CN102867208A - RFID (radio frequency identification device) label manufacturing equipment - Google Patents

Abstract

The invention relates to the technical field of mechanical equipment, in particular to RFID (radio frequency identification device) label manufacturing equipment. The manufacturing equipment comprises a labeling system and a label bag forming system, wherein the labeling system comprises a paper tape unreeling wheel, a paper tape reeling wheel, a labeling roller, and a stripping plate and an embossing device which are used for restraining a release paper tape between the paper tape unreeling wheel and the paper tape reeling wheel sequentially; and the label bag forming system comprises a cloth tape unreeling wheel, a base plate, a folding mechanism, an ironing mechanism and a welding mechanism sequentially along a cloth tape delivery direction. The invention provides the RFID label manufacturing equipment, which realizes the flow production of RFID labels. The RFID label manufacturing equipment has the advantages of high production speed, good effects, simple structure, reliable operation, low cost, less faults and convenience for adjustment, greatly improves the production efficiency, can be used for producing the RFID electronic labels in different specifications and has extremely high practical value.

Description

A kind of RFID label manufacturing equipment

Technical field

The present invention relates to mechanical equipment technical field, relate in particular to a kind of RFID label manufacturing equipment.

Background technology

Self service more and more is subject to businessman and consumer's favor with the commercial glamour of uniqueness, inevitably, self service also causes the problem of the continuous rising of commodity Loss Rate simultaneously, take Wal-Mart as example, and just nearly 2,000,000,000 dollars of the year losses that single theft causes.Adopt which kind of means to avoid commodity to be stolen, being one directly affects the important topic that enterprise generates profit target.

The applicant once applied for an anti-theft label for clothes based on the RFID technology (application number is 201120226727.3), helped to help to solve businessman's solution commodity and lost this difficult problem.Referring to Fig. 1, it is the structural representation of anti-theft label for clothes, comprises the label bag 120 and the RFID chip 110 that sticks on label bag 120 inside surfaces of cloth matter.The opening part of label bag 120 is connected to inner by making, and RFID chip 110 is pasted mutually with label bag 120 inside surfaces, plays the fixedly effect of RFID chip 110.This anti-theft tag can be arranged in the production of commodity, packaging process by dress manufacturer, change in the past added front ability setting, like this so that anti-theft tag is not only placed is more hidden, be difficult for being found and destroying, thereby lower stolen possibility, avoid causing the loss of businessman, but also so that originally be not suitable for the valuable class clothes of self service can both self service, thereby improved client's desire to buy, promoted the significantly increase of sales volume, brought economic benefit to businessman.Certainly, this anti-theft tag not only is applicable to clothes, equally also is applicable on other textile article.

Although above-mentioned anti-theft tag is simple and reasonable, in its manufacture process, because RFID chip 110 sticks on label bag 120 inside, such structure is brought very big puzzlement to production.As after label bag 120 moulding, pasting, need handwork, not only labour intensity is large, production efficiency is low, and is pasting quality and also be difficult to guarantee.As before label bag 120 moulding, pasting, then can't use existing label bag 120 formers.So need a kind of manufacturing equipment that can realize that above-mentioned RFID label streamlined is produced.

Summary of the invention

The purpose of the embodiment of the invention is the blank for prior art, proposes a kind of RFID label manufacturing equipment, has realized the streamlined production of RFID label as described in the background art.

In order to reach the foregoing invention purpose, a kind of RFID label manufacturing equipment that the embodiment of the invention proposes is achieved through the following technical solutions:

A kind of RFID label manufacturing equipment, be used for strap and a kind of by release paper tape and be attached to successively the self-sticking label tape that a plurality of chips on the described release paper tape form and be processed into the RFID label, described RFID label comprises the label bag that is formed by described strap and sticks on the chip of described label bag inside surface, it is characterized in that, described manufacturing equipment comprises labeling system and label bag formation system, wherein:

Described labeling system comprises the paper tape unreeling wheel of laying described self-sticking label tape, paper tape winding wheel, the labeling roller that the release paper tape behind the chip is peeled off in recoil and peel plate and the Embosser that retrains successively the transport path of the release paper tape between paper tape unreeling wheel and paper tape winding wheel; The edge of a knife that has the described release paper tape formation v shape transport path of a constraint on the described peel plate, the described edge of a knife and the gap that only can supply described release paper tape to pass through along formation between the strap of substrate surface conveying; Described labeling roller is located at the position of oppressing simultaneously the chip that described strap and described knife-edge part be stripped from; Described Embosser is by pressure roll and consisted of by the burr roller of gear train driving rotation, described pressure roll has when described release paper tape is between described pressure roll and burr roller its elasticity roll surface of exerting pressure, the concavo-convex fluctuating of the roll surface rule of described burr roller;

Along described cloth tape feeding direction, described label bag formation system comprises the strap unreeling wheel of laying described strap, described substrate, fold mechanism successively, by ironing mechanism and the Welding mechanism pressing platform and flatiron and consist of; Described fold mechanism comprises the first parallel flap and the second flap, and described the first flap runs through and is provided with the first angle seam that the slit that crossed by two ends forms, the length of described slit be described cloth bandwidth half, width is not less than described cloth tape thickness; Run through being provided with length and being not less than half vertical masonry joint of described cloth bandwidth on described the second flap, described vertical masonry joint thickness is not less than the twice of described cloth tape thickness; Described Welding mechanism comprises at least periodically along the cutting knife that passes through the heating of ultrasonic vibration head of the cut-out of strap duplexer transversal section and welding and the haulage gear of the described strap of continuous traction.

