MXPA99005085A - Identification card and method of making - Google Patents

Abstract

A combined business form/identification card (10) includes a sheet of cellulosic stock material having a barrier coating (13) on a first portion of the sheet with an overlay of laser-printable varnish (15) on the barrier coat. Lines of weakness are provided in the sheet in the area of the barrier coat and varnish to produce an identification card detachable from the sheet. A second portion of the sheet has indicia imaged thereon.

Description

IDENTIFICATION CARD AND METHOD TO PRODUCE IT BACKGROUND OF THE INVENTION Currently, there is a number of identification card (ID) products available in the market. These constructions have included placing or flipping a plastic card over a sheet, which is then passed through a dot matrix printer. When you try to print these cards by laser, they can detach the sheet and get stuck in the printer. With today's high-speed printers, this type of construction, with the card superimposed on the surface of the sheet, creates the problem of stacking in the feed tray, in which if a large number of these sheets are stacked on the tray , they have the tendency to fall or create an irregular pile, due to the irregular surface area of the cards. In order to avoid stacking problems, fewer sheets are placed in the loading tray, which then requires the operator's constant concern to continue placing sheets on the loading tray. Another solution that has been proposed in an effort to eliminate the uneven surface area has been to create a multi-part construction in which a window is formed in the substrate and the card is inserted into the window. While this avoids the problems associated with stacking, there are increased costs related to construction due to the multiple parts that must be assembled. In addition, due to the increased thickness of the product, the amount of products that can be stacked in a tray for a laser printer is limited, again requiring the operator to maintain a constant interaction with the printer. Still another embodiment of the prior art, which has been adapted to correct the above problems, has been the creation of a single sheet, which is then laminated with a plastic film to create a card area. In this construction, a sheet is supplied, to which an adhesive is applied and then a plastic film is placed over the adhesive. In order to reduce the thickness of the sheet in the area of the lamination, the plastic film or paper area having the lamination is calendered or compressed to reduce the overall identification signal of the sheet. However, this construction also encounters difficulties, such as the ripple due to the exposure of the plastis film to the heat of the laser printer, the delamination of the film when the productp is stored for too long a time and, in general, the films Conventional plastic do not easily accept the toner (toner) of a laser printer. In addition, the cost of such constructions is high, since they require not only the paper substrate but also the plastic films and the lamination equipment. Thus, there is a need for cost-effective construction that eliminates the above problems.

SUMMARY OF THE INVENTION The present invention relates to a combination of a cost-effective business form (e.g. a letter or other sheet) / identity card, ID. One sheet of paper, on a ream of 11"x 17" (27.94 cm x 43.18 cm) bond sheets, from 31 to 52 pounds (14 to 24 kg) per 1,000, with 38 pounds (17.24 kg) being preferred, and which has paper with a caliber in the range of 152.4 to 254 microns. The paper is selected depending on the requirements of the particular application and is taken and coated on one or both sides with a barrier coating. On top of the barrier coating, a laser-printable varnish layer is then applied, which provides a glossy surface for the ID card, as well as a receptive surface for the laser printer. The barrier coating is used to reduce the amount of varnish that is needed to create a sufficient thickness for the ID card. The barrier coating can also prevent the varnish from sinking into the paper substrate. further, the varnish by itself, without the barrier coating, may not be bright enough, since the barrier coating serves to retain the varnish on the top. The varnish and barrier coatings are available from Rad-Cure of Fairfield, N. J. and sold under the names of Rad-Cure, Rad-Kote® or Raqua-Bond. Other varnishes are available from QureTech of Seabrook, NH. While a barrier coating is suggested in the above embodiment, it should be understood that when the need for barrier coating is not present, laser-printable varnishes can be directly applied directly to the paper substrates, without the need for the coating. of barrier. The preferred barrier coating is Raqua-Bond EG 100 and U.V. varnish. preferred is the 107 BLP. Other barrier coatings have been tested, such as the Northwest Coatings 20951 and Raqua-Bond BA5524. The main constituent of the barrier coating is typically polyvinyl alcohol with minor additions of ammonium hydroxide and triethylamine. U.V. varnish it can include acrylate oligomers and oligomers, with a mixture of photo-initiator and surfactants. Similarly, other UV curable varnishes include 106 BLP and 106 LPLO. The thickness of the composite coating (barrier coating and varnish) varies from 0.1 to 0.5 millimeters and 0.25 mm is the preferred thickness. Coatings weights vary from 2.5 to 12.5 g / m2. To produce ID cards, die cuts are created in the coating area to produce one or more removable cards. If necessary, and depending on the thicknesses of the coatings, the sheet, or before or after the coating, can be passed through calendering rolls to compress the thickness of the coating. Alternatively, the sheet can be calendered after applying the barrier coating and before applying the U.V. The coated areas of the sheet can then be cut by die to create ID cards or, alternatively, perforated or micro-perforated. In any case, some unions remain that hold the card in position with the sheet material. The sheet material can be a strip coated with the barrier coating or the entire sheet can be coated by a flow and then printed on the coating area. Next, the sheet with the barrier coating is overcoated with a varnish, which can then be printed later.

