CN111191760A - RFID ultrahigh frequency button label and manufacturing process thereof - Google Patents

Abstract

The invention discloses an RFID ultrahigh frequency button label and a manufacturing process thereof, wherein the RFID ultrahigh frequency button label comprises an RFID electronic label, an upper button and a lower button, the upper button is bonded at the upper end of the RFID electronic label, and the lower button is bonded at the lower end of the RFID electronic label; the RFID electronic tag is a passive unit consisting of a coupling element (a coil, a microstrip antenna and the like) and a microchip, and particularly comprises an RFID circuit comprising an RFID chip with an RFID radio frequency part and an ultrathin antenna loop. According to the RFID ultrahigh frequency button tag and the manufacturing process thereof, the RFID electronic tag carries out frequency modulation processing on the RFID electronic tag according to radio frequency, so that the reading distance of the RFID electronic tag is increased; the initiator and the accelerator are adopted to improve the curing speed of the unsaturated polyester resin, and the added pearl powder and the thixotropic agent can prevent the mutual permeation of all colors; the RFID electronic tag is implanted in the production process of the unsaturated polyester, so that the RFID electronic tag can be recycled in multiple fields, and the cost is reduced.

Description

RFID ultrahigh frequency button label and manufacturing process thereof

Technical Field

The invention relates to the technical field of electronic tags, in particular to an RFID ultrahigh frequency button tag and a manufacturing process thereof.

Background

The RFID electronic tag is a modern communication technology, a specific target can be identified through a radio signal and relevant data can be read and written without establishing mechanical or optical contact between an identification system and the specific target, at present, the performance of a common RFID electronic tag in an unsaturated polyester material can be reduced by 3-4 times, the reading distance is short, and the traditional RFID electronic tag is installed on equipment needing to be used by adopting an external means, is easy to damage and can not be recycled, so that the required cost is high when the RFID electronic tag is used in a large batch, and the RFID ultrahigh frequency button tag and the manufacturing process thereof are provided on the basis.

Disclosure of Invention

The invention aims to provide an RFID ultrahigh frequency button tag and a manufacturing process thereof, wherein the RFID electronic tag can be recycled, the cost is reduced, the production efficiency is high, the reading distance is long, the appearance is attractive, and the problems that the reading distance is short, the electronic tag is externally arranged, cannot be recycled, is easy to damage and cannot realize the mass use of the electronic tag in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: an RFID ultrahigh frequency button tag comprises an RFID electronic tag, an upper button and a lower button, wherein the upper button is bonded at the upper end of the RFID electronic tag, and the lower button is bonded at the lower end of the RFID electronic tag;

the RFID electronic tag is a passive unit consisting of a coupling element and a microchip, and specifically comprises an RFID circuit comprising an RFID chip with an RFID radio frequency part and an ultrathin antenna loop; when the passive tag enters a radio frequency electromagnetic field, the passive tag receives a radio frequency signal sent by the reader, product information stored in the chip is sent out by means of energy obtained by induced current, and the reader reads and decodes the information and sends the information to the central information system for related data processing.

The raw materials of the upper button and the lower button comprise unsaturated polyester resin, a curing agent and auxiliary materials, the unsaturated polyester resin is extracted from petroleum and is transparent viscous liquid, when the buttons are produced, the viscosity of the unsaturated polyester is 10-20Pa.s, the heat release is low during curing, the gelling time is short, the unsaturated polyester is easy to color, and the hardness in the curing stage is slowly increased; the curing agent comprises an initiator and an accelerator, and the initiator and the accelerator are uniformly dissolved in the unsaturated polyester resin; the auxiliary materials comprise color paste, pearl powder and thixotropic agent, and the color paste, the pearl powder and the thixotropic agent are all dissolved in the unsaturated polyester resin.

Preferably, the RFID electronic tag performs frequency modulation processing according to radio frequency before entering the radio frequency magnetic field.

Preferably, the passive unit and the reader exchange information by using a half-duplex communication mode.

Preferably, the initiator is methyl ethyl ketone peroxide, and the accelerator is cobalt naphthanate.

Preferably, the pearl powder is basic lead carbonate hexagonal flaky crystals which can be arranged in parallel in the forming process and show pearl luster, and the thixotropic agent is active silicon dioxide.

