An internet of things label information acquisition device
By introducing a folding telescopic frame and base support mechanism into the IoT tag information collection device, the problem of the device being only handheld can be solved, achieving stable placement and flexibility of two-handed operation, and improving the accuracy and efficiency of data collection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 陈丽华
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-05
AI Technical Summary
Existing IoT tag information collection devices can only be used handheld and cannot be placed stably, which increases the labor intensity of operators, leads to collection errors, and reduces work efficiency.
An IoT tag information collection device was designed, comprising a handle, a folding telescopic frame, a locking component, and a base support mechanism, which allows the device to be stably placed on a desktop or fixed workstation. The folding telescopic frame and locking component provide support and stability.
It improves the accuracy and efficiency of data collection, reduces the impact of hand tremors on the collection process, and supports flexible use in two-handed operation scenarios.
Smart Images

Figure CN224328417U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of data acquisition equipment technology, specifically to an Internet of Things (IoT) tag information acquisition device. Background Technology
[0002] Against the backdrop of the rapid development of IoT technology, IoT tags (such as RFID tags, barcodes, and QR codes) serve as the core carriers for item identification and information storage. Their information collection devices are widely used in logistics warehousing, retail management, and smart manufacturing. IoT tag information collection devices, by identifying the codes or data within the tags, enable functions such as item tracking, inventory management, and traceability, making them key terminal devices for IoT data interaction.
[0003] Currently, most IoT tag information collection devices on the market are handheld devices. Their core structure typically includes a collection module (such as an RFID reader and an optical scanner), a processing module, a display module, and a battery. The overall design emphasizes portability to meet the information collection needs in mobile scenarios. However, these handheld devices have the following significant drawbacks in practical applications;
[0004] The design logic of handheld devices relies entirely on manual operation, and they can only be used while in motion. They cannot be stably placed on a desktop or fixed workstation. In scenarios requiring continuous data collection over a long period of time, such as batch reading of labels on a warehouse sorting line, or when both hands are needed to assist in handling items, such as workers simultaneously moving goods and scanning labels, operators must hold the device with one hand and hold the item with the other. This not only increases labor intensity but also easily leads to collection errors due to hand tremors, reducing work efficiency. Therefore, we propose an IoT tag information collection device to solve the above-mentioned problems. Utility Model Content
[0005] To address the shortcomings of existing technologies, this utility model provides an Internet of Things (IoT) tag information collection device, which solves the problem that collection devices rely solely on handheld scanning, resulting in limited functionality and reduced effectiveness.
[0006] To achieve the above objectives, this utility model provides the following technical solution: an Internet of Things (IoT) tag information collection device, including a handle;
[0007] A data collector, located at one end of the handle, is used to collect tag information;
[0008] A folding telescopic frame, mounted on the handle, is used to support the data collector by folding.
[0009] A locking element, provided on the handle, is used to lock the position of the folding telescopic frame folded inside the handle.
[0010] It also includes a base support mechanism, and the folding telescopic frame can be locked onto the base support mechanism by a locking member to provide stable support.
[0011] Preferably, the folding telescopic frame includes a folding groove formed in the handle, and a straight rod is provided in the folding groove. One end of the straight rod is hinged to the handle via a hinge shaft. A telescopic sleeve is slidably mounted on the straight rod. An elastic locking pin is installed at the end of the handle away from the collector. A pin is slidably mounted at the end of the straight rod near the collector. A first spring is fixedly installed between the pin and the straight rod. The two ends of the telescopic sleeve are provided with a first locking hole and a second locking hole adapted to the pin.
[0012] Preferably, the elastic locking pin includes a pin that slides on the end of the grip, and a fourth spring is wound around the surface of the pin, with the two ends of the fourth spring fixedly connected to the grip and the pin respectively, and a slot adapted to the pin is provided at the folded position of the straight rod relative to the grip.
[0013] Preferably, the straight rod has a movable groove adapted to the pin, and the pin can slide within the movable groove of the straight rod.
[0014] Preferably, the locking element includes a sliding groove formed at the end of the handle near the collector, and a first locking block slides in the sliding groove. A second spring is fixed between the first locking block and the handle. A socket adapted to the first locking block is fixedly installed at one end of the telescopic sleeve. A toggle lever is fixedly installed on one side of the first locking block. The handle has a rectangular opening adapted to the toggle lever, and the toggle lever can slide within the rectangular opening in the handle.