A further embodiment of the present invention relates to a combination of an effective cost sheet / ID card, in which the card portion is created separately and then adhered or otherwise fixed to a sheet of paper or business form. There are at least two mechanisms by which this objective is achieved. The first method of creating the card structure is to completely coat a sheet of paper with the barrier coating and varnish, as noted above. This sheet is then divided or cut into strips of the appropriate width, to accommodate a die cutting operation. The second method includes a card laminate, which is created by laminating two sheets of plastic together with a cellulosic substrate therebetween. This can be done in complete sheet configurations and then the laminated sheet is cut short to create individual card units. The cellulosic substrate may contain impressions, cut as customer logos, names of receivers and the like. The lamination can be achieved either through heat and pressure or alternatively, an adhesive is used to join the sheets together. In the production of cards, they can make economies on a large scale. In any case, the card material or the card laminate ("card products") should ideally be manufactured to be approximately the same thickness as the material of the sheet to which it is to be joined. The card material is attached to the bond sheet by any suitable or known technique, preferably by a strip of adhesive tape and then the adhesive area is compressed (for example by its passage between compression rollers), so as to eliminate, as much as possible, any ridge in the construction. A further method of attaching the card material is to apply a line of pressure-sensitive adhesive to the sheet of paper to which the card material is to be applied, and then place this card material over the adhesive and compress together the sheet / card material in the adhesive area. The adhesive tape or strip in each case must be a permanent adhesive to prevent premature release of the card material from the paper substrate. The card material and the sheet should have the dimensions of a normal sheet, such as 8% x 11, 11 x 17 or 8% x 14 inches (21.59 x 27.94, 27.94 x 43.18 or 21.59 x 35.56 centimeters), depending on the particular application, so it can be processed through a laser printer. Various indications may be printed on the face of the card, such as an introductory letter to the recipient and the card and portion of the product's letter may include indiscernments, such as a bar code and numerical indexes.

BRIEF DESCRIPTION OF THE DRAWING FIGURES Figure 1 is an end view of a combined identification card and business form, according to the present invention, with certain elements being in exaggerated form for illustration clarity; Figure 2 is a top view of one form of the present invention, with ID cards defined by lines of weakness in the form, for ease of removal; Figure 3 is one more mode of the same form; Figure 4 is one more mode of the same form,. with this form comprised of discrete substrates that form a set; Figure 5 illustrates a laminated form, according to the present invention; Figure 6 is a top plan view of a form with the ID cards of Figure 5 there applied; and Figures 7 to 11 illustrate several graphs projecting various parameters of the present forms.