A manufacturing process of an RFID ultrahigh frequency button label comprises the following steps:

s1: the bottom blank is made by adopting two modes of plate and bar to make button blank

The method comprises the following specific steps of:

plate material: pouring the completely mixed resin into a rotating centrifugal barrel, commonly called a sheet pouring barrel or a large-diameter barrel, pouring a plurality of layers as required, cutting the resin into sheet plates after the resin in the barrel is in a soft rubber shape due to chemical reaction within about 30 minutes, and then putting the sheet plates on a blank punching machine to punch out the blanks; punching a 14L button blank 126 gong from a sheet material;

the process for manufacturing the button blank by the bar comprises the following steps:

and (3) bar material: the completely mixed mucilage flows into the aluminum pipe coated with the wax through a special oscillator, the mucilage is pulled out of a rubber roller in the aluminum pipe and is cut into slices immediately after being in a soft rubber shape, and 1300 pieces of button blanks of 18L can be cut by a slicing knife every minute; each stick can be cut into 24L of 2 gongs of button embryo;

s2: hardening of the bottom blank

The plate material punching button blank and the bar material punching button blank are both in a soft state, and the plate material punching button blank and the bar material punching button blank are put into hot water of 80 ℃ for 10 hours during processing, so that the chemical reaction is accelerated, and a hard blank is obtained after complete reaction;

s3: RFID electronic label paste

Taking out the hard blank obtained in the step S2, and manually pasting the RFID electronic tag on the bottom layer of the hard blank;

s4: pouring unsaturated polyester on the upper layer

Taking out the RFID electronic tag stuck in the S3, pouring the adhesive cement into the bottom layer of the hard blank, and performing secondary hardening;

s5: automatic turning

Taking out the hard blank after the secondary hardening in the step S4, automatically processing by adopting an automatic button turning machine, and carrying out primary turning, primary vehicle bottom and punching, and primary lettering and engraving; the common four holes are provided with edges and vehicle bottom buttons, 100 particles can be carved every minute, and the plate is the same as the bar;

s6: polishing (grinding)

After automatic turning, cutting marks are left on the turning surface and the bottom of the car, so that the car needs to be put into a water mill barrel for grinding, when grinding is carried out, water and matt powder are contained in the water mill barrel, the water mill barrel is rotated at a slow speed for ten hours, the water milling process is completed, the button after water milling is in a matte mist effect, the button needs to be polished to achieve a bright effect, when polished, a bamboo core and wax are placed in the polishing barrel, then the button is placed in the polishing barrel for twenty hours, and a finished product RFID ultrahigh frequency button label is obtained after polishing;

s7: and (3) performance detection:

and after finishing the appearance polishing and grinding, automatically detecting the RFID ultrahigh frequency button label by using RFID automatic detection equipment.

Compared with the prior art, the invention has the beneficial effects that: according to the RFID ultrahigh frequency button tag and the manufacturing process thereof, before the RFID electronic tag enters a radio frequency magnetic field, frequency modulation processing is carried out on the RFID electronic tag according to the radio frequency, so that the reading distance of the RFID electronic tag is increased; the initiator adopts methyl ethyl ketone peroxide to initiate the curing of the unsaturated polyester resin, and the accelerator adopts cobalt naphthanate to improve the curing speed of the unsaturated polyester resin, improve the forming speed of the upper button and the lower button and improve the production efficiency; the upper button and the lower button can show pearl luster by adding the pearl powder, and the color is prevented from mutually permeating by adding the thixotropic agent, so that the attractiveness of the upper button and the lower button after being manufactured and molded is ensured; the RFID electronic tag is implanted in the production process of the unsaturated polyester so as to realize the recycling of the RFID electronic tag in the fields of retail, logistics, medical treatment, industrial washing and the like, thereby greatly reducing the realization cost of the RFID technology; the whole body can be recycled, the cost is reduced, the production efficiency is high, the reading distance is long, and the appearance is attractive.

Drawings

FIG. 1 is an exploded view of the present invention;

fig. 2 is a side unwinding state diagram of the RFID tag of the present invention.

