JPS6364533A - Electric source remote control system - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Summary] The present invention provides a power supply remote control in which, when receiving a power-on command, each line terminal device counts clocks at predetermined time intervals for its own line address value and then turns on the main power. This is a control system that can prevent excessive inrush current due to simultaneous power-on.

[Industrial application field]

The present invention relates to an improvement in a power supply remote control method for remotely controlling power on/off of a plurality of line terminal devices that share a commercial power supply panel.

When a plurality of line terminal devices are installed to share a commercial power supply panel, if the power is turned on all at once by remote control, the breakers may trip due to excessive inrush current.

For this reason, countermeasures have been taken such as increasing the capacity of the power supply panel and setting a power-on sequence, but these have the problem of being expensive, and an easy remote power control method that solves these problems is needed. It is being

[Conventional technology]

Figure 3 Conventional power supply remote control method According to the explanatory diagram, is the conventional power supply remote control system? 'ff method will be explained.

Figure 3 shows a system in which multiple display terminals are controlled by one keyboard. In the figure, 1 is a host computer (hereinafter referred to as host), 2.3 is a display terminal with the same configuration, and 4 is a keyboard. be.

The display terminals 2 and 3 and the keyboard 4 are connected to the host 1 using a multi-point method, and are connected to the host 1 by referring to the line address based on the address setting board (AD setting board) 6 provided in each device. A line is connected, and a single keyboard 4 is configured to control the display terminals 2 and 3 and input data to each one.

Therefore, the display terminals 2, 3 and the keyboard 4 are installed at the same location, and the power switch 5 provided on the keyboard 4 powers on and off the display terminals 2.3.

That is, as shown in the figure, the push signal of the power switch 5 is output to each display terminal 2.3 as a remote control signal 50 (power on/off signal), and each display terminal 2, 3 uses this remote control signal 50 to The main power supply 7 is being turned on and off.

(Problems to be Solved by the Invention) As explained above, in a system configured such that the power on/off of a plurality of line terminal devices is remotely controlled, each terminal device is If the breaker 8 is shared, the breaker 8 may trip due to excessive inrush current caused by simultaneous power on, which causes problems such as increasing the power capacity of the power supply panel 17 or having to turn on the power in a predetermined sequence. There is.

An object of the present invention is to provide a simple power supply remote control system that solves the above problems.

[Means for solving problems]

For the above purpose, the power supply remote control system of the present invention includes a reading means (2o) for reading an address setting board (6) for setting a line address of a line terminal device, as shown in FIG. and counting means (21) for counting clocks having a predetermined time interval according to the power-on command (54).
), a comparing means (22) for comparing the counted value and the read value of the line address and outputting a turn-on signal (53) to its own main power supply when they match, provided in each line terminal device. It is something that

[Effect]

Each terminal device connected to the line is given a unique line address, and each terminal device is provided with a line address setting panel.

When this line address setting board is read and the clocks at predetermined time intervals are counted until the address value is reached, the power is turned on, and a sequence based on the line address value is obtained.

Since the inrush current is within several llls, for example, 10m5
If a clock with intervals is used, the power is turned on at intervals of at least 10 m5 to prevent overcurrent due to inrush current.

Note that the above means is constantly supplied with power such as a battery so that it operates even when the terminal device is powered off.

As described above, power supply control can be performed with a simple power-on sequence that does not depend on the number of terminals in the line terminal bag.

〔Example〕

An embodiment of the present invention will be described with reference to FIG.

Figure 2 (al is a system configuration diagram of the embodiment, Figure 2 (bl
FIG. 2 is a detailed block diagram of the power supply control section of the embodiment.

In FIG. 2(a), reference numeral 11 denotes a power supply control unit with eclipsed display terminals 18 and 19, a reading means (2o) for reading the line address setting board (AD setting board) 6, and a counting means (21). )
10 is a non-lock type power switch provided on the keyboard 4, which is grounded when pressed; 16 supplies power to the power control section 11; With constant power supply,
It consists of a battery, etc., and is usually provided in a terminal device, and the same reference numerals as in FIG. 3 represent the same objects.

FIG. 2('b) is a detailed block diagram of the power supply control unit 11, in which 12 is a clock generation unit that generates a clock 52 having a time interval of 1Qms, 13 is a counter, 14 is a comparator, and 15 is a This is a latch circuit.

The AD setting board 6 is composed of a plurality of switches S, each of which sets a binary line address by connecting/opening the switch.The connecting/opening state is converted into a voltage (reading means 20) and then sent to a comparator. It is input to one of the 14 comparison inputs.

The power-on operation will be explained below.

When the u'6D-switch 10 is pressed from the keyboard 4 and the power-on command 54 becomes logic "0", the counter 1
3 is reset and starts counting 10113 clocks 52.

This count value is compared with the value on the AD setting board 6 by the comparator 14, and when they match, the power-on signal 54 is sent to the latch circuit 15.
The input signal 53 is latched and outputted as a closing signal 53 to the main die 'a7.

If the above means is provided in each line terminal device, the power will be turned on with a time delay corresponding to the line address, and at least lQ
A closing interval of ms can be obtained, and an excessive rush current caused by conventional simultaneous closing can be prevented.

It should be noted that, as described above, the power supply control section 11 is operated by the constant power supply 16 made up of a Hafteri or the like.

〔Effect of the invention〕

Since the present invention provides a simple remote control method that configures a power supply sequence based on a line address, it is extremely effective in preventing excessive inrush current during remote control.

[Brief explanation of drawings]

Figure 1 is a diagram explaining the principle of the present invention, Figure 2 (a) is a system configuration diagram of an embodiment, Figure 2 (bl
is a detailed block diagram of the power supply control section, and Figure 3 is a diagram of the conventional power supply controller.
This is an explanatory diagram of the IJ mote system '41■ system. In the figure, 1 is a host computer, 2.3 is a display terminal, 4 is a keyboard, 5 is a power switch, 6 is an address setting board (CAD setting board), 7 is a main power supply, 8 is a breaker, and 10 is a non-locking power supply. switch, 11 is a power supply control section, 12 is a clock generation section, 13 is a counter, 14 is a comparator, 15 is a latch circuit, 16 is a constant power supply,
17 is an electric/TA board, 18.19 is a display terminal, 20 is a reading means, 21 is a counting means, 22 is a comparison means, 50 is a remote control signal, 52 is a clock, 53 is a turn-on signal, 54 is a power-on command, Detailed explanatory diagram of the present invention Fig. 1 Fig. 2 b)

Claims (1)

[Scope of Claims] A power supply remote control method that applies a common command to a plurality of line terminal devices that share a power panel to turn on and off the main power source (7) of each of them, the method comprising: controlling the line address of the line terminal device; A reading means (20) for reading the address setting board (6) to be set, and a power-on command (
A counting means (21) for counting clocks having a predetermined time interval (54) compares the counted value with the read value of the line address, and when they match, the main power source (7)
a comparison means (22) for outputting a power-on signal (53) to each line terminal device, and powering on the line terminal device in a sequence corresponding to the line address value. method.