A storage card MES system code scanning docking device

By designing a barcode scanning docking device for the memory card MES system, the problems of low recognition rate and slow decoding speed of memory card barcode scanning equipment were solved, realizing an efficient and stable detection and production process and improving production efficiency.

CN224477488UActive Publication Date: 2026-07-10SHENZHEN CHENYUE STORAGE ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN CHENYUE STORAGE ELECTRONIC TECH CO LTD
Filing Date
2025-07-21
Publication Date
2026-07-10

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Abstract

This utility model relates to the field of intelligent manufacturing technology, and in particular to a barcode scanning docking device for a memory card MES system. It includes a docking mechanism with a detection track on it. A transmission mechanism is located opposite the detection track. A transfer mechanism is connected to one side of the detection track and passes through the transmission mechanism. The transfer mechanism includes a receiving mechanism and an adjusting mechanism. The receiving mechanism is connected to one side of the docking mechanism and has a loading structure and a unloading structure opposite it. The adjusting mechanism is connected to the other side of the docking mechanism and has a clamping structure and a lifting structure opposite the receiving mechanism. The clamping structure passes through the transmission mechanism, and the lifting structure is connected to the clamping structure. This utility model aims to achieve high integration of the entire machine and realize high-speed response and high-speed detection.
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Description

Technical Field

[0001] This utility model relates to the field of intelligent manufacturing technology, and in particular to a barcode scanning docking device for a memory card MES system. Background Technology

[0002] In the modern production process of memory cards, Manufacturing Execution Systems (MES) play a crucial role. MES systems need to collect product information (such as serial numbers, batch numbers, and test parameters) in real time to achieve end-to-end traceability and quality control of the production process. Currently, the industry commonly uses barcode scanning technology as the data collection method for MES systems, but many technical bottlenecks still exist in practical applications.

[0003] In existing technologies, due to the small size of memory cards, the size of the barcodes printed on their surfaces is strictly limited, resulting in generally low recognition rates for traditional barcode scanning devices. Secondly, the high-speed operation of production lines places extremely high demands on the response speed of barcode scanning devices, while the decoding speed of existing devices is often difficult to match. Furthermore, the barcode printing positions differ between different models of memory cards, requiring fixed barcode scanning devices to be frequently adjusted in their installation positions, which seriously affects production efficiency. Utility Model Content

[0004] The main purpose of this invention is to provide a barcode scanning docking device for a memory card MES system, which aims to achieve high integration of the whole machine and realize high-speed response and high-speed detection.

[0005] To achieve the above objectives, this utility model proposes a barcode scanning docking device for a memory card MES system, including a docking mechanism, a detection track on the docking mechanism, a transmission mechanism opposite to the detection track on the docking mechanism, a transfer mechanism connected to one side of the detection track, and the transfer mechanism passing through the transmission mechanism.

[0006] The transfer mechanism includes a transfer mechanism and an adjustment mechanism. The transfer mechanism is connected to one side of the docking mechanism and has a feeding structure and a discharging structure relative to the transfer mechanism. The adjustment mechanism is connected to the other side of the docking mechanism and has a clamping structure and a lifting structure relative to the transfer mechanism. The clamping structure passes through the transfer mechanism, and the lifting structure is connected to the clamping structure.

[0007] In one embodiment of this application, the adjustment mechanism further includes an adjustment track and an adjustment member. The adjustment track is arranged along the direction from the lifting structure to the transfer mechanism. The lifting structure is connected to the adjustment track, and the adjustment member is driven to the lifting structure.

[0008] In one embodiment of this application, the lifting structure includes a lifting motor, a lifting screw, and a connecting member. The lifting motor is driven and connected to the lifting screw, the connecting member is connected to the lifting screw, and the outer periphery of the connecting member is connected to the clamping structure.

[0009] In one embodiment of this application, the clamping structure includes an upper jaw, a lower jaw, and a control structure. The outer periphery of the connector is connected to the upper jaw or the lower jaw. One end of the control structure is connected to the upper jaw, and the other end is connected to the lower jaw.

[0010] In one embodiment of this application, the transmission mechanism includes a feeding structure and a discharging structure, the detection track is connected to one side of the clamping structure, the feeding structure is connected to the other side of the clamping structure, and the feeding structure is provided with a pushing structure facing the detection track;

[0011] The discharge structure is connected to the side of the detection track away from the propulsion structure, and the discharge structure is provided with an ejection structure relative to the clamping structure.

