Positioning device for rotating a green tape barcode
By designing a positioning device that includes a conveyor belt, a housing, a clamping component, and a barcode detector, the problems of poor rotational positioning and scanning limitations in traditional tire carcass barcode scanning devices are solved, enabling omnidirectional scanning and efficient detection of tire carcass barcodes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO SENTURY TIRE CO LTD
- Filing Date
- 2025-05-16
- Publication Date
- 2026-06-09
Smart Images

Figure CN224336594U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of positioning devices, and in particular to a positioning device for rotating tire barcodes. Background Technology
[0002] In the tire production process, precise positioning of the tire blank and accurate reading of barcode information are key to ensuring efficient and accurate production. On traditional tire production lines, barcode reading of the tire blank often relies on manual operation or simple fixed barcode scanning equipment, which is not very convenient to use. Therefore, efficient and accurate barcode scanning equipment is needed.
[0003] Currently, in existing equipment, such as the patent with announcement number CN115215070A, the invention belongs to the field of tire production technology and provides a positioning device for rotating tire blank barcodes, including a frame, with a belt conveyor at the bottom of the frame; a lifting mechanism is provided inside the frame, the lifting mechanism is composed of a lifting part and a movable frame; and an angle adjustment mechanism is provided on the upper part of the movable frame.
[0004] However, during use, it was found that the device had poor rotational positioning during the scanning process, and the barcode detector was located at the top, so it could only scan barcodes located on top of the tire blank, which increased its limitations. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides a positioning device for rotating tire carcasses, which allows the barcode detector to scan the barcode on the upper or lower part of the tire carcass during rotation, avoiding scanning limitations, and uses a positioning component to rotate and fix the shell, thereby improving the accuracy of the barcode detector when scanning the tire carcass barcode.
[0006] This utility model discloses a positioning device for rotating tire blanks with barcodes, comprising a conveyor belt and a housing, the housing being positioned above the conveyor belt; it also includes a drive device, a positioning assembly, an adjusting device, multiple sets of clamping components, a bracket, and two sets of barcode detectors. The multiple sets of clamping components are all mounted on the housing via the drive device, moving in opposite directions. The housing is mounted on the positioning assembly, which drives the housing to rotate and move, and also positions the rotation of the housing. The bracket is horizontally mounted on the adjusting device, and the two sets of barcode detectors are mounted opposite each other on the upper and lower parts of the bracket. The tire blank is placed on the conveyor belt, and the conveyor belt transports the tire blank to... Below the housing, the positioning component moves the housing downwards, causing multiple clamping components to move between the tire blanks. Then, the drive device moves the multiple clamping components away from each other, clamping and fixing the tire blank. The positioning component then moves and adjusts the housing, allowing it to transport the tire blank between two barcode detectors. By rotating the housing, the tire blank rotates, allowing the barcode detectors to scan the barcodes on the upper or lower part of the tire blank during rotation. This avoids scanning limitations. The positioning component rotates and fixes the housing, thereby improving the accuracy of the barcode detectors when scanning the tire blank barcodes.
[0007] Preferably, the driving device includes sliders, connecting arms, telescopic rods, a first electric cylinder, and a support plate. Multiple sets of sliders are slidably mounted on the housing. Multiple sets of clamping members are respectively mounted on the bottom ends of the multiple sets of sliders. The top ends of the multiple sets of sliders are rotatably connected to the bottom ends of the multiple sets of connecting arms. The top ends of the multiple sets of connecting arms are rotatably connected to the bottom ends of the support plate. The top end of the support plate is connected to the moving ends of the multiple sets of telescopic rods and the first electric cylinder. The multiple sets of telescopic rods and the first electric cylinder are all mounted on the inner sidewall of the housing. The first electric cylinder drives the support plate to move up and down, so that the support plate drives the multiple sets of sliders to slide in opposite directions through the multiple sets of connecting arms, thereby causing the multiple sets of sliders to drive the multiple sets of clamping members to move in opposite directions to clamp and fix the tire blank.
