Automatic code scanning and AI identification weighing device

By introducing a combination of a drive motor and a cleaning sponge into the automatic barcode scanning and weighing equipment, the problem of dust accumulation on the lens is solved, enabling automatic cleaning and efficient scanning, and reducing manual maintenance costs.

CN224327797UActive Publication Date: 2026-06-05GUANGZHOU WINSON INFORMATION TECH

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU WINSON INFORMATION TECH
Filing Date
2025-07-02
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The lenses of the measuring and reading cameras in existing automatic barcode scanning and weighing equipment are prone to dust accumulation, leading to inaccurate scanning and increasing the cleaning burden on staff.

Method used

An automatic barcode scanning and AI recognition weighing device was designed, which adopts a combination structure of drive motor, lead screw, moving block, protective shell and cleaning sponge. The motor drives the lead screw to move the moving block and protective shell, and the cleaning sponge automatically cleans the lens to prevent dust accumulation.

Benefits of technology

It enables automatic cleaning of lens dust, avoids inaccurate scanning, reduces the frequency of manual cleaning, and improves the reliability and efficiency of equipment use.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to detection equipment field, concretely to a kind of automatic code scanning and AI identification weighing equipment, including shelf main body, support rod and measuring box, support rod is fixedly connected in the upper surface of shelf main body, measuring box is fixedly connected in the upper surface of support rod, the inside of measuring box is installed with multiple code scanning identification cameras, the bottom surface of measuring box is equipped with symmetrical moving groove, the inner wall of moving groove is rotatably connected with screw rod, and one end of screw rod is fixedly connected with driving motor. Compared with prior art, the patent is provided with driving motor, screw rod, moving block, protective shell, cleaning sponge and moving assembly, driving motor drives screw rod to rotate, screw rod drives moving block and protective shell to move, protective shell drives cleaning sponge to clean the lens of code scanning identification camera, which can clean the lens after it is contaminated with dust, avoid affecting use, and moving assembly can disassemble and replace cleaning sponge, improve the technical problem of cleaning effect.
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Description

Technical Field

[0001] This utility model relates to the field of testing equipment, specifically an automatic barcode scanning and AI recognition weighing device. Background Technology

[0002] Automated barcode scanning and weighing equipment is a device that integrates automatic weighing and barcode scanning functions, designed to improve the efficiency and accuracy of parcel handling in e-commerce logistics. This equipment can accurately weigh parcels, ensuring accurate calculation of shipping costs, while simultaneously reading barcodes or QR codes on the parcels in real time and automatically recording parcel information to ensure data accuracy.

[0003] The prior art publication number CN210603526U discloses a static DWS weighing, barcode scanning, and volumetric measurement device. The front upper surface of the frame body has a measuring platform, with an electric roller inside the platform and a conveyor belt outside. The bottom of the measuring platform is connected to a weighing device, which is connected to a controller. The controller is located inside the frame body, and its bottom is connected to a computer host. The rear upper surface of the frame body has a support rod, with a measuring box at the top. The bottom of the measuring box has a volumetric camera, a barcode reader, and a barcode reader light source. The advantages of this invention, achieved by adopting the above technical solution, are: it integrates five functions—automatic photography, automatic barcode scanning, automatic weighing, automatic measurement of length, width, and height, and automatic piece counting—making it easy to operate, reducing labor costs, lowering employee workload, and improving work efficiency. (ESM) A patent application for the same invention was filed on the same day.

[0004] With the above configuration, the existing weighing equipment, by incorporating a measuring platform, a volumetric camera, and a barcode reader, integrates five functions: automatic photo taking, automatic barcode scanning, automatic weighing, automatic measurement of length, width, and height, and automatic piece counting. This facilitates operation, reduces labor costs, lowers employee workload, and improves work efficiency. However, the existing weighing equipment has the following drawbacks during operation:

[0005] The weighing equipment described in the prior art needs to be placed in a warehouse during use. The objects are scanned by a measuring camera and a barcode reader. However, after a long period of use, dust easily accumulates on the lenses of the measuring camera and the barcode reader, which makes it impossible for the camera to scan objects and labels. This results in inaccurate measurement results, so the lens needs to be cleaned by the staff, which increases the workload of the staff and is not conducive to scanning objects. Utility Model Content

[0006] This utility model aims to provide an automatic barcode scanning and AI recognition weighing device, mainly to solve the technical problems of existing measuring cameras and barcode reading cameras, which are prone to dust accumulation on the lenses, requiring staff to clean them regularly, increasing the workload of staff, and also hindering the scanning of objects.

