A reusable UHF RFID tag packaging structure

By designing a reusable UHF RFID tag packaging structure, batch reprogramming and multiple reuse of tags were achieved, solving the problems of reuse frequency and efficiency in existing technologies, realizing the effect of batch reuse of tags, and solving the problem that the structural design of existing technologies does not support batch rewriting of chip information.

CN224436912UActive Publication Date: 2026-06-30恩赫图尔杜尔·图格杜尔 +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
恩赫图尔杜尔·图格杜尔
Filing Date
2025-06-26
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing UHF RFID tags have a limited number of reuses, and their structural design does not support batch rewriting of chip information, making it difficult to meet the application scenarios that require high-frequency information updates.

Method used

A reusable UHF RFID tag packaging structure was designed, including a packaging shell and connectors. Multiple packaging shells are connected in series through the design of slide rails and locking slots, which supports batch reprogramming and tag reuse.

Benefits of technology

It simplifies the label reuse process, significantly improves coding efficiency, expands the number of times labels can be reused, and ensures operational accuracy during batch processing.

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Abstract

This invention provides a reusable UHF RFID tag packaging structure, comprising: a packaging shell, wherein the packaging shell has an embedded mounting portion for accommodating the UHF RFID tag; extended connecting plates on both sides of the packaging shell; and a connector, wherein the connector has two sets of parallel slots. When multiple packaging shells are connected in series, the connector extends below the connecting plates on adjacent packaging shells, and the connecting plates on adjacent packaging shells engage with different slots. This invention simplifies the traditional reuse process of disposable tags through the design of the packaging structure, enabling batch reprogramming of tags and significantly improving coding efficiency. Compared to the limitation of existing technologies that can only be reused 5-6 times, this invention extends the number of times tags can be reused.
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Description

Technical Field

[0001] This utility model belongs to the field of identification tag technology, and in particular relates to a reusable ultra-high frequency radio frequency identification tag packaging structure. Background Technology

[0002] With the rapid development of IoT technology, ultra-high frequency radio frequency identification (UHF RFID) technology has been widely used in logistics tracking, asset management, and production control due to its advantages such as long-range identification, high-speed reading, and large-capacity storage. As a core component of this technology, the design and packaging structure of UHF RFID tags directly affect the system's performance and application effectiveness.

[0003] However, existing UHF RFID tag technology still has some significant shortcomings. First, although some tags can be reused 5-6 times, re-encoding or modifying the microchip code of an already affixed tag requires performing operations item by item, which is inefficient and time-consuming. Second, the number of times existing tags can be reused is limited, and their structural design generally does not support batch rewriting of chip information, making it difficult to meet the application scenarios requiring high-frequency information updates. Utility Model Content

[0004] This invention provides a reusable UHF RFID tag packaging structure, aiming to solve the problems of current structural designs generally not supporting batch rewriting of chip information and low reuse efficiency.

[0005] This invention is implemented as follows: a reusable ultra-high frequency radio frequency identification tag packaging structure, comprising:

[0006] The packaging housing has an embedded mounting portion for accommodating an ultra-high frequency radio frequency identification tag; the packaging housing has extended connecting plates on both sides;

[0007] The connector has two sets of parallel slots. When multiple sets of packaging shells are connected in series, the connector extends to the bottom of the connecting plate on the adjacent packaging shell. The connecting plate on the adjacent packaging shell engages with different slots.

[0008] Preferably, the connecting plate is provided with a slide rail, and the two ends of the slide rail are respectively provided with end blocks and locking members, forming a connection area between the end blocks and the locking members, and the connecting member is provided with two sets of parallel sliding grooves;

[0009] When multiple sets of packaging shells are connected in series, the connectors extend into the connection areas provided on adjacent packaging shells, and the slide rails on different packaging shells slide into two sets of parallel slide grooves respectively.

[0010] Preferably, the locking member is located on the side of the connection area away from the end block. The connecting member slides into the slide rail from the side of the connection area away from the end block via a sliding groove. When the connecting member abuts against the end block, the locking member engages with the transverse locking groove provided on the connection plate.

[0011] Preferably, the locking member has several sets of parallel protruding blocks, which are adapted to the transverse locking groove and are engaged with the locking groove.

[0012] Preferably, the locking groove is perpendicular to the sliding groove.

[0013] Preferably, when multiple sets of packaging shells are connected in series, adjacent packaging shells are connected by connectors to form a gap, the width of which is 12mm.

[0014] Preferably, the embedded mounting portion is in the shape of a rectangular groove, and the embedded mounting portion is disposed at the center of the packaging shell.