[0012] In one embodiment of this application, a limiting structure is provided at one end of the feeding structure near the clamping structure.

[0013] By adopting the above technical solution, this utility model has the following advantages:

[0014] 1. The docking device is equipped with a docking mechanism for image scanning and inspection. A detection track is located below the docking mechanism. Because the memory cards themselves are small in size and irregular in shape, and it is necessary to avoid damage during memory card transfer, the detection track can be used to transfer trays. A large number of memory cards can be placed on the trays. To facilitate the loading and unloading of the trays, the docking mechanism is equipped with a transfer mechanism relative to the detection track. The transfer mechanism can be a displacement mechanism with electromagnetic attraction and fixing function, which can realize the function of pushing and pushing the trays. Under the action of the transfer mechanism, the trays can enter the image detection range of the docking mechanism along the detection track, which can realize the detection and protection of memory cards, and achieve the effect of high-speed response and rapid detection.

[0015] 2. A transfer mechanism is connected to one side of the detection track. The transfer mechanism is equipped with a feeding structure to input the tray to be tested into the docking mechanism, and a discharging structure to output the tested tray out of the docking mechanism. It passes through the transmission mechanism. The transfer mechanism can send the tray into the transmission mechanism, and then the transmission mechanism can send the tray into the docking mechanism. The above structure can make the whole machine highly integrated and effectively improve the detection rate.

[0016] 3. The transfer mechanism has a loading and unloading structure, with the loading structure located above the unloading structure. To facilitate the feeding of the tray into the unloading structure after testing, the transfer mechanism also has an adjustment mechanism, which includes a clamping structure and a lifting structure. When the tray is being loaded, the clamping structure acts as a platform. After the tray enters the clamping structure, the transfer mechanism can push the tray to load it. After testing, the transfer mechanism re-feeds the tray into the clamping structure. The lifting structure can adjust the position of the tray so that it is directly facing the unloading structure. Through the above structure, the entire scanning docking test process can be highly integrated, effectively improving testing efficiency. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0018] Figure 1 This is a schematic diagram of the structure of the barcode scanning docking device for the memory card MES system of this utility model;

[0019] Figure 2 This is a schematic diagram of the adjustment mechanism of the barcode scanning docking device for the memory card MES system of this utility model;

[0020] Figure 3 This is a schematic diagram of the clamping structure of the barcode scanning docking device for the memory card MES system of this utility model.

[0021] Explanation of icon numbers:

[0022] 1. Docking mechanism; 2. Detection track; 3. Transmission mechanism; 31. Feeding structure; 32. Discharge structure; 4. Transfer mechanism; 5. Handover mechanism; 51. Loading structure; 52. Unloading structure; 6. Adjustment mechanism; 61. Adjustment track; 62. Adjusting component; 63. Clamping structure; 64. Upper clamp; 65. Lower clamp; 66. Control structure; 7. Lifting structure; 71. Lifting motor; 72. Lifting screw; 73. Connecting component.

[0023] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0024] To make the objectives, technical solutions, and advantages of this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.

[0025] Reference Figures 1 to 3 To achieve the above objectives, this utility model proposes a barcode scanning docking device for a memory card MES system, including a docking mechanism 1, a detection track 2 on the docking mechanism 1, a transmission mechanism 3 opposite to the detection track 2, a transfer mechanism 4 connected to one side of the detection track 2, and the transfer mechanism 4 passing through the transmission mechanism 3.

[0026] The transfer mechanism 4 includes a transfer mechanism 5 and an adjustment mechanism 6. The transfer mechanism 5 is connected to one side of the docking mechanism 1 and has a feeding structure 51 and a discharging structure 52 opposite to the transfer mechanism 5. The adjustment mechanism 6 is connected to the other side of the docking mechanism 1 and has a clamping structure 63 and a lifting structure 7 opposite to the transfer mechanism 5. The clamping structure 63 passes through the transfer mechanism 3 and the lifting structure 7 is connected to the clamping structure 63.

[0027] The docking device is equipped with a docking mechanism 1 for image scanning and detection. Below the docking mechanism 1 is a detection track 2. Because the memory cards themselves are small in size and irregular in shape, and it is necessary to avoid damage during the transfer of memory cards, the detection track 2 can be used to transfer trays. A large number of memory cards can be placed on the trays. In order to facilitate the loading and unloading of the trays, the docking mechanism 1 is equipped with a transfer mechanism 3 relative to the detection track 2. The transfer mechanism 3 can be a displacement mechanism with electromagnetic attraction and fixing function, which can realize the function of pushing and pushing the trays. Under the action of the transfer mechanism 3, the trays can enter the image detection range of the docking mechanism 1 along the detection track 2, which can realize the detection and protection of memory cards, and achieve the effect of high-speed response and rapid detection.