Described fold mechanism also comprises parallel being located between described the first flap and the second flap, the 3rd flap that supports and can relatively described slide rail slide by slide rail, run through being provided with the second angle seam that the slit that crossed by two ends forms on described the 3rd flap, and the length of these two slits be described cloth bandwidth half, its width is not less than described cloth tape thickness; The angle β of described the second angle seam is less than the angle α of described the first angle seam.

Described fold mechanism comprises that also one parallelly is located at pressing plate between described the second flap and the 3rd flap, described pressing plate is set on the bolt and can slides by relatively described bolt, described bolt one end is vertically fixed on described the second flap, two nuts that described pressing plate is fixedly clamped are installed on the described bolt, and an end face of described pressing plate remains with described vertical masonry joint and is in same plane.

Described angle α is 90 °, and described angle β is 45 °, and a slit of the angular bisector of described the first angle seam, described the second angle seam, described vertical masonry joint are all in the same plane.

Described label bag formation system also comprises and destatics mechanism, the described mechanism that destatics comprises water inlet pipe and the shower that is communicated with water inlet pipe, described shower is fixedly installed on a side in the strap outside in the strap transport path between described strap unreeling wheel and the composite structure, and described shower has the hole for water spraying of at least one strap in described transport path.

The described mechanism that destatics also includes water retaining cover, and described strap unreeling wheel and shower are located in the accommodation space of this water retaining cover, and described water retaining cover one side offers the derivation seam for strap output.

Described manufacturing equipment also comprises the label testing agency that is located at described Welding mechanism rear, described label testing agency comprises conveying belt, the controller of carrying described RFID label, have the chip reader of near field RFID antenna and be located at the ink discharge device at described chip reader rear, described chip reader is connected described conveying belt top and is connected with described controller respectively with ink discharge device, described ink discharge device comprises the ink gun that is connected with ink reservoir, and the movement locus of RFID label is relative on described ink gun top nozzle opening direction and the described conveying belt.

Described testing agency also comprises speed detector, described speed detector comprises a rotatable engaged wheel that arranges and the speed probe that is provided in this engaged wheel place, the outer peripheral face of described engaged wheel is the uneven surface that fits tightly with described conveyor belt surface, the rotating shaft of described engaged wheel and described tape transport perpendicular direction, described speed probe is connected with described controller.

Bearing that is hinged with connecting rod of fixed installation on the described peel plate, described connecting rod is fixedly connected with the roll shaft of described labeling roller, and described bearing is provided with the spring that makes described connecting rod offset.

A kind of RFID label manufacturing equipment proposed by the invention has been realized the streamlined production of RFID label.Speed of production is fast, effective, greatly enhances productivity, and it is simple in structure, and reliable operation is with low cost, is difficult for fault, and is easy to adjust, can be used for the production of the RFID electronic tag of different size, has good practical value.

Description of drawings

By the description of its exemplary embodiment being carried out below in conjunction with accompanying drawing, the above-mentioned feature and advantage of the present invention will become apparent and easily understand.

Fig. 1 is the structural representation of RFID label;

Fig. 2 is the structural representation of self-adhesive label paper tape;

Fig. 3 is embodiment of the invention one-piece construction vertical view;

Fig. 4 is the structural representation of embodiment of the invention labeling system part;

Fig. 5 is the side sectional view of embodiment of the invention tensioning system;

Fig. 6 is the structural representation of embodiment of the invention composite structure part-structure;

Fig. 7 is embodiment of the invention strap unreeling wheel and the structural representation that destatics mechanism's part;

Fig. 8 is embodiment of the invention doubling mechanism vertical view;

Fig. 9 is the perspective view of embodiment of the invention doubling mechanism;

Figure 10 is the working state schematic representation of embodiment of the invention doubling mechanism;

Figure 11 is the structural representation of the invention process spr chip discriminator.

Embodiment

Below in conjunction with accompanying drawing the present invention is described in further detail, so that technician's of the same trade understanding:

Shown in Fig. 1-11, label represents respectively:

RFID label 100, RFID chip 110, label bag 120, self-adhesive label paper tape 200, release paper tape 210, non-drying glue layer 220, strap 300,

Labeling system: paper tape unreeling wheel 400, tensioning system 500, driven roll 510, annulus 511, holding screw 512, compression mechanism 520, axle 521, tumbler 522, hairbrush 523, holding screw 524, composite structure 600, peel plate 610, labeling roller 620, bearing 621, connecting rod 622, spring 623, Embosser 700, burr roller 701, pressure roll 702, paper tape winding wheel 800, flange 810, substrate 900;

Label bag formation system: frame 1000, strap unreeling wheel 1100, destatic mechanism 1200, shower 1210, water inlet pipe 1220, water retaining cover 1230, derive seam 1231, fold mechanism 1300, the first flap 1310, the first angle seam 1311, the 3rd flap 1320, the second angle seam 1321, base 1322, the second flap 1330, vertical masonry joint 1331, Anchor plate kit 1340, pressing plate 1341, screw rod 1342, nut 1343, guide rail 1350, ironing mechanism 1400, transmission pair roller 1500, Welding mechanism 1600, limiting plate 1610, fusion splicing devices 1620, backing roll 1700;

