JP3062858U - Outlet overcurrent and leakage protection devices - Google Patents

Abstract

(57) [Problem] To provide an overcurrent / leakage protection device for an outlet or an outlet for an extension line. The relay comprises one relay, one relay controllable SCR, one SCR trigger circuit, and one constant current detection circuit, and has a common contact (NG) of the relays.
Is connected to an end of a main power line, a normally closed contact (NC) forms an output end of the power line, and a normally open contact (NO) is connected to one alarm device and another main power supply. Laid on the line, the trigger circuit uses the signal of the constant current detection circuit as a trigger source,
When the constant current detection circuit detects that the current of the circuit exceeds the rated value or short circuit, the trigger circuit is activated,
The operation of the SCR is driven, and after the SCR is turned on, the normally closed contact (NC) of the relay is opened to cut off the power supply on the load.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a protective device for an alternating current power supply, which is capable of automatically shutting off an electric shock when a power supply is short-circuited, short-circuited, over-loaded, or short-circuited. About.

[0002]

[Prior art]

 Electric shock and fire are two major causes of unexpected disasters. Electric wire fires account for a high percentage of the occurrence of fires, primarily due to the improper use of electrical equipment, resulting in excessive circuit currents and the inability to detect and disconnect circuits in a timely manner. . At present, the extension line outlet is provided with a device that cuts off the power when an excessive current flows. However, it is a mechanical operation method, the sensitivity and effect of the reaction are not ideal, and when using the outlet, the electric shock may occur due to carelessness or ignorance, and Loads, for example, motors, heaters, coolers, ventilation fans, freezers, etc., did not have a protection function to automatically turn off the power when a leak occurred due to insulation breakdown.

[0003] Also, when a consumer uses many electric appliances at the same time, if the current flowing through the circuit increases due to overload or short circuit, for example, a fuseless switch in a switchboard becomes inoperable immediately due to poor quality or aging. In such a case, the main power source could jump off, causing a fire to occur due to the electric wire igniting.

[0004]

[Problems to be solved by the invention]

 The main purpose of the present invention is to provide an overcurrent or short circuit protection device in the outlet or extension line outlet, adjust the rated current by electronic design and react immediately within a few milliseconds, and to the circuit system. The purpose of the present invention is to make it possible to automatically turn off the power instantaneously when a short circuit or overload occurs.

Another object of the present invention is to provide an electric outlet or extension line outlet with a protection device for electric leakage or electric shock, so that when an electric leakage occurs in the circuit system or the electric shock occurs to the body, the power supply is automatically turned on. Is to be able to shut off.

[0006]

[Means for Solving the Problems]

 The invention according to claim 1 is an overcurrent protection device used for an outlet or an extension line outlet, wherein the relay (AC Relay) (1), the SCR (2) capable of controlling the relay, and the SCR can be driven. It includes a trigger circuit (3) and a constant current detection circuit (4) that is a trigger signal source of the trigger circuit (3), and a common contact (NG) of the relay (AC Relay) (1) is Connected to one main power supply end, a normally closed contact (NC) forms the output end of this power supply line, and a normally open contact (NO) passes through one alarm device to another. It is installed on one main power line, and it is an overcurrent protection device composed of the above.

According to a second aspect of the present invention, there is provided the overcurrent protection device according to the first aspect, wherein the warning device is a warning lamp (L).

[0008] The invention according to claim 3 is characterized in that the constant current detection circuit (4) uses one specific current transformer (CT ₁ ) as a circuit current change detector. The overcurrent protection device described in (1).

The invention according to claim 4 is the overcurrent protection device according to claim 1, characterized in that a reset switch (SW) (5) is connected to the base of the SCR (2). .

The invention according to claim 5 is an SCR capable of controlling the operation of one relay (AC Relay) (1) and one relay as a leakage protection device used for an outlet or an outlet for an extension line. (2) It includes a trigger circuit (3) of one SCR and a microcurrent detection amplifier circuit (6) used as a trigger signal source of the trigger circuit (3). The common contact (NG) of the relay is connected to the end of the main power line, a normally closed contact (NC) forms the output end of this power line, and a normally open contact (NO). Is a protection device for earth leakage that is constructed so as to extend over another main power line via one warning device.

[0011] The invention of claim 6 is the earth leakage protection device according to claim 5, wherein the warning device is a warning lamp (L).

[0012] The invention of claim 7 is characterized in that the microcurrent detection amplifier circuit (6) uses a Hall-type current detector or a current converter as a detector for detecting a change in microcurrent. A leakage protection device according to claim 5.

