BG109647A - Tricolor and trimetal coins and medals, and method of manufacturing them - Google Patents

Abstract

Tricolor and trimetal coins and medals and the method of manufacturing them find application in metal working. A new vision is achieved of the coins and medals by using combinations of metals of three colors, such color combinations for their front and reverse sides being different. The coins and medals consist of three elements: a ring (1), a top round blank (2), and a bottom round blank (3), the three elements being made of three metals: copper, silver and gold, of three different colors. In an embodiment of the invention, the coins and medals consist of one metal with electroplatings of three different metals having three different colors. The method of manufacturing coins and medals consists of pressing to each other of the three elements: ring (1), top round blank (2) and bottom round blank (3).

Description

The invention relates to tricolor and trimmetal-tricolor coins and medals and a method of making them and can find application in mechanical engineering, and in particular in the minting of coins and medals.

BACKGROUND OF THE INVENTION

The bicolor-bimetallic coins and medals referred to in FIG. 1-4. They consist of a workpiece comprising an inner round workpiece enclosed by an outer ring / 1 /.

There is also a known method of making bicolor-bimetallic articles, which consists of pressing two elements, a round inner workpiece and an outer ring against each other. Examples are currently produced coins of 1 and 2 Euros and 1 Lev, which are in circulation in Bulgaria and abroad / 1 /.

The disadvantages of the known bicolor-bimetallic coins and medals and the method of their production are the same vision of the front and back of the articles or as the metals are arranged, respectively the colors of the front, so are the reverse side. Other disadvantages are the ability to use only two types of metals, as well as the low degree of protection against counterfeiting of articles.

Known are tricolor-trimmetal coins and medals, which consist of round billet, inner and outer rings / 1 /.

The method of making these articles involves jointly pressing a round billet with an inner ring to an outer ring / 1 /.

The disadvantages of the known tricolor-three-metal coins and medals and the method of their production are the same vision of the front and back of the articles or as the metals are arranged, respectively the colors of the front and so are arranged on the opposite side. Another disadvantage of these coins and medals and the method of making them is the low level of counterfeiting.

SUMMARY OF THE INVENTION

The object of the invention is to create tricolor and three-metal tricolor coins and medals and a method of making them with a new look of products made using combinations of three colors of metals or metal alloys, with a different color combination for the front and back. The tricolor product can also be made of three elements made of one type of metal or metal alloy with galvanic coatings of different metals, of different color, applied on them.

The method is based on technical calculations and technological order of operation, which ensure that these three elements can be pressed together without affecting the quality of the engravings on the front and back of the coins or medals and without the possibility of the three constituent parts of the article arbitrarily disintegrate in daily use.

The problem is solved by three-color and three-metal-tricolor coins and medals consisting of more than one element, made of more than one different colors. According to the invention coins and medals consist of three elements of three metals with three different colors - copper, silver and gold, in which:

J-4.

The minimum thickness at which joint fitment of the elements is possible is 0.70 mm. for round billets.

The volume of the hole in the ring / V _or / must be filled by the volume of the two round blanks. V _or = (3.14 * D _or / 4) * In _r , where / D _or / is the diameter of the opening of the ring and / B _g / is the thickness of the ring

The thickness of the round blanks / In _zag / respectively the volumes of the two round blanks / V _{zag /} should be the same.

In order to allow joint insertion and subsequent fitting of the elements, the workpiece diameter (D _zag /) must be smaller than the diameter of the opening in the ring / D _or /:

- O. Zohm. smaller than the diameter of the ring opening to the size F 30.00 mm.

- 0.50mm. smaller than the diameter of the ring opening above the size F 30.00 mm. Based on point a; b and c, the thickness of the strip (In _zag ) from which the two types of blanks are made must be the same and is:

V _zag = V _or / 2 = (3.14 * D _or ² ί 4) * In g / 2, where Bzag = Dor ² * B r / 2 (D _or - 0.3) ² for the diameter of the opening of the ring up to size Ф 30.00 mm. and

B _Z ag ⁼ DOr ² * B r / 2 (D _or -0.5) ² for the diameter of the ring opening above the size Ф 30.00 mm.

Prior to compression, the three metals must be recrystallized annealed so that their Brinell or Vickers hardness is equal.

The metals or their alloys selected for the manufacture of these articles must have similar physico-mechanical characteristics, ductility, hardness, yield strength. In one embodiment, the coins and medals consist of one type of metal, but with electroplated coatings of three different types of metal with three different colors.

The problem is also solved by the method of making tricolor and three metal tricolor coins and medals, including the crimping of several elements into each other, and the actions are carried out in accordance with the following technological order.

