Payment card

The invention enables to improve flexibility, reliability and service life of a payment card having embedded ornamental elements. In order to achieve the technical effect, the device includes a foil layer, a first layer and a second layer, all being made laminating. The foil layer is fixed between the first layer and the second (outer) layer. The card is provided with a plastic plate, a magnetic strip, an adhesive layer, an insert made with a thickness greater than that of the foil layer and made of the same material as the foil layer. The ornamental element is fixed within the insert and flush to it. The outer surfaces of the second layer and the insert are located in a single plane, and the insert and the ornamental element are free from the second layer on the outside and are fixed in the plastic plate with the adhesive layer.

This invention relates to devices for cashless payments, for example, bank payments, payments in shops, public transportation means, etc.

A VIP payment card is known, which is made from a precious metal only and is provided with an ornamental element—a precious stone attached to it (see, RU Patent No. 2244634).

Disadvantages of the said device are its high cost as well as impossibility to use it for standard ATMs, since it does not comply with the requirements to plastic cards as a payment means. Its construction is insufficiently flexible.

The closest to this invention is a card comprising a foil layer, a first layer and a second layer, these being made laminating, the foil layer being fixed between the first layer and the second (outer) layer (see, U.S. Pat. No. 5,702,554).

This device uses a golden foil layer having a thickness from 0.3 to 1 mm, which the first layer and the second layer laminate on its both sides so that the body of the plastic card looks like a golden one.

Disadvantages of this device are great consumption of the precious metal, insufficient flexibility, impossibility of providing the card with various ornamental elements.

The objective of the invention is to create a payment card with improved flexibility, reliability and life cycle, as well as to decrease metal consumption when embedding various ornamental elements into a card, therefore improving ornamentality and performance.

The said objective can be achieved and the said technical effects can be obtained by the known payment card comprising a foil layer, a first layer and a second layer, these being made laminating, the said foil layer being fixed between the said first layer and the said second (outer) layer, which, according to the claimed device, is provided with a plastic plate, a magnetic strip, an adhesive layer, an insert made to a thickness greater than that of the foil layer and produced from the same material as the foil layer, an ornamental element fixed within the insert flush with it, wherein the outer surfaces of the second layer and the insert are positioned in one plane, and the insert and the ornamental element are free from the second layer on the outside, the insert and the ornamental element are fixed within the plastic plate by an adhesive layer, the length and the width of the foil layer being selected so that they are respectively lesser than the length and the width of the plastic plate.

Additional embodiments of the device are possible, wherein it is expedient that:the foil layer is made of a metal;the foil layer is made of a precious metal;the foil layer is made of a metal alloy imitating a precious metal;the foil layer is positioned in contiguity to the insert;the insert is separated from the foil layer by a gap formed by the first layer and the second layer;the ornamental element is made of a stone;the stone is a natural precious stone;the stone is a natural semi-precious stone;the stone is an artificial stone;the stone is fianite, or transparent glass, or color glass.the ornamental element is made of a fluorescent material;the insert is made with projections for the possibility of attaching the ornamental element on the outside;the adhesive layer is made of a tape which both sides are covered with an adhesive;the foil layer is made as an ornament;the foil layer and/or the insert are provided with an engraving;the magnetic strip is attached to the plastic plate on its opposite side relative to the insert and the ornamental element;the foil layer thickness is in the range from 0.04 to 0.06 mm;the insert thickness is in the range from 0.2 to 0.25 mm;the ornamental element height is not more than 0.75 mm, and its maximum lateral dimension is not more than 2 mm.

The payment card (FIG. 1,2) comprises the foil layer1, the first layer2and the second layer3, these two made laminating. The foil layer1is fixed between the first layer2and the second (outer) layer3.

The construction comprises the plastic plate4, the magnetic strip5, the adhesive layer6, the insert7made with a thickness greater than that of the foil layer1. The insert7is made of the same material as the foil layer1. The ornamental element8is fixed within the insert7and flush with it. The outer surfaces of the second layer3and the insert7are located in a single plane. The insert7and the ornamental element8are free from the second layer3on the outside (FIG. 2) and are fixed in the plastic plate4with the adhesive layer6. The length l and the width s of the foil layer are lesser than the length L and the width S of the plastic plate (FIG. 1).

It is appropriate that the foil layer is made of a metal for the purpose of effectively connecting the layers2and3when laminating.

The foil layer1may be made of a precious metal, such as gold, platinum, silver, palladium, etc.

The foil layer1may be made of a metal alloy imitating a precious metal, e.g., a copper alloy or an aluminum layer.

The foil layer1may be positioned in contiguity to the insert7(FIG. 2), e.g., for the insert7with the ornamental element8.

