CN217305865U - Ultrahigh-frequency flexible electronic tag resistant to high temperature, acid and alkali - Google Patents

Abstract

The utility model provides a high temperature resistant acid-base ultrahigh frequency flexible electronic label, which comprises an INLAY electronic label, an upper protective film layer, a lower protective film layer, a non-setting adhesive sticking layer, a buffer layer and a silicon oil paper layer; the lower part of INLAY electronic tags is equipped with down the protection rete, be provided with the buffer layer between the inner wall of INLAY electronic tags and lower protection rete, the lower surface of lower protection rete is provided with the non-setting adhesive and pastes the layer, the lower surface that the layer was pasted to the non-setting adhesive is provided with the silicon oil ply, the upper portion of INLAY electronic tags is equipped with the non-setting adhesive and pastes the layer, the non-setting adhesive is pasted layer upper portion and is equipped with the protection rete. The utility model discloses can be high temperature resistant, acid and alkali-resistance corruption, high pressure resistant, and ultra-thin, flexible, make up on cloth, realize cloth and electronic tags information binding for track and management.

Description

Ultrahigh-frequency flexible electronic tag resistant to high temperature, acid and alkali

Technical Field

The utility model relates to an electronic tags technical field specifically is a flexible electronic tags of hyperfrequency of high temperature resistant acid and alkali.

Background

From the grey cloth to the finished cloth, a series of processes of preparing the blank, loosening the cloth, sewing the head, presetting, dyeing, dehydrating, scutching, finishing, inspecting the cloth, weighing, packaging, warehousing and the like are required. The existing production conditions lack effective marks for the process or are mostly artificially recorded, and the tracking and management of the whole process cannot be well realized, so that an electronic tag similar to an identity card is urgently needed to be found for recording information. Because the whole production process has relatively complex environment, especially two steps of dyeing and finishing, the dyeing process needs to be treated by a dye vat and a setting machine for a long time, and the common electronic tag cannot normally work under the environment of high temperature, high pressure and acid-base corrosion.

Dye vat is the equipment mainly responsible for dyeing. In the dyeing process, the dye vat is usually a complex environment with pH 4 to 10, temperature of about 130 ℃ and pressure of about 3 KPa. The grey cloth needs to rotate continuously in the dye vat for about 30 hours to complete dyeing.

The setting machine is a device for finishing setting in the post-finishing step. The working temperature of the setting machine is about 200 ℃, and the cloth needs to be set for 3 minutes under the high-temperature action of the setting machine. The cloth also needs to be pressed in the setting machine.

The existing production process lacks effective marks in dyeing and forming processes, cannot realize tracking and management of the whole process, and urgently needs to find a way to record cloth information. The traditional marking modes such as bar codes and the like cannot achieve the purpose in the special working environment of the dye vat and the setting machine.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough among the above-mentioned prior art is directed against, provided a high temperature resistant acid and alkali's flexible electronic tags of hyperfrequency, high temperature resistant acid and alkali's flexible electronic tags of hyperfrequency has simple structure, modern design, low in cost and characteristics that the practicality is strong.

The utility model provides a technical scheme that its technical problem adopted is:

a high-temperature acid-base resistant ultrahigh-frequency flexible electronic tag comprises an INLAY electronic tag, an upper protective film layer, a lower protective film layer, a non-setting adhesive sticking layer, a buffer layer and a silicone oil paper layer; the lower part of INLAY electronic tags is equipped with down the protection rete, be provided with the buffer layer between the inner wall of INLAY electronic tags and lower protection rete, the lower surface of lower protection rete is provided with the non-setting adhesive and pastes the layer, the lower surface that the layer was pasted to the non-setting adhesive is provided with the silicon oil ply, the upper portion of INLAY electronic tags is equipped with the non-setting adhesive and pastes the layer, the non-setting adhesive is pasted layer upper portion and is equipped with the protection rete.

Furthermore, the upper protective film layer and the lower protective film layer are made of high-temperature-resistant silicon rubber.

Furthermore, the buffer layer comprises a plurality of rubber piece, and a plurality of rubber piece evenly sets up the lower surface at INLAY electronic tags.

The buffer layer can play the cushioning shock attenuation effect to INLAY electronic tags.

Furthermore, the adhesive sticker sticking layer adopts transparent PET double-sided coating acrylic acid glue.

The adhesive sticker adhesive layer is formed by coating transparent PET (polyethylene terephthalate) with acrylic acid adhesive on two sides, has good dimensional stability, thermal stability, chemical stability and moisture resistance, does not wrinkle under the condition of high temperature and humidity, and can be suitable for wider temperature range and severe environment.

The electronic tag is sewn on the cloth after the input information is recorded, can be regarded as binding the corresponding cloth, and moves along with the cloth to complete the whole production process from blank preparation to warehousing. In the whole process, the information stored in the electronic tag can be acquired through the ultrahigh frequency RFID reading device for tracking and management.

The INLAY electronic tag is realized by using an ultrahigh frequency RFID chip. The electronic tag is responsible for storing and recording the cloth information and can read the information through the ultrahigh frequency RFID reading equipment.

Compared with the prior art, the utility model has the following advantage:

1. and the ultrahigh frequency RFID wireless technology is adopted, so that the information reading and writing operation is convenient.

2. High temperature resistance, acid and alkali resistance and high pressure resistance, and can still work normally through a complex dye vat environment.

3. Is flexible, can be sewn on cloth and is convenient to use.

4. The ultra-thin (the thickness is less than 0.5mm) can not be damaged in the shaping and pressing process.

Drawings

Fig. 1 is an overall structure diagram of the present invention.

