A rotary disc type bonding apparatus

By setting a rotatable disc and multiple limiting frames in the rotary bonding device, the pressing and pasting steps of the workpiece can be completed on the disc, which solves the problem of large space occupation of equipment in traditional production lines and improves production efficiency.

CN224324601UActive Publication Date: 2026-06-05SHENZHEN YUNCHUANG CULTURAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN YUNCHUANG CULTURAL TECH CO LTD
Filing Date
2025-06-17
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional lamination and sticker-applying devices on production lines occupy a large area, resulting in a significant space requirement for the equipment.

Method used

A rotary bonding device is designed, which sets a rotatable disc on the main body of the support, and sets multiple limit frames on the disc. An input component, a feeding component, a pressing component, a sticker component and an output component are arranged circumferentially at intervals along the rotation direction of the disc, so that the pressing and stickering steps of the workpiece are completed on the disc.

Benefits of technology

This reduces the footprint of the equipment, avoids the need for separate pressing and labeling devices, and improves production efficiency.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses a rotary disc type pasting device for reducing equipment occupation area. The application comprises a support body, an input assembly, a feeding assembly, a pressing assembly, a pasting assembly and an output assembly. A rotatable disc is arranged on the support body, a plurality of limiting frames are arranged on the disc, and the limiting frames are used for placing workpieces to be pressed. The input assembly, the feeding assembly, the pressing assembly, the pasting assembly and the output assembly are sequentially and circumferentially spaced on the support body along the rotating direction of the disc, and correspond to different limiting frames on the disc respectively. The pressing assembly is used for pressing operation on the workpieces to be pressed in the limiting frames, and the pasting assembly is used for pasting operation on the workpieces after the pressing operation.
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Description

Technical Field

[0001] This application relates to the field of automated processing equipment, and more particularly to a rotary bonding device. Background Technology

[0002] The manufacturing process of traditional products often involves multiple stages, including the assembly of multiple components and the application of product labels. The assembly of multiple components involves combining disparate parts into a complete product, such as the assembly of various chips, circuit boards, and casings in electronic products. Product labels, on the other hand, are used to convey basic information about the product to consumers and can also showcase the product's brand image and logo.

[0003] In the traditional product manufacturing process, to achieve automation and large-scale production, bonding and labeling devices are typically assembled sequentially on an assembly line. Components or semi-finished products are conveyed along the assembly line. When they enter the working area of ​​the bonding device, the device sequentially completes a series of processes such as positioning and clamping between components, assembling multiple parts into a complete product. Subsequently, this complete product continues to move along the assembly line into the working area of ​​the labeling device, located behind the bonding device. The labeling device affixes stickers printed with product information or brand logos to the product surface, completing the entire product manufacturing process.

[0004] However, both lamination and sticker-applying devices require a certain amount of space for installation and operation, including the structural dimensions of the devices themselves, operating space, and safety protection areas, forming a large production line that occupies a large area. Utility Model Content

[0005] To address the aforementioned technical problems, this application provides a rotary bonding device that can reduce the area occupied.

[0006] The technical solution provided in this application is described below:

[0007] This application provides a rotary bonding device, comprising:

[0008] The bracket body, input component, feeding component, pressing component, sticker component, and output component;

[0009] The main body of the support is provided with a rotatable disc, and the disc is provided with multiple limiting frames, which are used to place the workpiece to be pressed.

[0010] The input component, feeding component, pressing component, sticker component, and output component are sequentially and circumferentially fixed to the support body along the rotation direction of the disc, and respectively correspond to different limiting frames on the disc. The pressing component is used to press the workpiece to be pressed within the limiting frame, and the sticker component is used to apply stickers to the workpiece after the pressing operation is completed.

[0011] Optionally, the rotary bonding device further includes a calibration component connected to the disc, which is used to adjust the position of the workpiece to be pressed within the limiting frame;

[0012] The calibration assembly includes a lifting cylinder, a sliding cylinder, a connecting column, and a right-angle calibration block. The sliding cylinder is connected to the lower surface of the disk via the connecting column. The lifting cylinder is connected to the sliding cylinder, and the right-angle calibration block is connected to the lifting cylinder.

