CN117687275B

CN117687275B - RFID electronic tag production device and production method

Info

Publication number: CN117687275B
Application number: CN202410129312.6A
Authority: CN
Inventors: 陶福平; 权伟
Original assignee: Jiangsu Fora Electronic Technology Co ltd
Current assignee: Jiangsu Fora Electronic Technology Co ltd
Priority date: 2024-01-31
Filing date: 2024-01-31
Publication date: 2024-04-09
Anticipated expiration: 2044-01-31
Also published as: CN117687275A

Abstract

An RFID electronic tag production device and a production method belong to the technical field of RFID, and aim to solve the problems that photoresist generally has stronger adhesive force and more residues are left in the edge area; compared with the cleaning methods such as solvent soaking and chemical corrosion, harmful substances are not generated on the surface of the label, the stripping and cleaning method has very small influence on the substrate material and cannot damage electronic components such as chips, circuits and the like, the cleaning method can finish the photoresist removing process in a short time, and the production period can be greatly shortened; according to the invention, the colloid is collected one by one, and the cleaned colloid is intensively sleeved on the surface of the collecting inserted rod through the viscosity of the colloid and the thrust of the sleeved scraping clamp, so that the colloid can be cleaned intensively.

Description

RFID electronic tag production device and production method

Technical Field

The invention relates to the technical field of RFID, in particular to an RFID electronic tag production device and an RFID electronic tag production method.

Background

In the production process of the RFID electronic tag, firstly, an RFID chip is designed and manufactured according to application requirements and specification requirements, an antenna is used for receiving and transmitting wireless signals in the RFID tag, a coil-shaped antenna structure is formed by using a conductive material through a film processing technology in the manufacturing process, a proper base material is selected, the antenna and the chip are attached to the base, the RFID tag is packaged while the chip and the antenna are protected, a plastic packaging mode and a film packaging mode are adopted in a common packaging mode, the RFID chip is programmed in the manufacturing process, unique identification codes and data related to storage are set to meet the requirements of specific application, a shell is designed and manufactured for the RFID tag according to practical application requirements, and plastic or paper materials are generally adopted, so that strict quality control and testing are carried out on each production batch in the whole production process. The RFID electronic tag can ensure stable tag quality and meet specification requirements, and the produced RFID electronic tag can be used in various application fields, including logistics tracking, inventory management, market settlement and the like.

As known from the grant publication CN 209514665U: an RFID electronic tag production device is disclosed. The RFID electronic tag production device comprises a control system, an automatic SMT (surface mount technology) production device, a spring type antenna production and placing device, a reflow soldering device, a cleaning device, a board separation device and an automatic spraying device, wherein the automatic SMT production device, the spring type antenna production and placing device, the reflow soldering device, the cleaning device, the board separation device and the automatic spraying device are respectively electrically connected with the control system, and the RFID electronic tag mass production can be efficiently completed. The automatic SMT production device comprises a solder paste machine and an SMT device which are connected in sequence; the spring type antenna production and placement device comprises a spring type antenna winding machine, a vibration disc, a conveying line, a visual detection device, a conveying mechanism and a material disc; the plate dividing device comprises a plate splicing detection device provided with an AOI optical detector and a shifting device, and the output end of the shifting device is provided with a plurality of plate dividing transmission lines; the automatic spraying device comprises a multidirectional automatic spray gun and a drying device, however, in the production process of the RFID electronic tag, photoresist is applied to manufacture circuit patterns on chips and protect and position other elements, but in the packaging process, the photoresist can become an obstacle for interference and blocking packaging, the photoresist generally has stronger adhesive force, a photoresist removing method adopted in the prior art cannot be completely removed, the residual adhesive layer is easy to cause, the quality and the performance of the electronic tag can be influenced, the edge position of the tag is relatively easy to be limited by the production process, the photoresist can remain more in the edge area, the cleaning force is difficult to control, and the electronic tag body is easy to damage.

Aiming at the problems, the prior device is improved, and an RFID electronic tag production device and a production method are provided.