Wherein, the electronic label comprises 1-INLAY electronic label, 2-upper protective film layer, 3-lower protective film layer, 4-adhesive sticker adhesive layer, 5-buffer layer and 6-silicone paper layer.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings and examples:

it should be noted that the structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy that the present invention can produce and the purpose that the present invention can achieve.

In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are used for clarity of description only, and are not used to limit the scope of the present invention, and the relative relationship between the terms may be changed or adjusted without substantial technical changes.

A high-temperature acid-base resistant ultrahigh-frequency flexible electronic tag comprises an INLAY electronic tag 1, an upper protective film layer 2, a lower protective film layer 3, a non-setting adhesive sticking layer 4, a buffer layer 5 and a silicone oil paper layer 6; the lower part of INLAY electronic tags 1 is equipped with down protection film layer 3, be provided with buffer layer 5 between INLAY electronic tags 1 and the inner wall of lower protection film layer 3, the lower surface of lower protection film layer 3 is provided with the non-setting adhesive and pastes layer 4, the lower surface that layer 4 was pasted to the non-setting adhesive is provided with silicon oil paper layer 6, the upper portion of INLAY electronic tags 1 is equipped with the non-setting adhesive and pastes layer 4, 4 upper portions that layer 2 was pasted to the non-setting adhesive are equipped with upper protection film layer.

Specifically, the upper protective film layer 2 and the lower protective film layer 3 are made of high-temperature-resistant silicon rubber.

Specifically, buffer layer 5 comprises a plurality of block rubber, and a plurality of block rubber evenly sets up the lower surface at INLAY electronic tags 1.

The buffer layer can play the cushioning effect to INLAY electronic tags.

Specifically, the adhesive sticker sticking layer 4 is made of transparent PET double-sided coated acrylic acid adhesive.

The adhesive sticker sticking layer adopts transparent PET double-sided coated acrylic acid glue, has good dimensional stability, thermal stability, chemical stability and moisture resistance, does not wrinkle under the condition of high temperature and humidity, and can be suitable for wider temperature range and severe environment.

Referring to fig. 1, fig. 1 illustrates the overall structure of the present invention, which includes an INLAY electronic tag 1, an upper protective film layer 2, a lower protective film layer 3, an adhesive sticker layer 4, a buffer layer 5 and a silicone oil paper layer 6; the lower part of INLAY electronic tags 1 is equipped with down protection film layer 3, be provided with buffer layer 5 between INLAY electronic tags 1 and the inner wall of lower protection film layer 3, the lower surface of lower protection film layer 3 is provided with the non-setting adhesive and pastes layer 4, the lower surface that layer 4 was pasted to the non-setting adhesive is provided with silicon oil paper layer 6, the upper portion of INLAY electronic tags 1 is equipped with the non-setting adhesive and pastes layer 4, 4 upper portions that layer 2 was pasted to the non-setting adhesive are equipped with upper protection film layer.

The operation principle is as follows: when in use, firstly, the silicone oil paper layer on the surface of the adhesive sticker sticking layer is torn off, the electronic tag is stuck on the surface of a piece of cloth, the upper protective film layer and the lower protective film layer made of high-temperature resistant silicone rubber materials are used, the pH value of the acid and alkali in a dye vat is usually 4-10, the temperature is about 130 ℃, the pressure is about 3KPa in a complex environment, the gray cloth needs to continuously rotate for about 30 hours in the dye vat to complete dyeing, the working temperature of the setting machine is about 200 ℃, the piece of cloth needs to be set for 3 minutes under the high-temperature action of the setting machine, the piece of cloth also needs to be subjected to pressing treatment in the setting machine, the adhesive sticker sticking layer coated with acrylic acid glue on both sides by transparent PET has good size stability, thermal stability, chemical stability and moisture resistance, can not generate wrinkles under the high-humidity condition, can be suitable for a wider temperature range and severe environment, and is provided with a buffer layer consisting of rubber blocks, the electronic tag can play a role in buffering and damping the INLAY electronic tag, and the protection effect of the electronic tag is improved.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.

Many other changes and modifications may be made without departing from the spirit and scope of the invention. It is to be understood that the invention is not to be limited to the specific embodiments, and that the scope of the invention is defined by the appended claims.

Claims (4)

1. The high-temperature acid-base resistant ultrahigh frequency flexible electronic tag is characterized in that: comprises an INLAY electronic tag (1), an upper protective film layer (2), a lower protective film layer (3), a non-setting adhesive sticking layer (4), a buffer layer (5) and a silicone oil paper layer (6); the lower part of INLAY electronic tags (1) is equipped with down protective film layer (3), be provided with buffer layer (5) between the inner wall of INLAY electronic tags (1) and lower protective film layer (3), the lower surface of lower protective film layer (3) is provided with the non-setting adhesive and pastes layer (4), the lower surface that the layer (4) was pasted to the non-setting adhesive is provided with silicon oil paper layer (6), the upper portion of INLAY electronic tags (1) is equipped with the non-setting adhesive and pastes layer (4), layer (4) upper portion is pasted to the non-setting adhesive is equipped with protective film layer (2).

2. The ultrahigh frequency flexible electronic tag capable of resisting high temperature acid and alkali as claimed in claim 1, wherein the upper protective film layer (2) and the lower protective film layer (3) are made of high temperature resistant silicone rubber.

3. The UHF flexible electronic tag of claim 1, wherein the buffer layer (5) is composed of a plurality of rubber blocks, and the rubber blocks are uniformly arranged on the lower surface of the INLAY electronic tag (1).

4. The ultrahigh frequency flexible electronic label of claim 1, characterized in that the self-adhesive layer (4) is transparent PET double-coated acrylic adhesive.

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