RU193164U1 - Contactless payment medium - Google Patents

Abstract

The utility model relates to the field of contactless payment means, in particular to contactless payment modules integrated into wearable devices. The contactless payment device contains a housing having a shape that allows it to be placed on the user's finger, and a contactless payment module located in it, including a loop antenna formed by turns of conductive material, a microchip whose terminals are connected to the terminals of the loop antenna, and a capacitive load connected parallel to the loop antenna located on the dielectric substrate. The said housing consists of two parts connected to each other, the first of which is designed to be placed on the user's finger, and in the second a cavity is formed in which the said contactless payment module is located. The turns of the loop antenna are located on a flat dielectric substrate with the formation in plan of a closed figure consisting of two symmetrical parts, each of which has a substantially arc shape, the said symmetrical parts are conjugated to each other with the formation on one side of the said closed figure of an angular depression, and with opposite side - angular protrusion. The microchip is located essentially in the center of the said closed figure. The dielectric substrate and said second part of the housing have a side surface substantially congruent with said closed figure. The utility model makes it possible to increase the convenience of using a non-contact means of payment, to reduce the time spent on its manufacture and to expand the range of manufactured means of payment as accessories carried by the user.

Description

The utility model relates to the field of contactless means of payment, in particular, to contactless means of payment, made in the form of accessories carried by the user.

Nowadays, contactless payment devices made in the form of accessories carried by the user (namely rings) are widely known, comprising a housing having a shape that allows them to be placed on the user's finger.

Thus, a contactless payment device is known, comprising a housing having a shape that can be placed on a user's finger, and a contactless payment module located therein, including a loop antenna formed by turns of conductive material, a microchip whose terminals are connected to the leads of the loop antenna, and capacitive load (capacitor) connected in parallel with the loop antenna located on a dielectric substrate (see RU 183111 U1, 09/11/2018).

This known non-contact means of payment adopted as the closest analogue of the declared means of payment.

A disadvantage of the known means of payment is that the dielectric substrate of the contactless payment module included in it has a shape corresponding to the shape of the housing, i.e. ring-shaped. As a result, when making a payment, the user's hand must be clenched into a fist, which creates certain inconveniences and limitations in use. In addition, the described implementation of contactless payment means requires additional time in the manufacture of rings of various sizes for users with different physical data and the need, as a result, the certification of each new product. Another disadvantage of the known means of payment can be attributed to the need to perform its body only from dielectric materials, which narrows the range of manufactured payment instruments as user-wearable accessories.

The technical problem solved by the claimed utility model consists in creating a contactless payment medium similar to that described, simple and universal, both in manufacture and in use.

At the same time, the technical result is achieved, which consists in increasing the convenience of using a non-contact means of payment, reducing the time spent on its manufacture and expanding the range of manufactured means of payment as accessories worn by the user.

The technical problem is solved, and the specified technical result is achieved by creating a contactless payment medium, comprising a housing having a shape that allows it to be placed on the user's finger, and a contactless payment module located in it, including a loop antenna formed by turns of conductive material, a microchip, the terminals of which are connected to the terminals of the loop antenna, and a capacitive load connected in parallel with the loop antenna, located on a flat dielectric substrate.

The said housing consists of two parts connected to each other, the first of which is designed to be placed on the user's finger, and in the second a cavity is formed in which the said contactless payment module is located,

The turns of the loop antenna are located on said dielectric substrate with the formation in plan of a closed figure consisting of two symmetrical parts, each of which has a substantially arc shape. Said symmetrical parts are conjugated with each other with the formation on one side of the said closed figure of an angular depression, preferably with an angle less than 90 °, preferably having a smooth rounding, and on the opposite side, an angled protrusion, preferably with an angle greater than 90 °. The microchip is located essentially in the center of the figure, inside the turns of the loop antenna. The dielectric substrate and said second body part have a lateral surface substantially congruent with said figure. The distance between the outermost turn of the loop antenna and the side surface of the dielectric substrate is preferably from 0.3 to 1 mm.

The described features of the execution of the payment instrument housing, as well as the configuration of the contactless payment module and the layout topology of its components (allowing the module to be stiff with sufficiently compact dimensions), make it possible to manufacture the payment instrument in the form of an accessory worn by the user from a wide variety of materials, including how metals and their alloys (gold, platinum, steel, brass, titanium), and non-metallic materials (ceramics, wood, polymers), which expands the possibilities of its use.

The technical problem is solved, and the technical result is also achieved in private versions of the contactless payment device, according to one of which, it is provided with a frame in which said contactless payment module is installed so that the frame is located around the perimeter of the dielectric substrate. The lateral surface of the carcass is essentially congruent with said closed figure. In a preferred embodiment of the means of payment, said frame and said body are made with eyes, which make it possible to place a connecting element (for example, a decorative padlock) in them.

