KR0144704B1 - Multi-meta coin manufacture method - Google Patents

Abstract

The present invention relates to a method for producing a multi-metal coin completed by joining a ring formed by cutting a core core and a pipe. In the conventional case, a groove or a protrusion is formed on an inner diameter surface of a ring and is formed on an outer diameter surface of the core. Corresponding to this, the core is inserted into the inside of the ring by making projections, grooves, or planes, and the ring and core combination method is adopted. Bar pressure and pressure and the uneven coupling portion of the core was caused by the bar, the present invention is used to bond the core and the ring, but in the case of the ring used by using the material cut the pipe using the material without scrap While increasing the width of the ring is smaller than the thickness and thicker than the thickness of the core, even if the pressing force of the press is less than the conventional, the amount of deformation of the ring becomes larger In close contact with the fixed coupling of the ring it is easy to have the characteristics to be applied to various types of human nose.

Description

Method for producing multimetal coins.

1 is a process chart for explaining the manufacturing process of the conventional bimetallic coin,

2 is a process chart for explaining an example of a method for producing coins according to the present invention;

3 is a partial process diagram for explaining some modified examples of the manufacturing process shown in FIG.

* Explanation of symbols for main parts of the drawings

C: core R: ring

T: Thickness W: Width

The present invention is an alloy material having the same or different components or colors when manufacturing a coin, a medal, or a metal craft having a similar shape, and is a multimetal nose completed by mutually joining a ring formed by cutting a core core and a pipe. It relates to a manufacturing method of human beings.

In general, a conventional method for producing coins is known for the production of bimetallic coins, for example, European Patent Publication No. 0415891 A1, US Patent No. 4,472,891 and the like. Both of them disclose a technology for coupling the outer ring and the inner core to each other. A groove or a protrusion is formed on the inner diameter surface of the ring and a corresponding protrusion or groove is formed on the outer diameter surface of the core. Or by making a planar shape by inserting the core inside the ring and pressing from the top, as the material is stretched, the projection is inserted into the groove so that the core and the ring can be combined.

In addition, as an improved method thereafter, as shown in FIG. 1, the protrusion 1 and the upper and lower edge portions 2 and 3 are formed on the outer diameter surface of the core C, and the core is formed inside the ring R. A manufacturing technique is known in which the core (C) and the ring (R) are combined by inserting (C) and pressing to allow the protrusion (1) portion of the core (C) to penetrate the inner diameter surface of the ring.

However, in the manufacturing method of the European patent, the US patent, or the manufacturing method shown in FIG. 1, the ring is manufactured through the punching process using a metal material (M) in the form of a plate as shown in FIG. As the outer diameter of R) is manufactured and the ring (R) is completed through the blanking process, the remaining material (S1, S2) except the ring in the punching process or the blanking process is treated with scrap, so the utilization rate of the material is There is a drawback that is greatly lowered.

Moreover, due to the nature of the blanking process, the ratio of ring thickness (T) to width (W), i.e., W / T ≤ 1, is almost impossible to produce. Only produced and used. Therefore, in the case of the conventional ring, the most commonly used ring uses a ring having a W / T in the range of 2 to 3, and the ring width W is greater than the thickness T when the ring and the core are combined and pressed. There is a problem that a relatively large pressing force is required to increase the amount of deformation due to the relatively wide press. On the contrary, in the case of press processing with the thickness of the core thicker than the ring, the volume occupied by the core becomes relatively larger than the volume occupied by the ring. Should be large. Accordingly, the core is required to place the core at the center of the ring, and if it is not located at the center of the ring, the joint is not evenly formed, which causes the defect.

In addition, in the manner shown in FIG. 1, the ring and the core are simultaneously pressed to bond, but the ring (R) has a deformation amount less than 0.5%, and in the case of the core (C), the image formed on the outer diameter surface of the core (C). As the lower edge portions 2 and 3 are deformed, the protrusion 1 of the core C penetrates into the inner diameter surface of the ring R, and the ring R and the core C are coupled to the ring R. The amount of deformation of the core and the core (C) is extremely limited, it is difficult to expect sufficient closeness, and there is also a problem that the pressing force of the press must be very large in order to ensure a firm coupling.