[0028] A transfer mechanism 4 is connected to one side of the detection track 2. The transfer mechanism 4 is equipped with a feeding structure 51 to input the tray to be tested into the docking mechanism 1, and a discharging structure 52 to output the tested tray out of the docking mechanism 1. It passes through the transmission mechanism 3. The transfer mechanism 4 can send the tray into the transmission mechanism 3, and then the transmission mechanism 3 can send the tray into the docking mechanism 1. The above structure can make the whole machine highly integrated and effectively improve the detection rate.

[0029] The transfer mechanism 4 has a loading and unloading structure 52. The loading structure 51 is located above the unloading structure 52. To facilitate the feeding of the tray into the unloading structure 52 after testing, the transfer mechanism 4 also has an adjustment mechanism 6. The adjustment mechanism 6 includes a clamping structure 63 and a lifting structure 7. When the tray is being loaded, the clamping structure 63 can act as a platform. After the tray enters the clamping structure 63, the transfer mechanism 3 can push the tray to load it. After the test is completed, the transfer mechanism 3 re-feeds the tray into the clamping structure 63. The lifting structure 7 can adjust the position of the tray so that it is directly facing the unloading structure 52. Through the above structure, the entire scanning docking test process can be highly integrated, which can effectively improve the test efficiency.

[0030] See also Figure 2 In one embodiment of this application, the adjustment mechanism 6 further includes an adjustment track 61 and an adjustment member 62. The adjustment track 61 is arranged along the direction from the lifting structure 7 to the transfer mechanism 5. The lifting structure 7 is connected to the adjustment track 61, and the adjustment member 62 is driven to be connected to the lifting structure 7.

[0031] The adjustment mechanism 6 uses an adjustment component 62 and an adjustment track 61 to drive a lead screw. The lead screw is connected to the frame chassis of the lifting structure 7, which allows the lifting structure 7 to move along the adjustment track 61. Since the adjustment track 61 is set in the direction towards the transfer mechanism 5, the adjustment mechanism 6 allows the clamping structure 63 to extend into the feeding structure 51, which is beneficial for the clamping structure 63 to stably pick up materials from the feeding structure 51.

[0032] See also Figures 2 to 3 In one embodiment of this application, the lifting structure 7 includes a lifting motor 71, a lifting screw 72, and a connector 73. The lifting motor 71 is driven and connected to the lifting screw 72, the connector 73 is connected to the lifting screw 72, and the outer periphery of the connector 73 is connected to the clamping structure 63.

[0033] The lifting structure 7 can be divided into a lifting motor 71, a lifting screw 72, and a connecting part 73 in terms of structure and function. The lifting motor 71 drives the lifting screw 72 (lifting lead screw), and the connecting part 73 is screwed to the lifting screw 72. When the lifting motor 71 is working, the connecting part 73 can move up and down under the action of the lifting screw 72. The connecting part 73 is connected to the clamping structure 63, which can make the clamping structure 63 itself rise or fall along the lifting screw 72. This allows for more efficient movement of the material tray between the loading and unloading structures 52. Through the above structure, the whole machine can be highly integrated, which can effectively improve the scanning docking efficiency.

[0034] See also Figure 3In one embodiment of this application, the clamping structure 63 includes an upper clamping jaw 64, a lower clamping jaw 65, and a control structure 66. The outer periphery of the connector 73 is connected to the upper clamping jaw 64 or the lower clamping jaw 65. One end of the control structure 66 is connected to the upper clamping jaw 64, and the other end is connected to the lower clamping jaw 65.

[0035] The clamping structure 63 includes an upper clamping jaw 64, a lower clamping jaw 65, and a control structure 66. The lifting structure 7 has a frame for protecting the overall structure. The frame is provided with limiting rails facing the upper clamping jaw 64 and the lower clamping jaw 65. In one feasible embodiment, the connector 73 is driven to the lower clamping jaw 65, the lifting screw 72 passes through the upper clamping jaw 64, and the control structure 66 (which can be a combination of a cylinder and a push rod, or a combination of a motor and a lead screw) is connected to the lower clamping jaw 65 and driven to the upper clamping jaw 64. Under the action of the above mechanisms, the clamping structure can automatically open, close, lift, and lower, enabling the clamping structure 63 to grip the material tray more stably and ensuring the stability of the entire test docking process.

