A light-based work reporting system structure
By flexibly adjusting the positions of the operation screen and the barcode scanner, the problem of inaccurate barcode scanning by the existing work reporting device in different production line scenarios has been solved, improving both operational convenience and barcode scanning accuracy, ensuring the timeliness and accuracy of production data, and improving production management efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NANTONG SHULIANBANG TECHNOLOGY CO LTD
- Filing Date
- 2025-05-14
- Publication Date
- 2026-06-30
AI Technical Summary
The existing barcode scanners for reporting work are fixed in position, making it difficult to adapt to the diverse needs of product size and material height in different production line scenarios. This results in inaccurate and unstable barcode scanning, affecting the timeliness and accuracy of production data collection.
A light-activated work signaling system structure was designed. Through movable components and adjustable fixing screws, the operation panel, button alarm, and barcode scanner can be flexibly adjusted to accommodate different heights and operating habits. The height of the barcode scanner can be adjusted by fixing screws and adjusting nuts to ensure that the barcode scanner is in the optimal working position.
It improves the convenience and efficiency of operation, enhances the accuracy and stability of barcode scanning, reduces operator fatigue and labor costs, ensures the timeliness and accuracy of production data, and optimizes production management efficiency.
Smart Images

Figure CN224437025U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of light-based work reporting equipment, specifically relating to a light-based work reporting system structure. Background Technology
[0002] As the manufacturing industry accelerates its digitalization and intelligentization, lean production concepts are being widely applied across various production departments. Enterprises are placing higher demands on the timeliness and accuracy of data management, task allocation, personnel scheduling, and anomaly handling in the production process. Under this trend, production departments need an efficient system that can not only handle cloud-based data storage, capacity saturation calculation, and task distribution, but also facilitate personnel in assigning roles and tasks, and accurately track production quantities and cycle times. Simultaneously, it needs to provide efficient reporting and handling channels in case of emergencies, thereby ensuring the orderly operation of production activities and improving overall production efficiency and management level.
[0003] In different production line scenarios, product sizes and material heights vary. The existing work reporting devices have fixed barcode scanner positions, which are difficult to adapt to diverse needs. Inaccurate and unstable barcode scanning often occurs, affecting the timeliness and accuracy of production data collection. Utility Model Content
[0004] The purpose of this utility model is to provide a light-based work reporting system structure to solve the problems in the existing work reporting devices in different production line scenarios where product sizes and material heights vary. The fixed position of the barcode scanner makes it difficult to adapt to diverse needs, and inaccurate and unstable barcode scanning often occurs, affecting the timeliness and accuracy of production data collection.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a light-based work reporting system structure, including a client host, a switch connected to the client host via a connection cable, a local data storage device for storing local data, and a work reporting device for reporting work by light.
[0006] The alarm device includes: a top plate and an alarm light installed on the upper left side of the top plate;
[0007] The top plate has a lower side plate on the lower left and right sides respectively, an inner side plate on the lower side of the lower side plate, a mounting plate on the lower side of the inner side plate, a fixing plate on one side of the mounting plate, and multiple mounting holes on the inner side of the fixing plate.
[0008] A barcode scanner is installed on the outer side of the lower middle of the top plate, an operation screen is installed on the outer side of the lower right side plate, and a button alarm is installed on the outer side of the inner right side plate.
[0009] The button alarm, operation panel, barcode scanner, and alarm light are all powered by an external power source.
[0010] A third movable component is provided at the connection position between the lower side plate and the top plate, a second movable component is provided at the connection position between the lower side plate and the inner side plate, and a first movable component is provided at the connection position between the inner side plate and the mounting plate.
[0011] A fixing screw is provided on the upper middle part of one side of the mounting plate, and an adjusting nut is provided on the upper side of the fixing screw and the lower part of the connection between the top plate and the fixing screw.
[0012] Preferably, the first movable component, the second movable component, and the third movable component each include a pivot and a sleeve bearing, and are movably connected by the pivot and the sleeve bearing to form a hinge shape. The pivot and the sleeve bearing are used to connect the upper and lower end structures, respectively.