[0015] Preferably, the base support mechanism includes a base plate that can be placed on a table, an insert block is fixedly installed on the upper surface of the base plate, a second locking block is slidably mounted on both sides of the insert block, a third spring is fixed between the second locking block and the insert block, the insert block is adapted to the socket cavity, and the socket has locking slots on both sides adapted to the second locking block.
[0016] Preferably, one side edge of the second locking block is provided with a gradient, and the insert block is provided with a movable groove adapted to the second locking block, so that the second locking block can slide within the movable groove provided in the insert block.
[0017] Beneficial effects
[0018] This invention provides an Internet of Things (IoT) tag information collection device. Compared with the prior art, it has the following advantages:
[0019] This IoT tag information collection device can be used for handheld tag collection or stably placed on a desktop or fixed workstation, eliminating the need for continuous handholding. This reduces the impact of hand tremors on the collection process, thereby improving the accuracy and efficiency of data collection. Furthermore, the device is designed for scenarios requiring two-handed operation, such as tag scanning while moving goods or batch reading of tags on a warehouse sorting line. Its compact and lightweight design allows for easy two-handed operation, eliminating the need for single-handed holding, thus improving overall operational efficiency, practicality, and flexibility. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0021] Figure 2 This is a cross-sectional view of the overall structure of this utility model;
[0022] Figure 3 This utility model Figure 2 A magnified structural diagram at point A;
[0023] Figure 4 This is a schematic diagram of the folding structure of the folding telescopic frame of this utility model;
[0024] Figure 5 This is a cross-sectional view of the connectors such as plugs and sockets of this utility model.
[0025] In the diagram: 101, handle; 102, collector; 2, folding telescopic frame; 201, straight rod; 202, elastic locking pin; 203, telescopic sleeve; 204, first locking hole; 205, second locking hole; 206, pin; 207, first spring; 3, locking element; 301, second spring; 302, first locking block; 303, socket; 304, toggle lever; 4, base support mechanism; 401, base plate; 402, insert block; 403, third spring; 404, second locking block; 405, lock opening. Detailed Implementation
[0026] 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.
[0027] like Figure 1-5 As shown:
[0028] An Internet of Things (IoT) tag information collection device includes a handle 101;
[0029] The collector 102 is located at one end of the handle 101 and is used to collect tag information.
[0030] A folding telescopic frame 2 is installed on the handle 101. The folding telescopic frame 2 is used to support the collector 102 by folding. The folding telescopic frame 2 includes a folding groove in the handle 101, and a straight rod 201 is provided in the folding groove. One end of the straight rod 201 is hinged to the handle 101 through a hinge shaft. A telescopic sleeve 203 is slidably installed on the straight rod 201. An elastic locking pin 202 is installed at the end of the handle 101 away from the collector 102. A pin 206 is slidably installed at the end of the straight rod 201 close to the collector 102. A first spring 207 is fixedly installed between the pin 206 and the straight rod 201. The two ends of the telescopic sleeve 203 are provided with a first locking hole 204 and a second locking hole 205 that are adapted to the pin 206.
[0031] The elastic locking pin 202 includes a pin that slides on the end of the handle 101, and a fourth spring is wound around the surface of the pin. The two ends of the fourth spring are fixedly connected to the handle 101 and the pin, respectively. The straight rod 201 has a slot adapted to the pin at a position where it is folded 90° relative to the handle 101.
[0032] The straight rod 201 has a movable groove that matches the pin 206, and the pin 206 can slide in the movable groove of the straight rod 201.
[0033] Locking element 3, provided on handle 101, is used to lock the position of the folding telescopic frame 2 folded inside handle 101. Locking element 3 includes a sliding groove opened at one end of handle 101 near collector 102, and a first locking block 302 slides in the sliding groove. A second spring 301 is fixed between the first locking block 302 and handle 101. A socket 303 adapted to the first locking block 302 is fixedly installed at one end of telescopic sleeve 203. A toggle lever 304 is fixedly installed on one side of the first locking block 302. A rectangular opening adapted to the toggle lever 304 is opened in handle 101. The toggle lever 304 can slide in the rectangular opening opened in handle 101.