Chip discriminator 1800, conveying belt 1810, contact zones 1811, runner 1820, speed detector 1830, engaged wheel 1831, chip detector 1840, ink discharge device 1850;

Guide roller: the first guide roller 1910, the second guide roller 1920, the 3rd guide roller 1930, the 4th guide roller 1940, the 5th guide roller 1950, the 6th guide roller 1960, the 7th guide roller 1970, the 8th guide roller 1980, the 9th guide roller 1990;

Inductor: the first inductor 2010, the second inductor 2020, the 3rd inductor 2030, the 4th inductor 2040.

Referring to Fig. 1, it is the structural representation of RFID label 100, and the manufacturing equipment of the RFID label bag that the present embodiment proposes designs for streamlined automatically makes this RFID label 100 just.

For realizing above-mentioned streamlined production, the raw material that manufacturing equipment adopts in the present embodiment has following architectural feature so that realize the directed conveying of the periodicity of RFID chip 110 and label bag 120:

Self-adhesive label paper tape 200

Be compound in the label bag 120 for ease of RFID chip 110, RFID chip 110 bottoms have non-drying glue layer 220.Based on said structure, referring to Fig. 2, RFID chip 110 is equally spaced to be attached to successively release paper tape 210 and to consist of self-adhesive label paper tapes 200.For ease of storing, self-adhesive label paper tape 200 is contained in the form of a roll, when self-adhesive label paper tape 200 is unfolded and when at the uniform velocity transmitting, can property performance period is directed carry,

Strap 300

Identical with self-adhesive label paper tape 200 principles, strap 300 is taken in drum equally.When strap 300 through doublings, and with the product after the doubling after cutting, engaging the cut place, namely consist of label bag 120.

As can be seen from the above description, manufacturing equipment realizes that core that streamlined is produced is to finish peeling off of RFID chip 110 and compound, the doubling of strap 300 and cutting and the joint of strap 300 in the orientation of strap-like objects at the uniform velocity transmits in the present embodiment.Therefore, below this manufacturing equipment is divided into two large systems be described in detail "

One, labeling system

Labeling system mainly finish peeling off and multiple working of RFID chip 110, the realization of its function mainly cooperates by composite structure 600 and conveying mechanism to be finished.

Referring to Fig. 3 and Fig. 4, conveying mechanism mainly is comprised of board (not shown), paper tape unreeling wheel 400, tensioning system 500, Embosser 700 and paper tape winding wheel 800.Wherein:

Paper tape unreeling wheel 400 is follower, in the turnable rotating shaft that is installed on the board, is used for laying the reel that is formed by self-adhesive label paper tape 200.

Paper tape winding wheel 800 is the driving wheel that rotates by motor-driven, and its Main Function is by the release paper tape 210 behind the recoil labeling, and the tractive force for self-adhesive label paper tape 200 is provided.Paper tape winding is taken turns 800 outer peripheral faces and is axially symmetrically convexed with two flanges 810 along it, takes turns friction force between 800 outer peripheral faces for increasing release paper tape 210 and paper tape winding, makes to be difficult for skidding between this two.Motor is fixedly installed on the frame, and the described paper tape winding wheel 800 of the driving of intermittent rotates.

Tensioning system 500, composite structure 600 and Embosser 700 are arranged between paper tape unreeling wheel 400 and the paper tape winding wheel 800, and retrain according to this release paper tape 210(self-adhesive label paper tape 200) transport path, each tool function of three is to realize different purposes.It should be noted that, above-described " being arranged between paper tape unreeling wheel 400 and the paper tape winding wheel 800 " should be by not being located between the two on the spatial sense that be interpreted as of narrow sense, and be appreciated that on release paper tape 210 transport paths between, that is to say release paper tape 210(self-adhesive label paper tape 200) begun by paper tape unreeling wheel 400, pass through according to this after tensioning system 500, composite structure 600 and the Embosser 700, arrive paper tape winding wheel 800.

Referring to Fig. 5, tensioning system 500 is comprised of driven voller 510 and compression mechanism 520, the tensile force that is used for controlling the reel velocity of rotation and self-adhesive label paper tape 200 is provided, and held stationary is failed paper.Wherein:

Driven roll 510 is driven roll.Be formed with the flange of two ring-types on the periphery of driven roll 510, to play the position of restriction self-adhesive label paper tape 200.For making the self-adhesive label paper tape 200 of the applicable various width of this tensioning system, flange adopts adjustable design, specifically, flange is made of two annulus 511 at driven roll 510 suits, two annulus 511 all can be along driven roll 510 relative slidings, and offer screw on the annulus 511, and correspondence is equipped with holding screw 512, by screwing holding screw 512 annulus 511 is fixed on the driven roll 510 relatively.By regulating two spacings between the annulus 511, make this driven roll 510 can adapt to the paper tape of various width.

