KR20190083404A - Spark protection device for socket-outlet and socket-outlet having the same - Google Patents

Abstract

The present invention relates to a spark protection device for an outlet and an outlet having the same. The spark protection device for an outlet connecting applied power to electrode terminals of the outlet and inserting plug pins into the electrode terminals to supply the power detects that a plug body is seated on a terminal plate, which is the bottom surfaces of plug insertion grooves of the outlet, and connects the applied power to the electrode terminals only when the plug body is seated on the terminal plate. Thus, sparks can be prevented by avoiding a touch of the tips of the plug pins with the power applied in advance since the power is connected while the plug pins are inserted into the electrode terminals when a plug is inserted into the outlet and since the plug pins are separated from the electrode terminals while the power is cut off.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spark protection device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for preventing sparks in an outlet, and more particularly, to an apparatus for preventing sparks from contacting sparks when a plug is inserted into or withdrawn from an outlet.

Generally, in order to use an electric device in a customer, an electric outlet is connected to the power line, and a plug of the electric device is connected to the outlet to supply electric power to the electric device.

1 (A) to 1 (C) are schematic diagrams for explaining spark generation in a general outlet.

As shown in Fig. 1 (A), the receptacle electrode terminal 3 is provided in the receptacle, the receptacle insertion terminal plate 2 is provided on the receptacle electrode terminal 3, A pinhole 2a into which a pin 1a of the plug 1 is inserted is formed and a ground terminal 4 is provided inside the plug holder portion of the socket. Here, as a receptacle safety shutter, a slide-type shutter member or a rotary shutter member (not shown in the figure) is provided at an upper portion of the socket-inserting hole terminal plate 2 so that the pinhole 2a of the socket- And the plug pin 1a is inserted into the electrode terminal 3 through the pinhole 2a while the shutter is opened when the two plug pins 1a are simultaneously fitted.

The pin 1a of the plug 1 is inserted through the pin hole 2a of the receptacle insertion hole terminal plate 2 in order to engage the plug 1 of the electric device with such an outlet. The end of the pin 1a of the plug 1 which has passed through the pinhole 2a of the receptacle insertion hole terminal plate 2 and the end of the electrode terminal 3 of the receptacle are in contact with each other , &Quot; tip contact "). Thereafter, as shown in FIG. 1 (C), the pin 1a of the plug 1 is inserted into the electrode terminal 3 of the receptacle to connect the power source.

1 (B), in the process of inserting the plug 1 into the receptacle and in the process of pulling the plug 1 out of the receptacle, between the pin 1a of the plug 1 and the electrode terminal 3 of the receptacle A tip contact 5 is made. That is, in the tip contact 5 in which the pins 1a of the plug 1 are in contact with the electrode terminals 3 of the receptacle, the sectional area in contact with each other is very small. If the contact cross-sectional area is small, the abrupt increase of the current and the resistance become large and the voltage becomes large accordingly. Therefore, an arc (spark) occurs due to a large power instantly consumed by a large voltage and current.

That is, when the plug is inserted and the plug is unplugged, a spark may be generated at the tip contact portion when the plug pin and the electrode terminal of the receptacle start to come into contact with each other or when the contact ends. This tip contact causes sparks to cause fire.

On the other hand, even in a poor contact state in which the electrode terminal of the plug and the electrode terminal of the receptacle are not in contact with each other, the contact area may be narrowed and a spark may be generated. In consideration of such a problem of contact failure, And means for suppressing generation of an arc in the circuit is employed.

However, this does not prevent sparks at the receptacle end, but it prevents the spark from being generated when the plug is inserted into a general outlet or a multi-tap, since the power supply circuit of the equipment connected to the power source through the outlet has the spark- It was difficult to do.

Further, an outlet having means for sensing and displaying a contact state to prevent sparks due to contact failure has been proposed. 20-2009-0011752 requires that the terminal is lowered to the bottom by operating the switch so that the connection is made to the connection with the LED.