In another particular embodiment of the payment medium, the distance between two points as distant as possible from each other in the plane of symmetry of the said closed figure is preferably from 75 to 80% of the distance between two points of maximum curvature of each of the arcs.

In yet another particular embodiment of the payment medium, the thickness of the dielectric substrate is from 0.76 to 0.85 mm.

In a particular embodiment of the payment medium, the antenna coils are formed of wire. The thickness of the antenna turns is preferably from 0.05 to 0.15 mm.

Next, the utility model is described in more detail with reference to the figures.

In FIG. 1 is a schematic representation of the claimed contactless payment medium, in a particular embodiment, in isometry.

In FIG. 2 is a schematic illustration of a contactless payment module that is part of the declared contactless payment medium, in a particular embodiment, in a plan.

In FIG. 3 is a schematic representation of the claimed contactless payment module in a preferred embodiment, in isometry.

In FIG. 4 is a schematic representation of a sequence for integrating a contactless payment module into a payment medium housing, in a particular embodiment.

The contactless payment medium shown in FIG. 1, comprises a housing 1, consisting of two parts connected to each other (in particular, made in one piece), the first of which 1a is designed to be placed on the user's finger (for which it has a corresponding shape, in particular, in the form of a closed ring) . In the second part 1b, a cavity is formed in which the contactless payment module shown in FIG. 2.

Parts 1a and 1b of the housing 1 can also be connected to each other via mechanical or physical (welded or soldered) joints. The first part 1a of the housing 1 can also be made in the form of a ring having a cut, and, in addition, can be made having a shape different from a ring-shaped one, which makes it possible to place the payment medium on the user's finger. Case 1 has a simple and compact form, which ensures its manufacture with time costs that do not significantly exceed the time costs for the manufacture of tires and tops of typical accessories of a similar configuration, as well as convenient use of the payment instrument as a whole. The latter, in particular, is ensured by the absence of the need for additional means for placing the housing 1 on the user's body (suspensions, etc.), its reliable retention and minimizing the risk of catching on the user's clothes and / or other accessories.

The contactless payment module shown in FIG. 2 includes a loop antenna 2 formed by turns (e.g., wires) of conductive material (e.g., copper), a microchip 3, the terminals of which are connected to the terminals of the loop antenna 2, and a capacitive load 4 (in particular, consisting of two capacitors), connected parallel to the frame antenna 2, located on a flat dielectric (e.g. plastic) substrate 5.

The turns of the frame antenna 2 are located on a flat dielectric substrate 5 with the formation in plan of a closed figure consisting of two symmetrical parts 2a and 2b, each of which has a substantially arc shape. The said symmetrical parts 2a and 2b are conjugated with each other with the formation on one side of the said closed figure of an angular depression, preferably having a smooth rounding, preferably with an angle less than 90 °, and on the opposite side, an angled protrusion, preferably with an angle greater than 90 °. The distance between two points as far as possible from each other in the plane of symmetry of the figure may, but not necessarily, be 75 to 80% of the distance between two points of maximum curvature of each of the arcs.

The shape of the said closed figure may be a stylized image of the heart and in the Cartesian coordinate system described, for example, by the following equation:

.

.

The dielectric substrate 5 has a side surface substantially congruent with said closed figure. The distance between the outermost turn of the loop antenna 2 and the side surface of the dielectric substrate 5 is preferably from 0.3 to 1 mm. A larger value of this distance can lead to an unreasonable increase in the total size of the contactless payment module, which prevents its integration into the payment instrument housing while maintaining the compactness of the final product, and a smaller one - to possible damage to the external turns of the frame antenna 2 when integrating the contactless payment module.

Compared with a traditional loop antenna having a circular, square or rectangle shape in plan, the loop antenna 2 of the described shape with the corresponding shape of the substrate 5 provides a more compact implementation of the claimed contactless payment module (and the final product as a whole due to the corresponding shape of the housing 1) when maintaining its sufficient rigidity and ease of manufacture. This is ensured as a result of the arrangement of the turns of the frame antenna 1 and the implementation of the substrate 4 in the form of a symmetrical (i.e., uniformly perceiving possible loads) closed figure, which has a smaller but nevertheless sufficient surface area and smooth bends to transmit the radio frequency signal without distortion defined by the shape of the figure and not requiring, therefore, additional technological methods for their formation, providing, in addition, an additional increase in the module's resistance to mechanical them loads.