[0013] Optionally, a roller is provided on the side of the right-angle calibration block facing the limiting frame.

[0014] Optionally, the input component includes a pushing platform, a pusher plate, a motor, and a ball screw. The pushing platform is fixed on the main body of the bracket, and the motor and the ball screw are both located below the pushing platform. The motor is connected to the ball screw.

[0015] The push plate is located above the push-in platform, and the push plate extends downward through the push-in platform and is connected to the ball screw.

[0016] Optionally, the feeding assembly includes a feeding rack, a gripper, and a moving frame;

[0017] The feeding rack is located on the side of the support body, the movable frame is located above the feeding rack and connected to the support body, the gripper is located on the movable frame, and the gripper is controlled to move the part to be pressed in the feeding rack to the workpiece to be pressed in the limiting frame.

[0018] Optionally, the feeding assembly further includes an adjustment frame, which is located between the feeding frame and the disc and is connected to the support body;

[0019] The gripper is equipped with a first suction cup and a second suction cup. The first suction cup is used to move the part to be pressed from the feeding rack to the adjusting rack, and the second suction cup is used to move the part to be pressed from the adjusting rack to the limiting frame.

[0020] Optionally, the number of feeding components is two, the two feeding components are arranged adjacent to each other, and the parts to be pressed on the two feeding components are different.

[0021] Optionally, the pressing assembly includes a pressing frame, a pressing cylinder, and a pressing plate. The pressing frame is fixed on the support body, the pressing cylinder is fixed on the pressing frame, and the pressing plate is disposed on the pressing cylinder. The pressing cylinder is used to control the up and down movement of the pressing plate.

[0022] Optionally, the sticker assembly includes a sticker conveying mechanism, a sticker cylinder, an adsorption head, and a cylinder frame. The sticker conveying mechanism is connected to the side of the support body. A first drive module is provided on the cylinder frame. The sticker cylinder is fixed on the first drive module. The adsorption head is fixed on the sticker cylinder. The first drive module and the sticker cylinder cooperate to control the adsorption head to move the sticker on the sticker conveying mechanism onto the product that has been pressed.

[0023] Optionally, the output component includes an output frame and a third suction cup; the output frame is fixed on the support body, a second drive module is provided on the output frame, the third suction cup is fixed on the second drive module, and the second drive module is used to control the movement of the third suction cup.

[0024] As can be seen from the above technical solutions, this application has the following beneficial effects:

[0025] This application features a rotatable disc mounted on a support body, with multiple limiting frames on the disc for placing the workpiece to be pressed. An input component, a feeding component, a pressing component, a labeling component, and an output component are arranged circumferentially at intervals along the disc's rotation direction, each corresponding to a different limiting frame. In use, the workpiece enters the limiting frame of the disc from the input component. The workpiece rotates with the disc, completing the pressing and labeling steps with other components during rotation, ultimately forming the product. The product is then removed from the disc from the output component. Since both pressing and labeling are completed on the disc, there is no need for separate pressing and labeling devices on the production line. This solves the problem of large area occupation caused by separate pressing and labeling devices in existing technologies, thus reducing the equipment's footprint. Attached Figure Description

[0026] Figure 1 This is a schematic diagram of a rotary bonding device according to this application;

[0027] Figure 2 This is another schematic diagram of a rotary bonding device according to this application;

[0028] Figure 3 This is a schematic diagram of the input component in a rotary bonding device according to this application;

[0029] Figure 4 This is a schematic diagram of a calibration component in a rotary bonding device according to this application;

[0030] Figure 5 This is a schematic diagram of the feeding component in a rotary bonding device according to this application;

[0031] Figure 6This is a schematic diagram of a pressing component in a rotary bonding device according to this application;

[0032] Figure 7 This is a schematic diagram of a sticker assembly in a rotary laminating device according to this application;

[0033] Figure 8 This is a schematic diagram of the output component in a rotary bonding device according to this application;