[0007] To solve the above-mentioned technical problems, this utility model provides the following technical solution:

[0008] An automatic barcode scanning and AI recognition weighing device includes a frame body, a support rod, and a measuring box. The support rod is fixed to the upper surface of the frame body, and the measuring box is fixed to the upper surface of the support rod. Multiple barcode scanning cameras are installed inside the measuring box. Symmetrical moving grooves are formed on the bottom surface of the measuring box. A lead screw is rotatably connected to the inner wall of the moving groove. A drive motor is fixed to one end of the lead screw. A moving block is threaded to the outer wall of the lead screw. The moving block is slidably connected to the moving groove. A protective shell is fixed to one side of the moving block. Multiple compression springs are fixed to the inner wall of the protective shell. A mounting plate is fixed to the other end of the compression springs. A cleaning sponge is installed on the upper surface of the mounting plate, and the cleaning sponge abuts against the lens of the barcode scanning camera. A moving component is installed on the bottom surface of the mounting plate.

[0009] The working principle and beneficial effects of this utility model:

[0010] 1. Working principle: When it is necessary to clean the lens of the barcode scanning camera, the drive motor is started first, which drives the lead screw to rotate. The lead screw drives the moving block to move, the moving block drives the protective shell to move, and the protective shell drives the cleaning sponge to clean the lens of the barcode scanning camera.

[0011] 2. Beneficial effects:

[0012] Existing technology integrates five functions—automatic photo taking, automatic barcode scanning, automatic weighing, automatic measurement of length, width, and height, and automatic piece counting—by setting up a measuring platform, a volumetric camera, and a barcode reader. This facilitates operation, reduces labor costs, lowers employee workload, and improves work efficiency. However, existing weighing equipment requires placement in a warehouse for barcode scanning. After prolonged use, dust easily accumulates on the lenses of these cameras, preventing them from scanning objects and labels, leading to inaccurate measurements. This necessitates manual lens cleaning, increasing workload and hindering accurate scanning. This solution addresses this issue by incorporating a drive motor, lead screw, moving block, protective housing, cleaning sponge, and a moving assembly. The drive motor rotates the lead screw, which in turn moves the moving block and protective housing. The protective housing then uses the cleaning sponge to clean the barcode scanning camera lens. This allows for cleaning after dust accumulation, preventing interference with operation. The moving assembly enables the cleaning sponge to be disassembled and replaced, improving cleaning effectiveness.

[0013] Preferably, the movable component includes fixed rods symmetrically fixed to the bottom surface of the mounting plate. One of the fixed rods has a toothed groove on one side. A rotating rod is rotatably connected inside the protective shell. A gear is fixed to one end of the rotating rod that passes through the protective shell, and the gear meshes with the toothed groove. A connecting rod is fixed between the two gears, and a rotating block is fixed to the end of the rotating rod away from the gear. By setting up the movable component, the mounting plate can be moved. When the mounting plate and the cleaning sponge are fully exposed, the cleaning sponge can be replaced, improving the cleaning effect.

[0014] Preferably, a movable groove is formed on one side of the mounting plate. A limit rod is slidably connected to the inner wall of the movable groove, and a limit spring is fixedly connected to the inner wall of the movable groove. The other end of the limit spring is fixedly connected to the limit rod. A limit groove is formed on the inner wall of the protective shell, and a sliding plate is slidably connected to the inner wall of the limit groove. The limit rod is inserted into the limit groove and abuts against the sliding plate. A push rod is fixedly connected to one side of the sliding plate, and the push rod passes through the protective shell and is slidably connected to it. By setting the limit rod and the limit groove, the mounting plate can be fixed, making it more convenient to install and remove the cleaning sponge.

[0015] Preferably, a spring shaft is provided at the opening of the protective shell, and a protective door is fixed to the outer wall of the spring shaft, abutting against the protective shell. By providing a protective door, the protective shell can be protected to prevent dust and particles from entering the interior of the protective shell and to avoid affecting the disassembly and installation of the cleaning sponge.

[0016] Preferably, a T-shaped groove is formed on one side of the mounting plate facing the opening of the protective shell. A T-shaped plate is slidably connected to the inner wall of the T-shaped groove, and a cleaning sponge is fixed to the upper surface of the T-shaped plate. A pull plate is fixed to one side of the T-shaped plate. By pulling the pull plate, the T-shaped plate and the cleaning sponge are disengaged from the T-shaped groove, making it easy to replace the cleaning sponge.

