JPS58137080A - Automatic transaction device - Google Patents

Abstract

PURPOSE:To reduce the ON-OFF frequency of I/O power supply and to extend the life of power supply, by feeding and breaking the power supply for transaction processing devices having the change in the state of the power supply in response to new transactions when the designated types of the users are changed. CONSTITUTION:A plural kinds of transactions are shared at transaction processing devices, the shared processing is selected based on the operation of the users and the power supply is applied from a control means is response to the transaction of each transaction processing device. A power supply switching circuit 13 is provided between a main power supply 4 of the control means and each I/O and to secondary I/O power supplies 21-24 of the circuit 13, a power supply control circuit 11 and a storage circuit 12 are connected. The power-on instruction of a control key is inputted to a the circuit 12 to input the power supply status notice before setting from the circuit 12 to a reset terminal. In response to the new transactions, the power supply of the transaction processing devices having the changes in the state of power supply is fed and broken at the circuit 11, to reduce the I/O power supply frequency of on/off of the I/O power supply 4 effectively and to extend the life of the power supply 4.

Description

[Detailed description of the invention] ■ In the originating speculation technique, each of the plurality of transaction processing power units (Ilo) has an individual power supply, and the individual power supply is connected to the main power supply via the control unit. This invention relates to a self-transaction device that is powered by a controller and has a control unit so as to supply only the 12 units of power necessary for transactions.

(Xun) Conventional technology and problems Conventionally, when multiple Ilo's each have a secondary individual power source and are connected to the main power source via the control unit, execution of commands to El often ends in one transaction. Then, as the device is reset, CilIIn Zheng is able to clear it in the pan, and the individual power supply of each L is temporarily turned off, and then restarted when restarting with the next command.

FIG. 1-) shows the configuration of a 1IJIIIL storage device used as a bank copy as an example of this DanOi device 01. That is, in the device 10, there is a carriage ' in the card reader 1.
Ekakunta 13. Separate power supply (Ilo PW) 2t~24 for each printer 1s and 14
are provided, and these are connected to the main (fi (M
PV) connected to 4. MC power supply control unit is under control-5
controlled by

In this case, the side control is as shown in the same figure). When the execution of the previous command is completed, the power supply side
1, reset everything once and then use the next O command to set the avoidance time 1. The program restarts at , but it takes time TI to start up, during which time the initial value of the program is set, and the next I10 select command is executed at time JRJts.

In this method, the power is turned on and off at each "reset", which results in a summary of the power life.

In addition, if the I10 power source is connected directly to the main 1- so that it will not be affected even if the power supply control section is reset, the above problem will be solved, but it will be difficult to control each I10 IIE source, and the EVA will not be affected. Even when it is not operating, the l10111 switch is on, which is uneconomical.

(3) Purpose of the Invention The purpose of the present invention is to complete continuous commands when multiple 60 output devices each have an individual power supply, and the individual power supplies are supplied with the main power supply via the control unit. Perform initialization efficiently
It is an object of the present invention to provide a trading device that reduces the number of times the power is turned on.

(Xunfa - 〇 Configuration #i In order to achieve the historical structure, the Yuyu transaction device of the present invention is equipped with a plurality of transaction processing machines that share and perform the processing necessary to carry out transactions. It has a control means that selects the nine processes based on the user's operation and supplies power to the corresponding transaction processing machine, and the power is supplied only to one transaction processing machine corresponding to the transaction specified by the user's operation. In the Ilb transaction device that supplies and conducts transactions, when the transaction agent specified by the user is pawned, the transaction processing machine O power supply whose power status changes in response to the new transaction. The device is characterized by having nine means for controlling the power supply!#-.

(5) Embodiments of the Invention The raw salt of the present invention is to maintain the I10 power supply at this time when the previous command operation, that is, one customer (user) 4R withdrawal is completed, and the 9 o'clock device is reset. , if you make the new nine decide whether to turn on or off the power at the initialization of the next command, m
Since there is no need to turn off the same equipment in subsequent transactions, the number of on/off cycles of the EVA can be reduced and its lifespan can be extended.