[0013] Preferably, the lower side plate rotates on the top plate via a third movable component, the inner side plate rotates on the lower side plate via a second movable component, and the inner side plate rotates on the mounting plate via a first movable component.
[0014] Preferably, the fixing screw is connected to the mounting plate by welding, and the fixing screw passes through the top plate, allowing the top plate to move up and down on the fixing screw.
[0015] Preferably, the adjusting nut is connected to the fixed screw via a threaded connection, and the adjusting nut can move up and down on the fixed screw via the thread.
[0016] Preferably, the fixing plate is connected to the mounting plate by welding, and the fixing plate and the mounting plate form an L-shape.
[0017] Preferably, a mounting base is provided at the connection position between the alarm light and the top plate, multiple control buttons are provided on the outside of the button alarm, and multiple data interfaces are provided on the upper interior of the button alarm.
[0018] Compared with the prior art, this utility model provides a structure for a light-based work reporting system, which has the following features:
[0019] Beneficial effects:
[0020] 1. The lower side panel, inner side panel, and top panel can be rotated via the first, second, and third movable components, allowing for flexible adjustment of the operating panel and button alarm positions. Operators of different heights and habits can adjust to a comfortable and convenient operating angle according to their needs, reducing operator fatigue and improving operational efficiency. Even in production areas with limited space, the device's form can be flexibly changed to adapt to complex working environments, avoiding errors and wasted time due to operational inconvenience.
[0021] 2. By using a fixing screw and adjusting nut, the height of the top plate can be precisely adjusted, changing the distance between the barcode scanner and the production line. In production lines producing products of different sizes and with material flow at varying heights, this ensures the barcode scanner is in the optimal working position, improving scanning accuracy and stability. This avoids scanning failures and data errors caused by improper scanning distance, reduces manual re-operation costs, and ensures the timeliness and accuracy of production data collection.
[0022] In addition, the optimized work reporting device integrates multiple functions. The operation screen allows personnel to easily input production data and receive tasks, while the barcode scanner automatically collects product information, transmitting the data to the client host in real time. Managers can obtain accurate production data promptly, monitor production progress, and calculate output, facilitating production scheduling and resource allocation. The button alarm, working in conjunction with alarm lights, quickly notifies relevant personnel of any abnormal situations, reducing production downtime, ensuring smooth production processes, and improving overall production management efficiency. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the system structure and flow of this utility model.
[0024] Figure 2 This is a schematic diagram of the reporting device in this utility model.
[0025] Figure 3 This is a structural schematic diagram of the reporting device in this utility model when it is tilted down.
[0026] Figure 4 This is a structural diagram showing the connection between the lower side plate and the inner side plate in this utility model.
[0027] Figure 5 In this utility model Figure 2 A structural diagram from a side view.
[0028] In the diagram: 1. Top plate; 2. Lower side plate; 3. Inner side plate; 4. Mounting plate; 5. Alarm light; 6. Mounting base; 7. Fixing screw; 8. Fixing plate; 9. Mounting hole; 10. First movable component; 11. Second movable component; 12. Third movable component; 13. Operation panel; 14. Button alarm; 15. Control button; 16. Adjusting nut; 17. Code scanner; 18. Client host; 19. Switch; 20. Local data storage; 21. Work reporting device. Detailed Implementation
[0029] 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.
[0030] This utility model provides, for example Figure 1-5 The structure of the light-based work reporting system shown includes a client host 18, a switch 19 connected to the client host via a connection cable, a local data storage device 20 for storing local data, and a work reporting device 21 for reporting work by light.
[0031] In this embodiment, the client host 18 serves as the core control hub, establishing a connection with the work reporting device 21 via the switch 19 to achieve data transmission and interaction. The local data storage device 20 is responsible for storing various types of local data generated during system operation, ensuring data security and traceability. The work reporting device 21 undertakes key functions such as data acquisition, task interaction, and abnormal situation alarms on the production site, working collaboratively with the client host 18 to complete various task processes for work reporting based on lights. For example, the production data collected by the work reporting device 21 is transmitted to the client host 18 in real time for analysis and processing, and the client host 18 issues production task instructions to the work reporting device 21 based on the analysis results.