[0017] Preferably, the end of the push rod away from the slide plate is fixedly connected to the push plate. This prevents the push rod from retracting into the movable groove.

[0018] Preferably, the outer wall of the rotating block is fixed with an anti-slip pad to increase the friction between the fingers and the rotating block. Attached Figure Description

[0019] Figure 1 This is a structural diagram of the present utility model patent;

[0020] Figure 2 This is a cross-sectional structural diagram of the present utility model patent;

[0021] Figure 3 This is a bottom view of the protective shell structure of this utility model patent;

[0022] Figure 4 This is a top view of the protective shell structure of this utility model patent;

[0023] Figure 5 This utility model patent Figure 2 Structural diagram at point A in the middle.

[0024] The reference numerals in the accompanying drawings of the instruction manual include: 1. Main body; 2. Support rod; 3. Measuring box; 4. Barcode scanning camera; 5. Moving groove; 6. Lead screw; 7. Moving block; 8. Protective shell; 9. Compression spring; 10. Mounting plate; 11. Cleaning sponge; 12. Fixing rod; 13. Gear groove; 14. Rotating rod; 15. Gear; 16. Connecting rod; 17. Rotating block; 18. Moving groove; 19. Limiting rod; 20. Limiting spring; 21. Limiting groove; 22. Slide plate; 23. Push rod; 24. Spring shaft; 25. Protective door; 26. T-slot; 27. T-plate; 28. Drive motor. Detailed Implementation

[0025] 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.

[0026] like Figure 1-4As shown, an automatic barcode scanning and AI recognition weighing device includes a frame body 1, a support rod 2, and a measuring box 3. The support rod 2 is fixed to the upper surface of the frame body 1, and the measuring box 3 is fixed to the upper surface of the support rod 2. Multiple barcode scanning cameras 4 are installed inside the measuring box 3. Symmetrical moving grooves 5 are formed on the bottom surface of the measuring box 3. A lead screw 6 is rotatably connected to the inner wall of the moving groove 5. A drive motor 28 is fixed to one end of the lead screw 6. A moving block 7 is threadedly connected to the outer wall of the lead screw 6. The moving block 7 is slidably connected to the moving groove 5. A protective shell 8 is fixed to one side of the moving block 7. A spring shaft 24 is provided at the opening of the protective shell 8. A protective door 25 is fixed to the outer wall of the spring shaft 24, abutting against the protective shell 8. Multiple compression springs 9 are fixed to the inner wall of the protective shell 8. A mounting plate 10 is fixed to the other end of each compression spring 9. A cleaning sponge 11 is installed on the upper surface of the mounting plate 10. A T-shaped groove 26 is opened on one side of the mounting plate 10 facing the opening of the protective shell 8. A T-shaped plate 27 is slidably connected to the inner wall of the T-shaped groove 26. The cleaning sponge 11 is fixed to the upper surface of the T-shaped plate 27. A pull plate is fixed to one side of the T-shaped plate 27. The cleaning sponge 11 abuts against the lens of the barcode scanning camera 4. A moving component is installed on the bottom surface of the mounting plate 10. The moving component includes a fixed rod 12. The fixed rod 12 is symmetrically fixed to the bottom surface of the mounting plate 10. A toothed groove 13 is opened on one side of one of the fixed rods 12. A rotating rod 14 is rotatably connected inside the protective shell 8. A gear 15 is fixed to one end of the rotating rod 14 that passes through the protective shell 8. The gear 15 meshes with the toothed groove 13. A connecting rod 16 is fixed between the two gears 15. A rotating block 17 is fixed to the end of the rotating rod 14 away from the gear 15.

[0027] like Figure 2 and Figure 5 As shown, a movable groove 18 is provided on one side of the mounting plate 10. A limit rod 19 is slidably connected to the inner wall of the movable groove 18. A limit spring 20 is fixedly connected to the inner wall of the movable groove 18. The other end of the limit spring 20 is fixedly connected to the limit rod 19. A limit groove 21 is provided on the inner wall of the protective shell 8. A sliding plate 22 is slidably connected to the inner wall of the limit groove 21. The limit rod 19 is inserted into the limit groove 21 and abuts against the sliding plate 22. A push rod 23 is fixedly connected to one side of the sliding plate 22. The push rod 23 passes through the protective shell 8 and is slidably connected to it.