[0034] It also includes a base support mechanism 4. The folding telescopic frame 2 can be snapped onto the base support mechanism 4 by a locking member 3 to provide stable support. The base support mechanism 4 includes a base plate 401 that can be placed on a table. A plug block 402 is fixedly installed on the upper surface of the base plate 401. Second locking blocks 404 slide on both sides of the plug block 402. A third spring 403 is fixed between the second locking blocks 404 and the plug block 402. The plug block 402 is adapted to the socket cavity of the socket 303. Locking slots 405 adapted to the second locking blocks 404 are opened on both sides of the socket 303. A gradient is provided on one edge surface of the second locking blocks 404. An active groove adapted to the second locking blocks 404 is opened on the plug block 402. The second locking blocks 404 can slide in the active groove opened in the plug block 402.
[0035] In this implementation plan: When the IoT tag information collection device is in use, the collector 102 is moved by the hand grip 101 to scan and collect tags.
[0036] When mobile data collection is not required, the lever 304 is manually moved backward, which in turn moves the first locking block 302. The first locking block 302 compresses the second spring 301 until the first locking block 302 is moved out of the socket 303, thereby releasing the lock on the folding telescopic frame 2.
[0037] Then, the telescopic sleeve 203 and the straight rod 201 are folded out from the folding slot in the handle 101; then the pin 206 is pressed, thereby compressing the first spring 207 until the pin 206 is completely compressed into the handle 101, so that the pin 206 is disengaged from the second locking hole 205, thereby releasing the lock on the straight rod 201 and the telescopic sleeve 203.
[0038] Then, by pulling the telescopic sleeve 203, the overall length of the straight rod 201 and the telescopic sleeve 203 is continuously extended until the pin 206 corresponds to the first locking hole 204. Then, under the action of the first spring 207, the pin 206 can be automatically inserted into its first locking hole 204, thereby realizing the connection and locking of the straight rod 201 and the telescopic sleeve 203. During this process, the straight rod 201 is folded to 90° relative to the handle 101, and then the handle 101 and the straight rod 201 are locked by the elastic locking pin 202.
[0039] During this process, by folding the straight rod 201, the pin on the elastic locking pin 202 is pulled and the fourth spring is stretched. After the straight rod 201 is folded to 90° relative to the grip 101, the pin is released, and the fourth spring retracts, driving the pin to insert into the slot opened in the straight rod 201, thereby locking the grip 101 and the straight rod 201.
[0040] Subsequently, the socket 303 is aligned with the plug 402 on the base plate 401. The base plate 401 can be placed on a table and is made of metal to increase stability and prevent the entire device from tipping over. Then, the telescopic sleeve 203 is held and pressed to insert the socket 303 into the plug 402. During this process, the edge of the socket 303 compresses the second locking block 404 until it is compressed into the plug 402. At the same time, the third spring 403 is compressed. When the second locking block 404 aligns with the lock 405, the compressed third spring 403 rebounds, driving the second locking block 404 to partially insert into the lock 405, thereby achieving the connection and locking of the plug 402 and the socket 303. The base plate 401 is placed in the designated position to provide support for the handle 101 and the collector 102.
[0041] This device is designed for both handheld and stable placement on a desktop or fixed workstation, eliminating the need for continuous handholding. This reduces the impact of hand tremors on the data collection process, thereby improving accuracy and efficiency. Furthermore, the device is designed for scenarios requiring two-handed operation, such as label scanning while moving goods or batch reading of labels on a warehouse sorting line. Its compact and lightweight design allows for easy two-handed operation, eliminating the need for single-handed holding, thus enhancing overall operational efficiency, practicality, and flexibility.
[0042] It should be noted that: all contents not described in detail in this specification are existing technologies known to those skilled in the art. The collector 102 can refer to the collection device body disclosed in patent document CN222616462U and adopt the same technical means. A rechargeable battery is also installed on the handle 101.
[0043] It should be noted that a vacuum suction cup can be installed at one end of the telescopic sleeve 203, which can be directly attached to a smooth tabletop without the need for a base support mechanism 4.