DETAILED DESCRIPTION OF THE DRAWINGS Figure 1 shows an end view, are the thickness of the elements greatly exaggerated for illustrative silliness,. or an identifisasión card and form of negosios nominated 10, of agreement are the invention. A leaf 11, substantially rectangular, of selulosa material, which has a weight between about 14 and 23.6 kilograms per ream, and a salibre between 152.4 and 254 microns, has applied to one of its sares 12, a barrier re-surfactant 13 (for example from a material, such as was previously disintegrated). ), are a varnish 15 that can be printed by laser (for example a UV curable varnish, such as those previously described), the suals can be pigmented (or the barrier re-coating can be pigmented) on the barrier coating 13. The overlapped backing 13, 15, in the sara 12 of the sheet 11, has a thickness the sual is between 0.1 and 0.5 mm, preferably about 0.25 mm, and a weight of the re-surfacing between about 2.5 and 12.5 g / m2 . Inductions 16 can be laser printed, or otherwise imaged, on the varnish 15. The sheet 11 can be salanced or before or after the coatings 13, 15 are piled up. As shown in the dotted line of the Figure 1, another barrier replenishment 13 'and varnish replenishment 15, can be applied to sara 12 *, so both sares 12, 12 * have ID cards on them. The barrier cover 13 can be removed where the penetration of the sheet 11 is the varnish and / or the varnish adhesive to the sheet 11 is not a problem. Figure 2 shows a modality in which the ID cards 20 have been formed in the sheet 11 by the lines of weakness 21. One or more (in Figure 2, two are shown) cards 20 can be formed in sheet 11. Lines of weakness 21 can be offset by punching, perforation lines or mis-perforations. As seen in Figure 2, in this mode the coverings 13, 15 subtract less than half of the sheet 11, for example about 25%, in the illustrated embodiment, and the rest of the sheet assumes a business form, such a string, are the indexes 24, 25, on it. Figure 3 shows a selulosa sheet 111, which has been flow coated, or completely covered in another way, is a barrier cover 13 and varnish 15, with a plurality of ID cards 20 formed by lines of weakness 21. sheet 111 is then formed into cards 20 for the aplissation at another hour, such as dividing along the lines 30 to form the after 31. Figure 4 shows a strip 31 which is attached to a business form 32. This union it can be by any son- sonional tress, such as by overlapping the strip 31 and the forms 32 and securing the overlapping porsions with one another, by a splicing material, by mesanically deforming overlapping por- tions, so that they interlock, ets. The preferred way - see Figure 4 - is to release a strip (preferably slat) of pressure sensitive adhesive web 33 over the interface 34, between the inline edges of the shape 32 and the strip 31 (which are approximately the same thickness). . The tape can be applied to only one supported or both of the interface. The compound can then be passed through compression wells, or otherwise act to minimize the flange formed by the syntax or tapes 33. The syntax 33 does not overlap the lines of weakness 21. Figure 5 shows a modality in wherein a sheet 11 of self-sealing material has indices formed on at least one of its faces, with plastic sheets 36, 37 (which may be pigmented) laminated on both sides of the sheet 11, and bonded by adhesive, or by the heat and / or pressure limitation. The individual cards 38, thus formed (they can be cut from a large sheet or band, which are numerous cards 38, or the cards 38 can be individually formed) and then congested to a form of Negosium 40, such as is seen in FIG. Figure 6, in which a card 38 is attached by adhesive 42 to the form 40 having indices thereon. The adhesive 42 can be a repositionable adhesive, or it can be a permanent, pressure sensitive adhesive, which will be released from the plastic 37 of the card 38 more easily than from the paper business form 40. A card 20 may be used in place of the card 38. The combination of form / card of Figures 2, 4 or 5, may be inserted into the envelopes or made in the form of postal pieces, such as in the US patents, Nos. 3,093,296 or 5,595,404, or processed in a band, such as in the US patents, Nos. 5,427,416 , 5,403,236 and 4,846,501. Figures 7 to 11 show several graphs for the tests performed to show the layering of the combinations of shapes / cards, as shown in Figure 2, these graphs are labeled to show the various parameters that are projected and are expired by themselves same. With respect to the preferred embodiment of Figure 2, several sample operations were performed, of which the data of Figures 7 to 11 are obtained. Rad-Cure Radi-Kote 107B-LP varnishes are an anilox (coating weight) of 400-line screen, giving the best repointing that can be printed by laser. The brightest superfisie was achieved with a superior 106-LPLO re-cover with an anilox of 100; however, this surface has a poorer toner (toner) anchor. A denser 107B-LP coating will provide a brighter card, but it also increases the risk of blockage and problems are odor. The toner tonnage and brightness were similar in blue areas and in a strip of blue ink (or other solor) printed under the barrier cover layer. The barrier coating was very significant in affecting the results of brightness, sontinuity and some toner toning tests. There are three differences between the barrier re-surfacing I and II studied in this experiment, as explained in Table 1. Suatro variables were studied. Each variable was operated in two levels. It was not an experiment sufisiente of somatic poutorial because the treatment of ink on the coating II of the barrier (AB) was not included.

