Full-automatic second pasting box machine
The fully automatic box-packing machine design enables automated bonding and assembly of blister boxes and tempered glass screen protectors, solving the problem of poor production efficiency in the dust removal chamber for mobile phone screen protectors and improving automation and production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN QADE BIRD INTELLIGENT EQUIPMENT CO LTD
- Filing Date
- 2025-09-03
- Publication Date
- 2026-06-26
AI Technical Summary
The existing mobile phone screen protector dust removal chambers have a low level of automation, resulting in unstable production efficiency and inconsistent production capacity.
The fully automatic carton-packing machine includes a worktable, a turntable, a conveyor assembly, and a pull strip assembly. The conveyor assembly enables automatic bonding and assembly of the blister box and tempered glass film, while the pull strip assembly automates the insertion of the tempered glass film pull strip into the blister box slot, thus automating the assembly of the dust removal chamber.
It improved the assembly efficiency of the dust collection bin, enhanced the automation level of the production process, and solved the problems of unstable production efficiency and inconsistent production capacity.
Smart Images

Figure CN224409819U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of film application tool manufacturing, and in particular to a fully automatic instant film application and boxing machine. Background Technology
[0002] A screen protector dust removal chamber (also known as a screen protector dust box, screen protector application tool, or dust-free chamber) is an auxiliary tool designed to address the core pain point of dust particle interference during the screen protector application process. Its goal is to create a relatively clean local environment, significantly reducing the probability of dust settling between the screen and the screen protector, thereby improving the success rate of application (especially for novice users) and the final product's perfection (reducing bubbles, white edges, and foreign objects).
[0003] The existing production methods for mobile phone screen protector dust removal chambers are not highly automated and involve many manual processes, which leads to unstable production efficiency and inconsistent production capacity, resulting in poor production efficiency. Summary of the Invention
[0004] To improve the production efficiency of the dust removal chamber for mobile phone screen protectors, this application provides a fully automatic instant screen protector application and boxing machine.
[0005] The fully automatic instant labeling and cartoning machine provided in this application adopts the following technical solution:
[0006] A fully automatic instant labeling and cartoning machine includes a worktable, a work turntable, multiple conveying components and at least one set of pull strip components. The work turntable is disposed on the worktable and is rotatable. The work turntable has multiple placement slots for placing dust collection bins.
[0007] Each of the conveying components is disposed on a workbench. At least one of the conveying components can feed the blister box into the placement slot, at least one of the conveying components can feed the tempered film into the placement slot, and make the tempered film adhere to the blister box located in the placement slot. At least one of the conveying components can unload the dust removal bin that has been applied from the placement slot.
[0008] The pull strip assembly is set on the workbench. The pull strip assembly includes an adsorption component and an air blowing component. The adsorption component can adsorb and pull up the pull strip of the tempered glass film, and the air blowing component can blow the adsorbed and pulled up pull strip of the tempered glass film to the slot of the blister box.
[0009] By adopting the above technical solution, when the mobile phone screen protector dust removal chamber is in production, at least one conveying component loads the blister box into the placement slot, so that the blister box rotates with the work turntable to the next processing station. At least one conveying component loads the tempered glass film into the placement slot, and the tempered glass film is bonded and assembled with the blister box, thus completing the bonding and assembly process of the tempered glass film and the blister box. Subsequently, the work turntable conveys the dust removal chamber that has completed the bonding and assembly process to the pull strip component, so that the adsorption component adsorbs and pulls up the pull strip of the tempered glass film. Then, the adsorption component releases the adsorption and fixation of the pull strip of the tempered glass film. This allows the tempered glass screen protector's pull strip to be guided into the slot of the blister pack by the airflow blown from top to bottom by the air blowing component, thus completing the assembly of the dust removal chamber. Finally, at least one conveying component unloads the assembled dust removal chamber, thereby achieving the assembly of the dust removal chamber. This improves the assembly efficiency of the dust removal chamber and addresses the problems of low automation, numerous manual steps, unstable production efficiency, and inconsistent production capacity in the current production method of mobile phone screen protector dust removal chambers.