Compression mechanism 520 is located at a side of this driven roll 510, is comprised of axle 521, tumbler 522 and hairbrush 523.Wherein, axle 521 1 ends are fixedly mounted on the board, and be arranged in parallel with driven roll 510.The hollow space of tumbler 522 and axle 521 form fit, and be sleeved on turnably on this axle 521 offer screw equally on the tumbler 522, holding screw 524 is installed in this screw, realize relatively fixing between axle 521 and the tumbler 522 with this.The end that is fixed on tumbler 522 that hairbrush 523 is detachable, the spacing between its width and two annulus 511 cooperates, and part is between two annulus 511.Hairbrush 523 adopts soft material with favorable elasticity to make, such as nylon etc.Rotation tumbler 522 during use makes hairbrush 523 compressing driven roll 510 and moderate pressures, then screws holding screw 524 tumbler 522 is fixing.When self-adhesive label paper tape 2 when driven roll 510 is carried, exerting pressure that hairbrush 523 continues are tensioned self-adhesive label paper tape 2.

Because release paper tape 210 is processed through plastic-coated, it is very smooth that it has plastic foil one side, only flange 810 is set is not sufficient to the stiction that provides enough by take turns 800 outer peripheral faces at paper tape winding, and in case release paper tape 210 and paper tape winding skid between taking turns 800, then directly cause the conveying of release paper tape 210 dislocation to occur.Therefore, also needing to arrange Embosser 700.Embosser 700 is constituted by burr roller 701 and pressure roll 702, and wherein burr roller 701 is drive roll, and pressure roll 702 is driven roll.The axle of burr roller 701 is subjected to gear train to drive rotation, is formed with ups and downs concave convex texture on its roll surface; The axle of pressure roll 702 is fixed on the board, and its roll surface then has preferably elasticity.Tangent and mutual compressing between two roll surfaces of burr roller 701 and pressure roll 702.When this Embosser 700 operation, gear train drives burr roller 701 and rotates, pressure roll 702 is subjected to burr roller 701 to drive rotation under the effect of friction force, release paper tape 210 is from burr roller 701 and pressure roll 702 intermediate inputs, and be driven and be involved between burr roller 701 and the pressure roll 702, under the contention effect of the two with the concave convex texture generation plastic deformation on the burr roller 701, the two sides of release paper tape 210 all are pressed and are ups and downs uneven surface.

By said structure as can be known, concavo-convex cooperation and the larger pressure of existence between burr roller 701 and the release paper tape 210, relative slip can not occur, the whole transporting velocity of release paper tape 210 is determined by the rotation of burr roller 701, and paper tape winding wheel 800 only plays the release paper tape 210 with uneven surface of recoiling from Embosser 700 outputs.

Composite structure 600 is made of peel plate 610 and labeling roller 620.In addition, for guaranteeing to be supported by stable at compound tense strap 300, labeling system also includes has the smooth substrate 900 that transmits the surface, and strap 300 is transferred with fixed-direction on the transmission surface of substrate 900.Although substrate 900 is located on the transport path of strap 300, because making up with composite structure 600, it finishes compound operation, therefore will its part as labeling system.

The effect of peel plate 610 is to make self-adhesive label paper tape 200 change direction around the edge of peel plate 610, forms the transport path of V-arrangement, so that RFID chip 110 separates from release paper tape 210, thereby allows RFID chip 110 to be put on the strap 300.This edge on the peel plate 610 is called as the edge of a knife because section configuration is acute angle-shaped (being generally less than 30 °).In addition, guarantee just to be placed on the strap 300 when RFID chip 12 breaks away from release paper tape 21 from knife-edge part, this peel plate 610 arranges in the mode that favours substrate 900, peel plate 610 edges of a knife are near substrate 900, and and parallel and form the slit that passes through for strap 300 and release paper tape 210 between the substrate 900, the width of this slit should only be slightly larger than strap 300 and add release paper tape 210 thickness, so that RFID chip 110 more close strap 300 when being stripped from.

Labeling roller 620 evenly, entirely sticks on strap 300 for the RFID chip 110 that will break away from release paper tape 210.Referring to Fig. 6, one side of peel plate 610 upper surfaces is installed with bearing 621, be provided with an axis hole that arranges along the knife edge length direction on the bearing 621, a rotating shaft is installed in this axis hole turnably, in addition, also be provided with spring 623 on the bearing 621, these spring 623 two ends are separately fixed on rotating shaft and the bearing 621.The end of rotating shaft is fixedly connected with one perpendicular to the connecting rod 622 of rotating shaft, and the other end of connecting rod 622 then vertically is fixed with a roll shaft, is set with cylindric roller turnably on this roll shaft, and this roll shaft and roller namely consist of labeling roller 620.Cylindric roller is arranged on substrate 900 and transmits a surperficial side, can oppress simultaneously the RFID chip 110 that strap 300 and described knife-edge part are stripped from.Because RFID chip 110 has certain thickness and not withstand voltage, roller should adopt light elastic material to make, and makes as adopting the materials such as foam, sponge, larger friction force not only can be provided, and have less than large deformation time institute applied pressure.