[0036] See also Figure 1 In one embodiment of this application, the transmission mechanism 3 includes a feeding structure 31 and a discharging structure 32. The detection track 2 is connected to one side of the clamping structure 63, the feeding structure 31 is connected to the other side of the clamping structure 63, and the feeding structure 31 is provided with a pushing structure facing the detection track 2.

[0037] The discharge structure 32 is connected to the side of the detection track 2 away from the propulsion structure, and the discharge structure 32 is provided with an ejection structure relative to the clamping structure 63.

[0038] To further improve testing efficiency, a loading frame can be provided, with multiple compartments inside the frame. Each compartment contains a material tray. The clamping structure 63 has buckles on the outer periphery of the frame to ensure stable clamping. When the clamping structure 63 clamps the frame and aligns with the detection track 2 under the action of the adjusting mechanism 6 and the lifting structure 7, the material tray can be pushed from the compartment into the docking mechanism 1 for rapid testing through the pushing structure of the feeding structure 31. After the test is completed, the discharging structure 32 will push the material tray back into the compartment from the opposite direction of the feeding structure 51 through the pushing structure. The above structure can ensure testing efficiency.

[0039] See also Figure 1 In one embodiment of this application, the feeding structure 51 is provided with a limiting structure at one end near the clamping structure 63.

[0040] The feeding structure 51 is equipped with a limiting structure at one end near the clamping structure 63, which allows a certain number of frames with a large number of material trays to be stacked on the feeding structure 51. When the frames need to be removed, the lifting structure 7 and the adjusting mechanism 6 work together to allow the clamping structure 63 to easily clamp the frames and lift them away from the feeding structure 51. The adjusting track 61 can align the frames with the stacking mechanism. Through the cooperation of the above structures, the detection efficiency can be effectively improved, the detection stability can be guaranteed, and the user experience can be effectively improved.

[0041] In the accompanying drawings of this embodiment, the same or similar reference numerals correspond to the same or similar components. In the description of this application, it should be understood that if terms such as "upper," "lower," "left," and "right" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, they are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe positional relationships in the accompanying drawings are only for illustrative purposes and should not be construed as limiting this patent. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.

[0042] The above are merely preferred embodiments of this application and are not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A barcode scanning docking device for a memory card MES system, comprising a docking mechanism, characterized in that, The docking mechanism is provided with a detection track, and the docking mechanism is provided with a transmission mechanism opposite to the detection track. A transfer mechanism is connected to one side of the detection track, and the transfer mechanism passes through the transmission mechanism. The transfer mechanism includes a transfer mechanism and an adjustment mechanism. The transfer mechanism is connected to one side of the docking mechanism and has a feeding structure and a discharging structure relative to the transfer mechanism. The adjustment mechanism is connected to the other side of the docking mechanism and has a clamping structure and a lifting structure relative to the transfer mechanism. The clamping structure passes through the transfer mechanism, and the lifting structure is connected to the clamping structure.

2. The storage card MES system barcode scanning docking device according to claim 1, characterized in that, The adjustment mechanism also includes an adjustment track and an adjustment component. The adjustment track is arranged along the direction from the lifting structure to the transfer mechanism. The lifting structure is connected to the adjustment track, and the adjustment component is driven to the lifting structure.

3. The storage card MES system barcode scanning docking device according to claim 1, characterized in that, The lifting structure includes a lifting motor, a lifting screw, and a connecting member. The lifting motor is driven and connected to the lifting screw, the connecting member is connected to the lifting screw, and the outer periphery of the connecting member is connected to the clamping structure.

4. The storage card MES system barcode scanning docking device according to claim 3, characterized in that, The clamping structure includes an upper jaw, a lower jaw, and a control structure. The outer periphery of the connector is connected to the upper jaw or the lower jaw. One end of the control structure is connected to the upper jaw, and the other end is connected to the lower jaw.

5. The storage card MES system barcode scanning docking device according to claim 1, characterized in that, The transmission mechanism includes a feeding structure and a discharging structure. The detection track is connected to one side of the clamping structure, the feeding structure is connected to the other side of the clamping structure, and the feeding structure is provided with a pushing structure facing the detection track. The discharge structure is connected to the side of the detection track away from the propulsion structure, and the discharge structure is provided with an ejection structure relative to the clamping structure.

6. The storage card MES system barcode scanning docking device according to claim 1, characterized in that, The feeding structure is provided with a limiting structure at one end near the clamping structure.