[0008] Preferably, the adjustment device includes a base, a second electric cylinder, and multiple sets of guide columns. The second electric cylinder is mounted on the outer wall of the base, and the moving end of the second electric cylinder is connected to the outer wall of the support. The ends of the multiple sets of guide columns are connected to the outer wall of the support, and the multiple sets of guide columns are slidably mounted on the base. By controlling the second electric cylinder to drive the support to move horizontally, the positions of the two sets of barcode detectors can be adjusted horizontally, thereby improving the convenience of scanning barcodes of tire blanks of different diameters by the two sets of barcode detectors.
[0009] Preferably, the positioning assembly includes a locking device, a housing, a motor, an electric rotary table, and an electric telescopic arm. The bottom of the housing is rotatably connected to the top of the casing. The motor is located inside the housing, and its output end is concentrically connected to the casing. The electric telescopic arm is mounted on the rotating end of the electric rotary table, and the housing is mounted on the moving end of the electric telescopic arm. The locking device is located on the housing and is used to lock the rotation of the casing. The motor drives the casing to rotate, which in turn drives the tire blank to rotate and adjust. The electric telescopic arm drives the housing to move up and down, thereby adjusting the tire blank to move up and down. The electric rotary table drives the electric telescopic arm to rotate, which then transports the tire blank between two sets of barcode detectors. By coordinating with the rotation of the housing, the convenience of scanning barcodes by the two sets of barcode detectors during the tire blank rotation process is improved.
[0010] Preferably, the locking device includes a third electric cylinder and a pressing block. The third electric cylinder is installed on the outer wall of the housing, and the pressing block is disposed on the moving end of the third electric cylinder. The pressing block is moved by the third electric cylinder, so that the pressing block is pressed against the outer wall of the housing, thereby improving the convenience of rotating and positioning the housing and the convenience of rotating and positioning the tire blank.
[0011] Preferably, it also includes a positioning ball, which is disposed at the end of the clamping member; by providing the positioning ball, the clamping and positioning effect of multiple sets of clamping members on the tire blank is improved.
[0012] Preferably, an electromagnetic slip ring is provided between the housing and the chassis; this improves the convenience of normal power supply to the first electric cylinder when the housing rotates.
[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: The tire blank is placed on the conveyor belt, and the conveyor belt transports the tire blank to the bottom of the housing. Then, the positioning component drives the housing to move downward, so that multiple sets of clamping members move between the tire blanks. Then, the driving device drives the multiple sets of clamping members to move away from each other, so that the multiple sets of clamping members clamp and fix the tire blank. Then, the positioning component drives the housing to move and adjust, so that the housing transports the tire blank between two sets of barcode detectors. By rotating the housing, the housing drives the tire blank to rotate, so that the barcode detector scans the barcode on the upper or lower part of the tire blank during the rotation of the tire blank, avoiding scanning limitations. The positioning component rotates and fixes the housing, thereby improving the accuracy of the barcode detector when scanning the tire blank barcode. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the isometric structure of this utility model;
[0015] Figure 2 This is a partial isometric structural diagram of the connection between the chassis and the motor, etc.
[0016] Figure 3 This is a partial isometric structural diagram of the barcode detector and its connection to the slider, etc.
[0017] Figure 4 This is a partial isometric structural diagram of the connection between the electric rotary table and the electric telescopic arm, etc.
[0018] Figure 5 This is a partial isometric structural diagram of the connection between the housing and the clamping components.
[0019] The following are labels in the attached diagram: 1. Conveyor belt; 2. Housing; 3. Clamping component; 4. Support; 5. Barcode detector; 6. Slider; 7. Connecting arm; 8. Telescopic rod; 9. First electric cylinder; 10. Chassis; 11. Motor; 12. Base; 13. Second electric cylinder; 14. Guide column; 15. Third electric cylinder; 16. Pressing block; 17. Electric rotary table; 18. Electric telescopic arm; 19. Positioning ball; 20. Support plate. Detailed Implementation
[0020] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. This utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to make the disclosure of this utility model more thorough and complete.
[0021] Example 1
[0022] like Figures 1 to 5 As shown, the present invention provides a positioning device for rotating tire blank barcodes, comprising a conveyor belt 1 and a housing 2, the housing 2 being disposed above the conveyor belt 1; it also includes a drive device, a positioning component, an adjustment device, multiple sets of clamping components 3, a bracket 4, and two sets of barcode detectors 5. The multiple sets of clamping components 3 are all mounted on the housing 2 in opposite directions via the drive device. The housing 2 is mounted on the positioning component, which is used to drive the housing 2 to rotate and move for adjustment, and is also used to position the rotation of the housing 2. The bracket 4 is mounted horizontally on the adjustment device, and the two sets of barcode detectors 5 are mounted opposite each other on the upper and lower parts of the bracket 4.