Table 1 - Sample Design Design Fastor Low Level High Level Barrier coating II Ink, Arear AWB25-2925 Not Applied Applied Anilox (coating weight) for the top coating of UV light varnish 106-LPLO 107B-LP Barrier Coating I: Raqua-bond EG-100, applied with ceramic anilox 85 on the outside of the paper roll. Barrier II overlay: Raqua-bond WBA5524, pleated are chrome 95 anilox, inside the paper roll.

Constants Role of Metatability # 38 Moistrite, originally 180 salras. Salaried paper of salibre 20.32 to 27.94 microns, to allow space for the coatings. All coating material is contained within the calendered area. All UV coating at a press speed of 45.72 meters per minute.

The conditions of the process and operation for the sample operations were: Stage 1) salanned by both of the band held in the Nidax® printing system (Moore USA, Lake Forest, Illinois) at 77 kg / cm2 both know about an ansho of 6.6675 sm. The pressure provides relief for the best extension, better brightness and less chance of blockage and provides space for the coatings, if necessary. The caliber reduced by 20.32 to 27.94 microns, from 180.34 to 152.4-160.02 misras.

Stage 2) The re-coating ink and both barrier coatings in one pass in the press. a) In the printed printing "of the band, print are Arcar blue ink AWB25-2925 (phase 25 - free of sera) with an anilox of 250 Harper at an angle of 3,016 cm b) On the ink, to re-raise a material Barrier overlay EG-100, with anilox 85 at an angle of 6.03 sm c) On an alternative band d) Back side, barrier WBA5524 with chrome anilox 95 at the same width of 6.03 cm.

Only 32 meters per minute were achieved, due to the thickness of EG-100. This coating also left a dense rim at the edge of the coating, which started on auxiliary rolls in the press. The press ovens were adjusted to 115 ° C. The viscosity of EG-100 should be reduced, so that it can be aplised are a clean edge.

Step 3) The UV coating on the front side (106-LPLO & 107B-LP are 200 and 400 anilox). The velosidad of the press of 45.72 to 47.24 meters per minute are a single row of bulbs UV-H of 600 W / in Fusion.

Stage 4) The coating of varnish on the back side, the same for the four combinations and the press sondisiones.

The responses evaluated in this experiment include toner anchoring, brightness, blocking, resorption sontinuity and thin pack. The average results are shown in Table 2 below.

RESULTS AND ANSWERS OF THE QUALITY TEST Appearance Environment Continuity Test Test Tilt Brightness Calibration Visual Lock SEM Lexmark Lens Tape Pack Anchor Toner Toner Anchor (1) Some Bright Good 4 6.83 65.3 7.0 A Light Speckled Holes 5 6.5 0.34 45.4 B Some Bright Good 3 7 7.0 65.2 C Light Bright Thin 3.5 5.67 39.3 6.8 AC None Mottled Gaps 4.5 7 1.3 28.2 BC Light Bright Thin 3 5.83 7.0 39.8 D Light Bright Good 1 7.17 61.9 6.8 AD Light Dotted Hollows 3 7.5 0.21 42.4 BD Light Bright Good 1 7.5 6.9 63.2 CD Light Bright thin 1 7.33 46.7 6.8 ACD None Mottled holes 2 7.5 0.67 31.0 BCD Light Bright thin 1 7.67 6.9 47.7 CONDITIONS OF TESTING THE PRESS Anilox for Barrier Anilox Blue Ink for UV Varnish UV Varnish (D I Not applied 200I 106LPLO A I Not applied 200 106LPLO B Applied 200 106LPLO C Not applied 400 106LPLO AC I I Not applied 400 106LPLO Applied BC 400 106LPLO D Not applied 200 107BLP AD I I Not applied 200 a07BLP BD Applied 200 107BLP CD Not applied 400 107BLP ACD I Not applied 4 400 107BLP Applied BCD 400 107BLP CONSTANTS Mead accounting paper # 38 Moistrite, caliber of 180 micras originally. Calendered paper of caliber 20.32 to 27.94 microns, to allow space for the coatings. All coating is contained within the calendered area. All UV coating operates at a press speed of 45.72 meters per minute. Barrier Coating I: Raqua-bond EG-100, applied with ceramic anilox 85. Barrier Coating II: Raqua-bond WBA5524, applied with anilox of chrome 95.

