CN210988562U - Integrated RFID intelligent ring - Google Patents

Abstract

The utility model discloses an integral type RFID intelligence ring, it includes the ring body and sets up in the inside electronic tags of ring body, and the ring body includes first annular body and second annular body. The ring body is an integrated piece obtained by injection molding the second annular body on the first annular body, an opening of the first accommodating groove is formed in one side, close to the second annular body, of the first annular body, and at least one part of the electronic tag is located in the first accommodating groove. The utility model discloses an inside integral type RFID intelligence ring inlayed electronic chip and located the ring through the technology that the secondary was moulded plastics, its whole course of working easily realized automaticly, and it need not to dig on the ring and establishes electronic chip holding tank for the processing cost of RFID intelligence ring reduces by a wide margin, and machining efficiency is higher.

Description

Integrated RFID intelligent ring

Technical Field

The utility model relates to an electronic tags technical field, concretely relates to integral type RFID intelligence ring.

Background

The RFID intelligent ring is arranged on the ring through the electronic tag with the RFID function, so that a user can conveniently wear the RFID intelligent ring on a finger, and the RFID intelligent ring is widely applied to various aspects of life of people due to small and exquisite structure.

However, the processing method of the existing intelligent finger ring is mainly to dig a hole structure on the finger ring body at first and then embed the electronic tag in the finger ring body, so that the processing efficiency of the existing intelligent finger ring is extremely low, large-scale and automatic production is difficult to realize, and the processing cost is usually as high as dozens of yuan. Moreover, along with the extension of the service life, the electronic tag is easy to fall off from the ring, so that the waste of the ring body is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an integral type RFID intelligence ring, it utilizes secondary injection molding process to process and has realized the integral structure of ring, and it easily realizes large-scale production to the processing cost who makes the ring reduces by a wide margin.

The utility model discloses an integral type RFID intelligence ring includes the ring body and inlays to be located the inside electronic tags of ring body, the ring body includes first ring body and second ring body, the ring body is through inciting somebody to action the second ring body mould plastics in an organic whole piece that obtains behind the first ring body the being close to of first ring body at least some regions of second ring body are provided with first holding tank, the opening of first holding tank set up in being close to of first ring body one side of second ring body, at least some of electronic tags is located in the first holding tank. The utility model discloses an intelligence ring is after arranging electronic tags in first ring body in advance, moulds plastics the second ring body secondary on first ring body again, therefore can realize the rapid prototyping of ring body, adopts the processing mode of moulding plastics, makes the utility model discloses an automatic and the processing of batchization of easily realizing of intelligence ring.

Further, the first accommodating groove is arc-shaped, and a convex surface of the first accommodating groove is positioned on one side away from the fingers of the wearer. Therefore, first holding tank can carry out suitable deformation along with wearer's finger, and can not destroy electronic tags at the process of deformation.

Furthermore, the width of the first ring-shaped body is greater than the width of the second ring-shaped body, and the electronic tag is entirely located in the first accommodating groove. Therefore, when the second ring body and the first ring body are integrally injection-molded, the second ring body does not interfere with or collide with the electronic tag.

Furthermore, a second accommodating groove is formed in the second annular body opposite to the first accommodating groove, and at least a part of the electronic tag is located in the second accommodating groove. Therefore, the electronic tag in the finally obtained intelligent ring is located in the middle of the ring body, so that when the ring deforms, the electronic tag is stressed more uniformly, and the structural stability is good.

Further, the outer diameter of the ring body gradually increases from a side of the first annular body remote from the second annular body to a side of the second annular body remote from the first annular body. Therefore, the inclined surface is formed on the outer surface of the ring body, and when the finished ring needs to be demolded after the ring is processed, the finished ring can be ejected outwards from one side of the first annular body to one side of the second annular body, so that the ring can be demolded easily.

Furthermore, the width of the ring body in the area provided with the first accommodating groove is larger than the width of the area of the ring body except the area provided with the first accommodating groove.

Furthermore, the electronic tag comprises a flexible PCB circuit board and a chip arranged on the PCB circuit board.

Furthermore, the ring body is a plastic ring body, a rubber ring body or a silica gel ring body. Therefore, the ring of the utility model has enough elasticity and toughness.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment;

FIG. 2 is a schematic structural view of the first annular body and the second annular body of the first embodiment when they are separated from each other;

fig. 3 is a schematic structural diagram of the second embodiment of the electronic tag inserted in the first ring body;

FIG. 4 is a schematic structural view of a second ring member according to a second embodiment;

fig. 5 is a schematic perspective view of the second embodiment.

In the figure:

the ring comprises a ring body 1, an electronic tag 2, a first ring body 11, a first accommodating groove 111, a second ring body 12 and a second accommodating groove 121.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

The first embodiment is as follows:

referring to fig. 1 and 2, the integrated RFID smart ring of the present embodiment includes a ring body 1 and an electronic tag 2 disposed inside the ring body 1, where the ring body 1 includes a first ring body 11 and a second ring body 12, the second ring body 12 is connected to an edge of the first ring body 11, and the second ring body 12 is disposed concentrically with the first ring body 11. The utility model discloses a material of ring body 1 can be selected from silica gel, rubber or plastics material, preferably TPU (thermoplastic polyurethane elastomer rubber), therefore can ensure that ring body 1 has sufficient toughness and elasticity, can ensure that the ring possesses certain deformability when using, can play the guard action to ring body 1 inside electronic tags 2 again.