The present invention, in order to solve such a conventional problem, the core core and the ring is combined, but in the case of the ring width is smaller than the thickness by using a material cut the pipe in the form to be combined with the core to the ring The main purpose is to increase the utilization of the material without scrap.

Another object of the present invention is that the width of the ring is less than the thickness of the ring used and the core used is formed thinner than the thickness of the ring is formed by the bonding of the core and the ring by the press working to lower the pressing force than conventional or after press The purpose of this invention is to provide a more complete bond between the core and the ring.

The present invention, in order to achieve the above object, annealing and pickling the ring and punching the core and forming a projection or groove, the upper and lower edges on the outer circumference to insert the core inside the ring and press-processed the ring and In the method of manufacturing a coin type by making the core tightly bonded, the pipe is cut to make a ring, the core made through the punching and outer peripheral molding process is inserted into the ring and press-processed to fix the ring and the core It provides a manufacturing method made.

In addition, it is preferable that the thickness of the ring is larger than the width and the thickness of the ring is larger than the thickness of the core.

Hereinafter, the manufacturing method of the present invention will be described in detail with reference to the accompanying drawings.

Looking at the case of the example shown in Figure 2 as follows.

Using a pipe (P) made of copper alloy or other non-ferrous metal alloy, which can be processed plastically, it is cut into a ring shape so that the thickness (T) is larger than the width (W), and the ring is prepared through annealing and pickling. The plate is punched and formed on the outer periphery by forming and washing the protrusions 11 and the upper and lower edge portions 21 and 31.

Next, the core C is inserted into the inside of the ring R, and the upper and lower edge portions 21 and 31 of the ring R and the core C are deformed by pressing the core C from the top in the press machine, and the ring R ) The thickness is thin and the gap between the core (C) and the ring (R) is in close contact with each other and filled with no gaps while wrapping the protrusions 11 so that the core (C) and the ring (R) are firmly coupled to each other. do.

At this time, the ring (R) has a larger thickness (T) than the width (W) to increase the amount of deformation of the ring (R) during press processing, can easily fill the gap between the core (C) and the ring (R) ) And the surface after the press processing of the upper and lower edge portions 21 and 31 of the core C are kept in the same plane, and the whole body direction of the core C is the inner surface direction of the ring R. Proceeds and the whole body in the outer peripheral direction with the inner peripheral surface of the ring (R), the core (C) and the two rings (R) can be firmly coupled to each other.

Next, another example shown in FIG. 3 is the same as the above-described method, and only the ring R is formed by forming the groove 41 and the upper and lower edge portions 21 and 31 during the outer peripheral molding in the core C. Only the points of mutual coupling are different.

Therefore, according to the manufacturing method of the present invention described above, in the case of the ring (R) applied to the present invention, compared to the method obtained by conventional punching and blanking, the pipe is cut and used as it is, and scrap does not occur, thus the utilization rate of the material It is possible to greatly increase the material cost required for manufacturing, and in the case of blanking plate-shaped material in the past, a large thickness (T) than the width (W) cannot be punched in large quantities, and the defect is high. The thickness T of the ring R is larger than the width W of the ring R and the thickness T of the ring R is larger than the thickness of the core C while improving the point to allow mass production by cutting the pipe. By forming the press molding process, a large number of deformations are made intensively only at the site where the mutual coupling occurs when the ring (R) and the core (C) are combined. Chamber and also has the advantage that enables a firm bond.

Claims (2)

Annealing and pickling the ring (R), punching the core (C) and forming the protrusions (1), grooves, upper and lower branches (2, 3) on the outer periphery of the core (R) inside the ring (R) In the method of manufacturing coins, in which a ring (R) and a core (C) are tightly fixed by inserting C), the pipe (P) is cut to form a ring (R), and a punching and outer peripheral molding process Inserting the core (C) made through the ring (R) and press working to produce a multi-metal coin, characterized in that the ring (R) and the core (C) is fixedly coupled. The method of claim 1, wherein the ring (R) has a thickness greater than the width and the thickness of the ring (R) is greater than the thickness of the core (C) to be bonded to each other.