TW201901531A - Electronic identification tag for use inside carbon fiber article capable of protecting the antenna from breakage and damage and without any adjusting for matching - Google Patents

Abstract

An electronic identification label for use inside a carbon fiber article features a buffering effect to crimping caused by an external force by using a soft rubber elastic layer, so that in a pressure molding process of the carbon fiber article, an antenna provided on an insulating substrate sheet can be protected by the soft rubber elastic layer to achieve an effect of preventing breakage or damage of an antenna loop. Moreover, the antenna may detect a electromagnetic wave signal of a reader end sensed and transmits the signal to a radio frequency chip, or feeds data stored in the radio frequency chip back to the reader for reading, and absorbs and reflects the fixation effect of background value generated from electromagnetic wave signal by using the ferrite absorbing layer, so that the same electronic identification tag can be used inside a variety of carbon fiber articles, and the antenna can be adjusted without corresponding adaptation, thereby reducing the manpower and material cost of development and design of various electronic identification tags.

Description

 Electronic identification tag for use inside carbon fiber objects  

The invention relates to an electronic tag embedded in a carbon fiber article, which can prevent the wire from being damaged by pressure, and can be used in a plurality of carbon fiber articles, and the antenna does not need to be adjusted and adjusted, especially an electronic tag inside the carbon fiber object.

According to the carbon fiber material formed by carbon fiber composite material, it has good mechanical properties such as light weight, strong rigidity, high temperature resistance, corrosion resistance, fatigue resistance and crack resistance. It has been widely used in aerospace, sports equipment supplies, medical equipment, etc. field. Carbon fiber articles in various fields are generally regarded as valuable commodities based on factors such as high cost of carbon fiber composites. In order to introduce the production and marketing channels of carbon fiber articles into electronic management or to achieve anti-counterfeiting and anti-theft of goods, the use of electronic tag identification in carbon fiber articles has become a trend in product development in recent years, and electronic tags are embedded in carbon fibers. The inside of the object is the mainstream of technology development; for example, No. I499534 "Carbon fiber bicycle frame and bicycle" Taiwan invention patent case, embedded in the carbon fiber frame tube body with RFID tags, and through the electrically independent wires through the tube Body, although the reader can avoid the carbon fiber tube (the conductive material) affects the communication quality of the RFID tag, and normally reads the information stored in the electronic tag, but the electrically independent wire is from The inside of the pipe body pierces the pipe wall, which causes damage to the strength of the pipe body. It is not an ideal technical solution. Another example is the carbon fiber device with low frequency radio frequency identification device in M463874. The new Taiwan patent case is formed in carbon fiber object. a process of placing a radio frequency identification (RFID tag) between the first and second cladding layers of carbon fiber cloth, and in the carbon fiber After the hot press forming, the radio frequency identifier is buried inside the carbon fiber object, and the information stored in the radio frequency identifier can be read from the outer surface of the carbon fiber object by the reading device. Although the technical solution does not exist, the wire is worn from inside the carbon fiber object. The problem of the strength of the force is affected, but the conventional RFID tag structure for soldering the radio frequency chip is simply provided on the substrate and the antenna pad and the two ends of the antenna circuit (pad pad). In the hot press forming of carbon fiber articles, it is difficult to avoid the extrusion of the coating layer, and the antenna line is broken or damaged, which affects the yield of the object production. Moreover, the material used in the carbon fiber object itself is electrically conductive, and is read. The electromagnetic wave signal of the device communication may cause influence or interference. The usual method is to adjust the background value of the antenna according to the location of the radio frequency identification device, and adjust or design the antenna according to the adaptation. Affects communication quality, even if the antenna is adjusted or designed to be well matched, the same RFID reader is in a variety of other carbon fibers The internal embedding of the object is difficult to be universal due to the change or difference of the background value of the electric field induction field effect. Each carbon fiber object has the result of its dedicated radio frequency identification device, which is bound to greatly affect the development, design and production of the radio frequency identification device. The human and financial burden, even the same RFID reader is used for the inside of the predetermined carbon fiber object, and it is often possible that the high frequency deviation occurs due to the error of the buried position, which affects the reading effect.