[0034] In the diagram, the components are: bracket body 01, input component 02, feeding component 03, pressing component 04, sticker component 05, output component 06, disc 07, limit frame 08, lifting cylinder 09, sliding cylinder 10, connecting column 11, right angle calibration block 12, pushing platform 13, pushing plate 14, motor 15, ball screw 16, feeding rack 17, gripper 18, moving frame 19, driving component 20, adjusting frame 21, adjusting cylinder 22, pressing frame 23, pressing cylinder 24, pressing plate 25, sticker conveying mechanism 26, sticker cylinder 27, suction head 28, cylinder frame 29, first driving module 30, sticker roll 31, conveyor belt 32, output frame 33, third suction cup 34, and second driving module 35. Detailed Implementation

[0035] In this application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and other terms indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only used to describe the relative positional relationship between the components or parts and do not specifically limit the specific installation orientation of each component or part.

[0036] Furthermore, in addition to indicating location or positional relationship, some of the aforementioned terms may also have other meanings. For example, the term "above" may also be used in some cases to indicate a certain dependency or connection relationship. Those skilled in the art can understand the specific meaning of these terms in this application based on the specific circumstances.

[0037] Furthermore, the terms "installation," "setup," "equipped with," "connection," and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral structure; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium, or an internal connection between two devices, components, or parts. Those skilled in the art can understand the specific meaning of these terms in this application based on the specific circumstances.

[0038] Furthermore, the structures, proportions, sizes, etc., drawn in the accompanying drawings of this application are only used to complement the content disclosed in the specification for those skilled in the art to understand and read, and are not intended to limit the conditions under which this application can be implemented. Therefore, they have no substantial technical significance. Any modification to the structure, change in the proportional relationship, or adjustment of the size, without affecting the effects and purposes that this application can produce, should still fall within the scope of the technical content disclosed in this application.

[0039] The technical solutions of this application will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0040] See Figures 1 to 8 The rotary bonding device provided in this application includes:

[0041] The bracket body 01, input component 02, feeding component 03, pressing component 04, sticker component 05, and output component 06;

[0042] The main body 01 of the support is provided with a rotatable disc 07, and the disc 07 is provided with multiple limiting frames 08, which are used to place the workpiece to be pressed.

[0043] Input component 02, feeding component 03, pressing component 04, sticker component 05 and output component 06 are fixed circumferentially on the support body 01 in sequence along the rotation direction of the disc 07, and correspond to different limit frames 08 on the disc 07 respectively. The pressing component 04 is used to press the workpiece to be pressed in the limit frame 08, and the sticker component 05 is used to apply stickers to the workpiece after the pressing operation is completed.

[0044] The input component 02 is used to feed the workpiece to be pressed on the production line into the limiting frame 08 on the disc 07. There are multiple limiting frames 08 on the disc 07. The position of each limiting frame 08 corresponds to a process position. The process positions are: the process position corresponding to the input component 02, the process position corresponding to the feeding component 03, the process position corresponding to the pressing component 04, the process position corresponding to the sticker component 05, and the process position corresponding to the output component 06. After the workpiece to be pressed completes the process at each process position, the disc 07 rotates, so that the workpiece to be pressed moves to the next process position (to perform the next process).

[0045] One end of the input component 02 is aligned with the production line, and the other end is aligned with the limiting frame 08 on the disc 07. The workpiece to be pressed on the production line enters the limiting frame 08 after passing through the input component 02. The limiting frame 08 is used to limit the position of the workpiece to be pressed, ensuring that the workpiece to be pressed will not shift in position in subsequent processes.

[0046] The bottom of the support body 01 is provided with support feet, and a rotating motor is installed inside the support body 01. The rotating motor is connected to the disc 07, and the disc 07 is rotated by the rotating motor.

[0047] The feeding assembly 03 contains the parts to be pressed (parts that need to be pressed onto the workpiece to be pressed, and the parts to be pressed and the workpiece to be pressed will form a product after assembly). The feeding assembly 03 is used to move the parts to be pressed onto the workpiece to be pressed. Then the workpiece to be pressed and the parts to be pressed move to the bottom of the pressing assembly 04. The pressing assembly 04 presses the parts to be pressed downward, so that the parts to be pressed and the workpiece to be pressed are assembled together. The two can be assembled by means of snap-fit, tight fit, etc.

