SU1150637A1 - Apparatus for dispensing coins - Google Patents

Abstract

DEVICE FOR COLLARS OVER ,. containing a centrifugal disk and a first roller, kinematically associated with an electric drive, a bunker, a return niche, and the first reflective plate mounted above the surface of the centrifugal disk, so that, in order to increase the speed of the device, A second roller is introduced into it, a second reflective plate and a support plate, the bunker is installed in the lower part of the belt conveyor, the upper part of which is located at the level of the upper 1g of the centrifugal disk, which is located under angle to the horizon, the electric drive is kinematically connected with the drive of the belt conveyor and the second roller, which is located above the disk surface at an angle to its radius, the support plate is reinforced between the belt conveyor and the centrifugal disk, above the surface of which is strengthened, the second reflective plate, the first reflective plate is made in the form of a semicircle of a centrifugal disk, and the second in the form of a closed circuit with a window and a protrusion, the first roller is installed at the side of the support plate along (L direction The rotation of the centrifugal disk and perpendicular to its surface, one end of the first reflective plate is located in the rotation zone of the first roller, and the other end is located outside the centrifugal disk, the window of the second reflective SP plate is located in the rotation zone of the second roller, the protrusion of the second reflection plate is located with the limits of the centrifugal disk in the non-second end of the first reflective plate, niche return statutes-. ; Lena under the ledge of the second reflective plate.