Toner Anchoring This is the primary feature / requirement of the card. Anchoring was measured on both the Lexmark scale and the tape test. 107B-LP roughly expands to 106-LPLO are an average Lexmark siphoning of 7.4 vs. 6.3 out of 8. It was the most significant variable. The next most significant treatment is the interaction between the UV coating and the anilox (weight of the coating). 107B-LP showed a slightly better hoist are a low cover weight, but 106-LPLO even worsened are the low coating weight. The projection points and the F rejections are given below, the graphs illustrate that these results are on the "Graphs of Toner" page. Although all samples exceeded the minimum Lexmark value of 5, only samples 107B-LP passed the syntax test. The samples 107B-LP have a position or nothing of the assassination of the syntax (slasifisation 1-2); while the 106-LPLO samples showed a moderate to strong start-up helper (cyasifissability 3-5).

Level Low Level High Ratio F 106-LPLO = 6.3 107B-LP = 7.4 113 Interaction of UV / Anilox coating 42 Anilox 200 = 7.1 Anllox 400 = 6.5 24 Without ink = 6.8 Ink = 7.0 6 Brightness Three brightness lesions were averaged for sada shows, using a Statistical Novogloss brightness meter at a beam angle of 752. Both UV coatings were similar in this test. The anilox silindro and the barrier re-emergence were the two most significant variables. Also two interassiones were signifisantes. The recommended combination of 107B-LP / anilox 400 had a height of 47, which is semi-bright. The maximum lestura of 65 was 106-LPLO and the 200 aniloxy. The average efestos and F-relasions are tabulated below. The effect and interaction graphics are on the "Brilliant Graphics" page. There is not yet a minimum espesifisasión.

Level Low Level High F Anilox Ratio 200 = 54 Anilox 400 = 36 864 Barrier 1 = 53 Barrier II = 37 778 UV / Aniloxy Coating Interaction 49 Barrier / UV Anilox Coating Interaction 106-LPLO = 45 107B-LP = 46 Blocking The blockade was tested with environmental conditions under a weight of 0.154 kg / cm2. This will be the approximate weight of the shapes on the printer's tray. In most cases there is a slight amount of adhesion, but the leaves separate cleanly with moderate force. No release of the coating was seen. The least amount of blockage was seen in the coating of the posterior side, due to the mottled surface and the poor retension, but this will not be representative of our final product. Blocking can best be avoided, as can any odor, minimizing the weight of the UV varnish coating.

Continuity SEM / Visual Appearance The amplification of 100 veses of the surface by the SEM revealed many details about the continuity and smoothness of the coating. There was a huge difference between the front and rear coverage over the barrier coating I and II. On the front, there was only an occasional small gap; while, on the back side, there were large gaps in the coating between the exposed paper fibers. The weight of the denser coating placed with the 200 anilox was remarkable, but not enough to be obvious. The continuity was comparable between both UV coatings and between the printed and non-printed areas.

Package inclination / Calibration / Undulation The figures for package inslination given in table 2 are an extrapolated estimation of the displacement in a complete printer tray - height stack of 61 sm, approximately 3300 sheets. The maximum sanctity would be 3.30 cm, more than ordinary printers can tolerate. The paper was calendered sufficiently to allow spasm for all coatings, which can be confirmed by a caliper in the coated areas from 172.72 to 177.8 micras, in somparasión they are the original thickness of 180.34 misras. In hesho, most of the inslinasión is sausada by the prosecution undulation of seses the dense, dense barrier coating in the posterior sustado.

Conclusions UV top coating: 107B-LP is the best selection for your top toner wrapping. For both brightness and anchoring tests, a consistent result is obtained at high and low coating weights. This will give a more robust product. It also heals at a slightly higher line speed in the press.

UV anilox roll: An anilox of 200 lines (volume of 8.7 BCM) applies a denser coating thickness than an anilox of 400 lines (volume of 4.0 BCM) -which is the most significant factor in achieving high brightness. However, there are four benefits, using anilox less than 400 - less odor, less blockage, reductive raw material and slightly higher toner adhesion, are the 107B-LP re-cover.

Ink: Printing the ink under the sweep coating has eliminated the problem of poor toner anchoring in the printed area. In this experiment, it has no significant effect on any result.