Disclosure of Invention

The invention aims to provide an RFID electronic tag production device and a production method, which solve the problems that photoresist in the background art generally has stronger adhesive force and more photoresist remains in an edge area.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a RFID electronic tags apparatus for producing, including the mounting plate that is located the production line and install the production box at mounting plate upper surface, the inboard of production box is provided with photoresist and gets rid of the mechanism, the upper end that the photoresist got rid of the mechanism is installed and is matees the top platform, the four corners end of mounting plate lower surface all is provided with the installation foot spare, the business turn over window groove has all been seted up to the both sides end of mounting plate, pass through the label roll between two sets of business turn over window grooves, the inside of production box is provided with the production room, the top platform is including installing the mount table of the indoor top surface of production and the first drive telescopic link of setting at mount table lower surface central authorities, the mount table is through the middle-end butt joint of first drive telescopic link and photoresist getting rid of mechanism, the interior bottom surface mounting of production room is provided with the setting chassis, the upper surface mounting of setting chassis has heating platform, the mount table is corresponding with heating platform, the both sides end of heating platform all is provided with spacing traction piece, spacing traction piece's height is less than heating platform's upper plane, spacing traction piece is used for dragging the marginal end of label roll, label roll surface distribution's label laminating in the upper surface setting of heating platform and the temperature setting up at the top surface of the platform, make the photoresist is scraped the photoresist through the thermal profile, and the photoresist is removed the edge to the photoresist through the thermal profile, and the photoresist is removed along the thermal profile, and the photoresist is spread off the edge by the thermal profile.

Further, the photoresist removing mechanism comprises a mounting plate positioned at the lower end of the mounting table and an inner mounting groove formed in the mounting plate, a driving turntable is mounted at the center of the inner bottom surface of the inner mounting groove, a connecting cover body is arranged at the center of the upper surface of the driving turntable, the bottom surface of the first driving telescopic rod is butted with the upper surface of the connecting cover body, two side ends of the upper surface of the driving turntable are respectively connected with a traction swinging rod in a rotating mode, the positions of the two traction swinging rods are opposite, one end of each traction swinging rod is attached to the upper end face of the mounting plate, a vertical sliding rod is mounted at one end of each traction swinging rod, a glue rolling small rod is arranged on the side surface of the bottom end of each vertical sliding rod, and the vertical sliding rods are attached to the outer wall surface of the mounting plate.

Further, the movable telescopic rod is installed at the middle end of the traction swing rod, an inner attaching post rod is arranged on the lower surface of one end, close to the vertical sliding rod, of the traction swing rod, and the inner attaching post rod is attached to the inner wall surface of the installation inner groove.

Further, the engagement cover body comprises a cover body arranged at the center of the upper surface of the driving turntable and a driving motor arranged in the cover body, the output end of the driving motor is connected with the rotating shaft of the driving turntable, the lower surface of the cover body is provided with a sliding connecting piece, and the cover body is movably and limitedly connected with the upper surface of the driving turntable through the sliding connecting piece.

Further, the mounting plate comprises a positioning pressure plate arranged at the right lower end of the mounting plate and a built-in separation strip arranged at the inner side of the positioning pressure plate, the top end of the built-in separation strip is connected with the lower surface of the mounting plate, the surface of the positioning pressure plate is embedded with a swinging blade, one end of the swinging blade is provided with an elastic hinge, and the swinging blade is connected with the positioning pressure plate through the elastic hinge.

Further, a second driving telescopic rod is arranged on the side surface of the built-in separation strip, a sleeve joint scraping clamp is arranged at one end of the second driving telescopic rod, the sleeve joint scraping clamp corresponds to the glue rolling small rod, a slope inner table is arranged on the upper surface of the swing sheet, a connecting vertical block is arranged at the highest point of the slope inner table, and a collecting inserting rod is arranged on the side surface of the connecting vertical block.

Further, the surface of the collecting inserted link is provided with a collecting barb, and the thorn head of the collecting barb faces away from the sleeved scraping clamp.

Further, the sleeved scraping clamp comprises a driving movable clamp and a connecting swing rod, wherein the driving movable clamp is in butt joint with the tail end of the second driving telescopic rod, the connecting swing rod is arranged on the surface of the driving movable clamp, two groups of connecting swing rods are arranged, one ends of the two groups of connecting swing rods are provided with a joint half clamp, and the positions of the two groups of joint half clamps are corresponding.

Further, the middle end of the small glue rolling rod is provided with a movable inner shaft rod, a row of movable inner grooves are uniformly formed in the surface of the small glue rolling rod, positioning thorns are arranged on the inner sides of the movable inner grooves, connecting springs are arranged at the inner ends of the positioning thorns, and one ends of the connecting springs are connected with the inner bottom surfaces of the movable inner grooves.