[0048] After the parts to be pressed and the workpiece to be pressed are pressed together, a product is formed. The product moves to the bottom of the sticker assembly 05, where the sticker assembly 05 applies a sticker to the product. After the sticker is applied, the disc 07 rotates, moving the product to the bottom of the output assembly 06. The output assembly 06 moves the sticker-covered product out of the limiting frame 08. At this time, the limiting frame 08 is empty. As the disc 07 rotates, the empty limiting frame 08 reaches the corresponding position of the input assembly 02. Then, the input assembly 02 places the next workpiece to be pressed into the empty limiting frame 08.

[0049] Understandably, in order to improve pressing efficiency, the limit frame 08 is equipped with at least two working areas, and one working area can hold one workpiece to be pressed.

[0050] This application provides a rotatable disc 07 on the support body 01, with multiple limiting frames 08 on the disc 07. The limiting frames 08 are used to place the workpiece to be pressed. An input component 02, a feeding component 03, a pressing component 04, a sticker component 05, and an output component 06 are arranged circumferentially at intervals along the rotation direction of the disc 07, with each component corresponding to a different limiting frame 08. In use, the workpiece to be pressed enters the limiting frame 08 of the disc 07 from the input component 02. The workpiece rotates with the disc 07, completing the pressing and sticker application steps with other components during the rotation process, ultimately forming the product. The product is removed from the disc 07 from the output component 06. Since the pressing and sticker application steps are completed on the disc 07, there is no need to separately configure the pressing and sticker application devices on the production line. This solves the problem of large area occupation caused by separately assembling the pressing and sticker application devices in the prior art, and this application can reduce the area occupied by the equipment.

[0051] Please continue reading. Figure 4 In an optional embodiment, the rotary bonding device further includes a calibration component connected to the disc 07, which is used to adjust the position of the workpiece to be pressed within the limiting frame 08.

[0052] The calibration assembly includes a lifting cylinder 09, a sliding cylinder 10, a connecting column 11, and a right-angle calibration block 12. The sliding cylinder 10 is connected to the lower surface of the disk 07 via the connecting column 11. The lifting cylinder 09 is connected to the sliding cylinder 10, and the right-angle calibration block 12 is connected to the lifting cylinder 09.

[0053] The calibration component is used to adjust the position of the workpiece to be pressed within the limiting frame 08 and to fix its position. The area of ​​the limiting frame 08 (the area accommodating the workpiece) is larger than the volume of the workpiece. When the input component 02 feeds the workpiece into the limiting frame 08, the workpiece is in a loose state. Therefore, the calibration component fixes the workpiece within the limiting frame 08 to ensure that its position does not shift in subsequent processes. The calibration component releases below the output component 06, releasing the limiting effect on the product.

[0054] Specifically, the calibration assembly consists of a lifting cylinder 09, a sliding cylinder 10, a connecting column 11, and a right-angle calibration block 12. The sliding cylinder 10 is used to control the horizontal movement of the lifting cylinder 09, with the movement direction parallel to the diagonal of the limit frame 08. The lifting cylinder 09 is used to control the vertical movement of the right-angle calibration block 12.

[0055] In practical use, the right-angle calibration block 12 has a tightened state and a loosened state. In the loosened state, the right-angle calibration block 12 is located at the edge of the disc 07 and its height is lower than that of the disc 07. In the tightened state, the right-angle calibration block 12 is located above the disc 07 and abuts against the edge of the workpiece to be pressed. When the workpiece to be pressed enters the limiting frame 08 from the input component 02, the lifting cylinder 09 first moves the right-angle calibration block 12 upward to a position higher than the upper surface of the disc 07. Then, the sliding cylinder 10 controls the lifting cylinder 09 and the right-angle calibration block 12 to move together toward the workpiece to be pressed until the workpiece to be pressed is fixed in the limiting frame 08.

[0056] In this optional embodiment, a roller is provided on the side of the right-angle calibration block 12 facing the limiting frame 08. In this embodiment, the roller faces the workpiece to be pressed and abuts against the workpiece.