Barrier coating: Although the barrier coating provides good brightness, continuity and toner toner results, the EG-100 fluid was too thick and its visuosity must be redrawn.

While the invention has been described in relation to what is currently considered to be the most practical and preferred embodiment, it will be understood that the invention will not be limited to the described embodiment, and on the contrary, attempts to cover several modifications and equivalent arrangements included within the scope of the invention. spirit scope of the annexed claims.

Claims (36)

1. CLAIMS 1. A method for producing a combined identification card and business form, which uses a sheet, substantially rectangular, of selulosa material, which has a weight of 14 to 23.59 kilograms per ream of 27.94 cm x 43.18 cm, and a gauge between 152.4 and 254 microns, approximately, the method comprises the steps of: (a) apiling a barrier ream to a portion of the sheet, at least as large as an identification card; (b) applying a varnish, which can be laser printed, on the barrier coating; and (c) acting on the sheet to supply lines of weakness in the sheet, in the area of the barrier coating and the varnish, to produce an identification card, these lines of weakness allow the card to be detached from the rest of the sheet. sheet.
2. 2. A method, as defined in claim 1, wherein stage (a) is practiced by applying the barrier coating and varnish to only a first portion of the sheet, which has an area of less than 50% of the area of the sheet .
3. 3. A method, as defined in claim 2, wherein steps (a) and (b) are practiced to provide a composite coating on one side of the sheet, which has a thickness of 0.1 to 0.5 mm.
4. 4. A method, as defined in claim 3, in which steps (a) and (b) are pesti- fied to provide a somatic weight of the re-cover between about 2.5 to 12.5 g / m2.
5. 5. A method, as defined in claim 4, which comprises the further step of (d) forming images is indices on a second portion of the sheet, distinct from the first portion, and includes the additional step of laser printing indices on the varnish, which can be printed by laser.
6. 6. A method, as defined in claim 5, which comprises the subsequent step of calendering the sheet, before or after steps (b) and (c). .
7. 7. A method, as defined in claim 1, wherein steps (a) and (b) are practiced on substantially all of the first side of the sheet.
8. 8. A method, as defined in claim 1, wherein steps (a) and (b) are performed on both the first and second sides of the sheet.
9. 9. A method, as defined in claim 1, wherein step (a) is performed using a barrier re-surfacing, which has the polyvinyl hydride as well as the prinsipal sonicate.
10. A method, as defined in claim 1, wherein step (b) is practiced by the use of a UV curable varnish, such as the aforementioned varnish.
11. 11. A method, as defined in claim 2, wherein steps (a) and (b) are piled on a strip, having a width of about 7.6 to 12.7 centimeters, and where the sheet has dimensions of 21.59 cm x 27.94 cm, 21.59 cm x 35.56 cm or is a sheet of A4 size.
12. 12. A method, as defined in claim 1, wherein step (b) is practiced using a pigmented varnish, having a different solder color, black, tan or gold, to provide a solos identifi- cation card.
13. 13. A method for producing a combined identification card and business form, with the use of a substantially restangular sheet of cellulose material, having a weight between about 14 to 23,587 kg per ream, and a gauge between about 152.4 and 254 microns , this method includes the steps of: (a) apply a varnish that can be laser printed on the sheet; and (b) astuar on the sheet to supply lines of weakness on this sheet, in the area of the varnish, to produce an identification card, these lines of weakness allow the detachment of the card from the rest of the sheet.
14. 14. A method, as defined in claim 13, wherein step (a) is applied by applying the varnish to only a first portion of the sheet, which has an area of less than 50% of the area of the sheet.
15. 15. A method, as defined in claim 13, wherein step (a) is practiced by providing a coating on one side of the sheet, which has a thickness of 0.1 to 0.5 mm, preferably about 0.25 mm.
16. 16. A method, as defined in claim 13, in which step (a) is performed to provide a backfat weight between 2.5 to 12.5 g / m2.
17. 17. A method, as defined in claim 13, wherein the further step of forming an indexed image on the second portion of the sheet, other than the first portion.
18. 18. A method, as defined in claim 13, which comprises the further step of laser printing indices on the varnish that can be laser printed.
19. 19. A method, as defined in claim 13, wherein step (a) is performed on substantially all of the first face of the sheet.
20. 20. A method, as defined in claim 13, wherein step (a) is performed on both the first and second sides of the sheet.