[0023] like Figure 2 As shown, the driving device includes a slider 6, a connecting arm 7, a telescopic rod 8, a first electric cylinder 9, and a support plate 20. Multiple sets of sliders 6 are slidably mounted on the housing 2. Multiple sets of clamping parts 3 are respectively mounted on the bottom ends of multiple sets of sliders 6. The top ends of multiple sets of sliders 6 are rotatably connected to the bottom ends of multiple sets of connecting arms 7. The top ends of multiple sets of connecting arms 7 are rotatably connected to the bottom ends of the support plate 20. The top end of the support plate 20 is connected to the moving ends of multiple sets of telescopic rods 8 and the first electric cylinder 9. Multiple sets of telescopic rods 8 and the first electric cylinder 9 are all mounted on the inner side wall of the housing 2.
[0024] In this embodiment, the tire blank is placed on the conveyor belt 1 and transported to the area below the housing 2. Then, the positioning component drives the housing 2 to move downward, causing multiple sets of clamping members 3 to move between the tire blanks. Subsequently, the driving device drives the multiple sets of clamping members 3 to move away from each other, so that the multiple sets of clamping members 3 clamp and fix the tire blank. Then, the positioning component drives the housing 2 to move and adjust, so that the housing 2 transports the tire blank between two sets of barcode detectors 5. By rotating the housing 2, the housing 2 drives the tire blank to rotate, so that the barcode detectors 5 scan the barcode on the upper or lower part of the tire blank during the rotation of the tire blank, avoiding scanning limitations. The positioning component rotates and fixes the housing 2, thereby improving the accuracy of the barcode detectors 5 when scanning the tire blank barcode.
[0025] Example 2
[0026] Based on Example 1, such as Figure 3 As shown, this utility model discloses a positioning device for rotating tire barcodes. The adjustment device includes a base 12, a second electric cylinder 13, and multiple sets of guide columns 14. The second electric cylinder 13 is installed on the outer wall of the base 12, and the moving end of the second electric cylinder 13 is connected to the outer wall of the bracket 4. The ends of the multiple sets of guide columns 14 are connected to the outer wall of the bracket 4, and the multiple sets of guide columns 14 are slidably installed on the base 12.
[0027] like Figure 1 As shown, the positioning assembly includes a locking device, a housing 10, a motor 11, an electric rotary table 17, and an electric telescopic arm 18. The bottom end of the housing 10 is rotatably connected to the top end of the housing 2. The motor 11 is installed inside the housing 10, and the output end of the motor 11 is concentrically connected to the housing 2. The electric telescopic arm 18 is installed on the rotating end of the electric rotary table 17, and the housing 10 is installed on the moving end of the electric telescopic arm 18. The locking device is installed on the housing 10 and is used to lock the rotation of the housing 2.
[0028] like Figure 2 As shown, the locking device includes a third electric cylinder 15 and a pressing block 16. The third electric cylinder 15 is installed on the outer wall of the housing 10, and the pressing block 16 is disposed on the moving end of the third electric cylinder 15.
[0029] like Figure 2 As shown, it also includes a positioning ball 19, which is disposed at the end of the clamping member 3;
[0030] like Figure 1 As shown, an electromagnetic slip ring is provided between the housing 2 and the chassis 10;
[0031] In this embodiment, the first electric cylinder 9 drives the support plate 20 to move up and down, so that the support plate 20 drives multiple sets of sliders 6 to slide in opposite directions through multiple sets of connecting arms 7, thereby causing multiple sets of sliders 6 to drive multiple sets of clamping parts 3 to move in opposite directions to clamp and fix the tire blank. By controlling the second electric cylinder 13 to drive the bracket 4 to move horizontally, the positions of the two sets of barcode detectors 5 can be adjusted horizontally, thereby improving the convenience of scanning barcodes of tire blanks of different diameters by the two sets of barcode detectors 5.