The microchip 2 is located essentially in the center of the figure, i.e. inside the turns of the loop antenna 1, which also provides the contactless payment module compactness and the required rigidity and, therefore, the ability to integrate into the payment instrument housing having the features described above.

The location of the turns of the loop antenna 2 on a flat surface provides a convenient use of a means of payment.

It is preferable to implement a contactless payment module having an external protective shell 6 (see FIG. 3), in which a loop antenna 2, a microchip 3, and a capacitive load 4 are provided, suitably provided by any prior art, including the initial placement of these module components in a dielectric fragment plates.

In one of the possible options for integrating the contactless payment module into the housing 1 of the declared means of payment thereof, as shown in FIG. 4, is first installed in the frame 7, the side surface of which is essentially congruent with the closed figure described above. The frame 7 has dimensions suitable for its placement in the cavity of the second part 1b of the housing 1 with a minimum clearance. As a result, the frame 7 is located around the perimeter of the dielectric substrate 5. Then, the frame 7 with the contactless payment module installed in it is placed in the cavity of the second part 1b of the housing 1. Next, combining the eyes 8a and 8b of the frame 7 and the housing 1, they pass the lock handle through them ( conditionally not shown) and close it.

It is permissible to place any other suitable connecting element in the eyes 8a and 8b that secures the contactless payment module in the housing 1 of the declared means of payment.

The claimed means of payment are used in the traditional way for funds for this purpose. The payment instrument is brought to the contactless payment terminal and the transaction (payment) is carried out. If necessary, the terminal may additionally request information to identify the owner of the wearable device, in particular, a PIN code. Then the user enters the requested information, and if approved, the transaction is carried out.

The claimed means of payment, due to its configuration and the ability to use a variety of materials in its manufacture, can be widely used by users with various aesthetic needs in using this means of payment as an accessory. In particular, it is permissible to carry out a means of payment with decorative elements formed by both metallic and non-metallic materials, including both natural and artificial materials. In the manufacture of a means of payment, it is possible to implement a contactless payment module on a separate production line, which minimizes the time spent on manufacturing both the contactless payment module and the payment instrument as a whole, providing the possibility of parallel technological operations, and also allows testing and subsequent certification of the module contactless payment separately from the final product, which also increases the speed of manufacture of a means of payment.

Claims (11)

1. A contactless payment device, comprising a housing having a shape that can be placed on the user's finger, and a contactless payment module located therein, including a loop antenna formed by turns of conductive material, a microchip whose terminals are connected to the leads of the loop antenna, and a capacitive a load connected parallel to the frame antenna located on a dielectric substrate, characterized in that the said housing consists of two parts connected to each other, the first of which assigned to be placed on the user's finger, and in the second a cavity is formed in which the said contactless payment module is located, the turns of the frame antenna of which are located on a flat dielectric substrate with the formation in plan of a closed figure consisting of two symmetrical parts, each of which has essentially a shape arcs, wherein the said symmetrical parts are conjugated with each other with the formation on one side of the aforementioned closed figure of the angular depression, and on the opposite side - an angled protrusion, mi rochip located substantially at the center of said closed figure, a dielectric substrate and said second housing portion has a lateral surface substantially congruent to said closed figure. 2. The payment tool according to claim 1, characterized in that it is provided with a frame, the side surface of which is substantially congruent with said closed figure, in which said contactless payment module is mounted so that the frame is located around the perimeter of the dielectric substrate. 3. The payment tool according to claim 2, characterized in that the said frame and the said body are made with eyes that provide the possibility of placing a connecting element in them. 4. Payment instrument according to any one of paragraphs. 1-3, characterized in that the distance between the outermost turn of the loop antenna and the side surface of the dielectric substrate is from 0.3 to 1 mm. 5. Payment instrument according to any one of paragraphs. 1-3, characterized in that the angled protrusion is made with an angle greater than 90 °. 6. Payment instrument according to any one of paragraphs. 1-3, characterized in that the angular depression is made with an angle less than 90 °. 7. Payment instrument according to any one of paragraphs. 1-3, characterized in that the angular cavity has a smooth rounding. 8. Payment instrument according to any one of paragraphs. 1-3, characterized in that the distance between two maximally distant from each other points in the plane of symmetry of the said closed figure is from 75 to 80% of the distance between two points of maximum curvature of each of the arcs. 9. Payment instrument according to any one of paragraphs. 1-3, characterized in that the thickness of the dielectric substrate is from 0.76 to 0.85 mm 10. Payment instrument according to any one of paragraphs. 1-3, characterized in that the turns of the frame antenna are made of wire. 11. Payment instrument according to any one of paragraphs. 1-3, characterized in that the thickness of the turns of the loop antenna is 0.05 to 0.15 mm

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