In the figure: 1. an RFID electronic tag; 2. mounting a button; 3. and (6) putting down the button.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-2, an RFID ultra-high frequency button tag includes an RFID electronic tag 1, an upper button 2 and a lower button 3, wherein the upper button 2 is bonded to the upper end of the RFID electronic tag 1, and the lower button 3 is bonded to the lower end of the RFID electronic tag 1;

the RFID electronic tag 1 is a passive unit consisting of a coupling element (coil, microstrip antenna and the like) and a microchip, and specifically comprises an RFID circuit containing an RFID chip with an RFID radio frequency part and an ultrathin antenna loop, wherein the RFID electronic tag 1 is subjected to frequency modulation processing according to radio frequency before entering a radio frequency magnetic field; when a passive tag (namely, an RFID electronic tag 1) enters a radio frequency electromagnetic field, a radio frequency signal sent by a reader is received, product information stored in a chip is sent out by means of energy obtained by induced current, the reader reads and decodes the information and sends the information to a central information system for related data processing, and a half-duplex communication mode is adopted between a passive unit and the reader for information exchange.

The raw materials of the upper button 2 and the lower button 3 comprise unsaturated polyester resin, a curing agent and auxiliary materials, the unsaturated polyester resin is extracted from petroleum and is a transparent adhesive liquid, when the buttons are produced, the viscosity of the unsaturated polyester is 10-20Pa.s, the heat release is low during curing, the gelling time is short, the unsaturated polyester is easy to color, and the hardness in the curing stage is slowly increased; the curing agent comprises an initiator and an accelerator, wherein the initiator and the accelerator are uniformly dissolved in the unsaturated polyester resin, the initiator adopts methyl ethyl ketone peroxide, and the accelerator adopts cobalt naphthanate; the auxiliary material comprises color paste, pearl powder and thixotropic agent, wherein the color paste, the pearl powder and the thixotropic agent are all dissolved in unsaturated polyester resin, the pearl powder is basic lead carbonate hexagonal flaky crystal which can be arranged in parallel in the forming process and shows pearl luster, and the thixotropic agent is active silicon dioxide and is used for preventing mutual permeation of colors.

A manufacturing process of an RFID ultrahigh frequency button label comprises the following steps:

the first step is as follows: the bottom blank is made by adopting two modes of plate and bar to make button blank

The method comprises the following specific steps of:

plate material: pouring the completely mixed resin into a rotating centrifugal barrel, commonly called a sheet pouring barrel or a large-diameter barrel, pouring a plurality of layers as required, cutting the resin in the barrel into sheet shapes after the resin is in a soft rubber shape due to chemical reaction within about 30 minutes, and then putting the sheet shapes on a blank punching machine to punch out the blanks; a sheet of material is punched to produce approximately 14L of gongs of the button blanks 126.

The process for manufacturing the button blank by the bar comprises the following steps:

and (3) bar material: the completely mixed mucilage flows into the aluminum pipe coated with the wax through a special oscillator, the mucilage is pulled out of a rubber roller in the aluminum pipe and is cut into slices immediately after being in a soft rubber shape, and 1300 pieces of button blanks of 18L can be cut by a slicing knife every minute; each stick can be cut into about 2 gongs of 24L button blanks.

The second step is that: hardening of the bottom blank

And (3) punching the button blank from the plate and the button blank from the bar into a soft state, putting the button blank punched from the plate and the button blank punched from the bar into hot water of 80 ℃ for 10 hours during processing, accelerating chemical reaction, and obtaining a hard blank (namely the lower button 3) after complete reaction.

The third step: RFID tag 1 label

And taking out the hard blank obtained in the second step, and manually pasting the RFID electronic tag 1 on the bottom layer of the hard blank.

The fourth step: pouring unsaturated polyester on the upper layer

And taking out the RFID electronic tag 1 which is pasted in the third step, pouring the mucilage into the bottom layer of the hard blank, and performing secondary hardening (the hard blank is the upper button 2).

The fifth step: automatic turning

Taking out the hard blank after secondary hardening in the fourth step, automatically processing by adopting an automatic button turning machine, turning the surface, turning the bottom and punching once, and lettering and engraving once; the four ordinary holes are provided with edges and vehicle bottom buttons, 100 particles can be carved every minute, the plate is the same as the bar, and the processing efficiency is high.

And a sixth step: polishing (sanding):

after the automatic lathe is machined, cutter marks are left on the lathe surface and the lathe bottom, a water mill barrel needs to be placed for grinding, water and dull powder are contained in the water mill barrel during grinding, the water mill barrel rotates at a low speed for ten hours, the water mill process is completed, the button after water milling is in a mute fog effect, the button needs to be polished to achieve a bright effect, when the button is polished, the bamboo core and the wax are placed in the polishing barrel, the button is placed in the polishing barrel for twenty hours, and a finished product RFID ultrahigh frequency button label is obtained after polishing.