An arc-shaped first accommodating groove 111 is formed in one side of the first ring-shaped body 11 close to the second ring-shaped body 12, the bending direction of the first accommodating groove 111 is the same as the bending radian direction of the finger of the wearer, and the electronic tag 2 is located in the first accommodating groove 111, so that the first accommodating groove 111 can deform along with the shape of the finger when the ring is worn on the finger. Preferably, the curvature of the first receiving groove 111 is identical to the curvature of the outer surface of the first annular body 11. The utility model discloses an electronic tags 2 includes flexible PCB circuit board and sets up the chip on the PCB circuit board. The PCB circuit board in this embodiment is a flexible PCB circuit board, and the chip model of the electronic tag 2 in this embodiment is MONZA3, which may also be a MIARE chip or an NTAG chip. Therefore, the utility model discloses a ring can carry out suitable deformation along with wearer's finger, and can not cause the influence to electronic chip 2's structure at ring deformation in-process.

The integrated RFID intelligent ring of the embodiment is processed by the following steps: first, the first annular body 11 is injection-molded, after the first annular body 11 is injection-molded, the electronic tag 2 is correspondingly placed in the first accommodation groove 111, and then the second annular body 12 is injection-molded integrally with the first annular body 11 on the side of the first annular body 11 close to the second annular body 12. Thereby obtaining the integrated RFID intelligent ring. The utility model discloses a first ring body 11 and second ring body 12 all adopt the TPU material to mould plastics and come, therefore ensure that the ring that obtains has good toughness and elasticity concurrently.

In the embodiment, the width of the first ring body 11 is greater than the width of the second ring body 12, and the electronic tag 2 is entirely located in the first accommodating groove 111. Therefore, when the second ring body 12 and the first ring body 11 are integrally injection-molded, they do not collide with the electronic tag 2.

The width of the ring body 1 in the area of the integrated RFID intelligent ring provided with the first accommodating groove 111 in the embodiment is larger than the width of other areas of the ring body 1. That is, the width of the ring body 1 in the region where the electronic chip 2 is arranged is widest, so that the electronic chip 2 can be protected, and the material consumption of the ring body 1 can be reduced to the greatest extent.

In a preferred embodiment of the present invention, the outer diameter of the ring body 1 gradually increases from the side of the first annular body 11 remote from the second annular body 12 to the side of the second annular body 12 remote from the first annular body 11. Therefore, when the finished ring needs to be demolded after the injection molding of the second annular body 12 is completed, the finished ring can be easily demolded by ejecting the finished ring from the first annular body 11 side to the second annular body 12 side.

Example two:

referring to fig. 3 and 4, the present embodiment is different from the first embodiment in that a second receiving groove 121 is disposed on the second annular body 12 opposite to the first receiving groove 111, a part of the electronic tag 2 is located in the second receiving groove 121, and a part of the electronic tag is located in the first receiving groove 111, that is, the electronic tag is separately disposed in the first annular body 11 and the second annular body 12. As a preferred embodiment of this embodiment, the distance between the electronic tag 2 and the side surfaces of the first ring body 11 and the second ring body 12 is equal, that is, the electronic tag 2 is located in the middle region of the ring, so that the structure of the ring is more stable, and the electronic tag 2 is not easily damaged.

The ring body 1 in this embodiment may be configured in such a manner that the width of the region where the electronic tag 2 is disposed is greater than the widths of the other regions in the first embodiment, or may be configured in such a manner that the widths of the regions of the ring body 1 are the same in the manner of fig. 5, so that the ring is more convenient to process.

The utility model discloses an inside integral type RFID intelligence ring inlayed electronic chip and located the ring through the technology that the secondary was moulded plastics, its whole course of working easily realized automaticly, and it need not to dig on the ring and establishes electronic chip holding tank for the processing cost of RFID intelligence ring reduces by a wide margin, and machining efficiency is higher.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (8)

1. The integrated RFID intelligent ring comprises a ring body and an electronic tag embedded in the ring body, and is characterized in that the ring body comprises a first annular body and a second annular body, the ring body is an integrated piece obtained by injection molding of the second annular body on the first annular body, a first accommodating groove is formed in at least one part of the first annular body, which is close to the second annular body, an opening of the first accommodating groove is formed in one side, which is close to the second annular body, of the first annular body, and at least one part of the electronic tag is located in the first accommodating groove.

2. The integrated RFID smart ring of claim 1, wherein the first receiving groove is arc-shaped, and a convex surface of the first receiving groove is located on a side away from the wearer's finger.

3. The integrated RFID smart ring of claim 2, wherein the width of the first ring is greater than the width of the second ring, and the electronic tag is entirely located within the first receiving slot.

4. The integrated RFID smart ring of claim 2, wherein a second receiving slot is disposed on the second annular body opposite the first receiving slot, at least a portion of the electronic tag being located within the second receiving slot.

5. The integrated RFID smart ring of any one of claims 1-4, wherein the outer diameter of the ring body gradually increases from a side of the first ring distal from the second ring to a side of the second ring distal from the first ring.

6. The integrated RFID smart ring of any one of claims 1-4, wherein the width of the ring body in the area where the first receiving groove is provided is greater than the width of the ring body in areas other than the area where the first receiving groove is provided.

7. The integrated RFID smart ring of any one of claims 1-4, wherein the electronic tag includes a flexible PCB circuit board and a chip disposed on the PCB circuit board.

8. The integrated RFID smart ring according to any one of claims 1 to 4, wherein the ring body is a plastic ring body, a rubber ring body, or a silica ring body.

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