JPH04101627A - Plug socket device - Google Patents

Abstract

PURPOSE:To eliminate another plug socket at a main load by detecting a load current to the load by a current transformer to close a switch element, and starting power supply to a driven load connected to a driven plug socket. CONSTITUTION:A current transformer 7 for detecting a current to a man plug socket 1 and a fuse 8 are inserted between a main plug and a main plug socket 1. A pair of driven plug sockets 2a, 2b are connected to a main plug 5 through a switch element 3 made of a semiconductor relay. A varistor V is connected in parallel with the element 3 to prevent it from damaging due to a surge. The output of the transformer 7 controls the element 3 through a current detection circuit 4. If the output of the transformer 7 becomes a predetermined value or larger, the element 3 is closed. The amplitude of a load current necessary to close the element 3 is decided by the turn ratio of the transformer 7 and the operating voltage of the element 3.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to an outlet device that includes a main outlet that supplies power to a main load, and a slave outlet that supplies power to a slave load after starting power supply to the main load.

[Conventional technology]

Conventionally, as shown in FIG. 4, this type of outlet device has a main outlet 1 electrically connected to a main plug 5 connected to a commercial power supply, and a switch element 3 such as a relay connected to the main plug. Secondary outlet 2 connected via
A and 2b are distributed separately. In addition to the main plug 5, a control lug 6 is provided, and when the power supply to the control plug 6 is started, the switch element 3 is turned on via the egg rotation n4', and the slave outlets 2a, 2b are turned on. is electrically connected to the main plug 5. The main load is connected to the main outlet 1, and the slave outlet 2 a
, 2 b is connected to the slave load. In the above configuration, when power supply to the control plug 6 is started while the main plug 5 is connected to the commercial power source t8, the switch element 3 is turned on and the secondary outlets 2a, 21 are turned on.
) is supplied with commercial power. Therefore, in order to start powering the slave loads after the main load has started, the main load should have an outlet that receives power when the main load is turned on, and this outlet should have a control outlet. All you have to do is connect the plug 6.

[Problem to be solved by the invention]

In the above configuration, since it is necessary to provide the main load with a socket to which the control plug 6 is connected, the form of the main load is limited. That is, if the main load is not equipped with an outlet to which the control plug 6 can be connected, a problem arises in that the power supply to the sub-loads cannot be controlled. The present invention aims to solve the above-mentioned problem, and in order to start power supply to the slave load after power supply to the main load has started, it is not necessary to provide a separate outlet for the main load. The aim is to provide an electrical outlet device that is not available in the market.

[Means to solve the problem]

In order to achieve the above object, the present invention detects a main outlet connected to a commercial power source, a slave outlet connected to the commercial power source via a switch element, and a current between the commercial power source and the main outlet. It includes a current transformer and a current detection circuit that turns on the switch element when the output of the current transformer exceeds a predetermined value.

[Effect]

According to the above configuration, when the main load is connected to the main outlet and the main load is turned on, the load current to the main load is detected by the current transformer, the switch element is turned on, and the switch element connected to the slave outlet is turned on. Power supply to the slave load is started. As a result, the power supply to the slave load starts after the main load is turned on, and the power supply to the slave load is compared to the power supply to the main load without providing a separate outlet for the main load. It can be delayed.

【Example】

As shown in Figure 1, the main plug 5 connected to the commercial power supply
The main outlet 1 is connected to. A current transformer 7 for detecting current flowing into the main outlet 1 and a fuse 8 are inserted between the main plug 5 and the main outlet 1. Further, a pair of slave outlets 2a and 2b are connected to the main plug 5 via a switch element 3 made of a semiconductor relay. The same diameter outlets 2a and 2b are connected in parallel together with a dummy resistor R. Here, main outlet 1, secondary outlet 2
The main plugs a, 2b, and the like are equipped with a grounding electrode. A varistor V is connected in parallel to the switch element 3 to prevent damage due to surges. The output of current transformer 7 is T
The switch element 3 is controlled via the L current outflow circuit 14, and the switch element 3 is turned on when the output of the current transformer 7 exceeds a predetermined value. That is, the current detection circuit 4 includes a diode bridge DB, a smoothing capacitor C1, a reverse voltage prevention diode D, rectifies and smoothes the output of the current transformer 7, and uses the average value of the output of the current transformer 7 to detect the switch element 3. control. switch element 3
The magnitude of the load current (TL flow flowing between the commercial power supply and the main outlet 1) required for the switch to turn on is determined by the turns ratio of the current transformer 7 and the operating voltage of the switch element 3. . Therefore, if you set it to low sensitivity, you can deal with cases where the main load connected to main outlet 1 continues to flow a minute load current when it is off, and if you set it to high sensitivity, you can handle cases where the load current continues to flow even when the main load is turned off. This means that it can handle a large amount of main load. The outlet device having the circuit configuration as described above has a second
As shown in FIG. 3, the body 11 and the cover 12
It is delivered in a case 10 consisting of. The main outlet 1 and the secondary outlets 2a and 2b each consist of an outlet block 13 having an independent case, and each outlet block 13 is equipped with a terminal having a quick-connect terminal structure. In addition, a pair of connection holes 14 for inserting electric wires are drilled corresponding to the terminals connected to each plug blade, and a jig such as a screwdriver is inserted into the vicinity of each connection hole 14 to insert the electric wires. A release hole 15 is formed to release the connection between the terminal and the terminal. However, in case 10, outlet block 13
, current transformer 7 and other parts are delivered, and outlet block 1 is installed.
3 through the connecting wire 16, the circuit is connected. Further, a grounding terminal 17 and a fuse 8 are provided on the outer surface of the case 10, and a cable 18 having a main plug 5 connected to its tip is drawn out from the case 10.

【Effect of the invention】

As described above, the present invention includes a main outlet connected to a commercial power source, a slave outlet connected to the commercial power source via a switch element, and a current transformer that detects the current between the commercial power source and the main outlet. , is equipped with a current detection circuit that turns on the switch element when the output of the current transformer exceeds a predetermined value, and when the main load is connected to the main outlet and the main load is turned on, the main load is The current transformer detects the load current, turns on the switch element, and starts supplying power to the slave load connected to the slave outlet. As a result, the power supply to the slave load starts after the main load is turned on, and the power supply to the slave load is compared to the power supply to the main load without providing a separate outlet for the main load. It has the advantage of being able to be delayed.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is an exploded perspective view of the same, FIG. 3 is an external perspective view of the same, and FIG. 4 is a circuit diagram showing a conventional example. 1...Main outlet, 2a, 2b...Sub outlet,
3-... Switch element, 4... Current detection circuit, 5...
・Main plug, 7...Current transformer. ---1-Co Procedural Amendment (Spontaneous) December 8, 1990 2゜3゜4゜1990 Patent Application No. 215151, Relationship to the case of the person who amended the name of the invention for the outlet device Residence of the patent applicant Address: 1048 Kadoma, Kadoma City, Osaka Prefecture Name (
583) Matsushita Electric Works Co., Ltd. Representative Toshio Miyoshi

Claims (1)

[Claims] (1) A main outlet connected to a commercial power source, a secondary outlet connected to the commercial power source via a switch element, a current transformer that detects the current between the commercial power source and the main outlet, and a current transformer that detects the current between the commercial power source and the main outlet. An outlet device comprising: a current detection circuit that turns on a switch element when the output exceeds a predetermined value.