RO128273A2 - Photoelectric system for monitoring value tokens in casinos - Google Patents

Abstract

The invention relates to a system to be used in casinos for monitoring value tokens which do not have an identification integrated circuit embedded therein. According to the invention, the system comprises a token tray with 12 rows meant to place the value tokens therein, in the positions where the tokens are placed there being arranged some phototransistors, one for each token separately, said transistors emitting an electric signal depending on the detection or non-detection of the token in front of it, the signals from the phototransistors being processed by a specialized electronic circuit which offers at the output an analog signal taken over by the I/O modules of a programmable automaton which carries out the acquisition of data, their processing and transmission to a central server on which a special software application is installed, said application having the role of storing all the data into a central data base and allowing both the monitoring in real time of a game table and the generating of reports necessary to the casino management team.

Description

The present invention relates to a system for monitoring the common value chips in casinos, which do not have an integrated identification chip.

It is known that in most casinos the chips that are in the fleets (chips tray) are of the usual plastic or ceramic type. This type of chips do not allow real-time and accurate monitoring of the financial situation on the gaming tables. To remedy this drawback, a monitoring system has been developed that is not applicable to ordinary chips, but involves the incorporation in each chip of a microchip needed for identification. The disadvantage of this system is that it cannot be applied to ordinary chips (without a microchip).

The present invention removes the disadvantages of the above by applying a photoelectric identification system capable of individually recognizing each token on each row of seating in the fleet. Thus, it is possible to quantify the number of chips existing at any given time. By electronic processing, with the help of the programmable automaton, the total value of the value chips in the fleet is obtained. By processing the information provided by the programmable automaton, using a computer, through a specialized software program, the management team has access to real-time data.

The purpose of the system is to keep track of the amount of chips from a fleet located at a gaming table, correlating this information with the name of the dealer and the inspector at that table. At the same time, through the software application, a system of timekeeping of croupers and inspectors is developed.

The system consists of a fleet of 12 rows on which are placed chip tokens, an electronic circuit with phototransistors for counting chips, a programmable Unitronics Model Vision connected to a PC and a magnetic card reader used to identify dealers and inspectors.

In the positions of placing the tokens in the fleet, there are phototransistors, one for each token. Phototransistors provide an electronic signal depending on whether or not the token is detected. The signals from the phototransistors are processed by a specialized electronic circuit that offers at its output an analogue electrical signal that will be properly taken over by the I / O modules of the programmable controller. The programmable controller performs the acquisition of the data from the electronic modules, as well as their processing and transmission to a central server. A specialized software application is installed on this computer, which has the function of storing all the information in a central database and allows

I 8 ^ - 2 0 1 1 - 0 0 9 1 1 -1 6 -09- 2011 both the monitoring of the game table, in real time and the generation of the necessary reports to the casino management team.

The system works again failing in the normal lighting conditions of the area above the game table. The light source must be incandescent and provide a luminous intensity of minimum 60W / 0.14m ² and maximum 300W / 0.14m ² (total area of the Thief).

System elements

floater

The fleet represents a metal tray with a special shape fig 1, with the purpose of storing the chips held by the dealer. The chips are kept on the rows of the fleet (Fig. 1 and Fig. 2) which can be 12 for Black Jack, Poker and 14 for Roulette. Only chips of the same value can be placed on each row (fig. 3).

After being placed on the playing table, the rows of the fleet will be inclined (fig. 4). This inclination is necessary for the chips to be glued to each other and fixed to the fleet.

The dimensions of the fleet [mm] are those shown in fig. 4, FIG. 5 and FIG. 6.

On each row of the fleet, 58 holes with a diameter of 1.8-2 mm were executed (fig.7) in which the phototransistors are fixed. The holes are placed in the positions where the chips come, one on each section of 3.37mm ± 0.05mm (the approximate thickness of a token), so that each token placed in the fleet covers one orifice.

tokens

The chips (fig.8) are plastic objects with a cylindrical shape having a diameter of 4 cm, a thickness of 3.37 mm ± 0.05mm and a mass of 12g ± 0.5g. They are used as a currency exchange in the casino. These tokens have different values inscribed on them (1, 5, 10, 25, 100 etc.), the color of a token also varying according to value (fig-9).

phototransistors

A phototransistor is an electronic semiconductor device that converts a light signal into an electrical one.