However, even if the contact failure state is detected and displayed, the occurrence of the spark can be prevented only when the plug is completely removed or inserted correctly by solving the contact failure state. Therefore, it is impossible to prevent the spark by detecting the contact failure only.

In addition, even if it is in a bad contact state, it is possible to prevent sparks generated at the initial tip contact when the plug is inserted. However, since the user can not know the spark beforehand, the spark due to the tip contact can not be prevented .

Registered utility model bulletin 0113208 Korean Utility Model Publication No. 20-2009-0011752

An object of the present invention is to prevent sparks caused by tip contact when inserting or removing an electrode terminal of a plug to an electrode terminal of a receptacle.

The present invention is to provide a multi-outlet having a single output port provided with the above-described spark-preventing device, a multi-outlet of a plurality of output ports, a receptacle provided with a single output port lift plate, and a plurality of output ports.

In order to achieve the object of the present invention,

A sensor for detecting that the plug body is seated on the plug insertion slot plate of the receptacle;

And an output power switch for connecting an input power source drawn into the socket to an electrode terminal through which the pin of the plug is inserted by a sensing signal of the sensor.

The spark-

A power supply unit for branching the power supply AC_N and AC_L led into the socket and converting the voltage into an operation power supply voltage of the spark prevention circuit to supply the operation power of the sensor;

An output power switch for connecting / disconnecting incoming power (AC_N, AC_L) connected to a pair of electrode terminals of the socket;

And an output switch for controlling the output power switch to be connected to the electrode terminal only when the plug body is seated on the socket-inserting hole terminal board, based on a sensing signal of the sensor, And a control unit.

Although the output power switches may be provided on the two incoming power lines AC_N and AC_L connected to the two electrode terminals as described above, the output power switches may be provided on only one line.

The output power switch is preferably composed of a semiconductor power supply instead of a mechanical contact switch such as a relay. For example, a triac for a power supply or an FET for a power supply can be provided as a power switch element.

Further, the sensor may be constituted by a contact type switch which is pressed or contacted by the plug body, but an optical sensor can be preferably used.

Further, in the present invention,

A main input power switch for switching the input of the incoming power (AC_N, AC_L) of the socket;

And a main switch control unit for operating the main input power switch by operating power of the power supply unit.

This is to prevent the spark by delaying the main input power switch by the operation timing of the main input power switch when the main power switch is connected to the spark prevention circuit formed for each of the socket electrode terminals.

Of course, the main input power switch can also be provided in each of the two incoming power lines (AC_N and AC_L), but it can be installed in only one incoming power line.

When there are a plurality of output ports like a multi-tap,

An output power switch for switching an incoming power source connected to the electrode terminal, a sensor provided in the plug insertion groove in each output port, and an output switch control section for controlling the output power switch by a sensor signal .

That is, the power supply unit, the main input power switch, and the main switch control unit are constituted only by one, and each output section is provided with the sensor and the respective spark prevention circuit.

On the other hand, an apparatus for preventing sparks in an outlet according to the present invention is provided with a photosensor at a predetermined interval above a predetermined interval of a terminal plate of a plug insertion slot to detect the seating of the plug body. However, the present invention is not limited to this, and it is possible to construct a spark preventing circuit by installing a sensor to detect that the lifting plate is seated on the plug insertion groove terminal plate in a socket provided with a lifting plate lifted and lowered above the plug insertion groove terminal plate have.

When the plug pin is inserted through the pin hole of the lifting plate and inserted into the plug insertion groove, the plug pin is inserted into the lower portion together with the lifting plate while the lifting plate is in contact with the plug body, So that the output power switch is controlled by detecting that the lifting plate is seated on the terminal plate.

The present invention prevents a spark that may be caused by tip contact because the input power is connected to the corresponding electrode terminal through the output power switch in a state where the plug pin is partially inserted into and connected to the receptacle electrode terminal when the plug is coupled to the receptacle There is an effect that can be done.