In addition, by the effect of above-mentioned peel plate 610 as can be known, for realizing peeling off, before sticking label paper tape 200 passes through the edge of a knife, should be carrying with the very little angle of peel plate 610 upper surface angles, release paper tape 210 is by again should be with the angle conveying very little with peel plate 610 lower surface angles behind the edge of a knife.In the present embodiment, release paper tape 210 transport paths in constraint peel plate 610 places are realized by guide plate and the first guide roller 1910, the second guide roller 1920, the 3rd guide roller 1930.Each guide roller is driven roll, and guide plate and each guide roller all are located at the opposite side of peel plate 610 relative its edges of a knife.Self-adhesive label paper tape 200 is by behind the tensioning system 4, successively around the first guide roller 1910, the edge of a knife, and realize peeling off, the release paper tape 21 after peeling off enters winding wheel 800 around lower surface, the second guide roller 1920 and the 3rd guide roller 1930 of guide plate, and pocket is on winding wheel 800.

Two, label bag formation system

Referring to Fig. 3, the label bag formation system mainly by strap unreeling wheel 1100, destatic mechanism 1200, doubling mechanism 1300, transmission pair roller 1500, ironing mechanism 1400 and fusion splicing devices 1620 and form.

Strap unreeling wheel 1100 and paper tape unreeling wheel 400 structures are roughly the same, are similarly the follower that is installed in turnably on the board, are used for laying the reel that is formed by strap 300.

Because label bag 120 adopts chemical fiber fabric (being convenient to follow-up thermal welding) to make, therefore strap 300 is in storage, transportation and all inevitable because a large amount of static are carried in friction in the process of strap formation system, so be necessary the operation that before compound, destatics for strap 300 by destaticing mechanism 1200, to avoid electrostatic damage RFID chip 110.Moreover, based on same reason, still need to avoid the accumulation of static in the subsequent job after compound finishing.Thus, destatic in the present embodiment mechanism 1200 and do not take ion common in the industry to destatic mode, but realize in the mode that increases strap 300 humidity by spraying water smoke.Referring to Fig. 7, in the present embodiment, destaticing mechanism 1200 mainly is comprised of water inlet pipe 1220 and the shower 1210 that is communicated with water inlet pipe 1220, described shower 1210 is fixedly installed on a side of strap 300 transport paths between described unreeling wheel 1100 and described composite structure 600, and described shower 1210 has the hole for water spraying of at least one strap 300 in described transport path.Too much impact is compound in order to avoid strap 300 surface moistures, and preferred, described shower 1210 is arranged at a side in the outside of strap 300 in the described transport path.

For above technical scheme, be explained as follows:

" strap the outside " is appreciated that a side that exposes to the open air after the doubling externally, the namely outside surface of label bag 120; Corresponding, the strap inboard then is the compound side of strap and chip.

Between described unreeling wheel 1100 and described composite structure 600, should be by not being located between the two on the spatial sense that be interpreted as of narrow sense, and be appreciated that on strap 300 transport paths between.In the use of reality, can regulate by the break-in roller according to the space structure of production line, make strap 300 enter composite structure 600 behind the spray zone through shower 1210 after unreeling wheel 1100 output and get final product.Preferably, shower 1210 is parallel to the axle of strap unreeling wheel 1100 in the present embodiment, and on the corresponding transport path of being located at after strap 300 breaks away from strap unreeling wheel 1100.The sealing of shower 1,210 one ends, the other end is communicated with water inlet pipe 1220, and its middle part has some perforates, is formed for spraying the hole for water spraying of water smoke.Water inlet pipe 1220 external pressure water works are such as water pump etc.By in strap 300 waterings, make its surface form meagre moisture film, the CO2 in the moisture film dissolved air reduces surface resistivity greatly, and static charge just is difficult for gathering.Therefore not merely only realize the operation that destatics before compound, prevent also after compound the finishing that the static before the ironing adds up.And, in having solved RFID label production run, need the technical matters of electrostatic prevention, the moisture that sprays in iron process can make heat energy enter rapidly fibrous inside, realize the quick transmission of heat, shorten heat time heating time, reduce its yield strength, reduce non-deformability, reduce thus the temperature of flatiron, avoided damaging the RFID chip.

In addition, cause water smoke four ease when avoiding shower 1210 water spray, static mechanism 1200 also includes a water retaining cover 1230, and strap unreeling wheel 1100 and shower 1210 are located at the inside of this water retaining cover 1230.Water retaining cover 1230 interior the 4th guide roller 1940 and the 5th guide rollers 1950 of also being provided with simultaneously are used for retraining the transport path of strap 300 in water retaining cover 1230.Water retaining cover 1,230 one sides offer slit, and this slit consists of the derivation seam 1231 for strap 300 outputs.

Strap 300 by being delivered to above-mentioned substrate 900 after 1960 break-ins of the 6th guide roller, and transmitting along the surface of substrate 900 and to finish above-mentioned multiple working after derive seam 1001 and derive.After multiple working was finished, strap 300 carried RFID chip 110 by the 7th guide roller 1970, the 8th guide roller 1980 and 1990 break-ins of the 9th guide roller, enters doubling mechanism 1300.

