NL1008854C2 - Coin debasing method for use when coins are taken out of circulation to be replaced by new coins - Google Patents

Abstract

Coins from the storage hopper (2) are transported by feeding device (3) into a distributor (5) and onto the first and second rolls (6,7). Separation of the rolls is adjusted by a wheel (17). The coins are deformed by corrugated teeth profiles as they pass through the rolls and are then transported by the discharge device (8) to a number of containers (11). Independent claims are included for a coin debasing device, and a coin which is debased using the method.

Description

Short indication: Method for valuing coins as well as such a device.

The invention relates to a method for depreciating coins.

The invention also relates to a device suitable for carrying out such a method.

To depreciate coins, for example, if coins are taken out of circulation to be replaced by new coins or other coins, such as the Euro, these old coins must be destroyed. Until now, this has been done by melting the coins in a melting furnace. However, melting coins directly has a number of drawbacks. When feeding coins to a melting furnace, a number of persons must be present to ensure that the coins are indeed all fed to the melting furnace. In addition, coins have an alloy composition that is different from alloy compositions used for purposes other than coins. Thus, the coins cannot simply be fed to an operating melting furnace, but the melting furnace must first be stopped and cleaned, after which the coins 20 can be melted, which is relatively laborious. Moreover, coins will only be melted down if a relatively large amount of coins is present, because interrupting the normal melting process is too expensive for a smaller amount of coins. However, this has the drawback that coins to be depreciated have to be stored for a certain period of time before the coins are melted down. During this time, the coins should be stored in a guarded area.

The object of the invention is to provide a method and device with the aid of which the depreciation of coins can take place relatively simply and quickly, wherein the disadvantages of the known method are avoided.

This object is achieved in the method according to the invention in that the coins are mechanically damaged.

By damaging the coins, for example by shredding the coins, the damaged coins can be stored until there is an appropriate time to melt the damaged coins. Damage to coins can occur at the location where 1008854 2 the coins are collected, such as a central bank. Several persons or authorized persons need not be present during the remelting, since the coins no longer have any value. Furthermore, it is possible to add the damaged coins, the composition of which is known, to a melting process in a desired dosage, so that a desired alloy is obtained. It is also possible to offer the damaged coins elsewhere in the world as raw material.

The device according to the invention is characterized in that the device is provided with at least two parallel assemblies, each of which is rotatable about the center line, each assembly comprising a number of parallel blades and bushes situated between them, the sleeve of the one assembly is opposite a blade from the other assembly.

With the aid of the knives the coins are shredded in a simple manner, whereby a relatively large amount of coins can be detected relatively quickly from an arbitrary orientation. Due to the rotating knives and bushes, the coins are easily guided between the knives.

The invention will be explained in more detail with reference to the drawing, in which: Fig. 1 shows a front view of a shredding device according to the invention, Fig. 2 shows a top view of a part of the shredding device shown in arrows 1-II shown in Fig. 1. Fig. 3 shows a detail of the top view shown in fig. 2, fig. 4 shows a front view of the part shown in fig. 2 in the direction indicated by arrow IV-IV, fig. 5 an enlarged detail of the Fig. 4 shows a view, Fig. 6 shows another embodiment of a shredding device according to the invention.

Corresponding parts are provided with the same reference numerals in the figures.

FIG. 1 shows a shredding device 1 according to the invention, which is provided with a storage bunker 2 for 1008854 3 coins and a funnel-shaped access channel 3 situated above it. The shredding device 1 is further provided with a conveyor belt 4 extending at an angle upwards, of which a first lower end 5 the storage bunker 2 is located and an upper end 6 is located above a supply opening 7 of a distribution device 8. The distribution device 8 is provided with a grid-shaped hood 9 and a rotor 10 located under the hood 9, which is rotatable by means of a motor 11 about a horizontally extending center line 12. The distribution device 8 is further provided with water spray nozzles 13 which the rotor 10 are directed towards 10. Beneath the divider 8 are two parallel extending assemblies 14, 15 rotatable about horizontally extending centerlines 16, 17 in directions indicated by arrows P1, P2. Under the assemblies 14, 15, a discharge container 18 is arranged in a mobile manner.

FIG. 2 is a plan view in the direction indicated by arrows II-II in FIG. 1, in which the assemblies 14, 15 are clearly shown. Each assembly 14, 15 comprises a number of annular knives 19 and bushes 20 situated therebetween which are rotatable together about the centerlines 16, 17. The knives 19 of the assembly 15 extend between the knives 19 of assembly 14 close to the bushes 20 leaving a gap 21. Such a gap 21 is also present between the sleeves 20 of the assembly 15 and the opposite knives 19 of the assembly 14.

Fig. 3 shows a detail of the view shown in FIG. 2, wherein the gap 21 present between the knives 19 of both assemblies and sleeve 20 is clearly visible. The slit has a width B equal to the width of the blades 19 and the sleeve 20 and a length L equal to the distance between the center lines 16, 17 less the radius of the sleeve 20 and the radius of the blade 19. For shredding coins it is important that the diagonal distance D which is - / (Lz + B2) is smaller than the smallest diameter of the coin to be shredded so that no coin is undamaged between the two assemblies 14, 15 can go.

Fig. 4 shows a front view of the assembly shown in FIG. 2 in the direction indicated by arrows IV-IV, which clearly shows a sleeve 20 with a knife 19 located opposite it. As 1008854 4 is clearly visible in the figure, each knife 19 is provided with a number of notches 22. The knives 19 and bushes 20 are attached to a hexagonal shaft 23. The knives 19 are fixedly connected thereto, while the bushes 20 with respect to the hexagonal shaft 23 are rotatably mounted.