[0032] This utility model discloses a positioning device for rotating tire blanks with barcodes. During operation, the tire blank is placed on a conveyor belt 1, which transports it to below a housing 2. A positioning component then moves the housing 2 downwards, causing multiple sets of clamping members 3 to move between the tire blanks. A driving device then moves the clamping members 3 away from each other, securing the tire blank. The positioning component then moves the housing 2 to adjust its position, transporting the tire blank between two sets of barcode detectors 5. Rotating the housing 2 causes the tire blank to rotate, allowing the barcode detectors 5 to scan the barcodes on the upper or lower parts of the tire blank during rotation.
[0033] The conveyor belt 1, barcode detector 5, first electric cylinder 9, motor 11, second electric cylinder 13, third electric cylinder 15, electric rotary table 17, and electric telescopic arm 18 of the positioning device for rotating tire barcodes of this utility model are commercially available. Technical personnel in this industry only need to install and operate them according to the accompanying instruction manual, without requiring any creative work from those skilled in the art.
[0034] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A positioning device for rotating tire blank barcodes, comprising a conveyor belt (1) and a housing (2), wherein the housing (2) is disposed above the conveyor belt (1); characterized in that, It also includes a drive device, a positioning component, an adjustment device, multiple sets of clamping parts (3), a bracket (4), and two sets of barcode detectors (5). The multiple sets of clamping parts (3) are all mounted on the housing (2) by moving in opposite directions through the drive device. The housing (2) is mounted on the positioning component. The positioning component is used to drive the housing (2) to rotate and move for adjustment. The positioning component is also used to position the rotation of the housing (2). The bracket (4) is mounted on the adjustment device by moving horizontally. The two sets of barcode detectors (5) are mounted on the upper and lower parts of the bracket (4) in opposite directions.
2. The positioning device for rotating tire barcodes as described in claim 1, characterized in that, The driving device includes a slider (6), a connecting arm (7), a telescopic rod (8), a first electric cylinder (9), and a support plate (20). Multiple sets of sliders (6) are slidably mounted on the housing (2). Multiple sets of clamping parts (3) are respectively mounted on the bottom ends of multiple sets of sliders (6). The top ends of multiple sets of sliders (6) are rotatably connected to the bottom ends of multiple sets of connecting arms (7). The top ends of multiple sets of connecting arms (7) are rotatably connected to the bottom ends of the support plate (20). The top end of the support plate (20) is connected to the moving ends of multiple sets of telescopic rods (8) and the first electric cylinder (9). Multiple sets of telescopic rods (8) and the first electric cylinder (9) are all mounted on the inner side wall of the housing (2).
3. The positioning device for rotating tire barcodes as described in claim 1, characterized in that, The adjustment device includes a base (12), a second electric cylinder (13), and multiple sets of guide columns (14). The second electric cylinder (13) is installed on the outer wall of the base (12). The moving end of the second electric cylinder (13) is connected to the outer wall of the bracket (4). The ends of the multiple sets of guide columns (14) are connected to the outer wall of the bracket (4). The multiple sets of guide columns (14) are slidably installed on the base (12).
4. The positioning device for rotating tire barcodes as described in claim 2, characterized in that, The positioning assembly includes a locking device, a housing (10), a motor (11), an electric rotary table (17), and an electric telescopic arm (18). The bottom end of the housing (10) is rotatably connected to the top end of the housing (2). The motor (11) is installed inside the housing (10), and the output end of the motor (11) is concentrically connected to the housing (2). The electric telescopic arm (18) is installed on the rotating end of the electric rotary table (17), and the housing (10) is installed on the moving end of the electric telescopic arm (18). The locking device is installed on the housing (10) and is used to lock the rotation of the housing (2).
5. The positioning device for rotating tire barcodes as described in claim 4, characterized in that, The locking device includes a third electric cylinder (15) and a pressing block (16). The third electric cylinder (15) is installed on the outer wall of the housing (10), and the pressing block (16) is located on the moving end of the third electric cylinder (15).
6. The positioning device for rotating tire barcodes as described in claim 1, characterized in that, It also includes a positioning ball (19), which is located at the end of the clamping member (3).
7. The positioning device for rotating tire barcodes as described in claim 4, characterized in that, An electromagnetic slip ring is provided between the housing (2) and the chassis (10).