Shown in Fig. 8-10, doubling mechanism 1300 is used for finishing the doubling operation of strap 300.Constituted by the first flap 1310, the 3rd flap 1320, the second flap 1330, Anchor plate kit 1340 and two one slide rails 1350.Wherein, the first flap 1310 and the second flap 1330 all are fixedly mounted on the frame 1000, and the two physical dimension is identical and be arranged in parallel, and the first flap 1310 bottoms and the second flap 1330 bottoms are connected and fixed by two slide rails that be arranged in parallel 1350.The body of the 3rd flap 1320 is arranged on the base 1322 in a hole with two perforations, 1322 of bases are by two slideable being set on two one slide rails 1350 in hole, the 3rd flap 1320 can be slided between the first flap 1310 bottoms and the second flap 1330, and remain and be parallel to the first flap 1310 and the second flap 1330.In addition, the second flap 1330 upper vertical offer perforate.Anchor plate kit 1340 is comprised of pressing plate 1341, screw rod 1342 and nut 1343, and wherein an end of screw rod 1342 fixedly is inserted in the top perforate of the second flap 1330, and is fixedly clamped by two nuts 1343 it is arranged perpendicular to the second flap 1330.Pressing plate 1341 tops have perforate, and screw rod 1342 is inserted in this perforate, and are fixedly clamped by two nuts 1343, and the lower end of pressing plate 1341 is horizontally disposed with.

The middle part of the first flap 1310 offers the first angle seam 1311 of a perpendicular＜shape, the middle part that the middle part of the 3rd flap 1320 offers the second angle seam 1321, the second flaps 1330 of its vertical ∠ shape offers a perpendicular and horizontally disposed vertical masonry joint 1331.The slit that each angle seam (the first angle seam 1311 and the second angle seam 1321) crosses by two ends and shape is at a certain angle forms, two slit lengths that consist of an angle seam are identical with width, the total length of two slits just is the width of strap 300, and the width of slit can guarantee that just strap 300 passes through.The width of vertical masonry joint 1331 can guarantee that just the strap 300 after the doubling passes through.Wherein, the angle of the first angle seam 1311 of the first flap 1310 is 90 degree, and its angular bisector is horizontally disposed with; The angle of the second angle seam 1321 on the 3rd flap 1320 is 45, and a slit below relatively being positioned at is horizontally disposed with.The upper limb of the lower end of pressing plate 1341 and vertical masonry joint 1331 is in the same plane.

Based on above structure, when strap 300 being passed through successively the first angle seam 1311, the second angle seam 1321 and vertical masonry joint 1331, and when its front end is pulled: the rear carries the strap 300 of RFID chip 110 by after 1990 break-ins of the 9th guide roller, shape along the first angle seam 1311 when passing through the first angle seam 1311 is bent into 90 degree from midline, (this moment, the section configuration of strap 300 was 45 degree groove shapes again to be bent into 45 degree when passing through the second angle seam 1321 afterwards, the upper surface that is positioned at the part of below is pasted with RFID chip 110, be positioned at the top a part and horizontal line between in angle of 45 degrees), a part that is positioned at the top when continuing to be fed forward is afterwards become level by the compressing of the lower end of pressing plate 1341, strap 300 forms duplexer and enters vertical masonry joint 1331, finishes thus the operation of doubling.RFID chip 110 is positioned at the centre of duplexer shape strap 300 at this moment.

Strap 300 after the doubling enters ironing mechanism 1400 through limiting roll 1700 with fixing angle and position.Limiting roll 1700 is for being fixed on the driven roll on the frame 1000, be formed with the flange of two ring-types on its periphery, to play the position of restriction strap 300, this part-structure adopts the structure of driven roll 510, utilize annulus to realize that spacing is adjustable, describe in detail for the structure of driven roll 510 owing to above, therefore do not repeat them here.

Ironing mechanism 1400 consists of by having the secondary screed (pressing platform) of the peaceful line position of heating wire master screed (flatiron) in main screed top, and wherein the gap between main screed and the secondary screed can guarantee that just the strap 300 after the doubling passes through with oppressed state.Through flatiron, the moisture on the strap 300 is dried, and the doubled state of strap 300 is finalized.

After typing is finished, strap 300 is admitted to Welding mechanism 1600, its fusion splicing devices 1620 adopts ultrasound wave to cut off hot-melt technology, have motor, gear train, cutting knife and ultrasonic vibrations head, by the motion of motor-driven gear train, thereby cutting knife is pumped, to carry out the cutting of strap 300, heat energy by the vibrations of ultrasonic vibrations head height speed produce carries out periodic hot melt for strap 300, finishes thus the bonding between cutting and the levels cut end.Because it is neat without burr that the ultrasound wave cutting technique has cutting, have in fields such as trade mark cut-outs widely and use, also extensively know for those skilled in the art, therefore be not described in detail for its concrete structure at this.Except the above-mentioned fusion splicing devices 1620 that relates to hot melt, fusion splicing devices 1620 the place aheads also have the workplace (being blocked by strap 300 among the figure) of carrying strap 300, the both sides of workplace are installed with respectively limiting plate 1610, the lateral border of limiting plate 1610 is connected with workplace, and outside genesis is extended setting to the workplace center thus, limiting plate 1610 parallel and workplace settings, and form the gap of only passing through for strap 300.By said structure, strap 300 limited plates 1610 retrain with fixing angle and position and enter fusion splicing devices 1620, thereby avoid occurring the problem such as tangential tilt.