[0010] Optionally, the conveying assembly includes a conveying linear module, a conveying cylinder, and a conveying suction cup. The conveying linear module is fixedly mounted on the worktable, the conveying cylinder is fixedly mounted on the slider of the conveying linear module, and the conveying suction cup is fixedly mounted on the piston rod of the conveying cylinder.
[0011] Optionally, the adsorption component includes an adsorption cylinder and a pull-strip suction cup, wherein the adsorption cylinder is fixedly mounted on the worktable and the pull-strip suction cup is fixedly mounted on the piston rod of the adsorption cylinder.
[0012] Optionally, the blowing component includes a blowing rod with multiple blowing holes. Each blowing hole is evenly distributed along the length of the blowing rod, and each blowing hole can blow out airflow from top to bottom.
[0013] Optionally, the workbench is fixedly provided with a forming platform for forming tempered glass film. The forming platform is fixedly provided with at least two forming rods, and the length directions of the at least two forming rods are perpendicular to each other. When the tempered glass film is conveyed to the forming platform, the two sides of the tempered glass film abut against the at least two forming rods.
[0014] Optionally, the working turntable is provided with multiple material forming components, each of which is located in a placement slot. Each material forming component includes at least two material forming blocks and at least two material forming cylinders. Each material forming block is slidably fitted into the placement slot, and the sliding directions of at least two material forming blocks are perpendicular to each other. Each material forming cylinder is fixedly mounted on the worktable, and the piston rod of each material forming cylinder is fixedly connected to each material forming block.
[0015] Optionally, the workbench is provided with multiple hopper assemblies, at least one of the hopper assemblies is used to accommodate blister boxes, at least one of the hopper assemblies is used to accommodate tempered glass film, and at least one of the hopper assemblies is used to accommodate a dust removal hopper that has been assembled.
[0016] Optionally, the hopper assembly includes a hopper base, a hopper body, and a hopper cylinder. The hopper base is fixedly mounted on the workbench, and the hopper body is slidably fitted to the hopper base. The hopper body has at least two hopper slots, each of which is used to place materials. Each hopper slot is also slidably fitted with a feeding plate capable of lifting materials. The hopper cylinder is fixedly mounted on the hopper base, and the piston rod of the hopper cylinder is fixedly connected to the hopper body.
[0017] In summary, this application includes at least one of the following beneficial technical effects:
[0018] When the screen protector dust removal chamber is in operation, at least one conveying component loads the blister pack into the placement slot, allowing the blister pack to rotate with the work turntable to the next processing station. At least one conveying component loads the tempered glass screen protector into the placement slot, ensuring the tempered glass screen protector is properly bonded to the blister pack, thus completing the bonding and assembly process. Subsequently, the work turntable transports the dust removal chamber, now bonded and assembled, to the pull strip assembly, where the adsorption component pulls up the tempered glass screen protector's pull strip. Then, the adsorption component releases its hold on the pull strip, allowing the tempered glass screen protector to relax. Under the airflow blown from top to bottom by the air blowing component, the strip of the tempered glass screen protector is guided into the slot of the blister pack, thus completing the assembly of the dust removal chamber. Finally, at least one conveying component unloads the assembled dust removal chamber, thereby realizing the assembly of the dust removal chamber. This improves the assembly efficiency of the dust removal chamber and improves the existing production method of mobile phone screen protector dust removal chambers, which has a low degree of automation, many manual operation steps, and thus leads to unstable production efficiency and inconsistent production capacity, resulting in poor production efficiency of mobile phone screen protector dust removal chambers. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application. Figure 1 ;
[0020] Figure 2 This is a schematic diagram of the overall structure of an embodiment of this application. Figure 2 ;
[0021] Figure 3 This is a schematic diagram of the material handling platform structure according to an embodiment of this application;
[0022] Figure 4 This is a schematic diagram of the overall structure of the silo assembly according to an embodiment of this application;
[0023] Figure 5This is a schematic diagram of the specific structure of the silo component according to an embodiment of this application;
[0024] Figure 6 This is a schematic diagram of the working turntable structure in an embodiment of this application;
[0025] Figure 7 yes Figure 6 Enlarged view of part A;
[0026] Figure 8 This is a schematic diagram of the overall structure of the conveying component in an embodiment of this application. Figure 1 ;
[0027] Figure 9 This is a schematic diagram of the overall structure of the conveying component in an embodiment of this application. Figure 2 ;
[0028] Figure 10 This is a schematic diagram of the specific structure of the conveying component in an embodiment of this application;
[0029] Figure 11 This is a schematic diagram of the pull bar component structure according to an embodiment of this application.
