Page collection association code equipment
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU QINGJING INFORMATION TECH CO LTD
- Filing Date
- 2025-08-28
- Publication Date
- 2026-06-26
Smart Images

Figure CN224408733U_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of information processing equipment for packaging products, specifically to a pagination, coding, data collection, and association device for packaging bags or boxes. This device can perform a series of integrated operations, including material feeding, pagination, QR code collection, laser coding, rejection and recycling of defective products, and collection of qualified products, all completed by a single person. It is suitable for information management and traceability of packaging products in various industries such as food, pharmaceuticals, and daily necessities. Background Technology
[0002] In modern industrial production, packaging products such as bags and boxes typically require information collection, such as scanning QR codes to obtain product information and coding, such as adding production dates and batch numbers, to achieve product traceability and management. Currently, the equipment commonly used in the market often requires two independent sets of equipment to complete product information collection and coding. First, a collection and rejection device collects product information and rejects unqualified products (such as those with unreadable QR codes). Then, qualified products are transported to another coding device for coding, which can be completed by a single person, unlike traditional equipment that requires one person to feed materials and another to collect them. This method of using two sets of equipment has obvious drawbacks: on the one hand, the equipment purchase cost is high, increasing the company's production costs; on the other hand, the operation process is cumbersome, requiring material transfer and connection between the two sets of equipment, which not only increases manpower but may also affect production efficiency and product quality due to errors in the transfer process. At the same time, the two sets of equipment occupy a large area, which is inconvenient for companies with limited production space. Therefore, it is necessary to develop a device that integrates functions such as pagination, data collection, associated coding, and rejection / recycling to solve the problems of high cost and cumbersome operation in existing technologies, thereby improving production efficiency and reducing costs. Utility Model Content
[0003] The purpose of this invention is to overcome the shortcomings of existing technologies and provide a device for continuous material paging, QR code acquisition and detection, laser marking, and defective product rejection and recycling.
[0004] To achieve the above objectives, this utility model adopts the following technical solution: a pagination acquisition and coding device, including a feeding platform, which comprises a baffle, a feeding belt, long plates, and belt baffles. The feeding belt is installed on mounting profiles on both sides, and the baffles are installed on the mounting profiles to cover the feeding belt. Three long plates are laid on the feeding belt, and a belt baffle is located at the front end of the feeding belt. The device also includes a pagination mechanism installed at the rear end of the feeding belt. The pagination mechanism comprises a pagination base plate, a pagination baffle, a pagination horizontal plate, pressure strips, a pagination adjusting block, a pagination vertical plate, and pagination wheels. The pagination base plate is installed on the mounting profile, and the pagination vertical plates are vertically installed on both sides of the rear end of the pagination base plate. The pagination horizontal plate is vertically fitted to two pagination vertical plates on both sides, and the two pressure strips are vertically fitted to the two pagination vertical plates on both sides. A strip is attached to the page splitter plate, a page splitter adjustment block is attached to the page splitter plate, two page splitter baffles are attached to the page splitter plate on one side and to the page splitter base plate on the other side, and the page splitter wheels are placed below the page splitter base plate, with both sides of the page splitter wheels vertically attached to the mounting profiles on both sides; a support bracket is installed below the feeding belt and the page splitter mechanism, including four support frames A vertically attached to both sides of the profiles, with support frames B installed in pairs parallel to each other and attached to the inner side of each support frame A, and support frames C vertically attached to support frames A; feet and casters are fixed below the bracket, with four sets of caster feet corresponding to and attached to one side of support frame A; a cabinet is located below the feeding belt and is placed on a support frame below the bracket; roller mounting is included. The roller mounting plates are respectively installed near the paging mechanism end and the flipping rejection and recycling end. The rollers are mounted on the roller mounting plates, and the rollers are vertically attached to the roller mounting plates. A perforated belt is installed on the rollers, parallel to the feeding belt, with its inner arc surfaces on both sides abutting the arc surfaces of the rollers. A dark box is installed on the mounting profile, and the dark box is vertically attached to the mounting profile. An industrial control platform is placed in front of the dark box, positioned on the ground in front of the production line. A laser marking machine is placed to the right rear of the dark box, positioned on the ground. The laser marking machine includes a laser, a control panel, a laser machine mounting bracket, a switch controller, and water cooling. The laser is mounted on a laser machine mounting bracket, and its vertical and horizontal positions can be adjusted according to the laser machine mounting bracket. The control panel is mounted on the laser machine bracket. The switch controller and the water cooling box are placed on both sides of the laser machine bracket. Four sets of casters with foot cups are installed at the bottom of the laser machine bracket. A motor cover is installed at the end of the mounting profile, and the open side of the motor cover is attached to the mounting profile. A flipping rejection and recycling mechanism is installed at the end of the mounting profile. The flipping rejection and recycling mechanism includes a flipping shaft mounting plate, a flip cover, a flipping shaft, and a recycling box. The flipping shaft mounting plate is attached to both sides of the mounting profile. Both ends of the flipping shaft are mounted on the flipping shaft mounting plate. The flip cover is mounted on the flipping shaft. The recycling box is installed on both sides of the small profile.The system includes a receiving platform, which comprises a small profile, a hopper, an adjusting plate, and a positioning plate. The small profile is vertically attached to one side of the mounting profile. The hopper is attached to the small profile at both ends. One side of the adjusting plate is attached to the hopper, and one side of the positioning plate is attached to the hopper.