A method of making tricolor and trim metal-tricolor coins and medals, including the crimping of several elements of equal thickness into each other, characterized in that the crimping of the three elements against each other is carried out, sequentially cutting the billets for rings / 1 / with diameter Ф 39.65 mm. on a three-punch bar with 117 mm ribbon. and thickness 1.54 mm. 999 silver material, followed by drilling an opening of diameter F 31.00 mm in the workpieces of the rings / 1 / to obtain the ring / 1 / - single open open betting, followed by manual processing of the rings / 1 / - removal of the heron from the inside two-sided with the help of a special scraper with a rotating edge around its axis, after which the round blanks (2 and 3) with diameter Ф 30.50 mm are cut. on a three-punch punch with 92 mm Tape strap. and thickness 0.80 mm., followed by recrystallization annealing of the ring blanks (1) and circular blanks (2 and 3) to obtain a Vickers hardness of 75 HV / 1.5 kg / 30 sec, subsequent rendering of the rings / 1 / to a diameter F 39.60 mm., rendering of mounting blanks / 2 and 3 / up to diameter F 30.45 mm., staining in 15% solution of sulfuric acid, polishing, gilding of the rings of pendants, followed by black oxidation of silver, oxidizing half of the silver round blanks / 2 and 3 /, followed by the first pressing to pair the ring / 1 / with both angles preform / 2 and 3 / by means of glatsovi stamps, wherein the diameter of the collar to the first compression pair is 39.70 mm., the diameter of the working stamps first pressing smooth is 39.67 mm. and the diameter of the double billet is 39.75, followed by the second pressing of the double billets with embossed stamps, the diameter of the hryvnia for the second pressing is 39.92 mm. washing and drying, cleaning and packing in capsules.The advantages of the invention are the new vision of coins and medals, made using combinations of three colors of metals, with different color combination for the front and back sides a. The method is carried out without the use of adhesives to strengthen and retain the three elements. Other advantages are that the coins and medals obtained have a high degree of counterfeiting and are applicable to the production of both coins and commemorative coins and coins of higher matte gloss quality.

EXPLANATIONS OF THE FIGURES Attached

An exemplary embodiment of the invention is shown in the accompanying drawings, where:

- Figure 1 is a vertical section view of a three-element tricolor medal;

2 is a top plan view of FIG. 1.

- Figure 3 is a schematic top view of the face of a three-element tricolor medal;

- figure 4 is a schematic section view of a three-element tricolor medal;

- Figure 5 is a schematic view of the reverse of a three-element tricolor medal;

- figure 6 is an image of a real made tricolor metal, front side;

- figure 7 is an image of a real tricolor metal, reverse side;

EXAMPLE FOR THE IMPLEMENTATION OF THE INVENTION

The technical calculations of the three-color and three-metal-three-color coins and medals and the method of their production shall include the following conditions:

a / The minimum thickness at which joint fitment of the elements is possible is 0.70 mm. for round blanks 2 and 3.

b / The volume of the opening in the ring 1 / V _or / must be filled by the volume of the two round blanks 2 and 3. V _or = (3.14 * D _or ^2/4) * B _d, where / D _or / is the diameter of the hole in the ring 1 and / In _y / is the thickness of the ring 1.

c / The thickness of the round blanks 2 and 3 / B _zag / respectively the volumes of the two round blanks 2 and 3 / Y _{/ ae} . should be the same.

d / In order to allow the jointing of the elements together, the diameter of the blanks 2 is 3 / D _zag / must be smaller than the diameter of the opening in the ring 1 / D _or /:

• 0.30 mm. smaller than the diameter of the opening of the ring 1 up to size Ф 30.00 mm.

• 0.50 mm. smaller than the diameter of the opening of the ring 1 above the size Ф 30.00 mm.

e / Based on point a; b and c, the thickness of the strip (In _zag ) from which the two types of blanks 2 and 3 are made is the same and is:

• V _zag = V _or / 2 = (3.14 * D _or ^2/4) * B r / 2 where B zag = Dor ² * B y / 2 (Dor - 0.3) ² to the hole diameter of the ring 1 to size F 30.00 mm.

• In _zag = D _or ² * In _r / 2 (D _or - 0.5) ² for the diameter of the ring opening 1 above the size Ф 30.00 mm.

Ί el Prior to compression, the three metals must be recrystallized annealed so that their Brinell or Vickers hardness is equal.

(g) The metals or their alloys selected for the manufacture of such articles must have similar physico-mechanical characteristics, ductility, hardness, yield strength.

The method of producing a tricolor medal involves the following sequence of operations, such as the Technical data, the calculations made and the technological order of production of tricolor three-element coins and medals are as follows:

Initial technical parameters of the workpieces:

- Workpiece diameter 2 and 3 - 40.00 mm

- 999 silver sample material

- Weight 20 00 grams

- Ring 1 outer gold plated

- A circle inside silver on the front

- Inner silver circle with black oxidation on the reverse side

1. Cutting the workpieces for rings 1 with diameter Ф 39.65 mm. on a three-punch bar with 117 mm ribbon. And thickness 1.54 mm. Material silver 999 sample

2. Drilling a hole with diameter F 31.00 mm in the workpieces for the rings 1 to give the ring a single single bet on an open die.

3. Manual processing of the rings 1- Removing the heron from the inside with two sides using a special scraper with a rotating blade.