Strap 300 is processed to form RFID label 100 behind above-mentioned Welding mechanism 1600.Because in said structure, need cooperatively interacting of a plurality of driving links could realize finishing the moulding of RFID label 100, speed and cycle, the speed of transmission strap 300 and the cycle that fusion splicing devices 1620 cuts off of for example transmitting the speed of strap 300 and transmitting self-adhesive label paper tape 200.And in case deviation appears in above-mentioned being linked, then can cause the problems such as the skew of labeling position, cutting dislocation, thereby the RFID label 100 that directly causes producing becomes waste product.Therefore, in above structure also by controller, the first inductor 2010, the second inductor 2020, the 3rd inductor 2030 and the 4th inductor 2040 are set, come to monitor for speed and the cycle of the speed that transmits strap 300 and transmission self-adhesive label paper tape 200, above-mentioned each inductor is infrared ray sensor.The elongatedness direction is used for and the cooperation of above-mentioned inductor with the evenly spaced color lump that is printed with on strap 300 and the release paper tape 210 simultaneously.Referring to Fig. 1, the first inductor 2010 is located between tensioning system 500 and the first guide roller 1910, is used for detecting compound front self-adhesive label paper tape 200 transmission cycle and speed; The second inductor 2020 is located between guide plate and the Embosser 700, is used for detecting transmission cycle and the speed of the release paper tape 210 after compound; The 3rd inductor 2030 is located between labeling roller 620 and the 4th guide roller 1940, the transfer rate of strap 300 when being used for detecting compound finishing; The 4th inductor 2040 be located at workplace in the Welding mechanism 1600 directly over, between two limiting plates 1610, be used for detecting the transfer rate of the duplexer strap 300 that is about to enter fusion splicing devices 1620.Controller then connects above-mentioned the first inductor 2010, the second inductor 2020, the 3rd inductor 2030 and the 4th inductor 2040, accept the signal that each inductor detects, and based between each driving link of above-mentioned signal controlling synchronously, to guarantee the formed precision of RFID label 100.

In addition, because inevitably there is certain percent defective in RFID chip 110, so be necessary it is identified, be sewn at commodity with the RFID label 100 of avoiding to work and come into the market.For these reasons, this manufacturing equipment also includes chip discriminator 1800 except above-mentioned labeling system and label bag formation system.Chip discriminator 1800 mainly is comprised of the cycloconveyor belt 1810 of carrying RFID label 100, two runners 1820, chip detector 1840 and the ink discharge device 1850 of driving conveying belt 1810 cycle rotations.RFID label 100 inlet ends of conveying belt 1710 are corresponding with fusion splicing devices 1620 export departments, and the relative inlet end of the endpiece of conveying belt 1710 is tilted to lower setting.Two runners 1820 are located at endpiece and the inlet end of conveying belt 1710 inner edges.Chip detector 1840 and ink discharge device 1850 all be located at conveying belt 1810 directly over, and set gradually along the transport path of RFID label 100, chip detector 1840 has RFID reader near field antenna, closely read the data that can prevent from reading simultaneously a plurality of RFID labels 100, chip detector 1840 connects ink discharge device 1850 by controller, when it detects current RFID label 100 damage, send a signal to controller, controller control ink discharge device 1850 carries out the ink-jet mark for the RFID label 100 that damages.Like this, non-defective unit and defective products can be differentiated clearly by having or not ink marks, in follow-up operation, defective products can be rejected.

Because fusion splicing devices 1620 periodically cuts off action and output RFID label 100, although it is not with absolute equidistantly arranging at conveying belt 1810 that the precision of fusion splicing devices 1620 outputs determines RFID label 100, but each RFID label 100 all drops near the scope of its corresponding normal place, and the rule that meets normal distribution, because in ink-jet when action, only guarantee that ink-jet can drop on the RFID label 100 and get final product, its accuracy requirement is much smaller than the precision of fusion splicing devices 1620 outputs, therefore the RFID label 100 of output can be considered on conveying belt 1810 and is arranged in order and is transferred with even interval, and this moment is as long as the speed of control conveying belt 1810 can guarantee the precision of ink-jet.For these reasons, this chip discriminator 1800 also comprises detecting the speed detector 1830 of the speed of conveying belt 1810 cycle rotations, speed detector 1830 comprises an engaged wheel 1831, the outer peripheral face fovea superior projection volt of this engaged wheel 1831 forms uneven surface, one side of this uneven surface and conveying belt 1810 outer rims fits tightly, engaged wheel 1831 is rotated synchronously with the cycle rotation of conveying belt 1810, and the magnetic resistance speed sensor by speed detector 1830 interior settings carries out precision detection for the speed of conveying belt 1810.For avoiding skidding between the two, a side of the outer rim of preferred conveying belt 1810 also has end to end contact zones 1811 that are closed circular, is used for cooperating with the outer peripheral face of engaged wheel 1831, to increase friction force.

One of ordinary skill in the art of the present invention are appreciated that; the above embodiment of the present invention only is one of the preferred embodiments of the present invention; be the length restriction; here can not all embodiments of particularize; any enforcement that can embody claim technical scheme of the present invention is all in protection scope of the present invention.

It should be noted that; above content is in conjunction with concrete embodiment further description made for the present invention; can not assert that the specific embodiment of the present invention only limits to this; under the guidance of above-described embodiment; those skilled in the art can carry out various improvement and distortion on the basis of above-described embodiment, and these improvement or distortion drop in protection scope of the present invention.