The present invention is equally applicable not only to a general outlet having a terminal plate in a plug insertion hole but also to a receptacle provided with a lifting plate lifted and lowered from above a terminal plate in an outlet insertion hole, It can be connected to prevent sparks.

The present invention also provides an effect of suppressing the occurrence of sparks due to a delay time until the conduction of the main input power switch by further providing a main input power switch to allow the power input to the socket through the main input power switch have.

Similarly, when the plug is pulled out, even when the plug body or the lifting plate is separated from the terminal plate, the plug pin is completely disengaged from the electrode terminal in a state where the output power switch is turned off in a state where the plug pin is partially inserted into the electrode terminal, Therefore, it is possible to prevent sparks.

Figs. 1 (a) to 1 (c) are schematic diagrams for explaining spark generation in a general outlet; Fig.
2 is a schematic view of an apparatus for preventing sparks in a socket according to the present invention;
3 is a schematic view of a spark preventing device for a multi-outlet according to the present invention.
4 is a circuit diagram of a spark prevention circuit for a multi-outlet according to the present invention.
5 (A) to 5 (C) are explanatory diagrams of a spark prevention operation of a general outlet according to the present invention.
6 is an exploded perspective view of a multi-receptacle provided with a lifting plate for explaining a sensor installation structure of the present invention.
FIG. 7 is an exploded perspective view of a multi-outlet having a lifting plate for explaining a sensor operation state according to the present invention; FIG.
8 (a) to 8 (c) are explanatory views of a spark preventing operation according to the present invention of an outlet provided with a falling steel plate.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic view of an apparatus for preventing sparks in a socket according to the present invention. As shown in the drawings, in the spark preventing device for a socket according to the present invention,

It is sensed that the plug body 10 is seated on the plug insertion slot plate 20 of the receptacle and connected to the input power source AC_N which is drawn into the receptacle by the electrode terminal 31 into which the pin 11 of the plug is fitted .

To this end, the present invention comprises a sensor 130 for detecting that the plug body 10 is seated on the plug insertion slot plate 20 of the socket,

And an output power switch (110) for connecting an input power source (AC_N) led into a socket to a socket (31) through which the pin (11) of the plug is inserted by a sensing signal of the sensor (130) (100).

The spark preventing circuit (100)

A power supply unit 140 for branching the power source AC_N and AC_L led into the socket and converting the power source voltage into DC 5V of the spark prevention circuit to supply the operating power of the sensor 130,

An output power switch 110 for connecting / disconnecting an incoming power source AC_N connected to the electrode terminal 31 of the receptacle,

And the output power switch 110 is controlled on the basis of a sensing signal of the sensor 130. When the plug body 10 is placed on the outlet insertion hole terminal plate 20 And an output switch control unit 120 for controlling the input power source AC_N to be connected to the electrode terminal 31 only in a state where the power source AC_N is connected.

2, the output power switch 110 is provided on any one of the two power lines AC_N and AC_L connected to the two electrode terminals 31 and 32. However, But may be configured to switch the power connection of all the two electrode terminals by providing output power switches on the incoming power lines AC_N and AC_L connected to the two electrode terminals 31 and 32, respectively.

Fig. 3 is a schematic view of a spark prevention device of a multi-outlet according to another embodiment of the present invention. As shown therein,

A main input power switch 310 for switching the input of the power source AC_N and AC_L of the socket outlet to the spark prevention device as shown in FIG. And a main switch control unit 320 for operating the main switch control unit 320.

The main input power switch 310 is connected to the spark prevention circuit 100, which is configured for each of the receptacle electrode terminals, thereby delaying the main power switch 310 by an operation timing when the main power switch 310 is turned on .

Of course, the main input power switch 310 may be provided in each of the two incoming power lines AC_N and AC_L, but may be provided in only one of the incoming power line AC_N.

