SU1115077A1 - Device for checking and sorting coins - Google Patents

Abstract

A device for checking and sorting of coins that contains a coin line, a voltage source, device control inputs are control terminals of keys of the first and second groups, resistors combined into a group, the first terminals of which are connected via switches of the first group to the common output of the power source, and an alternating voltage generator made of a transistor, resistors, capacitors, inductance winding and transformer, the plates of the first capacitor are connected to the collector and emitter of the transistor, the base of which Through a series-connected first resistor, second capacitor and inductor winding is connected to the emitter of the transistor, which is connected via a third capacitor to a common output of a power source, which is connected to the connection point of the first resistor and second capacitor, the base of the transistor is connected to the output of the power source, through the first winding of the transformer which is connected to the collector of the transistor j is a transformer magnetic conductor, the terminals of the second winding of which are connected to the common output of the power source and to the input terminals of the keys of the second group, the output terminals of which are the outputs of the device, characterized in that, in order to improve the accuracy and speed of the device, a resistor is inserted into it, The first terminal of which is connected to the common source of the power source, and the second one is connected to the connection point of the second AC capacitor and the inductance winding of the alternating voltage generator, the collector of the transistor Secondly, it is connected to the second pins of the resistors of the first group.

Description

The invention relates to coin testers and can be used in coin mechanisms for accepting coins of various values. A device for checking and sorting coins, which contains a coin wire, a voltage source, an alternating voltage generator, is made of a transistor circuit with a variable resistor in the transistor emitter circuit. The drawback of the device is the lack of software control over the sensitivity of the generator, which does not allow fully automating the process of checking and sorting coins. The closest to the invention to the technical essence is a device for checking and sorting coins, which contains a coin line, a voltage source, a program-time block, whose outputs are connected to control inputs of keys of the first and second groups, resistors combined into groups, first the output of which through the keys of the first group is connected to the common output of the power source, and an alternating voltage generator made of a transistor, resistors, capacitors, inductance winding and a transformer, the plates of the first the capacitor is connected to the collector and the emitter of the transistor, the base of which is connected through the first resistor in series, the second capacitor and the inductance winding is connected to the emitter of the transistor, which is connected to the common power source through the third capacitor, which is connected to the connection point of the first resistor and the second capacitor transistor through the second resistor is connected to the output of the power source, which is connected to the collector of the transistor through the first winding of the transformer is a transformer magnetic conductor, the findings of the second winding of which are connected to the common power supply terminal and to the input terminals of the keys of the second group, the output terminals of which are device outputs, the second terminals of the resistor grouped are connected to the junction point of the second capacitor and alternator inductance winding G2, In order to display the various advantages of the coins in the field of one coil, the software device operating with this device stepwise changes the sensor setting connecting to the emitter of transistor various setting devices (resistors), wherein when switching from one circuit to another resistor emitter It appears torn by a DC current, which requires additional time to recover in the sensor generate. In addition, plug-in drivers (resistors) differ slightly from each other in nominal values (on the order of hundreds of ohms). And this leads to a significant decrease in the accuracy of control of coins and a decrease in temperature stability due to the technological variation of resistor parameters. The aim of the invention is to improve the accuracy and speed of the device. The goal is achieved by the fact that the device for checking and sorting coins, containing a coin line, a power source, control inputs. The devices are control terminals of the keys of the first and second groups, resistors combined into a group, the first terminals of which are connected via keys of the first group with a common output of the power supply, and an alternating voltage generator, filled from the transistor, resistors, capacitors, inductors and transformer, the plates of the first capacitor are connected to the collector and The ytter of the transistor, the base of which is connected in series to the first resistor, the second capacitor and the inductance winding is connected to the emitter of the transistor, which is connected via a third capacitor to a common output of a power source that is connected to the connection point of the first resistor and second capacitor to the power supply terminal, which through the first winding of the transformer is connected to the collector of the transistor, the coin duct is a transformer magnetic circuit The ora, the terminals of the second winding of which are connected to the common output of the power source and to the 3 input keys of the second group of output terminals of which are outputs of the device, a resistor is inserted whose first output is connected to the common output of the power source and the second is connected to the connection point of the second capacitor and winding the inductance of the alternating voltage generator, the collector of the transistor of which is connected to the second terminals of the resistors of the first group. The drawing shows the electrical circuit of the device. . The device contains a transformer 1 with a coin-pipe, an alternating voltage generator 2, resistors 3 combined into the first group, keys A of the second group, program-time block 5, keys 6 of the first group, resistor 7. The generator 2 is made of the first resistor 8, first, second and third capacitors 9–11, inductance windings 12, second resistor 13, and transistor 14 (power supply not shown) The device will operate as follows. In the initial state of the coin in the circuit, there is no sensor itself with the help of a resistor 7 When the coin enters the field of transformer 1, if this does not disrupt the generation of generator 2, block 5 is started, and the software-temporary block .5 begins to generate signals for the sequential operation of keys 6 only when the whole coin is found in the transformer. At the same time, the sensitivity of the sensor begins to increase stepwise by connecting resistors 3 to the collector of transistor 14, the ratings of which vary from larger to smaller and correspond to coins of different dignity. The values of the switched resistors 3 in this device are at least in the order of the ratings in the known device. This ensures greater accuracy in the control of coins. A precision resistor is used as the resistors 7. This is up. Shaet temperature stability of the device. In addition, in the proposed device, generation is not disrupted at the moments of switching and, therefore, no additional time is required for its recovery. And the turn leads to an increase in the speed of control of the coins and, as a result, to a decrease in the length of the coin duct. If at some value of the resistor 3 a generation failure occurs, a stall signal arrives from the sensor to the actuator, and the actuator determines the value of the coin by comparison with the signals from the program-time block 5. Connecting the resistors 3 to the collector of the transistor 14 favorably distinguishes the proposed device from the known one, since the accuracy and speed of control increases, and the temperature stability increases. In addition, the device itself is simplified. The use of the invention will allow to create multi-coinage mechanisms with improved characteristics of accuracy, speed and stability of the control.

Claims (1)

A device for checking and sorting coins, containing a coin pipe, a voltage source, the control inputs of the device are the control outputs of the keys of the first and second groups, resistors combined into a group, the first conclusions of which are connected through the keys of the first group to a common output of the power source, and an alternating voltage generator, made of a transistor, resistors, capacitors, inductance coil and transformer, the plates of the first capacitor are connected to the collector and emitter of the transistor, the base of which is through the first resistor, the second capacitor and the inductance winding are connected in series to the emitter of the transistor, which through the third capacitor is connected to a common terminal of the power source, which is connected to the connection point of the first resistor and the second capacitor, the base of the transistor is connected to the output of the power source through the second resistor, which through the first winding of the transformer is connected to the collector of the transistor, a coin pipe. is a transformer magnetic circuit, the terminals of the second winding of which are connected to the common output of the power source and to the input terminals of the keys of the second group, the output terminals of which are the outputs of the device, characterized in that, in order to improve the accuracy and speed of the device, a resistor is inserted into it, the first output of which connected to the common terminal of the power source, and the second is connected to the connection point of the second capacitor and inductance winding of the alternator, the transistor collector of which is connected N second terminals of resistors with the first group. 2105117 ^ 715 1 1115077 2