RU2125824C1 - Coin manufacture method - Google Patents

Abstract

FIELD: coin production. SUBSTANCE: method involves providing part billets made in the form of disks and rings manufactured from different materials; cutting slots in end surface of disks; pairing parts and coining; providing billets of second rings having inner diameter corresponding to outer diameter of first rings; cutting additional slots in disk end surface, with all slots being positioned at an angle to disk surface; upon pairing of disks and first rings, cutting inclined slots in end surface of each paired disk; connecting paired disk and second ring prior to coining. EFFECT: increased efficiency and simplified method. 1 dwg

Description

 The invention relates to the production of coins, medals, etc., and can be used in the manufacture of products consisting of several elements (at least two) made of different metals or alloys.

 Currently, in the production of monometallic coins, medals, etc., all possible solutions have been exhausted with regard to the shape, color, size and type of metal. In the 80s in Italy, the technology for the production of bimetallic coins was first developed.

 One of the methods for making bimetallic coins is protected by EPO application N 0312436, cl. A 44 C 21/00, 1989. The method provides the connection and minting of two coin elements, one in the form of a disk and the other in the form of a ring, the inner diameter of which corresponds to the diameter of the disk. For reliable fastening of two elements of a coin into a single unit, an annular groove is applied to the end surface of the disk along the entire contour. In the mating operation of the disk and the ring under the action of pressing stamps, the material of the ring flows into the annular groove of the disk. The materials from which the disc and ring of the coin are made may vary in color, hardness, wear resistance and other performance indicators.

 The disadvantage of this method is the low reliability of the connection of the elements of the coin, which over time leads to the rotation of the outer element - the ring of the relative inner - disk.

 To solve the problem in a method of manufacturing coins, including the procurement of parts in the form of a disk and a ring of different materials, applying grooves to the end surface of the disk, pairing parts and embossing, the workpiece is complemented by a second ring, the inner diameter of which is consistent with the outer diameter of the first ring, applying grooves on the end surface of the disk is produced at an angle to its plane, after pairing the disk and the first ring, inclined grooves are applied to the end surface of the paired disk, and before minting, there is a connection of a paired disk and a second ring.

 The introduction of new operations will allow the production of trimetallic coins, and thanks to the application of inclined grooves, the reliability of the connection of the details of such a coin is increased.

 The invention is illustrated in the drawing, which conventionally shows the operation of the method.

 For the manufacture of coins, three parts are prepared: disk 1, the first ring 2 with an inner diameter consistent with the diameter of the disk 1, and the second ring 3, the inner diameter of which is consistent with the outer diameter of the ring 2. The diameters of the inner parts of the workpiece should be slightly smaller than the diameter of the hole in the outer part blanks. The difference in diameters is calculated by known methods depending on the fluidity of the material of the parts and the efforts of the press on the pairing operation of the parts. Workpiece parts can be made of different metals or alloys that differ in color and other performance characteristics. It is possible to manufacture two parts of the workpiece, in any combination, from the same materials.

 For the manufacture of medals from the above blanks carry out the following operations. Along the contour of the disk 1, along the entire end surface 4, parallel grooves 5 are made having an angle of inclination to the plane of the disk 1. The angle of inclination is selected based on the manufacturability of the operation and the adhesion strength of the parts. (Fig. 1B). Next, parts 1 and 2 go to the pre-press with smooth stamps. The disk 1 with grooves 5 is placed inside the ring 2. Both parts are subjected to pressure, during which the parts are mated due to the fluidity of the materials. Moreover, the material of the ring 2 penetrates into the grooves 5 of the disk 1 (Fig. 1B), which ensures the strength of the connection parts.

 As a result of the previous operation, a paired disk is obtained, consisting of two parts of different alloys. Next, a similar operation is performed of cutting inclined grooves along the contour of the end face 6 of the surface of the paired disk (or the outer surface of the ring 2). A paired disk with grooves 7 at the end enters the assembly press, where it fits into the hole of the ring 3. Under pressure from the stamps 8 of the assembly press, the ring 3 is connected to the paired disk 1-2 due to the penetration of the material of the ring 3 into the grooves 7 of the paired disk.

 Workpieces 1, 2, 3, assembled in a single disk, are subjected to two-sided minting, during which a coin or medal drawing is applied.

 The above operations of the method can be combined. So, when the Gosznak Mint was produced at the Leningrad Mint, the three-component medal was used to combine the grooving of the grooves with the operation of hacking on a gurtsny machine. To do this, a protrusion was made at the bottom of the groove in the die of the machine, which, during the rotation of the disk during the grilling operation, made grooves at the end of the disk. The pairing operation of the outer ring of the coin with a pre-connected disk and the first ring was performed simultaneously with the operation of minting on one press.

 Studies conducted in the Mint's laboratory showed the reliability of the proposed combination of coin parts. The use of inclined grooves along the end of the disk provided a 3.5-fold increase in the strength of the joint compared to known methods.

 The method is applicable when cutting grooves at the ends of the inner contours of the rings, however, such operations are more time-consuming and less effective.

 The proposed method of manufacturing coins will significantly expand the monetary system, as well as diversify the design and aesthetic solutions of medals and other products.

 The issue of bimetallic coins and coins from three components will make it easy to solve the economic problem of issuing new coins of a higher denomination without increasing the size of the coins and increasing the consumption of material. In addition, an increase in the size and weight of coins leads to a complication and change in the entire fleet of equipment for servicing the coin system (counting machines, vending machines, etc.). The introduction of coins made by the proposed method will allow the use of existing equipment, including equipment for the issuance of coins.

 The proposed method is most economically advantageous when switching from a old to a new monetary system in a country when both monetary systems circulate simultaneously.

 Coins and medals of the proposed sample have a greater degree of protection against fakes, because they are more difficult to manufacture.

 New coins give a great variety in the design of vending machines, as they can be used metals and alloys with various magnets and electrical properties.

Claims (1)

 A method of manufacturing coins, which consists in the manufacture of blanks of parts in the form of a disk and in the form of a ring from different materials, perform a groove on the end surface of the disk, mate parts and mint, characterized in that they additionally produce a blank of the second ring, the inner diameter of which is consistent with the outer diameter of the first ring, additionally apply grooves to the end surface of the disk, while all the grooves are performed at an angle to the plane of the disk, after pairing the disk and the first ring, the inclined grooves are applied to the end surface of the paired disk, and before the minting operation, the paired disk and the second ring are connected.