[0030] Explanation of reference numerals in the attached drawings: 1. Workbench; 11. Material balancing table; 111. Material balancing rod; 12. Hopper assembly; 12a. Box body hopper assembly; 12b. Film body hopper assembly; 12c. Discharge hopper assembly; 121. Hopper base; 122. Hopper body; 1221. Hopper trough; 1222. Loading plate; 123. Hopper cylinder; 2. Turntable; 21. Placement slot; 22. Material balancing assembly; 221. Material balancing block; 222. 1. Material gathering cylinder; 3. Conveying assembly; 3a. Box conveying assembly; 3b. Material gathering conveying assembly; 3c. Membrane conveying assembly; 3d. Unloading conveying assembly; 31. Conveying linear module; 32. Conveying cylinder; 33. Conveying suction cup; 4. Pulling strip assembly; 41. Adsorption component; 411. Adsorption cylinder; 412. Pulling strip suction cup; 42. Air blowing component; 421. Air blowing frame; 422. Air blowing rod; 4221. Air blowing hole. Detailed Implementation
[0031] The following is in conjunction with the appendix Figure 1-11 This application will be described in further detail.
[0032] This application discloses a fully automatic cartoning machine that allows for instant labeling and packaging. (Refer to...) Figure 1 and Figure 2 A fully automatic instant labeling and cartoning machine includes a worktable 1, a work turntable 2, four sets of conveyor components 3, and a set of pull strip components 4.
[0033] Reference Figure 3The workbench 1 is fixedly equipped with a sizing table 11 for sizing tempered glass film. The sizing table 11 is fixedly equipped with two sizing rods 111, and the length directions of the two sizing rods 111 are perpendicular to each other. When the tempered glass film is conveyed to the sizing table 11, the two sides of the tempered glass film abut against the two sizing rods 111 to achieve the sizing and positioning of the tempered glass film.
[0034] Reference Figure 4 The workbench 1 is equipped with multiple hopper components 12. One hopper component 12 is used to hold the blister box as the box body hopper component 12a, one hopper component 12 is used to hold the tempered film as the film body hopper component 12b, and one hopper component 12 is used to hold the dust removal hopper after assembly as the unloading hopper component 12c.
[0035] Reference Figure 5 The hopper assembly 12 includes a hopper base 121, a hopper body 122, and a hopper cylinder 123. The hopper base 121 is fixedly mounted on the workbench 1. The hopper body 122 is slidably fitted to the hopper base 121. The hopper body 122 has two hopper slots 1221, each of which is used to place materials. Each hopper slot 1221 is slidably fitted with a feeding plate 1222 that can lift materials. The hopper cylinder 123 is fixedly mounted on the hopper base 121, and the piston rod of the hopper cylinder 123 is fixedly connected to the hopper body 122.
[0036] Reference Figure 6 The work turntable 2 is set on the workbench 1. The work turntable 2 can rotate. The work turntable 2 has four placement slots 21 for placing dust collection bins. Each placement slot 21 is evenly distributed around the axis of the work turntable 2 so that the work turntable 2 has four processing stations.
