KR20150089384A - Multi-concent with power control status check function by color change - Google Patents

Abstract

The present invention relates to a multi-power strip with a power control state check function based on color change. The multi-power strip with a current blocking switch formed on each a connection socket according to the present invention includes a thermochromic pigment plating type conductor (HI) corresponding to a conductor (I) to check the flow of a current in the application of each current blocking switch (TSW 0 to TSW n) according to the color change of the thermochromic pigment to change a color by the change of a temperature according to a current amount in each current blocking switch (TSW 0 to TSW n). The multi-power strip with the power control state check function based on the color change according to the present invention checks a heating degree due to an overload by the color.

Description

Multi-concentrator with power control status check function based on color change [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a multi-outlet having a color change-based power control state checking function, and more particularly, The present invention relates to a multi-outlet having a color change-based power control state checking function for displaying a state of a multi-outlet using a sion-type pigment having no power consumption.

Multi-outlet is used for various purposes in various places. A multi-outlet has a number of connection sockets (receptacles) and there is a risk of overload due to the large number of electronics connected to each connection socket.

On the other hand, there is a disadvantage in that a multi-outlet is consumed unnecessarily because current is applied to an electronic device which is not in use. However, in order to solve this problem, a plurality of disconnecting switches are separately provided to prevent connection of the socket.

In addition, at least one switch formed to control the total power of each connection socket or the multi-outlet may emit light using a light bulb or a light emitting element such as an LED to indicate a current flow at the time of ON Is being applied. However, when a switch is configured for each connection socket, the brightness of light emitted from many switches becomes a problem.

In the case of daytime, there is no objection to brightness, but at night or at bedtime, the ambient brightness becomes bright due to the brightness of the light. This causes interference with sleeping and unnecessary consumption of current due to current application of the light emitting device .

[Related Technical Literature]

1. POWER SAVING MUTI OUTLET IN WHICH SWITCH PARTS IS SEPARATELY INSTALLED FROM THE OUTPUT BODY (Patent Application No. 10-2012-0115669)

2. MULTICONCENT WITHIN INTERLOCKING SWITCH with built-in interlock switch (Utility Model No. 20-2006-0021708)

3. Multi-socket type switch system (MULTI-SOCKET TYPE SWITCH SYSTEM) (Patent Application No. 10-2003-0093495)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a color change-based power control state for indicating whether a current is applied without using a light emitting element in each switch for controlling power of a connection socket of a multi- And to provide a multi-outlet having a checking function.

In addition, the present invention provides a multi-outlet having a color change-based power control state checking function for solving the problem of unnecessary current consumption when a current is applied using a conventional light emitting device or the like.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a multi-socket receptacle having a color change-based power control status check function according to an embodiment of the present invention includes a current cutoff switch (not shown) formed in connection sockets C0 to Cn TSW 0 to TSW n) is formed in each of the current cut-off switches TSW 0 to TSW n in accordance with the color change of the sion pigment H whose color changes due to the temperature change in accordance with the amount of current, (HI) corresponding to the conductor (I) capable of confirming the flow of current upon application of the TSW 0 to TSW n; And the zeolite pigment (H) of each zeolite pigment type conductor (HI) is characterized in that the color upon overloading changes according to the color according to the predetermined temperature set to be overloaded.

Also, the zeolite pigment (H) is formed of a reversible zeolite pigment which forms one layer on the surface of the conductor (I) and is visualized in a color changed by grade depending on the color change temperature range of 14 ° C to 400 ° C .

The chitosan pigmented type conductor HI inside each of the power supply cut-off switches TSW 1 to TSW n is connected to the conductor I through one connecting wire C 0 to C n and one wire L 1 And is formed to have a structure in which one end of the switch element is connected to the conductor I through another conductor L1.

Each of the power-off switches TSW 0 to TSW n is turned on when the temperature of the rear surface of the transparent material is higher than a preset temperature of the surface of the conductor HI painted with the chione pigment H, (C0 to Cn) in accordance with a change in the color set to < RTI ID = 0.0 > a < / RTI >

A multi-outlet having a color change-based power control status check function according to an embodiment of the present invention is a multi-outlet having a function of checking the state of a light emitting element of a switch for each socket of a conventional multi- By providing a conductor painted on the surface, it is possible to confirm the current application or flow state while avoiding light emission or light emission.

In addition, the multi-outlet having the power control status check function based on the color change according to another embodiment of the present invention provides an effect that the color is distinguished according to the temperature or the amount of current flowing so that it can be confirmed more intuitively.

In addition, according to another embodiment of the present invention, a multi-socket outlet having a color change-based power supply control status checking function is provided with a function of changing the color depending on the temperature or the amount of current flowing, The temperature of the connection socket provided with the switch for controlling the current interruption can be indirectly checked as well as the effect of checking the degree of heat generation due to the overload can be confirmed by color.

1 is a view showing a multi-receptacle 10 having a function of checking a power control state based on a color change according to an embodiment of the present invention.
FIG. 2 is a diagram showing an internal circuit diagram of the multi-outlet 10 having the color change-based power control state checking function of FIG.
FIG. 3 is a schematic diagram of a light-emitting diode (LED) type light-emitting diode according to a first embodiment of the present invention, which is replaced with a conventional light-emitting element formed inside the power-off switches TSW 1 to TSW n in the multi-outlet 10 having the power- Type conductor HI. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view showing a multi-receptacle 10 having a function of checking a power control state based on a color change according to an embodiment of the present invention.

FIG. 2 is a diagram showing an internal circuit diagram of the multi-outlet 10 having the color change-based power control state checking function of FIG.

FIG. 3 is a schematic diagram of a light-emitting diode (LED) type light-emitting diode according to a first embodiment of the present invention, which is replaced with a conventional light-emitting element formed inside the power-off switches TSW 1 to TSW n in the multi-outlet 10 having the power- Type conductor HI. Fig.