[0005] The technical advantages of the above-mentioned further solution are as follows: Stacked products are placed in batches on the feeding platform. The stacked products are then transported to the paging mechanism, which pushes the stacked products out one by one from bottom to top. Information is collected from the products as they pass through the dark box, and the data is fed back to the industrial control platform. The industrial control platform analyzes and processes the information to determine if the products are qualified. Defective products are rejected by the flipping and rejection recycling mechanism. Products collected by the dark box are then processed by a laser marking machine. Finally, qualified products fall onto the receiving table. During this process, all equipment undergoes preliminary adjustment and testing. Once the testing and adjustment are complete, the equipment is ready for operation. Only one worker is needed to place the stacked products to be collected and marked on the feeding platform and the receiving table. During operation, no manual operation or parameter adjustment is required for other processes. The continuous feeding and receiving process can be completed by a single worker, thus reducing labor costs and improving work efficiency.
[0006] The technical advantages of adopting the above-mentioned further solution are: by adjusting the paging baffle of the paging mechanism, the appropriate product width can be adjusted; by adjusting the laser machine mounting bracket and the focal length of the laser lens, the appropriate coding position can be adjusted. The operation is convenient, and the working group personnel can adjust the appropriate position according to different products.
[0007] In one preferred embodiment, the paginated data collection and coding device collects and codes out product information in one go, and the operation is completed by a single person.
[0008] Compared with the prior art, the advantages and positive effects of the present utility model are as follows: In the present utility model, for flat products such as packaging bags or packaging boxes that require two-dimensional code collection and information coding, the two operations on the products can be completed in one-time process, and it is only necessary to reject unqualified products once, and only one worker is required for material feeding and discharging. By placing the stacked products on the continuous feeding platform, the continuous feeding platform conveys the stacked products to the paging mechanism; the paging mechanism separates the stacked products one by one, and the single product enters the dark box; the product conducts two-dimensional code information collection in the dark box, and the collected information is transmitted to the industrial control platform; the industrial control platform processes the collected two-dimensional code information. If the two-dimensional code information is valid, it is determined that the product is qualified, and the laser coding machine is controlled to perform coding operation on the product; if the two-dimensional code information is invalid, it is judged as a defective product and no coding operation is performed; the products that have been coded or not coded are continuously conveyed to the flipping rejection and recycling mechanism, and the industrial control platform controls the flipping rejection and recycling mechanism to act according to the previous judgment result, and turns the defective products into the recycling box; the qualified products pass smoothly and are conveyed to the receiving table; the receiving table collects the qualified products to complete the entire operation process.
[0009] The present utility model integrates functions such as continuous feeding, paging, collection, coding, rejection and recycling, etc. It does not require the use of two sets of independent equipment, and a single worker can operate independently, greatly reducing the equipment purchase cost, and at the same time reducing the floor area of the equipment; it realizes automated integrated operation, reduces intermediate links such as manual transfer, simplifies the operation process, and improves production efficiency. At the same time, it avoids quality problems caused by manual operation errors; the high-resolution industrial camera and stable light source system in the dark box ensure the accuracy of two-dimensional code collection; the high-precision coding of the laser coder ensures the clarity and reliability of the coded information. The real-time processing and judgment of information by the control system improve the accuracy of the entire information processing process; the parameters of each part of the equipment can be adjusted according to products of different specifications, and it can adapt to the production requirements of various products, with strong versatility and flexibility. Brief Description of the Drawings
[0010] Figure 1 It is a front structural schematic diagram of the paging collection related coding equipment provided by the present utility model;
[0011] Figure 2 It is a back structural schematic diagram of the paging collection related coding equipment provided by the present utility model;
[0012] Figure 3 It is a top structural schematic diagram of the paging collection related coding equipment provided by the present utility model;
