JPS6380718A - Electric source - 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 (Field of Industrial Application) The present invention relates to a power supply device having multiple sets of AC cords,
In particular, the present invention relates to a power supply device that prevents burnout of AC cords, outlets, etc. due to overpowering.

(Conventional Technology) In recent years, with the development of technology, the size of simulator devices has become increasingly smaller. Under these circumstances, the number of multifunctional devices that incorporate multiple miniaturized electronic devices with different functions is increasing. Naturally, power consumption is higher when multiple electronic devices are used at the same time than when used alone.
The power supplied to the multi-function device becomes large.

This multi-function device is often installed in a place where a special outlet with a large power supply is not installed, and when the multi-function device operates at maximum load, the power consumption will exceed the maximum standard of the outlet or the AC cord It is easy to imagine that the maximum specifications will be exceeded.

In such cases, the number of AC cords of the power supply device has been increased to reduce the power supplied per AC socket or outlet.

(Problem to be Solved by the Invention) However, in the method described above, power is not supplied to even one of the plurality of AC cords of the power supply device.
If you try to supply power to the power supply when there is a C code, the power that was supposed to be supplied from the AC cord to which power is not being supplied will be applied to other AC cords, so AC Coco-1 The power burden per set or per set of outlets increases, and there is a possibility that the AC cord or the outlet may burn out due to overpowering, and in some cases, this may lead to a serious accident.

The present invention prevents the burnout of power supply paths such as AC cords and outlets due to overpower and damage to the power supply due to overpower as described above, and provides a power supply with excellent safety.

(Means for Solving the Problems) In order to solve the above problems, the present invention provides
In the power supply device, the same AC voltage is supplied to the plurality of AC cords by turning on a main switch connected to each of the plurality of AC cords. AC input detection means corresponds to each of the AC cords and detects whether or not power is being supplied from the plurality of AC cords, respectively, and the AC input detection means turns on when 9 AC input is detected. It has a control switch that turns off if no AC input is detected, and at least one AC input line of each AC cord has a control switch other than the AC input detection means corresponding to that AC cord. Control switches that are turned on and off by input detection means are connected in series.

(Function) According to the present invention, since the power supply device is configured as described above, when power is supplied from all of the plurality of sets of AC cords, the AC input detection means corresponding to each of the plurality of sets of AC cords However, power is supplied to the power supply to sense the AC input and turn on all control switches. but,
If there is an AC cord to which power is not supplied to even one of the plurality of AC cords, power cannot be supplied to the power supply device from this AC cord to which power is not supplied, and the power is not supplied to the power supply device. An AC input detection means connected to an AC cord that is not connected cannot detect an AC input. Therefore, the control switch is turned off. Furthermore, since one control switch is connected to each AC cord that is supplied with power other than the AC cord that is not supplied with power, power can also be supplied to the power supply unit from the AC cord that is supplied with power. cannot be supplied. Therefore, unless power is supplied from all AC cords, power is not supplied to the power supply device, so the above-mentioned problem can be eliminated.

(Embodiment) FIG. 1 is a partial schematic circuit diagram of a power supply device showing an embodiment of the present invention. The control circuit 1 is the part that best represents the features of the present invention. This control circuit 1 is connected between the AC input terminals 10, 20, 30 of the power supply device 2 and the power supply main body 3,
The power supply main body 3 is controlled depending on the presence or absence of the C input. In FIG. 1, three sets of AC cords (not shown) are connected to AC input terminals xo, 2o, so (hereinafter, terminals 10, 20, 3).
0). Terminal 10.20.30
Main switches 11, 21, 31 and AC
Input sensing means 12, 22 and 32 are inserted in series connection, respectively. Main switch 11.21.31 is on/
This is a breaker switch for the power supply that is linked to turn off the power supply. Further, the AC input detection means 12, 22, 32 detects the AC input applied between the terminals 10, 20, 30, and controls the control switches 12a, 221L, 32, which will be described later.
* This is the part that turns on/off respectively. This AC input detection means 12.22.32 and the control switch 12a,
The circuit configuration can be simplified by using, for example, a relay in the 22tte 32m that detects the presence or absence of voltage with a coil and turns on/off a switch depending on the state. AC input control circuit 13.23.33 includes triac 5&l 5b l 5c and this triac 5m
.