[0057] Please continue reading. Figure 3In an optional embodiment, the input component 02 includes a push platform 13, a push plate 14, a motor 15, and a ball screw 16. The push platform 13 is fixed on the bracket body 01. The motor 15 and the ball screw 16 are both located below the push platform 13 and are connected to each other. The push plate 14 is located above the push platform 13 and extends downward through the push platform 13 and is connected to the ball screw 16.

[0058] In this embodiment, the workpiece to be pressed on the production line enters the push-in platform 13. The push plate 14 pushes the workpiece into the limiting frame 08. A soft pad is provided on the side of the push plate 14 facing the workpiece to be pressed, thereby reducing wear on the workpiece. A moving groove is provided on the push-in platform 13, which runs vertically through the push-in platform 13. The ball screw 16 is parallel to the moving groove. The push plate 14 moves along the moving groove, and the moving groove is perpendicular to the push plate 14. The motor 15 drives the ball screw 16 to rotate. The push plate 14 is connected to the ball screw 16. When the ball screw 16 is rotated in a controlled manner, the push plate 14 moves along the moving groove.

[0059] After the pusher plate 14 pushes the workpiece to be pressed into the limiting frame 08, the workpiece to be pressed is fixed in the limiting frame 08 by the calibration component in the aforementioned embodiment.

[0060] Please continue reading. Figure 5 In an optional embodiment, the feeding assembly 03 includes a feeding rack 17, a gripper 18, and a moving frame 19;

[0061] The feeding rack 17 is located on the side of the support body 01, the movable frame 19 is located above the feeding rack 17 and connected to the support body 01, and the gripper 18 is located on the movable frame 19. The gripper 18 is controlled to move the part to be pressed in the feeding rack 17 to the workpiece to be pressed in the limiting frame 08.

[0062] The feeding rack 17 holds the parts to be pressed. The moving frame 19 can control the gripper 18 to move between the feeding rack 17 and the disc 07. When the gripper 18 is above the feeding rack 17, it moves down to grab the parts to be pressed. After grabbing, the moving frame 19 controls the gripper 18 to move above the corresponding limit frame 08 on the disc 07 (the limit frame 08 corresponding to the current position of the feeding component 03). Then the gripper 18 places the parts to be pressed onto the workpiece. The moving frame 19 is equipped with a drive component 20. The gripper 18 is connected to the drive component 20. The drive component 20 is used to control the movement of the gripper 18. The drive component 20 can be a module that combines a cylinder, a motor, and a lead screw.

[0063] Multiple parts to be pressed are placed on the feeding rack 17. A lifting platform is provided in the feeding rack 17. Multiple parts to be pressed are stacked on the lifting platform. After the gripper 18 grabs a part to be pressed from the feeding rack 17 once, the lifting platform rises to a certain height. The height of the rise is the same as the thickness of the part to be pressed.

[0064] The gripper 18 is equipped with a vertical cylinder, the bottom of which is connected to a suction cup. The suction cup grips the part to be pressed by vacuum adsorption.

[0065] In this optional embodiment, the feeding assembly 03 further includes an adjustment frame 21, which is located between the feeding rack 17 and the disc 07 and is connected to the support body 01; the gripper 18 is provided with a first suction cup and a second suction cup, the first suction cup being used to move the part to be pressed from the feeding rack 17 to the adjustment frame 21, and the second suction cup being used to move the part to be pressed from the adjustment frame 21 to the limiting frame 08.

[0066] The upper surface of the adjustment frame 21 is flush with the upper surface of the disc 07. The adjustment frame 21 is located between the feeding assembly 03 and the disc 07. During the feeding process, the part to be pressed is first picked up by the gripper 18 and placed on the adjustment frame 21. After the position is adjusted by the adjustment frame 21, it is picked up by the gripper 18 and placed on the workpiece to be pressed.

[0067] The adjustment frame 21 is provided with an adjustment area, and adjustment cylinders 22 are provided around the adjustment area (two or four adjustment cylinders 22 can be provided in one adjustment area). Adjustment plates are provided on the adjustment cylinders 22. By cooperating with the adjustment plates, the position of the part to be pressed is adjusted to ensure that the part to be pressed can be aligned with the workpiece to be pressed.