[0037] Reference Figure 7 The working turntable 2 is equipped with multiple sets of material straightening components 22, each of which is located in a placement slot 21. Each material straightening component 22 includes two material straightening blocks 221 and two material straightening cylinders 222. Each material straightening block 221 slides and engages with the placement slot 21, and the sliding directions of the two material straightening blocks 221 are perpendicular to each other. When the material is in the placement slot 21, the two material straightening blocks 221 push the material on both sides of the vertical direction until the material abuts against both sides of the vertical direction of the placement slot 21, thereby achieving the straightening and positioning of the material in the placement slot 21, thereby improving the assembly accuracy of the dust removal bin and making the assembly quality of the dust removal bin better. Each material straightening cylinder 222 is fixedly installed on the worktable 1, and the piston rod of each material straightening cylinder 222 is fixedly connected to each material straightening block 221.
[0038] Reference Figure 8 and Figure 9Each conveying component 3 is set on the workbench 1. One conveying component 3 can load the blister box from the box body hopper component 12a to the placement slot 21 as a box body conveying component 3a. One conveying component 3 can load the tempered film from the film body hopper component 12b to the material preparation table 11 as a material preparation conveying component 3b. One conveying component 3 can load the tempered film from the material preparation table 11 to the placement slot 21 as a film body conveying component 3c. The film body conveying component 3c can make the tempered film fit with the blister box located in the placement slot 21. One conveying component 3 can unload the dust removal bin that has been applied from the placement slot 21 to the unloading hopper component 12c as an unloading conveying component 3d.
[0039] Reference Figure 10 The conveying assembly 3 includes a conveying linear module 31, a conveying cylinder 32, and a conveying suction cup 33. The conveying linear module 31 is fixedly mounted on the worktable 1, the conveying cylinder 32 is fixedly mounted on the slider of the conveying linear module 31, and the conveying suction cup 33 is fixedly mounted on the piston rod of the conveying cylinder 32.
[0040] Reference Figure 11 The pull strip assembly 4 is disposed on the workbench 1. The pull strip assembly 4 includes an adsorption component 41 and an air blowing component 42. The adsorption component 41 can adsorb and pull up the pull strip of the tempered glass film, and the air blowing component 42 can blow the adsorbed and pulled-up pull strip of the tempered glass film to the slot of the blister box. The adsorption component 41 includes an adsorption cylinder 411 and a pull strip suction cup 412. The adsorption cylinder 411 is fixedly disposed on the workbench 1, and the pull strip suction cup 412 is fixedly disposed on the piston rod of the adsorption cylinder 411. The air blowing component 42 includes an air blowing component. The air blower 421 is rectangular and is fixedly mounted on the workbench 1. The air blower 422 is fixedly mounted on the air blower 421. The orientation of the air blower 421 along its length can be adjusted so that the air blower 422 is always in a suitable blowing position. The air blower 422 has multiple air holes 4221, which are evenly distributed along the length of the air blower 422. Each air hole 4221 can blow out airflow from top to bottom.
[0041] The implementation principle of a fully automatic instant-apply box-packing machine according to an embodiment of this application is as follows: When the mobile phone screen protector dust removal chamber is in production, at least one conveying component 3 feeds the blister box into the placement slot 21, so that the blister box rotates with the working turntable 2 to the next processing station. At least one conveying component 3 feeds the tempered glass film into the placement slot 21, and the tempered glass film is bonded and assembled with the blister box, thereby completing the bonding and assembly process of the tempered glass film and the blister box. Subsequently, the working turntable 2 conveys the dust removal chamber that has completed the bonding and assembly process to the pull strip component 4, so that the adsorption component 41 adsorbs and pulls up the pull strip of the tempered glass film. Then, the adsorption component 41 releases the pull strip of the tempered glass film. The adhesive fixation of the tempered glass film strip allows it to be guided into the slot of the blister pack by the airflow blown from top to bottom by the air blowing component 42, thus completing the assembly of the dust removal chamber. Finally, at least one conveying component 3 unloads the assembled dust removal chamber, thereby achieving the assembly of the dust removal chamber. This improves the assembly efficiency of the dust removal chamber and addresses the problems of low automation, numerous manual steps, unstable production efficiency, and inconsistent production capacity in the existing mobile phone screen protector dust removal chamber production method, which leads to poor production efficiency.