[0044] The working principle and usage process of this utility model are as follows: When using this IoT tag information collection device, the operator holds the handle 101 and moves the collector 102 to scan and collect mobile tags. When mobile collection is not needed, the operator moves the lever 304 backward. The lever 304 moves the first locking block 302 and compresses the second spring 301. The first locking block 302 moves out of the socket 303, releasing the lock on the folding telescopic frame 2. The telescopic sleeve 203 and the straight rod 201 fold out from the folding groove of the handle 101. The operator presses the pin 206, compressing the first spring 207, causing the pin 206 to disengage from the second locking hole 205, releasing the lock on the straight rod 201 and the telescopic sleeve 203. The operator then pulls the telescopic sleeve 203 to... The straight rod 201 and the telescopic sleeve 203 extend in length, and the pin 206 corresponds to the first lock hole 204. The pin 206 automatically inserts into the first lock hole 204 to lock the straight rod 201 and the telescopic sleeve 203. The straight rod 201 is folded to 90° and the handle 101 and the straight rod 201 are locked by the elastic locking pin 202. The socket 303 is aligned with the insertion block 402 of the base plate 401. The base plate 401 is placed on the table to increase stability. The socket 303 is compressed so that it is inserted into the insertion block 402. The second locking block 404 and the third spring 403 are compressed. The second locking block 404 corresponds to the lock 405. The third spring 403 rebounds and locks the socket 303 and the insertion block 402. The base plate 401 provides support for the handle 101 and the collector 102 and other components.
[0045] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the 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 this utility model should be included within the protection scope of this utility model.
Claims
1. An Internet of Things (IoT) tag information collection device, characterized in that: Including grip (101); A data collector (102) is located at one end of the handle (101) and is used to collect tag information; A folding telescopic frame (2) is installed on the handle (101). The folding telescopic frame (2) is used to support the collector (102) by folding. A locking element (3) is provided on the handle (101) for locking the position of the folding telescopic frame (2) folded inside the handle (101); It also includes a base support mechanism (4), the folding telescopic frame (2) can be snapped onto the base support mechanism (4) by a locking member (3) to provide stable support.
2. The IoT tag information collection device according to claim 1, characterized in that: The folding telescopic frame (2) includes a folding groove formed in the handle (101), and a straight rod (201) is provided in the folding groove. One end of the straight rod (201) is hinged to the handle (101) via a hinge shaft. A telescopic sleeve (203) is slidably mounted on the straight rod (201). An elastic locking pin (202) is installed at the end of the handle (101) away from the collector (102). A pin (206) is slidably mounted at the end of the straight rod (201) close to the collector (102). A first spring (207) is fixedly installed between the pin (206) and the straight rod (201). A first locking hole (204) and a second locking hole (205) adapted to the pin (206) are provided at both ends of the telescopic sleeve (203).
3. The IoT tag information collection device according to claim 2, characterized in that: The elastic locking pin (202) includes a pin that slides on the end of the handle (101), and a fourth spring is wound around the surface of the pin. The two ends of the fourth spring are fixedly connected to the handle (101) and the pin, respectively. The straight rod (201) has a slot adapted to the pin at a position where it is folded 90° relative to the handle (101).
4. The IoT tag information collection device according to claim 2, characterized in that: The straight rod (201) has a movable groove adapted to the pin (206), and the pin (206) can slide in the movable groove of the straight rod (201).
5. The IoT tag information collection device according to claim 2, characterized in that: The locking component (3) includes a sliding groove opened at one end of the handle (101) near the collector (102), and a first locking block (302) slides in the sliding groove. A second spring (301) is fixed between the first locking block (302) and the handle (101). A socket (303) adapted to the first locking block (302) is fixedly installed at one end of the telescopic sleeve (203). A toggle lever (304) is fixedly installed on one side of the first locking block (302). The handle (101) has a rectangular opening adapted to the toggle lever (304). The toggle lever (304) can slide in the rectangular opening of the handle (101).
6. The IoT tag information collection device according to claim 1, characterized in that: The base support mechanism (4) includes a base plate (401) that can be placed on a table. A plug (402) is fixedly installed on the upper surface of the base plate (401). A second locking block (404) slides on both sides of the plug (402). A third spring (403) is fixed between the second locking block (404) and the plug (402). The plug (402) is adapted to the socket (303). The socket (303) has locking slots (405) on both sides that are adapted to the second locking block (404).
7. The IoT tag information collection device according to claim 6, characterized in that: The second locking block (404) has a gradient on one side edge surface, and the insert block (402) has an active groove adapted to the second locking block (404), so that the second locking block (404) can slide in the active groove of the insert block (402).