KR200468846Y1 - The floor type system box where the power saving and overload cutoff are had - Google Patents

Abstract

The present invention prevents overconsumption by forming a power saving and overload cut-off device to automatically cut off the current when the current supplied to the outlet outside the floor type system box is generated and inform the outside. The present invention relates to a floor type system box equipped with a power saving and overload cut-off device for preventing a safety accident from occurring.
To this end, the present invention is a floor-type system box that is fixed to the floor 400 is installed on the floor of the indoor floor is installed outlet 100 for connecting the wire, the outlet bracket for the heat transfer to the floor-type system box 10 20 is formed, the outlet 100 formed into the floor-type system box 10 inside the front end of the heat transfer outlet bracket 20 is charged, the outlet (at the rear end of the heat transfer outlet bracket 20) Power saving and overload cut-off device 30 is formed to detect and control the load capacity of the power supplied to 100 to control the operation when an overload occurs.

Description

Floor type system box where the power saving and overload cutoff are had}

The present invention relates to a floor-type system box equipped with a power saving and overload blocking device, and more specifically, when an overload occurs in the current supplied to the outlet at the rear end of the electrical outlet bracket formed on the floor-type system box. Floor-type system box equipped with a power saving and overload blocking device to prevent excessive consumption by forming a power saving and overload blocking device to automatically shut off and inform the outside. It is about.

Generally, a floor of a certain height is laid on the floor of a concrete floor of a high-rise building or an officetel to create a beautiful appearance. The system box for the floor is fixed to the floor so that various wires can be neatly arranged without the wiring state being visible to the outside of the indoor floor, such as drawing and connecting various wires for connecting and installing the device, the telephone and the computer. Various electric wires that are wired indoors by plugging in various office equipment, telephones, computers, etc. with the power cords, telephone lines, communication lines, and other electric wires drawn into the building connected to various outlets installed in the floor system box. It is a well-known fact that has been used neatly.

Since the conventional floor type system box is equipped with an outlet for supplying power by simply connecting various power lines such as a power line and a telephone line inside, when an electronic device having high power capacity is connected to the outlet, the power capacity is overloaded. In this case, the conventional floor type system box is not equipped with a separate device for preventing overload, so that an overload occurs and a safety accident occurs, and the current continues to flow even if the power is overloaded. There is a problem that a fire occurs and the economic efficiency is lowered due to excessive consumption of power.

Therefore, the present invention has been devised to solve the above problems, the purpose of which is the first floor type system box is formed in the outlet bracket for the heat transfer and the power saving and overload blocking device is formed at the rear end of the outlet bracket for the heat transfer from the outside When the load capacity is supplied and the power is overloaded, the power saving and overload shut-off device automatically cuts off the power, preventing overconsumption and preventing fire.

Second, a USB port can be formed on the power saving and overload blocking device installed at the rear of the electric outlet bracket, and the signals generated from the power saving and overload blocking device on the USB port can be checked, and the remote control can be operated to operate the power saving and overload blocking device. By connecting the receiver, the user can directly control the operation status as well as the operation status of the power saving and overload blocking device, and the floor type system box equipped with the power saving and overload blocking device to maximize the efficiency and convenience of the product. In providing.

The present invention for achieving the above object is a floor-type system box which is fixed to the floor installed on the floor of the indoor floor is installed, the outlet for connecting the wire, fixed to the floor-type system box from the inside and exposed to the outside A heat transfer outlet bracket is formed, and an outlet formed inside a floor system box is inserted at the front end of the heat transfer outlet bracket, and a load capacity of the power supplied to the outlet is formed at the rear end of the heat transfer outlet bracket. It is characterized in that the power saving and overload cut-off device is formed to control the operation when overload occurs by controlling.

In addition, the outlet bracket for the heat transfer is formed on the one side the outlet is inserted into the outlet, the fixing piece is formed to be fixed to the floor-type system box the heat transfer outlet bracket to the fastening member on the top of the charging opening, It is to provide a floor-type system box equipped with a power saving and overload blocking device, characterized in that the exposure opening is formed to the outside of the floor-type system box is coupled to the charging inlet is coupled to the power saving and overload blocking device.

Thus, the present invention is installed on the floor of the indoor floor, the outlet for connecting various electric wires is built in the floor-type system box is fixed to the floor is formed a heat transfer outlet bracket is supplied to the outlet at the rear end of the heat transfer outlet bracket The power saving and overload cut-off device is formed in the floor system box so that the current can be automatically controlled when the current is overloaded, thereby controlling the capacity of the power supplied to the outlet built in the floor system box. Power supply can be cut off automatically when it is minimized, minimizing waste of power, reducing overconsumption, maximizing economic efficiency, and preventing overload, thus preventing safety accidents in advance.

1 is an exploded perspective view in which a power saving and overload blocking device is installed in a floor-type system box according to the present invention;
Figure 2 is a perspective view of a floor-type system box is installed power saving and overload blocking device according to the present invention.
Figure 3 is a perspective view showing a power saving and overload blocking device installed in the floor system box according to the present invention.
Figure 4 is an internal installation showing a floor-type system box is installed power saving and overload blocking device according to the present invention.
5 is an exemplary view showing another example in which a power saving and overload blocking device is installed in a floor type system box according to the present invention.
6 is an exemplary view of a power saving and overload blocking device installed in a multi-floor system box as another example.
Figure 7 is a planar view of the power-saving and overload blocking device according to the present invention is installed in a multi-floor system box as another example.