When there are a plurality of output ports such as a multi-tap,

An output power switch 110 for switching an input power connected to the electrode terminal 31, a sensor 130 installed in a plug insertion groove in each output port, an output switch for controlling the output power switch by a sensor signal, And an output port spark preventing circuit 100 'composed of a control unit 120 are provided in parallel for each output port.

That is, the main power switch 310 and the main switch control unit 320 are constituted by only one power supply unit 140, the output power switch 110 and the output switch control unit 120, An output port spark prevention circuit 100 'is provided. Here, the output port is a configuration in which an outlet is provided with a plug insertion port through which a plug can be inserted, as an output port.

4 is a circuit diagram of an outlet spark prevention circuit according to an embodiment of the present invention.

The power supply unit 140 performs full wave rectification of the power branched from the incoming power sources AC_N and AC_L led into a socket through the bridge diode BD1 and smoothens it by using a smoothing console to generate a DC 5V power source, And supplies it to the sensor 130 (103-1, 130-2, 130-3) and the switch control unit 310 (120-1, 120-2, 120-3).

The main input power switch 320 and the output power switch 110 (110-1, 110-2, 110-3) may be constituted by a mechanical contact switch such as a relay. However, There may be a risk of occurrence. Accordingly, it is preferable to constitute a semiconductor power supply. For example, a triac TR1 (TR2 - TR4) for a power supply or an FET for a power supply can be provided as a power switch element.

The sensor 130 (130-1, 130-2, 130-3) may be constituted by a contact type switch which is pressed by the plug body 10 or is operated by contact or proximity, Uses an optical sensor. That is, a light emitting element (LED) is provided on one side and a light receiving element (photodiode, phototransistor, etc.) is provided on the other side to input a detection signal of the light receiving element to the output switch control unit 120.

The main switch control unit 310,

And is operated when the operation power source DC 5V of the power supply unit 140 is applied. The integrated operation power is integrated to compare a stabilized voltage with a set reference voltage to generate a switch signal through the semiconductor switch element U1, The photocoupler PC1 is operated by the signal to switch the triac TR1 which is the main input power switch 320. [ This is because the main input power switch 320 switches the use power source (for example, 220 V) of the socket and the main switch control unit 320 operates the DC 5 V. Therefore, And the power switch 310 is driven.

Also, the output power switches 110-1, 110-2, and 110-3 of the respective output ports are exemplified by using triacs TR2-TR4 as semiconductor power devices. Each of the output switch control units 120-1, 120-2, and 120-3 is operated by sensors 130-1, 130-2, and 130-3 provided in respective output ports, and when the sensor signal is off The semiconductor switches U3, U5 and U7 for generating the switching signals respectively for comparing the sensor signal value and the set value while the light receiving elements Q4 to Q6 are turned off and each switching signal is supplied to the photocouplers PC2, PC3 and PC4, And controls the triacs TR2 - TR4, which are the output power switches 110-1, 110-2, and 110-3, respectively. It is also configured to transmit a switch signal using an optocoupler for isolation between a high voltage conducting triac and a switch control operated by a low voltage. Here, the circuit for generating the switch signal by comparing the sensor value with the set value can be implemented in a general configuration, and therefore, detailed description thereof will not be given.

According to the present invention, there is provided an outlet-

DC 5 V is generated from the input power supplies AC-N and AC-L by the power supply unit 140 to supply the operation power to the sensor 130 and the output switch control unit 120. The sensor 130 is installed to detect whether the plug body 10 is seated on the electrode plate 20 which is the bottom surface in the plug insertion groove of the receptacle.

Here, the terminal plate 20 has pinholes 21 formed on the upper and lower plates, and a pair of plug pins 11 are inserted into the upper and lower plates with a sliding or rotary shutter member 23 interposed therebetween, The shutter member 23 is slid or rotated so that the shutter is opened and the pinhole 21 of the lower plate is opened so that the plug pin 11 can be inserted into the lower electrode terminals 31 and 32.