The insert7may be separated from the foil layer1by a gap formed by the first and the second layers2,3, e.g., for the insert7without an ornamental element.

The ornamental element8may be made of a stone. This stone may be precious, semi-precious or artificial, e.g., fianite, or transparent glass, or color glass.

Furthermore, the ornamental element8may be made of a fluorescent material, e.g., a material capable of glowing in shade.

The insert7is provided with projections9(FIGS. 2,4) for the purpose of improving attachment reliability. The projections9provide for the possibility of additionally fixing the ornamental element8on the outside.

The adhesive layer6may be made of a tape (not shown) which both sides are provided with an adhesive. Tapes of this type are used by jewelers.

In order to increase the ornamentality effect the foil layer1is made as an ornament (FIGS. 1,3).

An engraving (FIG. 3) may be made on the foil layer1and/or the insert7.

The insert7without the ornamental element8(FIG. 2) may be provided, for example, with a deep engraving depicting the owner's monogram (FIG. 3).

The magnetic strip5(FIG. 1,2) is fixed to the plastic plate4on its opposite side relative to the location of the insert7with the ornamental element8.

In contrast to the closest analogous solution with the foil layer having a thickness in the range from 0.3 to 1 mm, the claimed device uses the foil layer1having a thickness in the range from 0.04 to 0.06 mm and the insert7having a thickness in the range from 0.2 to 0.25 mm, i.e., a significantly lesser thickness. This helps reducing costs of the device greatly and improve its flexibility, in spite of embedding various ornamental elements into the card body.

As tests of the card for its compliance with the applicable standards have shown, the height of the ornamental element8should be not more than 0.75 mm and its maximum lateral dimension (e.g., the maximum diameter for a stone) should be not more than 1 mm.

The payment card may be used in a common way, for example, the user can make cashless payments, using ATMs, for which purpose the back side of the card has an information carrier, i.e., the magnetic strip5, attached to it.

The claimed payment card can be made, with the implantation of the layers1, the inserts7and the ornamental elements8, as follows (a particular embodiment of the invention).

The process of making the payment card comprises the following steps: preparation of a metal for the layer1; rolling, together with regular heat treatments, to a required thickness in the range from 0.04 to 0.06 mm.

Cutting of a material for the layer1to fragments, for example, 100×100 mm to be treated subsequently.

Engraving on and texturing the surface of the layer1according to a given vector for the ornament design.

Cutting the contour of the layer1according to the given design vector.

Positioning the layers1relative to the pre-marked contour together with the general design of the card is made on A3 lamination packages.

The process of laminating cards with the layer1and the first and the second layers2,3is carried out according to the parameters similar to the lamination parameters of usual plastic plates4. The sintering temperature is 150-160° C., time is 25-28 minutes, pressure is 30 Pa.

Cards are punched out in accordance with the applicable ISO standards.

The contour of the insert7is cut out according to the given design vector.

Milling the first and the second layers2,3and the plastic plate4for making places for the insert7and the ornamental element8.

Fitting the insert7, laying an adhesive tape and subsequent heat treatment.

Fitting and implanting the ornamental element8.

Attaching the ornamental element8by crushing the metal with a sharp tool (graver) and pulling it over, for example, a stone with forming the projections9.

Engraving and texturing the surface of the insert7according to the given design vector.

Cutting out the contour of the insert7according to the given design vector. Implanting the insert7together with laying the adhesive tape.

The sintering process of cards with the insert7and the ornamental element8is carried out according to the parameters similar to the lamination parameters of usual plastic plates4. The sintering temperature is 150-160° C., time is 25-28 minutes, pressure is 30 Pa.

When being sintered with a laminate, the layer1and the insert7“are buried” in the body of the plastic plate4of the payment card. As a result, the geometrical, mechanical and other parameters of the payment card will comply with all the requirements to using plastic cards, including their use as a pay means.

Due to the use of the thickness of the foil layer1and the thickness of the insert7, which are lesser than in the closest analogous solution, it is possible to compensate for cavities formed during laying a metal, for example, gold, in the areas where it is absent, through heating, exerting pressure and using a minimum thickness of the metal.

A transparent laminate, which is applied over the foil layer1, enables to show the effect of volume and protect the layer from mechanical damage. The absence of a laminate on the insert7and the ornamental element8enables to make the appearance better, for example, to enhance playing of their facets. By using minimum thicknesses in comparison to the closest analogous solutions for the layer1and the insert7it becomes possible to impart the tactile effect to the device with the sense of an engraved metal massive.

The claimed payment card may be most successfully used for making cashless payments through ATMs.