The seventh step: and (3) performance detection:

and after finishing the appearance polishing and grinding, automatically detecting the RFID ultrahigh frequency button label by using RFID automatic detection equipment (after specific data is read at a specific distance and specific time, the button label is regarded as a qualified product).

Example two:

after the automatic lathe is machined, cutter marks are left on the surface and the bottom of the lathe, a water mill barrel needs to be placed for grinding, water and dull powder are contained in the water mill barrel during grinding, the water mill barrel is rotated at a low speed for ten hours, the water milling process is completed, the button after water milling has a matte mist effect, the button after water milling is polished, small stones and stone powder are contained in the water polishing machine during polishing, the button is placed in the water polishing machine for fifteen hours, and a finished product button is obtained after polishing.

According to the RFID ultrahigh frequency button tag and the manufacturing process thereof, before the RFID electronic tag 1 enters a radio frequency magnetic field, frequency modulation processing is carried out on the RFID electronic tag according to radio frequency, so that the performance of the RFID electronic tag 1 in unsaturated polyester materials is about 5 times stronger than that in air, and the reading distance is increased; the initiator adopts methyl ethyl ketone peroxide, can initiate the curing of the unsaturated polyester resin, and the accelerator adopts cobalt naphthanate, so that the curing speed of the unsaturated polyester resin is increased, and the forming speed of the upper button 2 and the lower button 3 is increased; the pearl powder is basic lead carbonate hexagonal flaky crystals which can be arranged in parallel in the forming process to show pearl luster, the thixotropic agent is active silicon dioxide which is used for preventing no color from permeating, and the attractiveness of the upper button 2 and the lower button 3 after being formed is ensured by adding the pearl powder and the thixotropic agent; the RFID ultrahigh frequency button tag is characterized in that the RFID electronic tag 1 is implanted in the production process of unsaturated polyester by depending on the characteristics of the unsaturated polyester such as hardness, melting point and surface treatment and the characteristics of the RFID electronic tag 1 such as reading distance and group reading performance, so that the RFID electronic tag 1 can be recycled in the fields of retail, logistics, medical treatment, industrial washing and the like, and the implementation cost of the RFID technology is greatly reduced; the whole body can be recycled, the cost is reduced, the reading distance is long, and the appearance is attractive.

In summary, according to the RFID ultra-high frequency button tag and the manufacturing process thereof provided by the invention, before the RFID electronic tag 1 enters the radio frequency magnetic field, frequency modulation processing is performed on the RFID electronic tag according to the radio frequency, so that the reading distance of the RFID electronic tag 1 is increased; the initiator adopts methyl ethyl ketone peroxide to initiate the curing of the unsaturated polyester resin, and the accelerator adopts cobalt naphthanate to improve the curing speed of the unsaturated polyester resin, improve the forming speed of the upper button 2 and the lower button 3 and improve the production efficiency; the pearl powder is added to enable the upper button 2 and the lower button 3 to show pearl luster, and the thixotropic agent is added to prevent mutual permeation of colors, so that the attractiveness of the molded upper button 2 and the molded lower button 3 is ensured; the RFID electronic tag 1 is implanted in the production process of unsaturated polyester, so that the RFID electronic tag 1 can be recycled in the fields of retail, logistics, medical treatment, industrial washing and the like, and the implementation cost of the RFID technology is greatly reduced; the whole body can be recycled, the cost is reduced, the production efficiency is high, the reading distance is long, and the appearance is attractive.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The utility model provides a RFID hyperfrequency button label, includes RFID electronic tags (1), goes up button (2) and button (3) down, its characterized in that: the upper button (2) is adhered to the upper end of the RFID electronic tag (1), and the lower button (3) is adhered to the lower end of the RFID electronic tag (1);

the RFID electronic tag (1) is a passive unit consisting of a coupling element and a microchip, and comprises an RFID circuit with an RFID radio frequency part and an RFID chip of an ultrathin antenna loop; when the passive tag enters a radio frequency electromagnetic field, the passive tag receives a radio frequency signal sent by the reader, product information stored in the chip is sent out by means of energy obtained by induced current, and the reader reads and decodes the information and sends the information to the central information system for related data processing.