The invention according to claim 8 is the earth leakage protection device according to claim 5, wherein a reset switch (SW) (5) is connected to the base of the SCR (2). .

[0014]

[Embodiment of the invention]

 The first feature of the present invention is as follows. That is, the present invention is composed of one relay, one relay controllable SCR, one SCR trigger circuit, and one constant current detection circuit, and the common contact (NG) of the relay is a main power supply. The normally closed contact (NC) forms the output end of this power supply line, and the normally open contact (NO.) Extends over another main power supply line with one alarm device. The trigger circuit is activated when the constant current detection circuit detects that the current of the circuit has exceeded the rated value or detects a short circuit, using the signal of the constant current detection circuit as a trigger source. The operation of the SCR is driven, and after the SCR is turned on, the normally closed contact (NC) of the relay is opened to cut off the power supply on the load.

The second feature of the present invention is as follows. That is, the present invention comprises one relay, one relay controllable SCR, one SCR trigger circuit, and one micro-current detection amplifier circuit having one Hall element. G.) is connected to the end of the main power supply line, a normally closed contact (NC) forms an output end of this power supply line, and a normally open contact (NO.) Is connected to one alarm device by another alarm device. The trigger circuit is provided on two main power supply lines, and the trigger circuit uses the signal of the microcurrent detection amplifier circuit as a trigger source. When the microcurrent detection amplifier circuit detects a leak or a human electric shock, the trigger circuit is activated and the SCR After the SCR is turned on, the normally closed contact (NC) of the relay opens to shut off the power supply on the load.

[0016]

【Example】

 As shown in FIG. 1, the overcurrent protection circuit according to the present invention includes a relay (AC Relay) (1), an SCR (2) capable of controlling the relay, a trigger circuit (3) capable of driving the SCR, and A constant current detection circuit (4), which is a trigger signal source of the trigger circuit (3), includes a common contact (NG) of the relay (AC Relay) (1) connected to one main power supply end, A normally closed contact (N.C.) forms the output end of this power line, and a normally open contact (N.O.) connects to another via a warning lamp L (or other warning device). It is laid on the main power line.

The above-described constant current detection circuit (4) uses one specific current transformer (CT ₁ ) as a circuit current change detector.

Further, the present invention includes a reset switch (SW) (5), and the reset switch (SW) (5) can shut off the SCR (2).

In a normal use state, the circuit current is normal, the SCR (2) is not conducting, the relay (AC Relay) (1) holds a non-operation state, and the AC power supply is a normally closed contact ( NC), the electricity is used normally, and the warning lamp L does not light. When the load current exceeds the set current by an abnormal, this time, the ratio current transformer (CT ₁₎ of the secondary side output terminal Vo ₁ is represented by Equation 1 below.

(Equation 1)

When the output terminal of Vo ₁ passes through a voltage- _dividing resistor and its output voltage exceeds V _ZD , SCR (2) conducts through an OR gate of a diode, and a relay (AC Relay) ( 1) operates, the normally closed contact (NC) is turned off, the power is turned off, and the cutoff circuit current continuously increases.

FIG. 2 shows a leakage protection circuit according to the present invention. It consists of one relay (AC relay) (1), one SCR (2) capable of controlling the operation of the relay, one trigger circuit (3) of the SCR, and a trigger signal of the trigger circuit (3). Includes a microcurrent detection and amplification circuit (6) as a source. The common contact (NG) of the relay is connected to the end of the main power line, a normally closed contact (NC) forms the output end of this power line, and a normally open contact (NO). Are provided on another main power line via one warning lamp L (or other warning device).

The above-described microcurrent detection and amplification circuit (6) uses one current converter (CT ₂ ) as a detector for circuit current change. The CT ₂ is a high-sensitivity Hall element type current detector or current converter, suitable for measuring small currents, and the number of CT ₂ core windings (7) is slightly increased to increase the sensitivity. Has been raised.

In addition, the present invention includes a reset switch (SW) (5), and the reset switch (SW) (5) can shut off the SCR (2).

