat, a pressing cylinder, and a pressing block. The third transmission seat is located on one side of the mounting plate, and one side of the third transmission seat is close to the third conveying wheel. The third transmission seat has a third transmission cavity inside, which is used for threading the cut ribbon. The pressing cylinder is located on one side of the mounting plate, and the pressing block is located at the piston rod end of the pressing cylinder. The pressing block is close to the other side of the third transmission seat, and the bottom of the pressing block faces the partition conveyed by the conveying mechanism.

7. The ribbon bonding machine according to claim 6, characterized in that, The conveying mechanism includes a conveying base frame, a conveying screw, a conveying nut, a conveying motor, a movable conveying seat, a lifting conveyor, a lifting cylinder, a connecting arm, and a feeding pusher. The conveying base frame is located inside the conveying frame. The conveying screw is laterally rotatably connected to the inside of the conveying base frame. The conveying nut is sleeved on the outside of the conveying screw. The conveying motor is located on one side of the conveying base frame and drives the conveying screw to rotate. The movable conveying seat is located on one side of the conveying nut. The lifting cylinder is located on one side of the movable conveying seat. The lifting conveyor is located on the... The piston rod end of the lifting cylinder drives the conveying lifting seat to rise and fall. The connecting arm is located on the top of the conveying lifting seat. There are multiple feeding pushers, which are equally spaced on the top of the connecting arm. The feeding pushers are used to push the partition on the top of the conveying frame. A feeding limiting notch is provided on one side of the feeding pusher to accommodate one side of the partition. A conveying chute is provided laterally on the top of the conveying frame so that the multiple feeding pushers can pass through the conveying chute and slide in cooperation with the conveying chute.

8. The ribbon bonding machine according to claim 7, characterized in that, The feeding mechanism includes a feeding storage rack, limiting protrusions, a picking rod, a picking nozzle, and a picking cylinder. The feeding storage rack is located on the top side of the conveyor frame, and a feeding storage cavity is formed inside the feeding storage rack. Multiple limiting protrusions are located inside the feeding storage cavity. A discharge opening is located at the bottom of the feeding storage rack, connecting to the feeding storage cavity. The discharge opening is located below the limiting protrusions and faces the top of the conveyor frame. A picking groove is formed inside one side of the conveyor frame, and the picking rod is slidably connected to the picking groove. The picking nozzle is located at one end of the picking rod, allowing the picking rod to drive the picking nozzle through the discharge opening and the feeding storage cavity. The picking nozzle is connected to an external vacuum source via a pipe. The picking cylinder is located inside the worktable and drives the picking rod to rise and fall.

9. The ribbon bonding machine according to claim 8, characterized in that, The glue application mechanism includes a glue application bracket, connecting plates, limiting plates, a glue application mounting base, a glue application nozzle, a glue application seat, and a glue inlet valve. The glue application bracket is located on one side of the feeding storage rack. There are multiple connecting plates located on one side of the glue application bracket. There are also multiple limiting plates located at one end of the connecting plates, such that the limiting plates are close to the top of the conveyor frame. The glue application mounting base is located on one side of the glue application bracket and at the bottom of the glue application mounting base. The glue application nozzle is located at the bottom of the glue application seat and faces the top of the conveyor frame. The glue inlet valve is located on one side of the glue application seat and is connected to the glue application nozzle. The glue inlet valve is connected to an external glue supply pipe.

10. The ribbon bonding machine according to claim 9, characterized in that, The discharge mechanism includes a discharge storage rack, a discharge top plate, a lifting device, a material handling bracket, a material handling cylinder, a material handling pusher, and a material handling connecting groove. The discharge storage rack is located on the top of the workbench, near the other side of the conveyor frame. A discharge storage cavity is formed inside the discharge storage rack. The discharge top plate is slidably connected to the interior of the discharge storage cavity. The lifting device is located inside the workbench and drives the discharge top plate to rise and fall. A material handling connecting groove is formed on one side of the conveyor frame, communicating with the discharge storage cavity. The material handling bracket is located on the other side of the top of the conveyor frame. The material handling pusher is movably connected to the bottom of the material handling bracket, facing the material handling connecting groove. A material handling guide slope is formed on one side of the material handling pusher, near the discharge storage cavity. The material handling cylinder is located on the top of the material handling bracket and drives the material handling pusher to rise and fall.