[0028] As can be seen from the above, the specific embodiments of this utility model are as follows:

[0029] When cleaning the lens of the barcode scanning camera 4 is required, first start the drive motor 28, which drives the lead screw 6 to rotate. The lead screw 6 drives the moving block 7 to move, and the moving block 7 drives the protective shell 8 to move. The protective shell 8 drives the cleaning sponge 11 to clean the lens of the barcode scanning camera 4. When the cleaning sponge 11 needs to be replaced, first rotate the rotating block 17, which drives the rotating rod 14 to rotate. The rotating rod 14 drives the gear 15 to rotate, and the gear 15 drives the fixing rod 12 and the mounting plate 10 to move up and down. At this time, when the limiting rod 19 moves to the limiting groove 21, the limiting rod 19 is pushed into the limiting groove 21 by the limiting spring 20 and abuts against the sliding plate 22 to fix the mounting plate 10. Then, move the protective door 25 to open it, and then pull the pull plate to pull out the cleaning sponge 11 to complete the disassembly. By pressing the push rod 23, the cleaning sponge 11 can be installed, which is very convenient.

[0030] The above descriptions are merely embodiments of this utility model, and common knowledge regarding specific structures and characteristics is not elaborated upon here. It should be noted that those skilled in the art can make various modifications and improvements without departing from the structure of this utility model, and these should also be considered within the scope of protection of this utility model. These modifications will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application shall be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.

Claims

1. An automatic barcode scanning and AI recognition weighing device, comprising a frame body (1), a support rod (2), and a measuring box (3), characterized in that, The support rod (2) is fixed to the upper surface of the frame body (1), the measuring box (3) is fixed to the upper surface of the support rod (2), the measuring box (3) is equipped with multiple barcode scanning cameras (4), the bottom surface of the measuring box (3) is provided with symmetrical moving grooves (5), the inner wall of the moving groove (5) is rotatably connected with a lead screw (6), one end of the lead screw (6) is fixed to a drive motor (28), the outer wall of the lead screw (6) is threaded to a moving block (7), the moving block (7) is slidably connected to the moving groove (5), one side of the moving block (7) is fixed to a protective shell (8), the inner wall of the protective shell (8) is fixed to multiple compression springs (9), the other end of the compression springs (9) is fixed to a mounting plate (10), the upper surface of the mounting plate (10) is equipped with a cleaning sponge (11), the cleaning sponge (11) abuts against the lens of the barcode scanning camera (4), and the bottom surface of the mounting plate (10) is equipped with a moving component.

2. The automatic barcode scanning and AI identification weighing device according to claim 1, characterized in that: The movable component includes a fixed rod (12), which is symmetrically fixed to the bottom surface of the mounting plate (10). One of the fixed rods (12) has a toothed groove (13) on one side. A rotating rod (14) is rotatably connected inside the protective shell (8). A gear (15) is fixed to one end of the rotating rod (14) that passes through the protective shell (8). The gear (15) meshes with the toothed groove (13). A connecting rod (16) is fixed between the two gears (15). A rotating block (17) is fixed to one end of the rotating rod (14) away from the gear (15).

3. The automatic barcode scanning and AI recognition weighing device according to claim 1, characterized in that: A movable groove (18) is provided on one side of the mounting plate (10). A limit rod (19) is slidably connected to the inner wall of the movable groove (18). A limit spring (20) is fixedly connected to the inner wall of the movable groove (18). The other end of the limit spring (20) is fixedly connected to the limit rod (19). A limit groove (21) is provided on the inner wall of the protective shell (8). A slide plate (22) is slidably connected to the inner wall of the limit groove (21). The limit rod (19) is inserted into the limit groove (21) and abuts against the slide plate (22). A push rod (23) is fixedly connected to one side of the slide plate (22). The push rod (23) passes through the protective shell (8) and is slidably connected to it.

4. The automatic barcode scanning and AI identification weighing device according to claim 1, characterized in that: A spring shaft (24) is provided at the opening of the protective shell (8), and a protective door (25) is fixed to the outer wall of the spring shaft (24), which abuts against the protective shell (8).

5. The automatic barcode scanning and AI identification weighing device according to claim 1, characterized in that: A T-shaped groove (26) is provided on one side of the mounting plate (10) facing the opening of the protective shell (8). A T-shaped plate (27) is slidably connected to the inner wall of the T-shaped groove (26). A cleaning sponge (11) is fixed to the upper surface of the T-shaped plate (27). A pull plate is fixed to one side of the T-shaped plate (27).

6. The automatic barcode scanning and AI identification weighing device according to claim 3, characterized in that: The push rod (23) is fixed to a push plate at the end away from the slide plate (22).

7. The automatic barcode scanning and AI identification weighing device according to claim 2, characterized in that: The outer wall of the rotating block (17) is fixed with an anti-slip pad.