The raw materials of the upper button (2) and the lower button (3) comprise unsaturated polyester resin, a curing agent and auxiliary materials, the unsaturated polyester resin is extracted from petroleum and is transparent adhesive liquid, when the buttons are produced, the viscosity of the unsaturated polyester is 10-20Pa.s, the heat release is low during curing, the gelling time is short, the unsaturated polyester is easy to color, and the hardness is slowly increased during curing; the curing agent comprises an initiator and an accelerator, and the initiator and the accelerator are uniformly dissolved in the unsaturated polyester resin; the auxiliary materials comprise color paste, pearl powder and thixotropic agent, and the color paste, the pearl powder and the thixotropic agent are all dissolved in the unsaturated polyester resin.

2. The RFID uhf button tag of claim 1, wherein: before entering a radio frequency magnetic field, the RFID electronic tag (1) carries out frequency modulation processing according to radio frequency.

3. The RFID uhf button tag of claim 1, wherein: and the passive unit and the reader exchange information by adopting a half-duplex communication mode.

4. The RFID uhf button tag of claim 1, wherein: the initiator adopts methyl ethyl ketone peroxide, and the accelerator adopts cobalt naphthanate.

5. The RFID uhf button tag of claim 1, wherein: the pearl powder is a basic lead carbonate hexagonal flaky crystal which can be arranged in parallel in the forming process to show pearl luster, and the thixotropic agent is active silicon dioxide.

6. The manufacturing process of the RFID UHF button tag of claim 1, comprising the following steps:

s1: the bottom blank is made by adopting two modes of plate and bar to make button blank

The method comprises the following specific steps of:

plate material: pouring the completely mixed resin into a rotating centrifugal barrel, commonly called a sheet pouring barrel or a large-diameter barrel, pouring a plurality of layers as required, cutting the resin into sheet plates after the resin in the barrel is in a soft rubber shape due to chemical reaction within about 30 minutes, and then putting the sheet plates on a blank punching machine to punch out the blanks; punching a 14L button blank 126 gong from a sheet material;

the process for manufacturing the button blank by the bar comprises the following steps:

and (3) bar material: the completely mixed mucilage flows into the aluminum pipe coated with the wax through a special oscillator, the mucilage is pulled out of a rubber roller in the aluminum pipe and is cut into slices immediately after being in a soft rubber shape, and 1300 pieces of button blanks of 18L can be cut by a slicing knife every minute; each stick can be cut into 24L of 2 gongs of button embryo;

s2: hardening of the bottom blank

The plate material punching button blank and the bar material punching button blank are both in a soft state, and the plate material punching button blank and the bar material punching button blank are put into hot water of 80 ℃ for 10 hours during processing, so that the chemical reaction is accelerated, and a hard blank is obtained after complete reaction;

s3: RFID electronic tag (1) adhesive

And (4) taking out the hard blank obtained in the step (S2), and manually pasting the RFID electronic tag (1) on the bottom layer of the hard blank.

S4: pouring unsaturated polyester on the upper layer

Taking out the RFID electronic tag (1) adhered in the S3, pouring the adhesive cement into the bottom layer of the hard blank, and performing secondary hardening;

s5: automatic turning

Taking out the hard blank after the secondary hardening in the step S4, automatically processing by adopting an automatic button turning machine, and carrying out primary turning, primary vehicle bottom and punching, and primary lettering and engraving; the ordinary four holes are provided with edges and vehicle bottom buttons, 100 particles can be carved every minute, and the plate is the same as the bar.

S6: polishing (sanding):

after the automatic lathe processing, the lathe face and the vehicle bottom leave the tool mark, so need put into the terrazzo bucket and grind smooth, during the polishing, with water and no light powder splendid attire in the terrazzo bucket, rotate the terrazzo bucket ten hours at a slow speed, accomplish the terrazzo process, the button after the terrazzo is mute fog effect, need polish the processing with the button and have reached bright effect, when polishing, place bamboo core and wax in polishing the bucket, place the button again in polishing the bucket twenty hours, obtain the finished product button after polishing.

S7: and (3) performance detection:

and after finishing the appearance polishing and grinding, automatically detecting the RFID ultrahigh frequency button label by using RFID automatic detection equipment.

Images