The main object of the present invention is to provide an electronic identification tag for use in a carbon fiber article, which is an electronic identification tag comprising an insulating substrate sheet, a radio frequency chip, a ferrite absorbing layer and a soft elastic layer; The insulating substrate sheet is a geometric sheet formed of an insulating material, and at least one end surface is provided with an antenna, and the antenna is a rewinding metal film antenna, and the ends of the rewinding circuit have an anti-solder hole. Both sides of the solder mask hole have a soldering point as a pad; the two poles of the radio frequency chip are electrically connected to the soldering point (pad Pad) of the antenna; the ferromagnetic absorber layer, a sheet formed by a magnetic material of a ferrite system, which is coated on one end surface of the insulating substrate sheet; the soft elastic layer is a sheet formed of an insulating soft elastic material, and is laminated on the insulating substrate On the other end surface of the sheet; in the process of fabricating the carbon fiber object, the electronic identification label is placed between the carbon fiber material coating layers, and the carbon fiber object is thermoformed to hide the electronic identification label Packed inside the carbon fiber object, the reader can read the pre-stored information of the electronic identification tag from the surface of the carbon fiber object for identification; the overall electronic identification tag structure, by the cushioning effect of the elastic elastic layer external force clamping, The carbon fiber article press molding process can protect the antenna on the insulating substrate sheet by the soft rubber elastic layer, thereby preventing the breakage or damage of the antenna loop, and the antenna transmits the signal to the electromagnetic wave signal at the reader end, and transmits the signal. The wireless RF chip, or the data stored in the wireless RF chip is fed back to the reader for reading, and the antenna electromagnetic wave induced field effect background value generated by the absorption and reflection of the electromagnetic wave signal by the ferro-oxygen absorber layer is fixed, so that the same electronic recognition is performed. The label is used inside a variety of carbon fiber objects, and the antenna can be adjusted without corresponding adaptation, reducing the manpower and material cost of development and design of various electronic identification labels.

A second object of the present invention is to provide an electronic identification tag for use in a carbon fiber article, wherein the insulating substrate sheet is a sheet of polyacrylimide (PI) material or epoxy glass fiber (PR4) material. And the antenna is an antenna surface which is formed by etching a metal film coated on the surface of the insulating substrate sheet, so that the soldering prevention groove and the soldering point on the antenna can be easily completed by the line process of the general PC circuit board. Production.

A further object of the present invention is to provide an electronic identification tag for use in the interior of a carbon fiber article, wherein the radio frequency wafer is soldered to a solder pad (pad Pad) of the antenna, and the outer portion is coated with an insulating thermosetting adhesive. The layer can be strengthened by the thermosetting property of the insulating thermosetting layer to weld the radio frequency wafer to the solder joint of the antenna.

Another object of the present invention is to provide an electronic identification tag for use in the interior of a carbon fiber article, wherein an upper surface of the insulating substrate sheet is provided with an antenna, and two corresponding perforations are formed on the upper and lower surfaces of the insulating substrate sheet. The filling solder electrically connects the two antennas above and below, so that the two antennas can fix the background value according to the field effect of the ferrite absorbing layer, and adjust the sensitivity of the electromagnetic wave signal sensing in a large area.

Another object of the present invention is to provide an electronic identification tag for use in a carbon fiber article, wherein the insulating substrate sheet is a flexible insulating sheet, and the ferromagnetic absorbing layer is a ferrite magnetic system. A flexible non-metallic magnetic sheet layer formed by powder composite resin or rubber material, which has flexibility by using an insulating substrate sheet, a ferrite absorbing layer and a soft elastic layer, so that the overall electronic identification label can be curved The flexed state is embedded inside the carbon fiber object of the curved or curved body.

A further object of the present invention is to provide an electronic identification label for use in the interior of a carbon fiber article, wherein the soft elastic layer is a soft sheet layer formed of a silicone material, and the heat-resistant and pressure-resistant characteristics of the silicone material are The hot-press molding process of the carbon fiber article can produce a good protective effect on the antenna on the insulating substrate sheet by the soft cushioning elasticity of the soft rubber elastic layer.

10‧‧‧Electronic identification label

20‧‧‧Insulation substrate sheet

21, 21A‧‧‧ antenna

22‧‧‧solderproof slot

23A, 23B‧‧‧ solder joints

24‧‧‧Insulated thermosetting adhesive

25A, 25B‧‧‧Perforated Department

30‧‧‧RF chip

40‧‧‧ ferrite absorber

50‧‧‧Soft elastic layer

60‧‧‧carbon fiber objects

61A, 61B‧‧‧ coating

Figure 1 is a perspective view of the structure of the present invention

Figure 2 is an exploded perspective view of the structure of the present invention

3 is a schematic diagram of an antenna loop above the insulating substrate sheet of the present invention

Figure 4 is a schematic diagram of an antenna loop under the insulating substrate sheet of the present invention

Figure 5 is a schematic cross-sectional view of the interior of a carbon fiber article of the present invention