1 to 3, a multi-socket receptacle 10 having a color change-based power control status check function includes connection sockets C0 to Cn (n is a natural number of 2 or more). And power-off switches (TSW 1 to TSW n) are formed in the connection sockets (C0 to Cn), thereby displaying power supply control and power supply control states.

Here, each of the power cut-off switches (TSW 1 to TSW n) places the chitosan-colored type conductor (HI) inside the transparent material box to indicate the power control state. Here, the zinc oxide pigmented type conductor (HI) corresponds to a device that replaces a conventional light emitting device of a conventional switch socket.

That is, the chitosan pigmented type conductor (HI) is formed by painting a zeotropic pigment (H) which reacts with temperature on the upper surface of the conductor (I) such as iron (IRON) as shown in FIG.

Here, the zonition pigment H is a material having a characteristic of changing color according to the temperature or the amount of current flowing through the conductor I, and it is painted on the surface of the conductor I to represent an application state of the current instead of the light- is used as an indicator material.

The zeotropic pigment (H) forming one layer on the surface of the conductor (I) of the present invention is formed of a reversible zeolite pigment which is selectively visualized in a hue changed according to the color change temperature range of 14 ° C to 400 ° C, Spraying, spraying or quenching a mixed liquid containing a titan pigment in an appropriate ratio of about 1 to 5% together with another additive or a pigment which emits a general hue, or a method in which the mixed liquid is applied to a sticker Or a method of applying such preblended paint as a raw material to the mixed liquid.

Although the number of connection sockets C0 to Cn is shown in Fig. 1, the number of connection sockets C0 to Cn is merely used, and the number of connection sockets C0 to Cn can be expanded and reduced.

On the other hand, each of the power supply cut-off switches TSW 1 to TSW n formed adjacent to the connection sockets C0 to Cn is a toggle switch type and is turned on / off It works.

Referring to FIG. 2, the zinc-oxide-pigmented type conductor HI inside each of the power-off switches TSW 1 to TSW n is connected to each of the connection sockets C0 to Cn and one conductor L1 through a conductor I And is formed to have a structure in which one end of the switch element is connected to the conductor I through another conductor L1.

On the other hand, the multi-outlet 10 having the power control status check function based on the color change receives the alternating current (AC) and performs the function of providing the alternating current (DC).

By using the zonition pigment H as a substitute for the conventional light emitting element of the power supply cut-off switches TSW 0 to TSW n for the connection sockets C0 to Cn through such a configuration, ) Can be painted on the surface of the light emitting element to replace the light emitting element.

The power-off switch (TSW 0 to TSW n) is turned on when the temperature of the conductor (HI) painted on the rear surface of a transparent material such as plastic is higher than a preset temperature by the hue pigment (H) It is possible to identify that the power is being applied to the corresponding connection socket C0 to Cn according to the change to the color set to < RTI ID = 0.0 >

On the other hand, the conductor I formed on the conductor HI painted with the zeotropo pigment is formed between the switching elements of the current cut-off switches TSW 0 to TSW 5 and the connecting sockets C0 to Cn, When a current is applied to the electronic product inserted in the connection socket C0 to Cn through the power cut-off switches TSW 0 to TSW n, current passes through the conductor HI painted with the chitosan pigment, And the color is changed and identified according to the change.

That is, when a current flows through the conductor I, heat is generated due to the electric resistance value, and the color of the zeolite pigment H changes, and the color of the conductor HI painted on the zeolite pigment appears to change.

In addition, since the color of zeon pigment (H) varies according to the grade of the temperature, the color of the zeolite pigment (H) under overload will be changed according to the predetermined temperature set as the overload, It provides easy-to-see effects through color.

On the other hand, the Zero (warmth) pigment (H) in the present invention has various set grades at which the color changes, and has various color grades. At this time, the hue of the zeotropic pigment H appears at a preset temperature (for example, 35 DEG C), and the hue appears at a preset temperature or below, or the hue appears at a preset temperature or lower, .

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Multi-outlet with color change based power control status check function
C0 to Cn: connection socket
TSW 1 to TSW n: Power-off switch
HI: Zion pigment painted type conductor
H: Zion pigment
I: Conductor

Claims (4)

In a multi-receptacle in which current interrupting switches (TSW 0 to TSW n) respectively formed in connection sockets (C0 to Cn: n are two or more natural numbers)
In each current cut-off switch (TSW 0 to TSW n), current flows when each of the current cut-off switches (TSW 0 to TSW n) is applied according to the color change of the sion pigment (H) A yellow paint-colored type conductor (HI) corresponding to conductor (I) which can be confirmed; / RTI >
And the color of the sion pigment (H) of each of the sion pigment-type conductors (HI) changes according to a predetermined temperature which is set to an overload state at the time of overloading. .
The cyan pigment (H) according to claim 1,
Wherein one layer is formed on the surface of the conductor (I), and is selectively formed of a reversible zeolite pigment which is visualized in a gradated color according to a color change temperature range of 14 to 400 ° C. Multi-outlet with power control status check function.
The solid state color type conductor (HI) of claim 1, wherein each of the power shutoff switches (TSW 1 to TSW n)
And is connected to the conductor I through each of the connection sockets C0 to Cn and one conductor L1 and is connected to one end of the switch element through the other conductor L1, And a power supply control unit for controlling power supply to the power supply unit.
The power supply system according to claim 1, wherein each of the power cut-off switches (TSW 0 to TSW n)
When the temperature of the rear surface of the transparent material in the ON state is equal to or higher than a preset temperature by the zeotropic pigment H on the surface of the conductor HI painted with the zeotropic pigment, Cn) of the power supply control unit (10).

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