The invention provides another technical scheme that: the production method of the RFID electronic tag production device comprises the following steps:

s1: setting a corresponding heating temperature for the heating platform according to the characteristics of the photoresist material of the produced electronic tag, and controlling the heating time to soften and expand the photoresist, wherein the temperature cannot exceed the thermal stability temperature of the photoresist material, so that damage to a chip or the tag is avoided;

s2: the label is conveyed and placed on the surface of the heating platform, and after the label is attached and heated for a corresponding period of time, the photoresist becomes soft and expands, and the photoresist can naturally fall off or separate from the surface of the facial tissue;

s3: the photoresist removing mechanism aligns the label, a small photoresist rolling rod with proper size and shape is selected, the small photoresist rolling rod is aligned to the surface of the photoresist, the photoresist is scraped off by a certain angle and pressure, and the photoresist removing mechanism moves along the edge end of the label until the whole area needing to remove the photoresist is covered;

s4: and collecting scraped colloid through sleeving the scraping clamp, and carrying out subsequent centralized treatment, so that all implementation steps are completed.

Compared with the prior art, the invention has the beneficial effects that:

1. compared with the cleaning methods such as solvent soaking and chemical corrosion, harmful substances are not generated on the surface of the tag, the stripping and cleaning method has very small influence on the substrate material, and cannot damage electronic components such as chips and circuits, the cleaning method can finish the photoresist removing process in a short time, and the production period can be greatly shortened.

2. According to the RFID electronic tag production device and the RFID electronic tag production method, colloid collection is completed one by one, the cleaned colloid is intensively sleeved on the surface of the collecting inserted rod through the viscosity of the colloid and the pushing force of the sleeved scraping clamp, so that the collected colloid is convenient to clean, the heat energy used by the stripping and cleaning method is controllable and adjustable, the method has high repeatability, and resource recovery is facilitated, and the equipment cost is low.

Drawings

FIG. 1 is a schematic diagram of an overall split structure of the present invention;

FIG. 2 is a schematic view of the overall assembly structure of the present invention;

FIG. 3 is a schematic plan view of the interior of the production chamber of the present invention;

FIG. 4 is a schematic diagram of a photoresist removal mechanism according to the present invention;

FIG. 5 is a schematic plan view of the interior of the splice enclosure of the present invention;

FIG. 6 is a schematic plan view of the interior of the positioning platen of the present invention;

fig. 7 is a schematic plan view of the interior of the sleeved scraping clip and glue rolling small rod of the invention.

In the figure: 1. a mounting base plate; 2. a production box; 3. a photoresist removing mechanism; 31. a mounting plate; 311. positioning a pressure plate; 312. a separation strip is arranged in the inner part; 313. an elastic hinge; 314. swinging the sheet; 315. a second driving telescopic rod; 316. sleeving a scraping clamp; 3161. driving the movable clamp; 3162. connecting a swing rod; 3163. attaching a half clamp; 317. a slope inner stage; 318. a connecting vertical block; 319. collecting the inserted link; 3191. collecting barbs; 32. installing an inner groove; 33. driving a turntable; 34. a connecting cover body; 341. a driving motor; 342. a cover body; 343. a slip connector; 35. traction swinging rod; 351. a movable telescopic rod; 352. internally attaching a post rod; 36. a vertical sliding rod; 37. a small glue rolling rod; 371. a movable inner shaft; 372. positioning thorns; 373. a movable inner tank; 374. a connecting spring; 4. matching the top platform; 41. a mounting table; 42. a first driving telescopic rod; 5. mounting a foot member; 6. a window inlet and outlet groove; 7. a roll of labels; 8. a production chamber; 81. setting a chassis; 82. a heating platform; 83. and limiting the traction piece.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in order to solve the technical problems that the photoresist generally has strong adhesion and more residues remain in the edge region, the following preferred technical scheme is provided:

the utility model provides a RFID electronic tags apparatus for producing, including being located the mounting plate 1 on the production line and install the production box 2 at mounting plate 1 upper surface, the inboard of production box 2 is provided with photoresist and gets rid of mechanism 3, the matching top platform 4 is installed to the upper end that the photoresist got rid of mechanism 3, the four corners end of mounting plate 1 lower surface all is provided with mounting foot spare 5, business turn over window groove 6 has all been seted up to the both sides end of mounting plate 1, through having label roll 7 between two sets of business turn over window grooves 6, the inside of production box 2 is provided with production room 8, the matching top platform 4 is including installing the mount table 41 of installing at 8 inner top surface and setting at the first drive telescopic link 42 in mount table 41 lower surface central authorities, the mount table 41 is through the relative joint of the middle-end of first drive telescopic link 42 and photoresist getting rid of mechanism 3, the inner bottom surface of production room 8 is provided with setting chassis 81, the upper surface mounting plate 81 has heating platform 82, mount table 41 is corresponding with heating platform 82, the both sides end of heating platform 82 all is provided with spacing traction piece 83, the four corners end of setting chassis 81 installs spacing piece 83, traction piece 83 is high and is used for the thermal profile of thermal profile label roll-off surface of thermal profile 82 along the thermal profile label roll-off surface of thermal profile label 82, the thermal profile label roll-off edge label 82, the thermal profile label edge is used for the thermal profile label roll-off label surface profile 82 is high, and thermal profile label edge surface profile label 83 is used for the thermal profile label roll-off, and thermal profile label edge, the thermal profile label edge is high, and thermal profile edge surface label edge.

The photoresist removing mechanism 3 comprises a mounting plate 31 positioned at the lower end of a mounting table 41 and a mounting inner groove 32 formed in the mounting plate 31, wherein a driving turntable 33 is mounted at the center of the inner bottom surface of the mounting inner groove 32, a connecting cover 34 is arranged at the center of the upper surface of the driving turntable 33, the bottom surface of a first driving telescopic rod 42 is butted with the upper surface of the connecting cover 34, two side ends of the upper surface of the driving turntable 33 are respectively and rotatably connected with a traction swinging rod 35, two groups of traction swinging rods 35 are opposite in position, one end of each traction swinging rod 35 is attached to the upper end surface of the mounting plate 31, one end of each traction swinging rod 35 is provided with a vertical sliding rod 36, the side surface of the bottom end of each vertical sliding rod 36 is provided with a rolling rubber small rod 37, the vertical sliding rod 36 is attached to the outer wall surface of the mounting plate 31, the middle end of each traction swinging rod 35 is provided with a movable telescopic rod 351, one end of each traction swinging rod 35 is close to one end of the vertical sliding rod 36, and the inner attaching rod 352 is attached to the inner wall surface of the mounting inner groove 32.

The engagement cover body 34 comprises a cover body 342 arranged at the center of the upper surface of the driving turntable 33 and a driving motor 341 arranged in the cover body 342, the output end of the driving motor 341 is connected with the rotating shaft of the driving turntable 33, a sliding connecting piece 343 is arranged on the lower surface of the cover body 342, the cover body 342 is movably and limitedly connected with the upper surface of the driving turntable 33 through the sliding connecting piece 343, the mounting plate 31 comprises a positioning pressure plate 311 arranged at the right lower end of the mounting plate 31 and an inner separation strip 312 arranged at the inner side of the positioning pressure plate 311, the top end of the inner separation strip 312 is connected with the lower surface of the mounting plate 31, the surface of the positioning pressure plate 311 is embedded with a swinging blade 314, one end of the swinging blade 314 is provided with an elastic hinge 313, the swinging blade 314 is connected with the positioning pressure plate 311 through the elastic hinge 313, the side surface of the inner separation strip 312 is provided with a second driving telescopic rod 315, one end of the second driving telescopic rod 315 is provided with a sleeved scraping clip 316, the scraping clip 316 corresponds to the rolling small rod 37, the upper surface of the swinging blade 314 is provided with a slope inner table 317, the top surface of the inner table 317 is provided with a vertical engagement block 318, and the top surface of the slope inner table 317 is provided with a vertical engagement block 318, and the vertical engagement block 318 is provided with a vertical engagement rod.