5 (A) to 5 (C) are explanatory diagrams of a spark prevention operation of a general outlet according to the present invention. 5 (a), the plug pin 11 is inserted into the pin hole 21 formed in the terminal plate 20, and the shutter 23 is slid inside the terminal plate 20, The plug pin 11 is partially inserted into the electrode terminals 31 and 32 and is in a connected state.

At this time, since the space between the sensors 130 is opened and the optical signal is transmitted, the output switch controller 120 controls the output power switch 110 to be in the off state.

5 (c), the plug body 10 is seated on the upper surface of the terminal plate 20 when the plug is fully inserted into the receptacle. Accordingly, since the optical signal generated in the light emitting element of the sensor 130 is blocked by the plug body 10, the light receiving element on the other side can not receive the optical signal. When the light receiving element does not receive the optical signal and is turned off, the output switch control unit 120 turns on the output power switch 110 to connect the power supply to the electrode terminal 31.

5 (B), the plug pin 11 is electrically connected to the electrode terminal 31 as shown in FIG. 5 (C) in a state where a part of the plug pin 11 is inserted and connected to the electrode terminal 31, The output power switch 110 is turned on and the power is supplied to the electrode terminal 31, thereby preventing the occurrence of sparks. 5 (B), the sensor is turned on and the output power switch 110 is turned off. Therefore, when the plug pin 11 is pulled out, The power is cut off at the time when a part is inserted into the electrode terminal 31 (the contact area is wide), so that the spark is prevented.

Here, in the case of using the optical sensor as in the circuit diagram of Fig. 4, there is a disadvantage in that the optical signal is generated and received in a state in which the plug is missing, or in this case, the optical sensor is continuously operated even when the outlet is not used.

In order to solve this problem, when a magnet proximity sensor is used in which power is supplied to the sensor at the time of inserting the plug into the plug insertion hole of the receptacle or when the plug body is brought into contact with the terminal plate, The power consumption can be reduced in a non-inserted standby state. In this case, since the power source used for the sensor uses DC 5V, there is no possibility of sparking due to the on / off operation of the sensor self-controller.

Meanwhile, an apparatus for preventing sparks in an outlet according to the present invention has been described with reference to an embodiment in which an optical sensor is provided on a predetermined interval of a terminal space of a plug insertion slot of a general socket to detect the seating of the plug body. However, the present invention is not limited to this, and it is possible to construct a spark preventing circuit by installing a sensor to detect that the lifting plate is seated on the plug insertion groove terminal plate in a socket provided with a lifting plate lifted and lowered above the plug insertion groove terminal plate have.

FIG. 6 is an exploded perspective view of a multi-outlet having a lifting plate for explaining a sensor installation structure of the present invention, and FIG. 7 is an exploded perspective view of a multi-outlet having a lifting plate for explaining a sensor operation state according to the present invention.

When the plug pin is inserted through the pin hole of the lifting plate and inserted into the plug insertion groove, the plug pin is inserted into the lower portion together with the lifting plate while the lifting plate is in contact with the plug body, The output power switch is controlled by sensing that the lifting plate is seated on the terminal plate.

A receptacle having a structure in which a lift-up steel plate (50) is lifted and lowered from the top of a terminal plate (20) which is a bottom surface of a plug insertion groove of a receptacle and a plug is pulled out by pushing down the lift plate (50) A sensor 130 is installed to sense that the steel plate 50 is seated and a switch signal is generated by the signal of the sensor 130 as shown in the circuit diagram of FIG. The input power is connected to the electrode terminal 31 in which the plug pin 11 is inserted only when the lifting plate 50 is seated on the terminal plate 20. Reference numeral 100a denotes a circuit board, and 100b denotes a radiator plate connected to the circuit board.

As described above, another embodiment of the present invention is characterized in that a sensor is provided to detect that the lifting plate 50 is seated on the terminal plate 20 in the multi-outlet provided with the lifting plate 50. [

8A to 8C are explanatory diagrams of a spark prevention operation according to the present invention of an outlet provided with a falling steel plate.