[0032] The alarm device 21 includes: a top plate 1, an alarm light 5 located on the upper left side of the top plate 1, lower side plates 2 located on the lower left and right sides of the top plate 1, an inner side plate 3 located on the lower side of the lower side plate 2, a mounting plate 4 located on the lower side of the inner side plate 3, a fixing plate 8 located on one side of the mounting plate 4, multiple mounting holes 9 located on the inner side of the fixing plate 8, a barcode scanner 17 located on the lower middle of the top plate 1, an operation screen 13 located on the outer side of the right lower side plate 2, and a button alarm located on the outer side of the right inner side plate 3. The machine 14, button alarm machine 14, operation panel 13, barcode scanner 17 and alarm light 5 are powered by connecting to an external power source. A third movable component 12 is provided at the connection position between the lower side plate 2 and the top plate 1. A second movable component 11 is provided at the connection position between the lower side plate 2 and the inner side plate 3. A first movable component 10 is provided at the connection position between the inner side plate 3 and the mounting plate 4. A fixing screw 7 is provided at the upper middle of one side of the mounting plate 4. An adjusting nut 16 is provided on the upper side of the fixing screw 7 and the lower part of the connection between the top plate 1 and the outer side.
[0033] A mounting base 6 is provided at the connection position between the alarm light 5 and the top plate 1. Multiple control buttons 15 are provided on the outside of the button alarm 14, and multiple data interfaces are provided on the upper inside of the button alarm 14.
[0034] Optionally, during production, operators can input production data and receive production tasks through the operation screen 13. In case of emergencies such as sudden personnel discomfort, machine malfunction, material supply problems, or product quality issues, the operator can press the control button 15 on the push-button alarm device 14. At this time, the alarm light 5 illuminates, alerting those nearby. Simultaneously, the push-button alarm device 14 transmits the abnormal information to the client host 18 via its internal data interface for timely problem handling. The barcode scanner 17 is used to scan QR codes and other information on products or materials, enabling automatic collection of production data and transmitting the collected data to the client host 18 for analysis and statistics. For example, during product flow, the barcode scanner 17 quickly and accurately collects product information, providing data support for production progress statistics and quality traceability.
[0035] The first movable component 10, the second movable component 11, and the third movable component 12 each include a rotating shaft and a sleeve bearing, which are movably connected to form a hinge shape. The rotating shaft and the sleeve bearing are used to connect the upper and lower end structures, respectively. The lower side plate 2 rotates on the top plate 1 via the third movable component 12. The inner side plate 3 rotates on the lower side plate 2 via the second movable component 11. The inner side plate 3 rotates on the mounting plate 4 via the first movable component 10. The fixing screw 7 is connected to the mounting plate 4 by welding and passes through the top plate 1. The top plate 1 can move up and down on the fixing screw 7. The adjusting nut 16 is connected to the fixing screw 7 by threaded connection and can move up and down on the fixing screw 7 via the thread. The fixing plate 8 is connected to the mounting plate 4 by welding and the fixing plate 8 and the mounting plate 4 form an L-shape.
[0036] Preferably, the reporting device 21 is designed with high flexibility, enabling the lower side plate 2, inner side plate 3, and top plate 1 to rotate through the first movable component 10, the second movable component 11, and the third movable component 12. These movable components are all composed of a rotating shaft and a sleeve bearing, forming a hinge shape, allowing relative rotation between the various plates. When the operator needs to adjust the operating position of the control panel 13 and the button alarm 14, the third movable component 12 can be used to rotate the lower side plate 2 on the top plate 1, and the second movable component 11 can be used to rotate the inner side plate 3 on the lower side plate 2, thereby adjusting the control panel 13 and the button alarm 14 to a convenient operating position, improving operational convenience and efficiency. For example, operators of different heights can adjust the position of the operating components according to their own needs.