[0068] In this embodiment, the gripper 18 is equipped with a first suction cup and a second suction cup. The distance between the first and second suction cups is equal to the distance between the center of the feeding rack 17 and the center of the adjusting frame 21; and the distance between the first and second suction cups is equal to the distance between the center of the adjusting frame 21 and the center of the limiting frame 08 (the limiting frame 08 corresponding to the position of the feeding component 03). In actual use, when the first suction cup is above the feeding rack 17, the second suction cup is above the adjusting frame 21; and when the first suction cup moves the part to be pressed in the feeding rack 17 to the adjusting frame 21, the second suction cup moves the adjusted part to be pressed on the adjusting frame 21 to the workpiece to be pressed. The first and second suction cups operate synchronously.

[0069] In this optional embodiment, there are two feeding components 03, which are arranged adjacent to each other, and the parts to be pressed on the two feeding components 03 are different.

[0070] Some workpieces to be pressed require pressing multiple parts of different specifications to form a complete product. Therefore, two feeding components 03 can be set up. The first part to be pressed is placed through the first feeding component 03, and then the second part to be pressed is placed through the second feeding component 03. In this embodiment, the number of feeding components 03 can also be 3, 4, etc., and is not limited here.

[0071] Please continue reading. Figure 6 In an optional embodiment, the pressing assembly 04 includes a pressing frame 23, a pressing cylinder 24, and a pressing plate 25. The pressing frame 23 is fixed on the support body 01, the pressing cylinder 24 is fixed on the pressing frame 23, and the pressing plate 25 is disposed on the pressing cylinder 24. The pressing cylinder 24 is used to control the pressing plate 25 to move up and down.

[0072] The pressing cylinder 24 is vertically positioned, and the pressing plate 25 is parallel to the horizontal plane. The side of the pressing plate 25 facing the disk 07 can be shaped to match the part to be pressed, thereby increasing the contact area and reducing wear on the part. In addition, a soft protective pad, such as silicone or rubber, can be placed on the side of the pressing plate 25 facing the disk 07 to further protect the part to be pressed.

[0073] Please continue reading. Figure 7 In an optional embodiment, the sticker assembly 05 includes a sticker conveying mechanism 26, a sticker cylinder 27, an adsorption head 28, and a cylinder frame 29. The sticker conveying mechanism is connected to the side of the support body 01. A first drive module 30 is provided on the cylinder frame 29. The sticker cylinder 27 is fixed on the first drive module 30, and the adsorption head 28 is fixed on the sticker cylinder 27. The first drive module 30 and the sticker cylinder 27 cooperate to control the adsorption head 28 to move the sticker on the sticker conveying mechanism 26 to the product that has been pressed.

[0074] The sticker conveying mechanism 26 holds a sticker roll 31 and is equipped with a conveyor belt 32. The sticker roll 31 moves along the conveyor belt 32 toward the disk 07. The suction head 28 can grab (adsorb) the sticker at the end of the conveyor belt 32, and the sticker is released from the sticker roll 31 at the end of the conveyor belt 32.

[0075] The sticker cylinder 27 controls the movement of the adsorption head 28 between the end of the conveyor belt 32 and the product that has been pressed. The adsorption head 28 picks up the sticker by vacuum adsorption.

[0076] The first drive module 30 is horizontally positioned. The first drive module 30 can be connected to the ball screw 16 by means of a motor and a ball screw 16. The motor controls the rotation of the ball screw 16 to control the movement of the adsorption head 28 along the axial direction of the ball screw 16.

[0077] Please continue reading. Figure 8 In an optional embodiment, the output component 06 includes an output frame 33 and a third suction cup 34; the output frame 33 is fixed on the support body 01, a second drive module 35 is provided on the output frame 33, and the third suction cup 34 is fixed on the second drive module 35, the second drive module 35 is used to control the movement of the third suction cup 34.