Figure 6 is an enlarged schematic view of the structure of Figure 5A

The present invention has been made in view of the above-described objects, and is described in detail with reference to the accompanying drawings, which are described in detail below: an electronic identification label for use inside a carbon fiber article, as shown in FIGS. The RFID tag includes an insulating substrate sheet 20, a radio frequency chip 30 (RFID IC), a ferro-oxygen absorbing layer 40 and a soft elastic layer 50; the insulating substrate sheet 20 is formed of an insulating material. The geometrical (rectangular) sheet is provided with an antenna 21 on at least one end surface thereof. The antenna 21 is a rewinding metal film antenna. The two ends of the rewinding circuit have a solder mask hole 22, and the solder mask hole 22 has two sides. Each having a solder joint 23 as a pad; the two poles of the radio frequency wafer 30 are soldered to the solder joints 23A, 23B (pad Pad) of the antenna 21; the ferromagnetic absorber layer 40, a sheet formed of a ferrite magnetic material, which is coated on one end surface of the insulating substrate sheet 20; the soft elastic layer 50 is an insulating soft elastic material formed sheet, which is laminated on The other end surface of the insulating substrate sheet 20; as shown in Figs. In the process of fabricating the carbon fiber article 60, the electronic identification tag is placed between the carbon fiber material covering layers 61A, 61B, and after the carbon fiber article is hot pressed, the electronic identification tag 10 is hidden and encapsulated inside the carbon fiber object 60, and then the film can be used. A reader (not shown) reads the pre-stored information of the electronic identification tag 10 (radio frequency chip 30) from the surface of the carbon fiber article 60 for identification; as shown in FIGS. 2, 5, and 6, the overall electronic identification tag 10 is structured by soft The cushioning effect of the elastic elastic layer 50 on the external force nip (refer to the pressing force from the carbon fiber material covering layers 61A, 61B), the carbon fiber article 60 is press-molded by the soft rubber elastic layer 50 to the insulating base. The antenna 21 of the material sheet 20 is protected to prevent the breakage or damage of the antenna 21 circuit, and the antenna 21 senses the electromagnetic wave signal of the reader (not shown), transmits the signal to the radio frequency chip 30, or wirelessly The data stored in the RF chip 30 is fed back to the reader for reading, and the electromagnetic wave-sensing field effect background value of the antenna 21 generated by the absorption and reflection of the electromagnetic wave signal by the ferro-oxygen wave absorbing layer 40 is fixed, so that the same Sub identification tag 10 using a plurality of carbon fibers inside the object 60, the antenna 21 may be no need to make adjustments in response to matching, a variety of electronic identification tag 10 to reduce development and design, production of manpower costs.

According to the above embodiment, in FIG. 2, the insulating substrate sheet 20 is a sheet formed of a polyimide or a glass fiber (PR4) material, and the antenna 21 is covered by the laminate. The antenna surface of the surface of the insulating base sheet 20 is etched into a metal film, and the solder resist hole 22 and the solder joints 23A and 23B (pad Pad) on the antenna 21 can be processed by a general PC circuit board. Simply complete the production.

According to the above embodiment, wherein, as shown in FIGS. 2, 3, 5, and 6, the radio frequency wafer 30 is soldered to the solder joints 23A, 23B (pad Pad) of the antenna 21, and the outer portion thereof is covered with an insulating thermosetting adhesive. The layer 24, by the thermoset of the insulating thermoset layer 24, enhances the detachment resistance of the RF wafer 30 soldered to the solder joints 23A, 23B of the antenna 21.

According to the above embodiment, wherein, as shown in FIGS. 2, 3 and 4, the upper surface of the insulating substrate sheet 20 is provided with an antenna 21, 21A, and the corresponding two perforated portions 25A of the upper and lower surfaces of the insulating substrate sheet 20, The 25B filler solder electrically connects the upper and lower antennas 21 and 21A, so that the two antennas 21 and 21A can adjust the background value of the field effect of the ferromagnetic absorber layer 40, and adjust the sensitivity of the electromagnetic wave signal sensing over a large area. That is, the same electronic identification tag 10 completed by the above-mentioned antenna 21, 21A design is buried inside a plurality of carbon fiber articles, and the antenna 21, 21A of the electronic identification tag 10 of the present invention is confirmed by testing, such as the test report of Annex 1. It must be matched and adjusted with various carbon fiber objects to obtain good reading results.

According to the above embodiment, wherein the insulating substrate sheet 20 is a flexible plastic insulating sheet, and the ferromagnetic absorbing layer 40 is a ferrite magnetic powder composite resin or rubber material. The molded flexible non-metallic magnetic sheet layer has flexibility through the insulating substrate sheet 20, and the ferro-oxygen absorbing layer 40 and the soft elastic layer 50 are all flexible, so that the overall electronic identification label 10 can be flexed. The state is embedded in a carbon fiber object (not shown) of a curved or curved body.