[0015] Compared with the prior art, the embodiments of this application have the following main advantages:

[0016] The reusable UHF RFID tag packaging structure provided by this utility model simplifies the reuse process of traditional disposable tags through the design of the packaging structure, realizes batch reprogramming of tags, and significantly improves coding efficiency; compared with the limitation of existing technologies that can only be reused 5-6 times, this utility model extends the number of times the tag can be reused. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of a reusable ultra-high frequency radio frequency identification tag packaging structure provided by this utility model.

[0018] Figure 2 This is a schematic diagram of the encapsulation shell and connector structure of a reusable ultra-high frequency radio frequency identification tag encapsulation structure provided by this utility model.

[0019] Figure 3 This is a schematic diagram of the connection structure between adjacent packaging shells of a reusable ultra-high frequency radio frequency identification tag packaging structure provided by this utility model.

[0020] Figure 4 This is a schematic diagram of the encapsulation shell in a reusable ultra-high frequency radio frequency identification tag encapsulation structure provided by this utility model.

[0021] Figure 5 This is a schematic diagram of the locking component structure of a reusable ultra-high frequency radio frequency identification tag packaging structure provided by this utility model.

[0022] Figure 6 This utility model provides a schematic diagram of the engraving process of a reusable ultra-high frequency radio frequency identification tag encapsulation structure encapsulation device for encapsulating multiple encapsulation shells.

[0023] Explanation of reference numerals in the attached figures:

[0024] 100. Encapsulation housing; 101. Embedded mounting part; 102. Connection area; 110. End block; 120. Slide rail; 130. Lateral locking groove; 200. Connector; 201. Slide groove; 300. Recording device; 400. Locking element. Detailed Implementation

[0025] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein in the specification of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application; the terms "comprising" and "having," and any variations thereof, in the specification, claims, and foregoing drawings of this application are intended to cover non-exclusive inclusion. The terms "first," "second," etc., in the specification, claims, or foregoing drawings of this application are used to distinguish different objects, not to describe a particular order.

[0026] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0027] This utility model embodiment provides a reusable UHF RFID tag packaging structure, such as Figures 1-6 As shown, the reusable UHF RFID tag packaging structure includes:

[0028] The encapsulation housing 100 has an embedded mounting portion 101 for accommodating UHF RFID tags. The embedded mounting portion 101 is a rectangular groove located at the center of the encapsulation housing 100. The embedded mounting portion 101 has a depth of 1.2 mm, a length of 35 mm, and a width of 20 mm, matching the size of standard UHF RFID tags. The bottom of the groove has micro-anti-slip textures to increase friction between the tag and the encapsulation structure, preventing tag displacement during use. The bottom of the embedded mounting portion 101 also has an adhesive part made of reusable silicone material, covering the bottom of the groove. This adhesive part is 0.3 mm thick, providing good adhesion and washability, allowing the tag to be removed and re-attached multiple times without damaging the tag or reducing adhesion.

[0029] The encapsulation housing 100 is symmetrically provided with connecting components on both sides. The connecting components are specifically extended connecting plates. The thickness of the connecting plates is only half that of the encapsulation housing 100. The connecting plates are provided with slide rails 120 and locking grooves 130. The locking grooves 130 and slide rails 120 are designed perpendicularly. The slide rails 120 are provided with end blocks 110 and locking members 400 at both ends. The end blocks 110 and the connecting plates are integrally formed. The locking members 400 engage with the locking grooves 130. The area between the end blocks 110 and the locking members 400 forms a connecting area 102.

[0030] The connector 200 has two sets of parallel sliding grooves 201. When multiple sets of encapsulation shells 100 are connected in series, the connector 200 extends into the connection area 102 on the adjacent encapsulation shells 100. The slide rails 120 on different encapsulation shells 100 slide into the two sets of parallel sliding grooves 201 respectively. During the assembly process, the locking member 400 is first pulled out from the locking groove 130. After the connector 200 completes the sliding engagement connection with the help of the slide rails 120 and the sliding grooves 201, the locking member 400 engages with the locking groove 130 to close the side of the connector 200 away from the end block 110, preventing the connector 200 from shifting and causing the encapsulation shells 100 to lose linear connection. It should be noted that when multiple sets of encapsulation shells 100 are connected in series, adjacent encapsulation shells 100 are connected by the connector 200 and form a gap with a width of 12mm to facilitate identification by the recording device.