FIG. 112 is a detailed diagram of the present invention according to the above-mentioned field.

In the figure, power is supplied to each I10K via a power supply switching circuit 15 consisting of a main power source (MPW) 4 and a secondary Iluminium 11 [2t to 24 units]. These l101iE sources 21~
A power-on command for No. 2 (control key 5) is sent via the power supply control circuit 11 to perform power-on control by initializing the command, and upon completion of the command, the power-on command is sent to the power source control circuit 11 and the power source control circuit 11.
3 at the same time. The secondary I10 voltage consists of nine JIIK excitation circuits using nine screw transistors.

That’s all! I10 power supplies 21 to 24 and power supply--1 in Figure 111
This is a body circuit equivalent to the I3 side part.

In this laboratory, we have installed a holding circuit 12 in parallel with the power control circuit 11 and the power supply switching circuit (15t) HIIC, which holds the previous state with a reset note and changes that state to the power supply with the next command's start signal. It returns to the control circuit 11 and notifies the upper device in the control panel of the status at -sb.

In other words, the previous operation is completed and the power is turned off 11FjA path 150
1c power supply 21 to 2aK9 set signal is input), each I10 is disconnected from main power supply (MP%') 4, 4-
11011g2t~24 are held in the state before p by the holding 1gl circuit 12. When the program starts with the next command, the 0 IES foreshadowing before v7 bits is notified to the power supply control circuit 11 and the outside as described above. Thereafter, the first power source is selected according to the 4IJ period setting of the instruction.

In other words, the unnecessary I10 power supply is turned off, the I10 power supply necessary for the new nine is turned on, and the EVA power supply, which is still highly recommended, remains on and becomes the main power supply lol! Continued.

As a result, the VO power source does not need to be turned off and on again, which is still necessary, so the overall number of times the power source is turned on and off can be reduced.

Figures 5 (&) to (•) show the control procedure at 9 o'clock, taking the self-transaction machine of Figure 1 of Figure 1 as an example.

That is, the previous operations of (a) card league, (b) Katushukakunta, (C) passbook printer, and (d) banknote validating machine are completed, and as shown in the control command in (e) of the same figure, Although the p-on foreshadowing is held by the holding circuit 12, the p-on foreshadowing is held by the holding circuit 12. Then, a restart is performed by the next command, and after a certain period of time the initial value of the command is set, (by the 110-select command) (d) The banknote validator is turned off, and the cashier kakunta that is still required (Xun card league, 伽) is held for 1 m for a predetermined period of time, and the next command is used to establish the main type IIO. One can be tied up.

(As explained above, according to the present invention, when the previous instruction o's line is completed and reset, the previous EL power supply O state III is retained by the path). When it's hot, restart with the next O command, turn this foreshadowing into power control - path & cx, initialize the command, turn off the necessary items, turn on the new necessary items, and give praise. is off. This effectively reduces the off-off FjAI/iL of I10IJI, which helps extend the life of I10IJI.

[Brief explanation of the drawing]

gNI (a) and (b) are the conventional example OS configuration and the imperial theory - diagram, the configuration of the i-th square format example 1M @ diagram, jIIs diagram (Xun ~ (
・) Takashi Hiromoto's work al1 figure, p1 figure 21-24
嬬I10 power supply, 4 is the main one, 11 is the power supply control circuit, 12
15 indicates the source circuit. Figure 1(a)

Claims (1)

[Claims] A transaction in which the treatment necessary to carry out compensation is divided among multiple O transactions, and the shared treatment is selectively handled based on the user O demand. Supply power to the sensing field machine 111
111IIIiL control means, which carries out transactions by supplying power to the transaction system corresponding to the nine transactions specified by the user; The present invention is characterized in that, at the time when the transaction type 11 changes, the power supply state changes in response to a new transaction.
Trading device.