[0013] Figure 4 It is a bottom structural schematic diagram of the paging collection related coding equipment provided by the present utility model;
[0014] Legend: 1-Baffle; 2-Continuous feed belt; 3-Long plate; 4-Belt baffle; 5-Support frame A; 6-Support frame B; 7-Foot cup; 8-Cast; 9-Support frame C; 10-Cabinet; 11-Page splitting mechanism; 11.1-Page splitting bottom plate; 11.2-Page splitting baffle; 11.3-Page splitting horizontal plate; 11.4-Page pressing strip; 11.5-Page splitting adjusting block; 11.6-Page splitting vertical plate; 11.7-Page splitting wheel; 12-Mounting profile; 13-Drilling hole Belt; 14-Dark box; 15-Industrial control platform; 16-Laser marking machine; 16.1-Laser; 16.2-Control panel; 16.3-Laser machine mounting bracket; 16.4-Switch control; 16.5-Water cooling box; 17-Motor cover; 18-Flip cover; 19-Tilting shaft mounting plate; 20-Adjusting plate; 21-Positioning plate; 22-Hopper; 23-Small material; 24-Recycling box; 25-Tilting shaft; 26-Roller mounting plate; 27-Roller. Detailed Implementation
[0015] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. Example
[0016] like Figure 1As shown, this utility model provides a technical solution: a pagination acquisition and coding device, comprising a baffle (1), a feeding belt (2), a long plate (3), and a belt baffle (4) forming a feeding platform, the feeding platform being fixed on an installation profile (12); a pagination mechanism (11) is installed at the end of the feeding platform, the pagination mechanism (11) comprising a pagination base plate (11.1), a pagination baffle (11.2), a pagination horizontal plate (11.3), a page pressing strip (11.4), a pagination adjusting block (11.5), a pagination vertical plate (11.6), and a pagination wheel (11.7), and the pagination baffle (11.2) and the pagination adjusting block (11.5) can be adjusted in position according to the product size, the pagination mechanism (11) is installed on the installation profile (12); the feeding platform and the pagination mechanism are fitted together on a bracket; the bracket includes a support frame A (5), a support frame B (6), a foot cup (7), and casters ( 8) and support frame C (9); cabinet (10) is placed on support frame C (9); perforated belt (13) is installed on mounting profile (12); dark box (14) is installed above mounting profile (12); industrial control platform (15) is placed on the ground directly in front of dark box (14); laser marking machine (16) consists of laser (16.1), control panel (16.2), laser machine mounting bracket (16.3), switch control (16.4) and water cooling box (16.5); motor cover (17) is installed at the end of mounting profile (12); flipping rejection and recycling mechanism consists of flip cover (18), flipping shaft mounting plate (19), flipping shaft (25) and recycling box (24), installed at the end of mounting profile (12); receiving platform includes adjustment plate (20), positioning plate (21), hopper (22) and small material (23), installed at the end of mounting profile (12);
[0017] like Figure 2 As shown, a switch control (16.4) and a water cooling box (16.5) are placed on the laser marking machine (16). The laser machine mounting bracket (16.3) is adjusted to adjust the position of the laser (16.1) and the focal length of the laser (16.1) lens is adjusted to control the marking position.
[0018] like Figure 3 As shown, the paging wheel (11.7) on the paging mechanism (11) is mounted on the mounting profile (12), and the paging wheel (11.7) is positioned below the opening of the paging base plate (11.1);
[0019] like Figure 4 As shown, the roller mounting plate (26) is mounted on the mounting profile (12), and the roller (27) is mounted on the roller mounting plate (26).
[0020] This invention features simple installation steps, requires no repeated adjustments, has a compact structure, and is easy to operate, thereby improving production efficiency and reducing production costs.
[0021] Working principle: such as Figure 1 As shown, this utility model, a pagination-based data acquisition and coding device, after initial adjustments, inputs product information data into the industrial control platform and coding information into the laser coding machine. Workers place stacked products onto a feeding platform, which transports them to the pagination mechanism. The pagination mechanism performs pagination, collecting information for each individual product. The data is fed back to the industrial control platform, which then transmits the information to the laser coding machine and the flipping rejection and recycling mechanism. Qualified products are coded by the laser coding machine. Defective products are flipped into a recycling bin by the flipping rejection and recycling mechanism. Qualified products, after coding, fall onto the receiving table after passing through the flipping rejection and recycling mechanism. Workers retrieve the products from the receiving table, completing the entire process. No equipment parameters need adjustment during this process. When changing to different products, new parameters are input into the industrial control platform and the laser coding machine control panel, and the pagination baffle position of the pagination mechanism is adjusted. This can be completed independently by one person, reducing the need for one person to feed materials and another to collect materials, as required by traditional equipment.