In a normal use state, the circuit current is normal, the SCR (2) is not conducting, the relay (AC Relay) (1) holds a non-operation state, and the AC power supply is a normally closed contact ( NC), the electricity is used normally, and the warning lamp L does not light. When a person receives an electric shock or a leakage occurs, as shown in FIG. 4, the wiring of the ordinary power equipment is grounded, and when the load of the main power supply has a leakage current to the ground, r ₀ (the leakage of the leakage) The resistance of the load resistance is several tens of ohms to several hundreds of ohms, and generates a very small current (110 V / r ₀ ). At this time, the two main power lines simultaneously penetrate the current converter (CT ₂ ), and after the current flowing in and the current flowing out are cancelled, only the surplus leakage current io ₂ remains. There was formed a halls voltage V _H by the Hall effect, after being further amplified by a high gain of OP amplifiers, which are further increased current in Gokuto transistor amplifier circuit and output transmitted to the OR gate of the diode, as well The SCR (2) is activated, the power is turned off, and the injury caused by electric shock or leakage is prevented.

As shown in FIGS. 1 and 2, when the SCR (2) is triggered by an excessive current and becomes conductive, the relay (AC Relay) (1) operates at the same time, and the normally closed contact (NC) is opened. When turned on, the warning lamp L is turned on to notify an abnormal current phenomenon and achieve the warning effect.

FIG. 1 shows a protection circuit diagram for overcurrent or short circuit, FIG. 2 shows a protection circuit diagram for electric leakage or electric shock, and FIG. 3 shows an OR gate of one diode. Is a circuit diagram in which the functions of two circuits are combined.

Finally, the user can restore the device to its original state in the following manner. 1. Depress the reset switch (SW) (5) to turn off the SCR (2) and restore the relay (AC Relay) (1) to the original state. 2. Unplug the mains, disconnect the main power supply, turn off the SCR (2), and restore the AC Relay (1) to its original state.

[0028]

[Effect of the invention]

 The present invention has overcurrent, short-circuit, short-circuit, short-circuit, and electric-shock protection functions.It is used for outlets or extension outlets, has better sensitivity than conventional ones, has less error, and has an elastic rating. It is a device that can be adjusted, protects the load of a single circuit, does not affect the power supply to other circuits, and has high inventive step, novelty, and industrial value.

[Brief description of the drawings]

FIG. 1 is an overcurrent protection circuit diagram of the present invention.

FIG. 2 is a circuit diagram of a protection circuit for earth leakage according to the present invention.

FIG. 3 is a circuit diagram combining FIGS. 1 and 2 of the present invention.

FIG. 4 is a diagram illustrating the principle of detecting an electric leakage according to the present invention.

[Explanation of symbols]

1 Relay (AC Relay) 2 SCR 3 Trigger circuit 4 Constant current detection circuit 5 Reset switch L Warning lamp 6 Low current detection amplification circuit G. FIG. Joint contact of relay C. Normally closed contact of relay O. Normally open contact of relay CT ₂ Current converter (or Hall element type current detector) CT ₁ Specific current detector

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[Procedure amendment]

[Submission date] June 8, 1999

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 5

[Correction method] Change

[Correction contents]

Claims (8)

[Utility model registration claims] An overcurrent protection device used for an outlet or an extension line outlet, comprising a relay (AC)
Relay) (1), SCR that can control relay
(2) A trigger circuit (3) capable of driving an SCR, and a constant current detection circuit (4) which is a trigger signal source of the trigger circuit (3), and the relay (AC Relay) (1)
Are connected to one main power supply terminal, a normally closed contact (NC) forms an output terminal of this power supply line, and a normally open contact (NO) is connected to a main power supply terminal. An overcurrent protection device laid across another main power supply line via one alarm device and configured as described above. 2. The overcurrent protection device according to claim 1, wherein the warning device is a warning lamp (L). 3. The overcurrent detection circuit according to claim 1, wherein the constant current detection circuit (4) uses one specific current detector (CT ₁ ) as a detector for detecting a change in the current of the circuit. Protective equipment. 4. A reset switch (SW) (5) is connected to the base of the SCR (2).
The overcurrent protection device according to claim 1. 5. A relay (A) serving as an earth leakage protection device used for an outlet or an extension line outlet.
C Relay) (1), one SCR (2) capable of controlling the operation of one relay, one trigger circuit (3) of the SCR, and microcurrent detection amplification used as a trigger signal source of the trigger circuit (3) The circuit (6) is included. The common contact (NG) of the relay is connected to the end of the main power line, a normally closed contact (NC) forms the output end of this power line, and a normally open contact (NO). Is provided so as to extend over another main power line via one alarm device. 6. The leakage protection device according to claim 5, wherein the warning device is a warning lamp (L). 7. The microcurrent detection amplifier circuit (6) according to claim 5, wherein the Hall-type current detector or the current converter is used as a detector for detecting a change in microcurrent. Earth leakage protection device. 8. A reset switch (SW) (5) is connected to the base of the SCR (2).
The leakage protection device according to claim 5.