8 (A), when the plug is inserted into the pin hole 51 of the lift plate 50, the shutter member 52 inside the lift plate 50 is operated to move the upper and lower pin holes 51 The plug pin 11 is inserted through the plug body 10 and the plug body 10 is lowered as shown in FIG. 8 (B) while pushing the lifting plate 50. At this time, since the optical signal of the sensor 130 is not interfered, the power switch control unit 120 keeps the output power switch 110 in the off state since the light receiving element receives the optical signal. That is, the electrode terminal 31 is in a state in which power is not connected and is disconnected.

8 (c), the lifting plate 50 is seated on the upper surface of the terminal plate 20, and when the plug is inserted into the plug insertion groove, Since the optical signal is blocked by the lift plate 50, the light receiving element is turned off. Accordingly, the output switch controller 120 generates a switching signal for turning on the output power switch 110, and turns on the output power switch 110 through the photocoupler.

Therefore, when the lifting plate 50 is lowered by the insertion of the plug pin 11 and the signal of the sensor 130 is changed while the plug pin 11 is inserted into the electrode terminal 31, the output power switch 110 The spark due to the tip contact when inserting the plug pin can be prevented. The plug pin 11 is separated from the electrode terminal 31 after the power is turned off while the output power switch 110 is turned off while the plug pin 11 is inserted into the electrode terminal 31 Therefore, sparks that may be generated when the plug pin 11 is pulled out can be prevented.

As described above, the spark prevention device of the present invention can be applied to any outlet regardless of the type and structure of the outlet. Although not shown in the drawings of the embodiment of the present invention, A power source is connected to the electrode terminal in a connected state where a part of the plug pin is inserted and a power source connected to the electrode terminal is disconnected in a connected state where a part of the plug pin is inserted into the electrode terminal, Various modifications and application installations belonging to the category of the technology fall within the scope of the present invention.

10: plug body 11: plug pin
20: Terminal board 21: Pinhole
23: shutter member 31, 32: electrode terminal of the receptacle
50: Raised steel plate 100: Spark prevention circuit
110: output power switch 120: output switch control section
130: sensor 140:
310: main input power switch 320: main switch control section

Claims (7)

A receptacle for connecting a power source led into an outlet to a receptacle electrode terminal and inserting a plug pin into the electrode terminal to supply power,
Wherein the socket is connected to the electrode terminal only when the plug body is seated on the terminal board by detecting that the plug body is seated on the terminal board which is the bottom surface of the plug insertion groove of the socket, .
A spark-proof device for an outlet,
A sensor for detecting that the plug body is seated on a terminal plate which is the bottom surface of the plug insertion groove of the socket;
A power supply unit for branching the power supply AC_N and AC_L led into the socket and converting the voltage into an operation power supply voltage of the spark prevention circuit to supply the operation power of the sensor;
An output power switch for connecting / disconnecting incoming power (AC_N, AC_L) connected to a pair of electrode terminals of the socket;
And an output switch for controlling the output power switch to be connected to the electrode terminal only when the plug body is seated on the socket-inserting hole terminal board, based on a sensing signal of the sensor, And a control unit for controlling the spark of the outlet.
The power switch according to claim 2,
(AC_N, AC_L) lines connected to a pair of electrode terminals of a socket-outlet, or connected to one of the electrode terminals and connected to an electrode terminal, / RTI > of the outlet.
The power switch according to claim 2,
A device for preventing sparks in an outlet characterized by using a triac for a power supply or an FET for a power supply as a power switch element.
The sensor according to claim 2,
Wherein the switch is a switch which is operated by being pushed, contacted or brought close to the plug body.
3. The sensor according to claim 2,
Wherein the light emitting element is a light sensor composed of a light emitting element and a light receiving element.
In the outlet,
An outlet provided with a spark preventing device constituted by any one of claims 1 to 6.

Images