[0031] In this embodiment, the embedded mounting part 101 is used for pasting UHF RFID tags. Information is entered using a recording device 300, such as a standard RFID printer or code reprogramming device. During the recording process, the encapsulation shell 100 forms a linear structure in series, allowing for traction printing similar to ordinary label printing. The encapsulation shell 100 itself can be disassembled and used independently. After the UHF RFID tag is pasted, it does not need to be removed and can be reused along with the encapsulation shell 100. The encapsulation shell 100 can be disassembled and separated for product identification. After identification, it can be reconnected in series and entered again using the recording device 300, thereby increasing the number of times the UHF RFID tag can be reused. Through the design of the encapsulation structure, the reuse process of traditional disposable tags is simplified, batch reprogramming of tags is realized, and coding efficiency is significantly improved. Compared with the limitation of only 5-6 reuses in the prior art, this utility model expands the number of times the tag can be reused. Furthermore, through the rollable design and the uniform tag spacing, the operational accuracy in the batch processing process is ensured.

[0032] The enclosure 100 can be fixed to the product by using cable ties or other rope structures through the rope holes provided on the enclosure 100, or by using double-sided adhesive.

[0033] In a preferred embodiment of this invention, the locking member 400 is disposed on the side of the connection area 102 away from the end block 110. The locking member 400 has several sets of parallel protruding blocks, which are adapted to the transverse locking groove 130 and are engaged with the locking groove 130.

[0034] In this embodiment, the locking member 400 engages after the connector 200 completes its sliding docking. Typically, the connector 200 is pushed into the connection area 102 from the side of the slide rail 120 away from the end block 110; for example... Figure 5 As shown, the locking member 400 engages with the locking groove 130 by pushing the locking member 400 into the horizontal locking groove 130 in a manner perpendicular to the plane of the encapsulation housing 100. Figure 5 The direction of the middle arrow indicates the direction of movement of the locking component 400 during the locking process. In order to facilitate the removal of the locking component 400, the side wall will have a corresponding recessed area to facilitate prying during removal.

[0035] It should be noted that, for the sake of simplicity, the foregoing embodiments are all described as a series of actions. However, those skilled in the art should understand that the present invention is not limited to the described order of actions, as some steps may be performed in other orders or simultaneously according to the present invention. Furthermore, those skilled in the art should also understand that the embodiments described in the specification are preferred embodiments, and the actions and modules involved are not necessarily essential to the present invention.

[0036] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit the scope of protection of this utility model. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on these embodiments, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model. Although this utility model has been described in detail with reference to the above embodiments, those skilled in the art can still combine, add, delete, or otherwise adjust the features of the various embodiments of this utility model according to the circumstances without conflict or creative effort, thereby obtaining different technical solutions that do not fundamentally depart from the concept of this utility model. These technical solutions are also within the scope of protection of this utility model.

Claims

1. A reusable ultra-high frequency radio frequency identification tag packaging structure, characterized in that, include: The packaging housing has an embedded mounting portion for accommodating an ultra-high frequency radio frequency identification tag; the packaging housing has extended connecting plates on both sides; The connector has two sets of parallel slots. When multiple sets of packaging shells are connected in series, the connector extends to the bottom of the connecting plate on the adjacent packaging shell. The connecting plate on the adjacent packaging shell engages with different slots.

2. The reusable UHF RFID tag packaging structure as described in claim 1, characterized in that, The connecting plate is provided with a slide rail, and the two ends of the slide rail are respectively provided with end blocks and locking components. A connection area is formed between the end blocks and the locking components. The connecting component is provided with two sets of parallel sliding grooves. When multiple sets of packaging shells are connected in series, the connectors extend into the connection areas provided on adjacent packaging shells, and the slide rails on different packaging shells slide into two sets of parallel slide grooves respectively.

3. The reusable UHF RFID tag packaging structure as described in claim 2, characterized in that, The locking member is located on the side of the connection area away from the end block. The connecting member slides into the slide rail from the side of the connection area away from the end block via a slide groove. When the connecting member abuts against the end block, the locking member engages with the transverse locking groove provided on the connection plate.

4. The reusable UHF RFID tag packaging structure as described in claim 3, characterized in that, The locking component has several sets of parallel protruding blocks, which are adapted to the transverse locking groove and are engaged with the locking groove.

5. The reusable UHF RFID tag packaging structure as described in claim 4, characterized in that, The locking groove is perpendicular to the sliding groove.

6. The reusable UHF RFID tag packaging structure as described in claim 5, characterized in that, When multiple packages are connected in series, adjacent packages are connected by connectors to form a gap with a width of 12mm.

7. The reusable UHF RFID tag packaging structure as described in claim 6, characterized in that, The embedded mounting portion is in the shape of a rectangular groove and is located in the center of the packaging shell.