Claims (9)

1. RFID label manufacturing equipment, be used for strap and a kind of by release paper tape and be attached to successively the self-sticking label tape that a plurality of chips on the described release paper tape form and be processed into the RFID label, described RFID label comprises the label bag that is formed by described strap and sticks on the chip of described label bag inside surface, it is characterized in that, described manufacturing equipment comprises labeling system and label bag formation system, wherein:

Described labeling system comprises the paper tape unreeling wheel of laying described self-sticking label tape, paper tape winding wheel, the labeling roller that the release paper tape behind the chip is peeled off in recoil and peel plate and the Embosser that retrains successively the transport path of the release paper tape between paper tape unreeling wheel and paper tape winding wheel; The edge of a knife that has the described release paper tape formation v shape transport path of a constraint on the described peel plate, the described edge of a knife and the gap that only can supply described release paper tape to pass through along formation between the strap of substrate surface conveying; Described labeling roller is located at the position of oppressing simultaneously the chip that described strap and described knife-edge part be stripped from; Described Embosser is by pressure roll and consisted of by the burr roller of gear train driving rotation, described pressure roll has when described release paper tape is between described pressure roll and burr roller its elasticity roll surface of exerting pressure, the concavo-convex fluctuating of the roll surface rule of described burr roller;

Along described cloth tape feeding direction, described label bag formation system comprises the strap unreeling wheel of laying described strap, described substrate, fold mechanism successively, by ironing mechanism and the Welding mechanism pressing platform and flatiron and consist of; Described fold mechanism comprises the first parallel flap and the second flap, and described the first flap runs through and is provided with the first angle seam that the slit that crossed by two ends forms, the length of described slit be described cloth bandwidth half, width is not less than described cloth tape thickness; Run through being provided with length and being not less than half vertical masonry joint of described cloth bandwidth on described the second flap, described vertical masonry joint thickness is not less than the twice of described cloth tape thickness; Described Welding mechanism comprises at least periodically along the cutting knife that passes through the heating of ultrasonic vibration head of the cut-out of strap duplexer transversal section and welding and the haulage gear of the described strap of continuous traction.

2. a kind of RFID label manufacturing equipment as claimed in claim 1, it is characterized in that: described fold mechanism also comprises parallel being located between described the first flap and the second flap, the 3rd flap that supports and can relatively described slide rail slide by slide rail, run through being provided with the second angle seam that the slit that crossed by two ends forms on described the 3rd flap, and the length of these two slits be described cloth bandwidth half, its width is not less than described cloth tape thickness; The angle β of described the second angle seam is less than the angle α of described the first angle seam.

3. a kind of RFID label manufacturing equipment as claimed in claim 2, it is characterized in that: described fold mechanism also comprises a parallel pressing plate of being located between described the second flap and the 3rd flap, described pressing plate is set on the bolt and can slides by relatively described bolt, described bolt one end is vertically fixed on described the second flap, two nuts that described pressing plate is fixedly clamped are installed on the described bolt, and an end face of described pressing plate remains with described vertical masonry joint and is in same plane.

4. a kind of RFID label manufacturing equipment as claimed in claim 3, it is characterized in that: described angle α is 90 °, described angle β is 45 °, and a slit of the angular bisector of described the first angle seam, described the second angle seam, described vertical masonry joint are all in the same plane.

5. such as the described a kind of RFID label manufacturing equipment of claim 1-4 any one, it is characterized in that: described label bag formation system also comprises and destatics mechanism, the described mechanism that destatics comprises water inlet pipe and the shower that is communicated with water inlet pipe, described shower is fixedly installed on a side in the strap outside in the strap transport path between described strap unreeling wheel and the composite structure, and described shower has the hole for water spraying of at least one strap in described transport path.

6. a kind of RFID label manufacturing equipment as claimed in claim 5, it is characterized in that: the described mechanism that destatics also includes water retaining cover, described strap unreeling wheel and shower are located in the accommodation space of this water retaining cover, and described water retaining cover one side offers the derivation seam for strap output.

7. a kind of RFID label manufacturing equipment as claimed in claim 6, it is characterized in that: described manufacturing equipment also comprises the label testing agency that is located at described Welding mechanism rear, described label testing agency comprises the conveying belt of carrying described RFID label, controller, chip reader and the ink discharge device of being located at described chip reader rear with near field RFID antenna, described chip reader is connected described conveying belt top and is connected with described controller respectively with ink discharge device, described ink discharge device comprises the ink gun that is connected with ink reservoir, and the movement locus of RFID label is relative on described ink gun top nozzle opening direction and the described conveying belt.

8. a kind of RFID label manufacturing equipment as claimed in claim 7, it is characterized in that: described testing agency also comprises speed detector, described speed detector comprises a rotatable engaged wheel that arranges and the speed probe that is provided in this engaged wheel place, the outer peripheral face of described engaged wheel is the uneven surface that fits tightly with described conveyor belt surface, the rotating shaft of described engaged wheel and described tape transport perpendicular direction, described speed probe is connected with described controller.

9. a kind of RFID label manufacturing equipment as claimed in claim 8, it is characterized in that: bearing that is hinged with connecting rod of fixed installation on the described peel plate, described connecting rod is fixedly connected with the roll shaft of described labeling roller, and described bearing is provided with the spring that makes described connecting rod offset.

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