Resistor 6a+ connected in series to the date of 5b+5c
6bg 6c and control switch 12a, 22a*32a
It consists of a combination of Control switch 12a, 22a
, 32a, the control switch 2 is connected to the terminal 10.
At the terminal 20, the control switch 12h and the control switch 32h are connected in series, and at the terminal 30, the control switch 12m and the control switch 22a are connected in series. All the switches corresponding to the AC input detection means other than the AC input detection means connected to this terminal are connected in series at the terminal.

AC input control circuit 13, 23° 33 connects each terminal 10, 20
．． 30 AC input lines 14a.

1 each for 14b, 24a, 24b, 34a, and 34b
The reason why each circuit is connected is to prevent current from flowing from a terminal to which power is supplied to a terminal to which power is not supplied. Warning device 4 is main switch 11, 21
．． 31 are all on and the AC input detection means 12
．． 22. It is a device that issues a warning when any one of the AC inputs cannot be detected. As the warning means, a light emitting diode, a light emitting diode, etc. is generally used, but it is not particularly specified.

Next, the operation will be explained.

First, turn on the main switches 11, 21, and 31.

At this time, if power is supplied to all terminals 10.20.30, AC input is detected by all of the AC input detection means 12.22.32, and the AC input detection means 12.2.
Control switch 12a+22a, 32 compatible with 2.32
All a are turned on. Then triac 5h.

5b and 5c are brought into conduction, and power is supplied to the power supply main body 3 from the terminals 10, 20, and 30.

Next, power is supplied from terminal 10 and terminal 30, and terminal 2
Assume that power is not supplied from 0.

Naturally, no power is supplied from the terminal 20 to the power supply main body 3. Although power is still being supplied from terminal 10 and terminal 30,
The AC input control circuits 13 and 33 connected to the AC input control circuits 13 and 33 respectively include the aforementioned control switches 22a, and the control switches 22a are turned off unless the AC input detection means 22 detects an AC input. . therefore,
Triac 5 included in AC input control circuit 13.33
a, 5c are not in a conductive state and terminal 10 and terminal 3o
No power is supplied to the power supply main body 3 either. Therefore, if there is at least one set of AC cords to which power is not being supplied, even if the main switch of the power supply is turned on, the power supply and all AC
Power is not supplied to power supply paths such as the C cord or the outlet, and power is supplied to the power supply device only when power is supplied from all AC cords.

Although the present embodiment is described assuming a case where there are three AC input terminals, the same effect can be obtained even if the number of AC input terminals is N (N22). Although I have connected one AC input control circuit to the AC input line of each terminal,
A similar effect can be obtained by providing an AC input control circuit on only one of the input lines.

(Effect of the invention) As explained in detail above, according to the present invention, all A
Power is not supplied to the power supply unless power is supplied from the C cord, so if at least one of the multiple sets of AC cords is not being supplied with power, the power supply and all AC cords and Power is not supplied to the power supply path such as an outlet, and therefore the maximum specification of the AC cord is not exceeded, making it possible to prevent burnout of the power supply device and the power supply path.

[Brief explanation of the drawing]

FIG. 1 is a partial schematic circuit diagram of a power supply device showing one embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Control circuit, 2... Power supply device, 3... Power supply main body, 4... Warning device, 5ar5b+5c... Triac, 6a, 6b, 6c---resistance,
20, 20, 30-AC input terminal, 11.21.3
1... Main switch, 12, 22.32... AC
Input detection means, 12a, 22a+32m... control switch, 13, 23, 33-AC input control circuit, 14
a, 14b+24a, 24b, 34a, 34b-kc input line.

Claims (1)

[Scope of Claims] It has a plurality of sets of AC cords, and by turning on a main switch connected to each of the plurality of sets of AC cords, the same AC
In the power supply device to which voltage is supplied, the plurality of sets of AC
AC input detection means each corresponds to a cord and detects whether or not power is being supplied from the plurality of AC cords;
and a control switch that is turned on when an input is detected and turned off when no AC input is detected, and at least one AC input line of each AC cord has an AC input detection means corresponding to that AC cord. A power supply device characterized in that the control switch that is turned on/off by an AC input detection means other than the control switch is connected in series.