The sleeves 20 can be replaced by sleeves of a different diameter as a result of which the distance L of the gap 21 and consequently the diagonal dimension D of the gap 21 is increased or decreased. As a result, the device 1 can be made relatively simple to shred coins of a different size. To achieve the same effect, it is also possible to make the distance between the center lines 16, 17 adjustable.

To shred dfl 0.10 (diameter 14.86 mm), with a blade width B of 10 mm, a sleeve is chosen with a diameter such that the gap has a length L of, for example, 3 mm, so that the dimension D 10, 44 mm. To shred dfl 2.50 (diameter 29.05 mm), a sleeve should be selected such that the distance L is, for example, 12.5 mm and the distance D is therefore approximately 16 mm.

The shredding device 1 is further provided with a control unit (not shown) by means of which the feed speed of the conveyor belt 4, the rotational speed of the rotor 10 and the rotational speed of the assemblies 14, 15 can be controlled such that a maximum amount of coins per unit of time is shredded without the assemblies 14, 15 getting stuck by an excessive amount of coins on the assemblies 14, 15.

The operation of the shredding device 1 according to the invention will now be briefly explained. Under the supervision of an authorized person, bags of coins are emptied into the bunker 2 via the supply opening 3. With the aid of the conveyor belt 4, the coins 30 to be depreciated are then dosed in an upward direction until the coins fall from the second end 6 via the supply opening 7 into the distribution device 8. In the dispensing device 8, the coins are evenly distributed by means of the rotating rotor 10. With the aid of the water spray nozzles 13, during the shredding of the coins, a water spray 35 is sprayed onto the rotor 10 and assemblies 14, 15 for the removal of heat, lubrication and the precipitation of metal dust particles. The resulting 1008854 5 vapors are discharged through the grid-shaped hood 9, for example with the aid of an extraction installation. The coins then fall on the knives 19 moving towards each other and are shredded in the gap 21 by the knives 19. As a result of the notches 22 in the knives 19, the coins located on the knives 19 are kept in motion and fed to the slit 21. Keeping the coins moving is important to prevent the assemblies 14, 15 from becoming clogged or jammed.

The shredded coins guided through the assemblies 14, 15 fall into the discharge container 18 with the aid of which they can be discharged to a melting furnace. Disposal of the shredded coins can take place unattended as the coins have lost their coin value. If the coins are made of two different alloys, for example a central part of which is made of a non-magnetizable material and a ring around it made of a magnetizable material, it is possible to separate these two materials by means of a magnet, so that each material can be reused for the most suitable application. The same applies to a coin with a magnetizable central section and a non-magnetizable surrounding section.

For this purpose use can for instance be made of the device 25 shown in fig. 6 which largely corresponds to the device 1 shown in fig. 1. At the device 25 a horizontally extending endless conveyor belt 26 is arranged under the assemblies 14, 15 wrapped around drive rollers 27, 28. Belt 26 is provided with partitions 29 extending transversely to belt 26, which are regularly distributed over the length of conveyor belt 26. The roller 28 is made of magnetic material.

Two containers 30, 31 are arranged under the conveyor belt 26 and near the roller 28. A V-shaped guide element 32 is located between the containers 30, 31.

Shredded coins passed through the assemblies 14, 15 drop onto the conveyor belt 26 and are guided towards the roller 28. Non-magnetizable coins will immediately fall off the roller 28 in the direction indicated by arrow P3 and end up in the container 30. The magnetizable coin particles are attracted by the magnetic roller 28 and do not fall into the container 30. 1008854 6 the bulkheads 29 these coins are taken along when moving the conveyor belt 26 further and these particles fall outside the influence of the roller 28, then in the direction indicated by arrow P4 in the container 31. As a result of the V-shaped pipe element 32, the 5 coin particles always end up in one of the containers 30, 31.

Instead of shredding, it is also possible to detect the coins by making a hole in the coins by, for example, drilling or punching. For this purpose, however, the coins have to be supplied accurately one by one, which is relatively time-consuming.

It is also possible to compress the shredded coins into a metal block after shredding the coins, so that the volume to be transported is relatively limited.

It is also possible to fix the bushes 20 relative to the shaft 23.

1008854

Claims (12)

Method for the depreciation of coins, characterized in that the coins are mechanically damaged. Method according to claim 1, characterized in that the coins are shredded. 3. A method according to any one of the preceding claims, characterized in that the coins are fed to a shredding device, which is provided with at least two parallel assemblies, each of which is rotatable about a center line, each assembly comprising a number of parallel knives and bushes located therebetween, the bush of one assembly being opposed to a knife of the other assembly, while the coins are shredded by the knives by means of the assemblies rotatable about the center lines. Method according to claim 3, characterized in that the coins are dosed to the shredding device. Method according to any one of the preceding claims, characterized in that the shredded coins are melted. 6. Method according to any one of the preceding claims, characterized in that the shredded coins are split by means of a magnet into magnetic and non-magnetic materials. 7. Device suitable for carrying out the method according to any one of the preceding claims, characterized in that the device is provided with at least two parallel assemblies, each of which is rotatable about the center line, each assembly comprising a number of parallel knives and bushes located therebetween, the sleeve of one assembly being opposed to a knife of the other assembly. 8. Device according to claim 7, characterized in that a knife of one assembly extends between two adjacent knives of the other assembly. 9. Device according to claim 7 or 8, characterized in that the minimum diagonal distance between the blade of one assembly and the opposite sleeve of the other assembly is less than the diameter of the coin to be depreciated. Device according to any one of the preceding claims, characterized in that the bushes are replaceable by bushes of a different diameter. 11. Device as claimed in any of the foregoing claims 7-10, characterized in that the distance between the center lines is adjustable. Device according to any one of the preceding claims 7-11, characterized in that the device is provided with a supply device for dosed supply of coins between the rotatable assemblies. 1008854