[0022] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. A pagination data collection and associated coding device, characterized in that, The system includes a feeding platform, a paging mechanism, a support frame, a dark box, a laser marking machine, a flipping rejection and recycling mechanism, a receiving table, and an industrial control platform. The feeding platform is used to place stacked products and convey them to the paging mechanism. It includes baffles, a feeding belt, long plates, and belt baffles. The feeding belt is installed on mounting profiles on both sides, and the baffles are installed on the mounting profiles and cover the feeding belt. Three long plates are laid on the feeding belt, and a belt baffle is provided at the front end of the feeding belt. The paging mechanism is installed at the rear end of the feeding belt and is used to separate the stacked products one by one. It includes a paging base plate, a paging baffle, a paging cross plate, a page pressing strip, and a paging adjustment block. The page splitter vertical plate and page splitter wheel are mounted on the mounting profile. The page splitter vertical plate is vertically mounted on both sides of the rear end of the page splitter bottom plate. The page splitter horizontal plate is vertically attached to both sides of the two page splitter vertical plates. Two page pressing strips are attached to the page splitter horizontal plate. The page splitter adjustment block is attached to the page splitter horizontal plate. Two page splitter baffles are attached to the page splitter horizontal plate on one side and to the page splitter bottom plate on the other side. The page splitter wheel is placed below the page splitter bottom plate and is vertically attached to both sides of the mounting profile. The bracket is installed below the feeding belt and the page splitter mechanism to provide support. It includes four support frames A, B and C. The four support frames A are vertically attached to both sides of the mounting profile and are parallel to each other. Support frame B is attached to the inside of support frame A. Support frame C is vertically attached to support frame A. Above; four sets of feet and casters are fixed below the bracket and are correspondingly fitted to one side of the support frame A; a cabinet is provided below the feeding conveyor belt, which is placed on the support frame C of the bracket; roller mounting plates are fitted to the mounting profile, and the roller mounting plates are respectively installed near the paging mechanism end and the flipping rejection and recycling end. Rollers are vertically fitted to the roller mounting plates, and perforated belts are installed on the rollers. The perforated belts are parallel to the feeding conveyor belts, and the inner arc surfaces on both sides are fitted to the arc surfaces of the rollers; the dark box is vertically fitted to the mounting profile and is used to collect information from the products; the industrial control platform is placed on the ground in front of the dark box and is used to receive the information collected by the dark box and analyze and process it to determine whether the products are qualified; the laser marking machine is placed on the ground to the right rear of the dark box and is used to mark qualified products. The coding operation includes a laser, a control panel, a laser machine mounting bracket, a switch controller, and a water-cooling box. The laser is mounted on the laser machine mounting bracket and its vertical and horizontal positions can be adjusted via the bracket. The control panel is mounted on the laser machine bracket, and the switch controller and water-cooling box are placed on both sides of the laser machine bracket. Four sets of casters are installed at the bottom of the laser machine bracket. A motor cover is installed at the end of the mounting profile, with one open side of the motor cover fitting snugly against the mounting profile. A flipping rejection and recycling mechanism is installed at the end of the mounting profile for rejecting and recycling defective products. It includes a flipping shaft mounting plate, a flip cover, a flipping shaft, and a recycling box. The flipping shaft mounting plate is fitted snugly against both sides of the mounting profile, both ends of the flipping shaft are mounted on the flipping shaft mounting plate, the flip cover is mounted on the flipping shaft, and the recycling box is installed on both sides of the small profile.The receiving platform is used to collect qualified products. It includes small profiles, a hopper, an adjusting plate, and a positioning plate. The small profiles are vertically attached to one side of the mounting profile. The hopper is attached to the small profiles at both ends. One side of the adjusting plate is attached to the hopper, and one side of the positioning plate is attached to the hopper. This equipment can complete information collection, coding, and rejection of defective products in one operation. A single person can complete all processes of feeding, testing, coding, and receiving.
2. The pagination acquisition and associated coding device according to claim 1, characterized in that, The position of the pagination baffle and pagination adjustment block can be adjusted according to the product size.
3. The pagination acquisition and associated coding device according to claim 1, characterized in that, The focal length of the laser lens is adjustable to control the marking position.
4. The pagination acquisition and associated coding device according to claim 1, characterized in that, The adjustment plate of the receiving platform can be adjusted to its position on the hopper according to the product specifications.
5. The pagination acquisition and associated coding device according to claim 1, characterized in that, The darkroom is equipped with a high-resolution industrial camera and a stable light source system.
6. The pagination acquisition and associated coding device according to claim 1, characterized in that, The height of the support can be adjusted using the foot cup.
7. The pagination acquisition and associated coding device according to claim 1, characterized in that, The running speed of the perforated belt is matched with the running speed of the feed belt.
8. The pagination acquisition and associated coding device according to claim 1, characterized in that, The industrial control platform can store parameter information for different products, and the corresponding parameters can be directly called when changing products.