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3 / <λ- 2 0 1 1 - 0 0 9 1 1 - 1 6 -09- 2011

Electronic module

It is based on 15 integrated circuits (CIs). Such an integrated circuit consists of 4 voltage comparators (fig.). A voltage comparator will output at the output a 91Kohm ground resistor (GND) if the voltage on the + terminal is higher than the voltage on the terminal (reference voltage).

A 15Vdc transformer is used to supply the circuit (fig.ll). The rectified voltage is connected to two voltage regulators 2 and 3. One provides a constant voltage of 12Vdc used to supply the comparators (pins 1 and 4), and the other regulator provides a voltage of 6Vdc used in the comparison process (reference voltage). .

As shown in the diagram (Fig. 10), the phototransistors are connected between the comparator terminal and the GND. When the phototransistor is illuminated, its internal resistance decreases (<1 Kohm) resulting in a voltage lower than the reference voltage applied to the comparator at the terminal so the comparator does not work. When the phototransistor is not illuminated, its internal resistance is high (> 500 Kohm), resulting in a voltage higher than the reference voltage. In this case, the comparator works and connects the resistance of 91Kohm to the output wire.

On the outputs of the comparators are placed the resistors R6, R7, R8, which will practically connect between the output of the comparator and the output wire in the circuit. So when the phototransistor is not illuminated, one of these resistors will be connected in parallel between the GND and the output of the circuit.

In the present application, initially the rows are empty, the phototransistors are all lit and so none of the 91Kohm resistors are connected in parallel. When a token is added, an orifice will be covered, the phototransistor in that orifice will be "closed and one of the 91Kohm resistors connected to the output of the circuit. Thus the total resistance of the circuit will decrease, and the voltage at the output will be lower, in proportion to the respective resistance. In this way the value of the output voltage will vary in proportion to the number of chips in a row. This voltage varies in the range 0-10V, thus being read and interpreted correctly by the programmable controller, between the source and the circuit is connected and a resistance of 9.1Kohm to act as a voltage divider.

Timing elements

The timekeeping elements are part of the system that is the object of the invention and which are presented below as known elements themselves. As previously specified, in addition to the function of counting tokens, the system also provides the time function. The following equipment is used for timekeeping:

- ordinary magnetic stripe cards

- card readers of type MSR-33-RM or equivalent | 8 (λ- 2 Ο 1 1 - Ο Ο 9 1 1 - 1 6 -09- 2011

PLC (PLC)

In order to acquire the signals from the electronic modules, their processing in order to transform them into useful information and to transmit them to the server, a Unitronics Model Vision automatic programmer is used.

Software application

The software application is specially designed so that the present invention provides all the data and classifications required by the user.

Claims (5)

claims 1. Monitoring system for casino tokens, characterized by the fact that a photoelectric identification is applied, capable of recognizing each chip individually, from each row of tokens in the fleet. The invention according to claim 1, characterized in that the photoelectric identification system quantifies the number of existing chips in the fleet at any given time. 3. The invention according to claims 1 and 2, characterized in that the result obtained is processed electronically by means of the programmable automaton, ensuring the monitoring of the contents of the fleet through the software application specially developed for this purpose. 4. The invention according to claim 1, 2 and 3, characterized in that the information provided by the programmable automaton is stored and processed by the software application installed on the server for the purpose of: monitoring the activity of the gaming tables, evaluating croupers, evaluating the inspectors and generating conclusive reports for management team. 5. The invention according to claim 1, 2, 3 and 4, characterized in that the information stored in the server database is archived for long periods of time and offers the possibility to view the history of the casino's activity.