Specifically, the label roll 7 is conveyed to the inner side of the production chamber 8 through the window inlet and outlet groove 6, a single label is placed at the upper end of the heating platform 82, according to the characteristics of photoresist materials of the produced electronic label, the proper heating temperature and heating time length of the heating platform 82 are set to soften and expand photoresist, but the temperature does not exceed the thermal stability temperature of the photoresist materials, deformation or damage of the label caused by the thermal stability temperature higher than the photoresist is avoided, at the moment, the photoresist at the edge position of the label is in a stripping state relative to facial tissue, a first driving telescopic rod 42 is started, the surface of a positioning pressure plate 311 is attached to the label, the size of the positioning pressure plate 311 is matched with the size of the label, the positioning pressure plate 311 is used for limiting the surface of the label, a small roll adhesive rod 37 is attached to the photoresist, the tip of the positioning thorn 372 is inserted into the surface of the photoresist, so as to enhance the adhesive force and stripping force of the small roll adhesive rod 37, at the moment, a driving motor 341 is started, the driving rotary plate 33 is enabled to rotate relative to the inner bottom surface of the mounting groove 32, the driving rotary plate 33 drives two groups of traction swinging rods 35 to slide along the surface of the mounting plate 31, the vertical sliding rod 351 and the vertical sliding rod 35, the vertical sliding along the surface of the mounting plate 31, the vertical sliding rod 351 is utilized, the vertical sliding rod 36 is matched with the inner surface of the movable rod 36, the vertical sliding rod 36 is matched with the inner surface of the movable rod 31, the vertical sliding rod 36 is attached to the inner surface of the small rod 37, and the adhesive rod 37 is matched with the adhesive force of the adhesive rod 37, and the adhesive force of the adhesive rod 37 is matched with the adhesive rod is sliding force of the adhesive rod, and the adhesive rod is sliding force of the adhesive rod is formed by the adhesive rod, the photoresist in the stripping state is wound on the surface of the small winding rod 37, and then the redundant photoresist is removed from the edge position of the label, compared with the removing methods such as solvent soaking, chemical corrosion and the like, harmful substances are not generated on the surface of the label, the stripping removing method has very little influence on the substrate material, the damage to electronic components such as chips, circuits and the like is avoided, the removing process can be completed in a short time, and the production period can be greatly shortened.

In order to solve the technical problem of low repeatability of the redundant photoresist removing method, the following preferable technical scheme is provided:

the surface of collecting the inserted link 319 is provided with collects barb 3191, collect barb 3191's thorn head orientation and cup joint and scrape the clamp 316 and be on the back of each other, cup joint and scrape the clamp 316 and include the drive movable clamp 3161 that is butted with the second drive telescopic link 315 end and set up the link pendulum rod 3162 at drive movable clamp 3161 surface, link pendulum rod 3162 is provided with two sets of, the laminating half clamp 3163 is all installed to the one end of two sets of link pendulum rods 3162, the half clamp 3163 of two sets of laminating positions are corresponding, the middle-end of roll gum stick 37 is provided with movable interior axostylus axostyle 371, a row of movable interior groove 373 has evenly been seted up on the surface of roll gum stick 37, location thorn 372 is installed to the inboard of movable interior groove 373, the inner end of location thorn 372 is provided with connecting spring 374, the one end of connecting spring 374 is connected with the interior bottom surface of movable interior groove 373.

Specifically, after the surplus glue at the edge of the label is removed, the mounting plate 31 is reset by the first driving telescopic rod 42, the label roll 7 continuously conveys the next group of labels, the sleeving scraping clamp 316 is positioned at the inner end of the glue rolling small rod 37 in an initial state, the driving movable clamp 3161 is started to enable the two groups of the jointing half clamps 3163 to be closed relative to the glue rolling small rod 37, the second driving telescopic rod 315 is started again to enable the sleeving scraping clamp 316 to scrape and slide relative to the glue rolling small rod 37, the positioning thorn 372 smoothly enters the inside of the movable inner groove 373 by utilizing the elastic structure of the connecting spring 374 so as to facilitate the glue in a winding state to separate from the surface of the glue rolling small rod 37, a plurality of thorns are arranged on the side surface of the jointing half clamps 3163 so as to facilitate the glue to be conveyed inwards from the side opening position of the positioning pressing plate 311, the pushing rod is arranged on the lower surface of the second driving telescopic rod 315, the pushing rod is used for extruding the upper surface of the slope inner platform 317, the swinging blades 314 are unfolded downwards relative to the elastic hinges 313, the colloid smoothly enters the inner sides of the swinging blades 314, the collecting inserting rod 319 is inserted into the middle end of the attaching half clamp 3163, namely, the colloid is sleeved on the surface of the collecting inserting rod 319, the sleeved scraping clamp 316 is reset again through the second driving telescopic rod 315, the swinging blades 314 are reset synchronously, the colloid can be separated from the sleeved scraping clamp 316 by utilizing the collecting barbs 3191, the colloid is collected into the positioning pressure plate 311, so that the colloid is collected one by one, the cleaned colloid is concentrated on the surface of the collecting inserting rod 319 through the viscosity of the colloid and the thrust of the sleeved scraping clamp 316, so that the collected colloid is conveniently cleaned in a concentrated mode, the heat energy used by the stripping and cleaning method is controllable and adjustable, and the method has high repeatability, is beneficial to resource recovery and lower equipment cost.