21. 21. A method, as defined in claim 13, in which step (a) is performed using a varnish, which may be UV light, such as varnish.
22. 22. A method, as defined in claim 14, in which step (a) is planted on a strip, having an ansho of 7.6 to 12.7 sm, and where the sheet has dimensions of 21.59 x 27.94, 21.59 x 35.56 or is of A4 size. 2-3.
23. A method, as defined in claim 13, in which step (a) is practiced using a piqmented varnish, having a color different from the black, brown or gold color, to supply a sols identifi- cation card.
24. 24. A method, as defined in claim 13, wherein step (b) is practiced by the die or misroperforasion sorting. 25. A method for producing an identifisation card and a shape of negosios synapses, using a substantially rectangular sheet of cellulose material, having a weight between approximately 14 and
25. 23. 586 kg per ream, and a salibre from 152.4 to 254 microns, this method comprises the steps of: (a) applying a barrier coating to substantially all of the first side of the sheet; (b) applying a varnish, which can be laser printed, on the barrier coating; (s) forming a plurality of identifisation cards of the sheet and detaching them from this sheet; and (d) stacking the identification cards, from the stage (s), to a plurality of business forms, at least one card per form, for example by adhesively attaching the cards to the forms.
26. 26. A method, as defined in claim 25, wherein steps (a) and (b) are performed on both the first and second sides of the sheet.
27. 27. A method, as defined in claim 25, wherein steps (a) and (b) are pledged to provide a resorption overlapped in at least one sara of the sheet, which is between about 0.1 and 0.5 mm thick , preferably around 0.25 mm.
28. 28. A method, as defined in claim 25, wherein steps (a) and (b) are practiced to provide a composite coating weight between about 2.5 to 12.5 g / m2.
29. 29. A method, as defined in claim 25, in which steps (c) and (d) are plywooded to form strips of identification cards, the strip has two cards, which are formed by cutting by punching or drilling or misdrilling strips, and a strip is tested to a form of negosios.
30. 30. A method for forming an identifisation card and a form of negosia, in combination, this method comprises the steps of: (a) producing one or more identification cards, by forming images on a cellulose sheet are indices, such as a leaf having a weight between approximately 14 and 23.587 kg per ream, and a caliber between 152.4 and 254 microns, and laminating the cellulose sheet between two sheets of plastis, such as by venting and / or pressure, or by fixation are adhesive; and (b) stacking the identification card of step (a) to one or more business forms, on at least one card per form, for example by adhesively bonding the cards to the forms.
31. 31. A business form with an identification card, which comprises: a sheet, substantially rectangular, of cellulose material, having a weight between 14 and 23,587 kilograms per ream, and a size between about 152.4 to 254 microns; a barrier coating on a first portion of the sheet, at least as large as an identification card; a varnish, which can be printed by laser, on the barrier coating; a plurality of lines of weakness in the sheet, in the area of the barrier coating and the varnish, to produce an identification card, these lines of weakness permit the detachment of the card from the rest of the sheet; and a second portion of the sheet, are indices in the form of images on it.
32. 32. One form of negosios, of agreement is the vindication 31, in which the first portion has an area smaller than 50% of the area of the sheet, the thickness of the barrier coating and the varnish, which form a composite coating on the sheet, is found between approximately 0.1 and 0.5 mm, this coating has a weight between 2.5 and 12.5 g / m2.
33. 33. A business form, according to claim 31, wherein the barrier coating has the polyvinyl alcohol as a main constituent and the varnish is a varnish that can cure by U.V.
34. 34. A business form, according to claim 31, including indexes formed by laser images, on the varnish that can be laser printed.
35. 35. A business form, according to claim 31, wherein the varnish is pigmented to provide a color identification card.
36. 36. A form of negosios, of agreement is the reivindisasión 31, in which the first porsión has an area less than 50% of the area of the sheet, the thick of the barrier coating and the varnish, which form a composite coating on the sheet, is between approximately 0.1 and 0.5 mm, this re-surfacing has a weight between 2.5 and 12.5 g / m, the barrier coating that also has the polyvinyl ester as the main constituent and the varnish is a varnish that can cure by UV radiation, which includes of images formed by laser on the varnish that can be printed by laser, this varnish is pigmented to supply a color identification card.