[0078] In this embodiment, the output component 06 also removes the product from the limiting frame 08 by adsorption and gripping, and places it into the next process or production line.

[0079] The third suction cup 34 uses vacuum adsorption to grip the product; the second drive module 35 can adopt the same structure as the first drive module 30.

[0080] In this embodiment, after the pressing process, the component to be pressed and the workpiece to be pressed form a whole, so the third suction cup 34 can directly adsorb the component to be pressed and remove the product.

Claims

1. A rotary bonding device, characterized in that, include: The bracket body, input component, feeding component, pressing component, sticker component, and output component; The main body of the support is provided with a rotatable disc, and the disc is provided with multiple limiting frames, which are used to place the workpiece to be pressed. The input component, feeding component, pressing component, sticker component, and output component are sequentially and circumferentially fixed to the support body along the rotation direction of the disc, and respectively correspond to different limiting frames on the disc. The pressing component is used to press the workpiece to be pressed within the limiting frame, and the sticker component is used to apply stickers to the workpiece after the pressing operation is completed.

2. The rotary bonding device according to claim 1, characterized in that, The rotary bonding device also includes a calibration component, which is connected to the rotary disc and is used to adjust the position of the workpiece to be pressed within the limiting frame. The calibration assembly includes a lifting cylinder, a sliding cylinder, a connecting column, and a right-angle calibration block. The sliding cylinder is connected to the lower surface of the disk via the connecting column. The lifting cylinder is connected to the sliding cylinder, and the right-angle calibration block is connected to the lifting cylinder.

3. The rotary bonding device according to claim 2, characterized in that, The right-angle calibration block has a roller on the side facing the limiting frame.

4. The rotary bonding device according to any one of claims 1 to 3, characterized in that, The input component includes a push platform, a push plate, a motor, and a ball screw. The push platform is fixed on the main body of the bracket. The motor and the ball screw are both located below the push platform, and the motor is connected to the ball screw. The push plate is located above the push platform, and the push plate extends downward through the push platform and is connected to the ball screw.

5. The rotary bonding device according to any one of claims 1 to 3, characterized in that, The feeding assembly includes a feeding rack, a gripper, and a moving frame; The feeding rack is located on the side of the support body, the movable frame is located above the feeding rack and connected to the support body, the gripper is located on the movable frame, and the gripper is controlled to move the part to be pressed in the feeding rack to the workpiece to be pressed in the limiting frame.

6. The rotary bonding device according to claim 5, characterized in that, The feeding assembly also includes an adjustment frame, which is located between the feeding frame and the disc and is connected to the support body. The gripper is equipped with a first suction cup and a second suction cup. The first suction cup is used to move the part to be pressed from the feeding rack to the adjusting rack, and the second suction cup is used to move the part to be pressed from the adjusting rack to the limiting frame.

7. The rotary bonding device according to claim 5, characterized in that, The number of feeding components is 2, the two feeding components are arranged adjacent to each other, and the parts to be pressed on the two feeding components are different.

8. The rotary bonding device according to any one of claims 1 to 3, characterized in that, The pressing assembly includes a pressing frame, a pressing cylinder, and a pressing plate. The pressing frame is fixed on the support body, the pressing cylinder is fixed on the pressing frame, and the pressing plate is disposed on the pressing cylinder. The pressing cylinder is used to control the up and down movement of the pressing plate.

9. The rotary bonding device according to any one of claims 1 to 3, characterized in that, The sticker assembly includes a sticker conveying mechanism, a sticker cylinder, an adsorption head, and a cylinder frame. The sticker conveying mechanism is connected to the side of the support body. A first drive module is provided on the cylinder frame. The sticker cylinder is fixed on the first drive module. The adsorption head is fixed on the sticker cylinder. The first drive module and the sticker cylinder cooperate to control the adsorption head to move the sticker on the sticker conveying mechanism onto the product that has been pressed.

10. The rotary bonding device according to any one of claims 1 to 3, characterized in that, The output component includes an output frame and a third suction cup; the output frame is fixed on the support body, a second drive module is provided on the output frame, the third suction cup is fixed on the second drive module, and the second drive module is used to control the movement of the third suction cup.