Description

The invention relates to devices for feeding coins for further processing and is intended for use in counting machines and sorting coins in the institutions of the State Bank, as well as in trading, transport and public utilities. A device for collecting and transporting coins contains a coin bin, one end of which is an endless conveyor installed in the bunker with protrusions for picking up coins and trays for loading them into assortment and counting. This device is pre designed to ensure that the coins are evenly fed to the L1 3 coin processing machines. Ned, the device remains low in productivity, or increased by speed, conveyor belt, tape, and possible loss of orientation at the time of their production. tray before loading into the machine. A device for counting and sorting coins and similar articles is known, comprising a plate-shaped container for coins, at the bottom of which a rotating disk fixed inclined by KOTOpoNjy under the action of the centrifugal pin of the coin nep is fixed on the horizontal ring of the collector5 with a fence with a cutout the output of the coins, a calibration plate is installed above the collector ring, under which the coins pass, as well. There is also a roll for dropping BepxHiix coins when overlaying the last SHG one on the other. 2. The disadvantage of this device is a very fast speed caused by the need to manually remove the deformed coins. The closest to the proposed technical entity is a coin dispenser containing a centrifugal disk and, a roller, is kinatically connected to the electric drive, a bunker, nig at return, an reflector plate mounted along the DIFFERENCE of the disk, a guide plate guiding the bar and shoulder. The disadvantage of this device is the negligible capacity of the collector for loading coins, which requires a loading routine or an additional loading device with a metered coin feed. Warped coins are not removed from the device and are periodically discarded with a roller back into the collection. To remove them, you must stop the machine. These circumstances reduce the performance of the device and do not provide ease of maintenance. At design speeds, the actual average processing speed of coins in modern calculating machines is two to three times less; The reduction in the rate of counting of coins occurs due to the absence of a uniformly oriented supply of coins to the mantle, as well as the need to extract the staples of your deformed coins that block the counting channel. The purpose of the invention is to increase the speed of the device by means of a uniform and oriented supply of coins, as well as the separation of deformed coins and the removal of the latter during the operation of the device. The goal is achieved by including a centrifugal disk and the first roller, kinematically connected to the electric drive, a bunker, a return niche and the first reflective plate mounted above the surface of the centrifugal disk, a tape conveyor, second roller, second into the device. a reflective plate and a support plate; the bunker is installed in the lower part of the belt conveyor, the upper part of which is located at the level of the upper point of the centrifugal disk, which is located at an angle to the horizontal the electric drive is kinematically connected with the drive of the belt conveyor and the second roller, which is located above the disk surface at an angle to its radius, the support plate is reinforced between the belt conveyor and the centrifugal disk above the surface of which the second reflection plate is reinforced. centrifugal disk, and the second - in the form of a closed contour with a window and a protrusion, the first roller is installed at the side of the base plate in the direction of rotation of the centrifugal The disk is perpendicular to its surface, the end of the first reflective plate is located in the rotation zone of the first roller, and the other end is located outside the centrifugal suit, the window of the second reflective plate is located in the rotation zone of the second roller, the protrusion of the second reflective plate is located outside the centrifugal disk in the area of the second end of the first reflective plate, the return niche is installed under the protrusion of the second reflective plate. FIG. 1 shows the proposed device, the cut; in FIG. 2, view A in FIG. one.; in fig. 3 is a view B in FIG. 1 (section of the conveyor belt with tabs for grabbing coins). The device contains a hopper 1 installed in the lower part of the belt conveyor 2, with rollers 3 and 4. The conveyor belt 5 has a step 6 for grabbing coins. The height of the projections 6 does not exceed the thickness of the smallest coin, as a result of which each adjacent pair captures only one coin. The upper end of the conveyor 2 by means of the support plate 7 is interconnected with the centrifugal disk 8. Moreover, the working plane of the plate 7 coincides with the plane of the disk 8, its one side facing the conveyor is made with a beveled end and has grooves 9 for the passage of the protrusions 6, At the entrance A first roller 10 is pushed onto the disk 8 from the side of the fence on the vertical axis to push the coins. The roller 10 has a friction surface and, being driven from the disk 8, rotates with it, preventing the coins from jamming between the first and second reflecting plates 11 and 12, which form a loop 13 on the disk 8 into which the deformed coins are thrown. In the upper part, the plate 12 bends around the disk to its point of contact with the plate 7, and then passes through the disk 8, forming together with the plate 11 a channel for the passage of a stream of coins, which further goes into the channel. Above the disk 8, the second roller 14 is fixed to remove the deformed coins, under the roller 14 in the plate 12 there is a window for discharging these nets into the circuit 13. The electric drive of the device is made of an electric motor 15. By means of a belt drive 16 and a screw pair 17, the rotation is transmitted in the bearings 18 shaft 19, a disk 8 is mounted on it, and from the same electric motor, by means of a belt drive 20, rotation is transmitted to the shaft 21, on which roller 3 of the conveyor 2 is fixed, and through a belt gear 22, a second ro hic 14. FIG. 1 through 3, the coins 23 and the hole 24 above the return niche 25 are also shown. The device works in the following way. The coins 23 are loaded into the hopper 1, grabbed by the projections 6 of the conveyor belt 5 and are fed up in rows in one layer. The coins are removed from the tape 5 by the support plate 7, along which they slide onto the disk 8. When entering the disk 8, the first roller 10 pushes the outermost row of coins, preventing them from jamming between the plates 11 and 12. Under the action of the centrifugal force of the coin 23 are thrown to the plate 11 and move along it. Deformed coins come into contact with the second roller 14, the surface of which is made of friction material, therefore, the coefficient of friction of a roller with a coin is greater than the coefficient of friction of a coin with a disk 8. Since roller 14 is set at an angle to the flow of coins, deformed coins change the direction and through the window in the plate 12 are thrown to the center of the disk 8, then through the hole 24 in the machine body they fall into the return niche 25 for the deformed coins. The design of the proposed device allows to provide a uniform supply of coins for sorting and counting at a sufficiently high speed and in one layer. In this case, the deformed coins are sorted and fall into a separate container, from where they can be "removed" during the operation of the device. Using the device allows you to increase the processing speed of the coins and significantly improve the conditions for servicing the coin processing machines.

Claims (1)

A device for issuing coins, comprising a centrifugal disk and a first roller kinematically connected to the electric drive, a hopper, a return niche and a first reflection plate mounted above the surface of the centrifugal disk, which is characterized in that, in order to increase the speed of the device, a belt conveyor, a second roller, a second reflecting plate and a support plate were introduced, a hopper is installed in the lower part of the belt conveyor, the upper part of which is located at the level of the upper point of the centrifugal disk, cat ing located at an angle to the horizontal drive is kinematically connected with a drive belt conveyor and a second roller which is disposed above the surface of the disk at an angle to it of radius, the base plate is strengthened between the conveyor belt and the centrifugal disc over which the reinforced surface of the second reflecting plate _f first the reflective plate is made in the form of a semicircle of a centrifugal disk, and the second in the form of a closed loop with a window and a protrusion, the first roller is installed at the side of the support plate in the direction of rotation of the centrifugal disk and perpendicular to its surface, one end of the first reflective plate is located in the zone of rotation of the first roller and the other end is located outside the centrifugal disk, the window of the second reflective plate is located in the zone of rotation of the second roller, the protrusion of the second reflective plate is located outside the centrifugal disk in the area of the second end of the first reflective plate, a return niche is installed under the protrusion of the second reflective plate. ί 1150637