According to the above embodiment, wherein, as shown in FIG. 1 and FIG. 2, the soft elastic layer 50 is a soft sheet layer formed of a silicone material, and the heat-resistant and pressure-resistant characteristics of the silicone material are as shown in FIGS. 5 and 6. The hot press forming process of the carbon fiber article 60 can produce a good protective effect on the antenna 21 on the insulating base sheet 20 from the soft cushioning elasticity of the soft elastic layer 50.

The above description is intended to be illustrative, and not restrictive, and many modifications, variations, etc. may be made without departing from the spirit and scope of the invention. Effective, but all fall within the scope of protection of the present invention.

Claims (6)

 An electronic identification tag for use in a carbon fiber article is an electronic identification tag comprising an insulating substrate sheet, a radio frequency chip, a ferrite absorbing layer and a soft elastic layer; the insulating substrate sheet is a The geometrical sheet formed by the insulating material is provided with an antenna on at least one end surface thereof, and the antenna is a rewinding metal film antenna, and has two anti-welding holes on both ends of the rewinding line, and each of the anti-welding holes has a solder joint is used as a pad; the two poles of the radio frequency chip are electrically connected to the solder joint (pad Pad) of the antenna; the ferromagnetic absorber layer is formed by a ferrite magnetic material. a sheet laminated on one end surface of the insulating substrate sheet; the soft elastic layer being a sheet formed of an insulating soft elastic material, which is laminated on the other end surface of the insulating substrate sheet; In the carbon fiber object manufacturing process, the electronic identification label is placed between the carbon fiber material coating layers, and after the carbon fiber material is hot pressed, the electronic identification label is hidden and encapsulated inside the carbon fiber object, The reader reads the pre-stored information of the electronic identification tag from the surface of the carbon fiber object for identification; the overall electronic identification tag structure, the buffering effect formed by the external elastic clamping of the soft elastic layer, the carbon fiber object pressing forming process, The soft rubber elastic layer can protect the antenna on the insulating substrate sheet to prevent the antenna loop from being broken or damaged, and the antenna senses the electromagnetic wave signal at the reader end, transmits the signal to the radio frequency chip, or wirelessly The data stored in the RF chip is fed back to the reader for reading, and the background electromagnetic value of the antenna electromagnetic wave induced by the absorption and reflection of the electromagnetic wave signal by the ferro-oxygen absorbing layer is fixed, so that the same electronic identification tag is used inside a plurality of carbon fiber objects. The antenna can be adjusted without corresponding adaptation, and the manpower and material cost of development and design of various electronic identification tags can be reduced.    An electronic identification label for use in the interior of a carbon fiber article according to the first aspect of the patent application, wherein the insulating substrate sheet is a sheet formed of polyacrylonitrile (PI) material or epoxy glass fiber (PR4) material. And the antenna is an antenna surface which is formed by etching a metal film coated on the surface of the insulating substrate sheet, so that the soldering prevention groove and the soldering point on the antenna can be easily completed by the line process of the general PC circuit board. Production.    An electronic identification tag for use in the interior of a carbon fiber article according to claim 1, wherein the radio frequency wafer is soldered to a solder pad (pad pad) of the antenna, and the outer portion is coated with an insulating thermosetting adhesive. The layer can be strengthened by the thermosetting property of the insulating thermosetting layer to weld the radio frequency wafer to the solder joint of the antenna.    An electronic identification tag for use in the interior of a carbon fiber article according to claim 1, wherein an insulating substrate is provided with an antenna on the upper surface of the insulating substrate, and two corresponding perforations are formed on the upper and lower surfaces of the insulating substrate. The filling solder electrically connects the two antennas above and below, so that the two antennas can fix the background value according to the field effect of the ferrite absorbing layer, and adjust the sensitivity of the electromagnetic wave signal sensing in a large area.    An electronic identification label for use in the interior of a carbon fiber article according to claim 1, wherein the insulating substrate sheet is a flexible insulating sheet, and the ferrite layer is a ferrite magnetic layer. A flexible non-metallic magnetic sheet layer formed by powder composite resin or rubber material, which has flexibility by using an insulating substrate sheet, a ferrite absorbing layer and a soft elastic layer, so that the overall electronic identification label can be curved The flexed state is embedded inside the carbon fiber object of the curved or curved body.    An electronic identification label for use in the interior of a carbon fiber article according to the first aspect of the patent application, wherein the soft elastic layer is a soft sheet layer formed of a silicone material, and the heat-resistant and pressure-resistant characteristics of the silicone material are The hot-press molding process of the carbon fiber article can produce a good protective effect on the antenna on the insulating substrate sheet by the soft cushioning elasticity of the soft rubber elastic layer.