To further better explain the above examples, the present invention also provides an embodiment, a production method of an RFID electronic tag production apparatus, including the steps of:

step one: setting a corresponding heating temperature for the heating platform 82 according to the characteristics of the photoresist material of the produced electronic tag, and controlling the heating time period to soften and expand the photoresist, wherein the temperature cannot exceed the thermal stability temperature of the photoresist material, so that damage to a chip or the tag is avoided;

step two: placing the label on the surface of the heating platform 82 through transmission, attaching and heating for a corresponding period of time until the photoresist becomes soft and expands, wherein the photoresist can naturally fall off or separate from the surface of the facial tissue;

step three: the photoresist removing mechanism 3 aligns the label, a small photoresist winding rod 37 with proper size and shape is selected, the small photoresist winding rod 37 is aligned to the surface of the photoresist, the photoresist is scraped off by a certain angle and pressure, and the photoresist is moved along the edge end of the label until the whole area needing to remove the photoresist is covered;

step four: the scraped colloid is collected by the socket scraping clamp 316 and is then concentrated, so that all implementation steps are completed.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. The utility model provides a RFID electronic tags apparatus for producing, includes mounting plate (1) and installs at production box (2) of mounting plate (1) upper surface on the production line, its characterized in that: the inner side of the production box (2) is provided with a photoresist removing mechanism (3), the upper end of the photoresist removing mechanism (3) is provided with a matching top table (4), four corner ends of the lower surface of the installation base plate (1) are respectively provided with an installation foot piece (5), two side ends of the installation base plate (1) are respectively provided with a window inlet and outlet groove (6), a label roll (7) is arranged between the two groups of window inlet and outlet grooves (6), the production box (2) is internally provided with a production chamber (8), the matching top table (4) comprises an installation table (41) arranged on the inner top surface of the production chamber (8) and a first driving telescopic rod (42) arranged in the center of the lower surface of the installation table (41), the installation table (41) is connected with the middle end of the photoresist removing mechanism (3) through the first driving telescopic rod (42), the inner bottom surface of the production chamber (8) is provided with a setting base plate (81), the upper surface of the setting base plate (81) is provided with a heating platform (82), the installation table (41) corresponds to the heating platform (82), four corner ends of the setting base plate (81) are provided with a limit traction piece (83), the four corner ends of the setting base plate (81) are provided with limit pieces (83), the limit pieces (83) are arranged on the height of the traction piece (83) and are lower than the upper surface of the heating platform (82) of the label roll (82) and are used for the label roll-limiting labels (82) and are attached to the label surface of the label roll (82), setting the heating temperature of a heating platform (82), softening and expanding photoresist at the edge of the label by heating, separating the photoresist from the surface of the facial tissue, scraping the colloid along the edge of the label by a photoresist removing mechanism (3), and collecting the scraped colloid;

the photoresist removing mechanism (3) comprises a mounting plate (31) positioned at the lower end of a mounting table (41) and an inner mounting groove (32) formed in the mounting plate (31), a driving turntable (33) is mounted in the center of the inner bottom surface of the inner mounting groove (32), a joint cover body (34) is arranged in the center of the upper surface of the driving turntable (33), the bottom surface of a first driving telescopic rod (42) is in butt joint with the upper surface of the joint cover body (34), two side ends of the upper surface of the driving turntable (33) are respectively connected with a traction swinging rod (35) in a rotating mode, the positions of the two traction swinging rods (35) are opposite, one end of each traction swinging rod (35) is attached to the upper end face of the mounting plate (31), a vertical sliding rod (36) is mounted at one end of each traction swinging rod (35), a rubber rolling small rod (37) is arranged on the side surface of the bottom end of the vertical sliding rod (36), and the vertical sliding rod (36) is attached to the outer wall surface of the mounting plate (31).