[0037] Furthermore, during the production process, the distance between the barcode scanner 17 and the production line needs to be adjusted to ensure scanning accuracy, depending on the height of different production lines and the characteristics of the products. This can be achieved using a fixing screw 7 and an adjusting nut 16. The fixing screw 7 is welded to the mounting plate 4 and passes through the top plate 1, allowing the top plate 1 to move up and down on the fixing screw 7. The adjusting nut 16 is threadedly connected to the fixing screw 7. When the adjusting nut 16 is rotated, due to the action of the thread, the adjusting nut 16 moves up and down on the fixing screw 7, thereby causing the top plate 1 to rise or fall, achieving precise adjustment of the height of the barcode scanner 17. After adjustment, the adjusting nut 16 can fix the position of the top plate 1. For example, in production lines producing products of different sizes, the barcode scanner spacing can be flexibly adjusted to adapt to different production needs.
[0038] The work reporting device 21 is installed and fixed by a fixing plate 8. The fixing plate 8 and the mounting plate 4 are welded to form an L-shaped structure. Multiple mounting holes 9 on the inner side of the fixing plate 8 can be used to install the work reporting device 21 in a suitable position on the production line, ensuring that the device remains stable during production and does not affect normal production operations and data acquisition. For example, the work reporting device 21 can be firmly installed next to the workbench of the production line for convenient use by operators.
[0039] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A light-based work reporting system structure, comprising a client host (18), a switch (19) connected to the client host via a connection cable, a local data storage device (20) for storing local data, and a work reporting device (21) for reporting work by light; The reporting device (21) includes: Top plate (1), alarm light (5) installed on the upper left side of the top plate (1); The top plate (1) is provided with a lower side plate (2) on the lower left and right sides respectively. The lower side plate (2) is provided with an inner side plate (3) on the lower side. The inner side plate (3) is provided with a mounting plate (4) on the lower side. The mounting plate (4) is provided with a fixing plate (8) on one side below. The fixing plate (8) is provided with multiple mounting holes (9) on the inner side. A barcode scanner (17) is provided on the lower middle of the top plate (1), an operation screen (13) is provided on the outside of the lower side plate (2) on the right side, and a button alarm (14) is provided on the outside of the inner side plate (3) on the right side. The button alarm (14), operation panel (13), barcode scanner (17) and alarm light (5) are powered by connecting to an external power source. The feature is that: a third movable component (12) is provided at the connection position between the lower side plate (2) and the top plate (1), a second movable component (11) is provided at the connection position between the lower side plate (2) and the inner side plate (3), and a first movable component (10) is provided at the connection position between the inner side plate (3) and the mounting plate (4); A fixing screw (7) is provided on the upper middle of one side of the mounting plate (4), and an adjusting nut (16) is provided on the upper side of the fixing screw (7) and the lower part of the connection between the top plate (1).
2. The structure of the light-based work reporting system according to claim 1, characterized in that: The first movable component (10), the second movable component (11), and the third movable component (12) each include a rotating shaft and a sleeve bearing, and are movably connected by the rotating shaft and the sleeve bearing to form a hinge shape. The rotating shaft and the sleeve bearing are used to connect the upper and lower end structures, respectively.
3. The structure of a light-based work signaling system according to claim 2, characterized in that: The lower side plate (2) rotates on the top plate (1) via the third movable component (12), the inner side plate (3) rotates on the lower side plate (2) via the second movable component (11), and the inner side plate (3) rotates on the mounting plate (4) via the first movable component (10).
4. The structure of a light-based work signaling system according to claim 3, characterized in that: The fixing screw (7) is connected to the mounting plate (4) by welding, and the fixing screw (7) passes through the top plate (1), and the top plate (1) can move up and down on the fixing screw (7).
5. The structure of a light-based work reporting system according to claim 4, characterized in that: The adjusting nut (16) is connected to the fixed screw (7) by a threaded connection, and the adjusting nut (16) can move up and down on the fixed screw (7) by the thread.
6. The structure of a light-based work reporting system according to claim 5, characterized in that: The fixing plate (8) is connected to the mounting plate (4) by welding, and the fixing plate (8) and the mounting plate (4) form an L-shape.
7. The structure of a light-based work signaling system according to claim 1, characterized in that: A mounting base (6) is provided at the connection position between the alarm light (5) and the top plate (1). Multiple control buttons (15) are provided on the outside of the button alarm machine (14), and multiple data interfaces are provided on the upper inside of the button alarm machine (14).