4. Cutting round billets 2 and 3 with diameter Ф 30.50 mm. on a three-punch punch with 92 mm Tape tape. and thickness 0.80 mm.

5. Recrystallization heating of the workpieces of the rings 1 and the round billets 2 and 3 to obtain a Vickers hardness of 75 HV / 1.5 kg / 30 sec

6. Rendering of rings 1 up to diameter Ф 39.60 mm.

7. Planing of mounting blanks 2 and 3 up to diameter Ф 30.45 mm.

8. Staining in 15% sulfuric acid solution

9. Polishing

10. Gold plating rings 1 on pendants

11. Black oxidation of silver. Half of the silver round billets 2 and 3 are oxidized.

12. First pressing to pair the ring 1 with the two circular blanks 2 and 3 with the help of glossy stamps.

- Bracelet diameter for first pressing pairing 39.70 mm.

- The diameter of the work stamps first pressing smooth 39.67 mm.

- Paired blade diameter 39.75

13. Second pressing of the double billets with embossed stamps

- Bracelet diameter for second pressing pairing 39.92 mm.

- The diameter of the working presses is second pressing embossed 39.87 mm

14. Wash and dry

15. Cleaning and packing in capsules

Claims (3)

1. Tricolor and three-metal-tricolor coins and medals consisting of more than one element made of more than one different color, characterized in that the coins and medals consist of three elements of three metals with three different colors - copper , silver and gold, with a minimum joint thickness of 0.70 mm. for round blanks / 2 and 3 /, the volume of the opening in the ring / 1 / / V _or / must be filled by the volume of the two round blanks / 2 and 3 /: V _or = (3.14 * D _or / 4) * V _r , where / D _or / is the diameter of the opening of the ring / 1 /, and / In _g / is the thickness of the ring / 1 /, the thickness of the round blanks / 2 and 3 / / B _zag / respectively the volumes of the two round blanks / 2 and 3 / / V _zag / ca are the same, and the diameter of the blanks / 2 and 3 / / D _zag / must be smaller than the diameter of the hole in the ring / 1 / / D _or /: by 0.30 mm. smaller than the diameter of the ring opening / 1 / up to size Ф 30.00 mm. and 0.50 mm. smaller than the diameter of the ring opening / 1 / over size Ф 30.00 mm. , where the thickness of the strip / B _zag /, from which the two types of blanks / 2 and 3 / are made, is the same and is: V _zag = V _or / 2 = (3.14 * D _or / 4) * In _r / 2 whence In za _g ⁼ Dor ² * In r / 2 (D _or - 0.3) ² for the diameter of the opening of the ring / 1 / to size Ф 30.00 mm. and B zag = Dor ² * B r / 2 (D _or - 0.5) ² for the diameter of the ring opening / 1 / above size Ф 30.00 mm. The three metals must be recrystallized annealed before pressing, so that their hardness in the Brinell or Vickers method to be the same, and the metals or alloys selected for the manufacture of these articles have similar physico-mechanical properties, ductility, hardness and yield strength. Tricolor and trim metal-tricolor coins and medals according to claim 1, characterized in that the coins and medals consist of one type of metal, but with galvanic coatings of three different types of metal in three different colors. 3. A method of making tricolor and trim metal-tricolor coins and medals, comprising crimping several elements of equal thickness into each other, characterized in that a joint crimping of three elements against each other is carried out, whereby sequencing is carried out of ring blanks / 1 / diameter Ф 39.65 mm. on a three-punch bar with 117 mm ribbon. and thickness 1.54 mm. 999 silver material, followed by drilling an opening of diameter F 31.00 mm in the workpieces of the rings / 1 / to obtain the ring / 1 / - single open open betting, followed by manual processing of the rings / 1 / - removal of the heron from the inside two-sided with the help of a special scraper with a rotating edge around its axis, after which the round blanks (2 and 3) with diameter Ф 30.50 mm are cut. on a three-punch punch with 92 mm Tape strap. and thickness 0.80 mm., followed by recrystallization annealing of the ring blanks (1) and circular blanks (2 and 3) to obtain a Vickers hardness of 75 HV / 1.5 kg / 30 sec, subsequent rendering of the rings / 1 / to a diameter F 39.60 mm., rendering of mounting blanks / 2 and 3 / up to diameter F 30.45 mm., staining in 15% solution of sulfuric acid, polishing, gilding of the rings of pendants, followed by black oxidation of silver, oxidizing half of the silver round blanks / 2 and 3 /, followed by the first pressing to pair the ring / 1 / with both angles preform / 2 and 3 / by means of glatsovi stamps, wherein the diameter of the collar to the first compression pair is 39.70 mm., the diameter of the working stamps first pressing smooth is 39.67 mm. and the diameter of the double billet is 39.75, followed by the second pressing of the double billets with embossed stamps, the diameter of the hryvnia for the second pressing is 39.92 mm. washing and drying, cleaning and packing in capsules. APPLICATION 1