2. An RFID electronic tag production device as set forth in claim 1, wherein: the middle end of the traction swing rod (35) is provided with a movable telescopic rod (351), one end lower surface of the traction swing rod (35) close to the vertical sliding rod (36) is provided with an inner attaching post rod (352), and the inner attaching post rod (352) is attached to the inner wall surface of the installation inner groove (32).

3. An RFID electronic tag production device as recited in claim 2, wherein: the connecting cover body (34) comprises a cover body (342) arranged at the center of the upper surface of the driving turntable (33) and a driving motor (341) arranged inside the cover body (342), the output end of the driving motor (341) is connected with the rotating shaft of the driving turntable (33), a sliding connecting piece (343) is arranged on the lower surface of the cover body (342), and the cover body (342) is movably and limitedly connected with the upper surface of the driving turntable (33) through the sliding connecting piece (343).

4. An RFID electronic tag production device as recited in claim 3, wherein: the mounting plate (31) comprises a positioning pressing plate (311) arranged at the right lower end of the mounting plate (31) and a built-in separation strip (312) arranged on the inner side of the positioning pressing plate (311), the top end of the built-in separation strip (312) is connected with the lower surface of the mounting plate (31), the surface of the positioning pressing plate (311) is embedded with a swinging blade (314), one end of the swinging blade (314) is provided with an elastic hinge (313), and the swinging blade (314) is connected with the positioning pressing plate (311) through the elastic hinge (313).

5. An RFID electronic tag production device as defined in claim 4, wherein: the side surface mounting who embeds separate strip (312) has second drive telescopic link (315), and the one end of second drive telescopic link (315) is provided with cup joints and scrapes clamp (316), cup joints and scrapes clamp (316) and roll up and glue little pole (37) corresponding, and the upper surface mounting of swing page (314) has slope interior platform (317), and the highest point of platform (317) is provided with links up upright piece (318) in the slope, links up the side surface mounting who stands piece (318) and collects inserted bar (319).

6. An RFID electronic tag production device as defined in claim 5, wherein: the surface of the collecting inserting rod (319) is provided with a collecting barb (3191), and the thorn head of the collecting barb (3191) faces away from the sleeving scraping clamp (316).

7. The RFID electronic tag production device of claim 6, wherein: the sleeving scraping clamp (316) comprises a driving movable clamp (3161) butted with the tail end of a second driving telescopic rod (315) and a connecting swing rod (3162) arranged on the surface of the driving movable clamp (3161), wherein two groups of connecting swing rods (3162) are arranged, one ends of the two groups of connecting swing rods (3162) are respectively provided with a laminating half clamp (3163), and the positions of the two groups of laminating half clamps (3163) are corresponding.

8. The RFID electronic tag production device of claim 7, wherein: the middle end of the small glue rolling rod (37) is provided with a movable inner shaft rod (371), a row of movable inner grooves (373) are uniformly formed in the surface of the small glue rolling rod (37), positioning thorns (372) are arranged on the inner sides of the movable inner grooves (373), connecting springs (374) are arranged at the inner ends of the positioning thorns (372), and one ends of the connecting springs (374) are connected with the inner bottom surfaces of the movable inner grooves (373).

9. A production method of the RFID electronic tag production apparatus as claimed in claim 8, characterized in that: the method comprises the following steps:

s1: setting a corresponding heating temperature for the heating platform (82) according to the characteristics of the photoresist material of the produced electronic tag, and controlling the heating time to soften and expand the photoresist, wherein the temperature cannot exceed the thermal stability temperature of the photoresist material, so that damage to a chip or the tag is avoided;

s2: the labels are conveyed and placed on the surface of a heating platform (82), and after the labels are attached and heated for a corresponding period of time, the photoresist becomes soft and expands, and the photoresist can naturally fall off or separate from the surface of the facial tissue;

s3: the photoresist removing mechanism (3) aligns the label, a small photoresist winding rod (37) with proper size and shape is selected, the small photoresist winding rod (37) is aligned to the surface of the photoresist, the photoresist is scraped off by a certain angle and pressure, and the photoresist is moved along the edge end of the label until the whole area needing to remove the photoresist is covered;

s4: the scraped colloid is collected through a sleeved scraping clamp (316) and is processed in a centralized mode, and therefore all implementation steps are completed.