[0042] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A fully automatic cartoning machine, characterized in that: It includes a workbench (1), a work turntable (2), multiple conveying components (3) and at least one set of pull bar components (4). The work turntable (2) is set on the workbench (1) and can rotate. The work turntable (2) has multiple placement slots (21) for placing dust collection bins. Each of the conveying components (3) is disposed on the workbench (1). At least one of the conveying components (3) can feed the blister box to the placement slot (21). At least one of the conveying components (3) can feed the tempered film to the placement slot (21) and make the tempered film adhere to the blister box located in the placement slot (21). At least one of the conveying components (3) can unload the dust removal chamber that has been applied from the placement slot (21). The pull strip assembly (4) is disposed on the workbench (1). The pull strip assembly (4) includes an adsorption component (41) and an air blowing component (42). The adsorption component (41) can adsorb and pull up the pull strip of the tempered film, and the air blowing component (42) can blow the adsorbed and pulled up pull strip of the tempered film to the slot of the blister box.
2. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The conveying assembly (3) includes a conveying linear module (31), a conveying cylinder (32), and a conveying suction cup (33). The conveying linear module (31) is fixedly mounted on the worktable (1), the conveying cylinder (32) is fixedly mounted on the slider of the conveying linear module (31), and the conveying suction cup (33) is fixedly mounted on the piston rod of the conveying cylinder (32).
3. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The adsorption component (41) includes an adsorption cylinder (411) and a pull-strip suction cup (412). The adsorption cylinder (411) is fixedly mounted on the worktable (1), and the pull-strip suction cup (412) is fixedly mounted on the piston rod of the adsorption cylinder (411).
4. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The blowing component (42) includes a blowing rod (422), which has a plurality of blowing holes (4221). Each blowing hole (4221) is evenly distributed along the length of the blowing rod (422), and each blowing hole (4221) can blow out airflow from top to bottom.
5. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The workbench (1) is fixedly provided with a material preparation table (11) for preparing tempered film. The material preparation table (11) is fixedly provided with at least two material preparation rods (111), and the length directions of the at least two material preparation rods (111) are perpendicular to each other. When the tempered film is conveyed to the material preparation table (11), the two sides of the tempered film abut against the at least two material preparation rods (111).
6. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The working turntable (2) is provided with a plurality of material forming components (22), each of the material forming components (22) being located in the respective placement slots (21). Each material forming component (22) includes at least two material forming blocks (221) and at least two material forming cylinders (222). Each material forming block (221) is slidably fitted into the placement slot (21), and the sliding directions of at least two material forming blocks (221) are perpendicular to each other. Each material forming cylinder (222) is fixedly set on the worktable (1), and the piston rod of each material forming cylinder (222) is fixedly connected to each material forming block (221).
7. The fully automatic instant labeling and cartoning machine according to claim 1, characterized in that: The workbench (1) is provided with a plurality of hopper components (12), at least one of the hopper components (12) is used to accommodate a blister box, at least one of the hopper components (12) is used to accommodate a tempered glass film, and at least one of the hopper components (12) is used to accommodate a dust removal hopper that has been assembled.
8. The fully automatic instant labeling and cartoning machine according to claim 7, characterized in that: The hopper assembly (12) includes a hopper seat (121), a hopper body (122), and a hopper cylinder (123). The hopper seat (121) is fixedly mounted on the workbench (1). The hopper body (122) is slidably fitted to the hopper seat (121). The hopper body (122) has at least two hopper slots (1221). Each hopper slot (1221) is used to place materials, and each hopper slot (1221) is slidably fitted with a feeding plate (1222) capable of lifting materials. The hopper cylinder (123) is fixedly mounted on the hopper seat (121), and the piston rod of the hopper cylinder (123) is fixedly connected to the hopper body (122).