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

1 is an exploded perspective view showing a power saving and overload blocking device is installed in a floor type system box according to the present invention, Figure 2 is a perspective view of a floor type system box with a power saving and overload blocking device according to the present invention, Figure 3 Is a perspective view showing a power saving and overload blocking device installed in a floor type system box according to the present invention, Figure 4 is an internal installation diagram showing a floor type system box with a power saving and overload blocking device according to the present invention, 5 is an illustration showing another example in which the power saving and overload blocking device is installed in the floor type system box according to the present invention, Figure 6 is a multi-floor type system box in which the power saving and overload blocking device according to the present invention is another example Figure 7 shows an example installed in, Figure 7 is installed in a multi-floor system box is another example of the power saving and overload blocking device according to the present invention It shows an exemplary view plane.

As shown in Figures 1 to 4, the present invention is a floor 400 is formed on the floor of the indoor floor is fixed to the floor 400 is a floor-type system box is installed in the outlet 100 for connecting the wires In this case, the electrical outlet socket 20 is formed in the floor-type system box 10, and the electrical power is grounded to the outlet 100 at the rear end of the electrical outlet bracket 20 and supplied to the outlet 100. The power saving and overload cut-off device 30 is formed to control the power and automatically cut off the current when an overload occurs.

The heat transfer outlet bracket 20 is charged to the inside of the floor-type system box 10 at the front end and a charging inlet 21 is formed so that the outlet 100 can be connected, the floor is connected to the charging inlet 21 Exposed port 23 is formed to be coupled to the outside of the type system box 10 so that the power saving and overload blocking device 30 can be combined.

It is preferable that the mounting portion 22 is formed in the charging hole 21 so that the outlet 100 can be charged.

In addition, the fixing piece 25 is formed at the upper portion of the charging hole 21 so that the heat transfer outlet bracket 20 can be fixed to the support 11 of the floor system box 10 by the fastening member 200. Lose.

The exposure port 23 is preferably formed with a coupling portion 24 to be coupled to the power saving and overload blocking device 30.

On the other hand, as the power saving and overload blocking device 30 is formed at the rear end of the heat transfer outlet bracket 20 fixed to the floor type system box 10 according to the present invention, the power saving and overload blocking device 30 is By controlling the power supplied to the outlet 100 to cut off the current at the load capacity to prevent the occurrence of fire.

A USB port 31 is formed at an upper portion of the power saving and overload blocking device 30, and the USB port 31 has an operating state of the power saving and overload blocking device 30 at a position away from the floor system box 10. Remote control receiver 40 is connected to check and control.

The remote control receiver 40 is formed with a light emitting unit 41 so as to check the overload generation signal transmitted from the power saving and overload blocking device 30 coupled to the electrical outlet bracket 20, the power saving and overload blocking An operation button 42 is formed to initialize the device 30 without access to the power saving and overload cut-off device 30 from the user's position and to adjust the operating state.

In addition, the power saving and overload blocking device 30 according to the present invention may be formed by connecting to the outlet 100 in the floor-type system box 10.

Floor-type system box 10 according to the present invention is a connection bracket 600 is formed on the inner bottom surface of the floor-type system box 10 as shown in the accompanying drawings, the connection bracket 600 Power saving and overload blocking device 30 is connected to.

On the other hand, the power saving and overload blocking device 30 according to the present invention is shown in the accompanying drawings, Figure 6 and 7, inside the multi-floor system box 300 is connected to a variety of electrical wiring, such as communication lines or outlets Can be used in connection.

Reference numeral 500 in the accompanying drawings is a communication bracket formed on the floor-type system box 10.

The operation state according to the present invention having the above-described structure will be described below.

First, the floor system box 10 is fixed to the floor 400 formed on the indoor floor, and the fixing piece 25 is fastened to the support 11 formed in the floor system box 10. It is fastened to the (200) is the outlet bracket 20 for heat transfer to the floor-type system box 10 is fixed.

At this time, since the heat transfer outlet bracket 20 is fixed to the floor type system box 10, the charging hole 21 of the heat transfer outlet bracket 20 is formed inside the floor type system box 10. The exposure port 23 integrated with the charging port 21 is formed outside the floor system box 10.

Then, the outlet 100 is fitted to the mounting portion 22 of the charging port 21, the power saving and overload blocking device to cut off and prevent the overload of power to the coupling portion 24 of the exposure opening (23) 30 are combined.

In this way, the outlet 100 is coupled to the front end of the heat transfer outlet bracket 20 is formed in the floor-type system box 10 according to the present invention and the power saving and power to the rear end of the heat transfer outlet bracket 20 The overload blocking device 30 is coupled to the floor system box 10.

Therefore, the floor-type system box 10 according to the present invention is to detect the power supplied to the outlet 100 and the power saving and overload blocking device 30 to cut off the power when an overload occurs is connected to the outlet 100 To control and cut off the load capacity.

In addition, the power saving and overload blocking device 30 is formed on the floor type system box 10 according to the present invention while being formed at the rear end of the heat transfer outlet bracket 20, the power saving and overload blocking device 30 The operating state of the user can easily check and adjust from the outside.

On the other hand, the remote control receiver 40 is connected to the USB port 31 of the power saving and overload blocking device 30, even if the user is away from the floor system box 10 according to the present invention the floor system box ( It is possible to check and control the operation state of the power saving and overload cut-off device 30 by using the remote control receiver 40 without directly going to 10).

In addition, the user can easily grasp the operating state of the power saving and overload cut-off device 30 through the light emitting unit 41 of the remote control receiver 40 without moving.

In addition, since the operation button 42 is formed in the remote control receiver 40, the user can control the operation state of the power saving and overload cutoff device 30 through the operation button 42 at the current position.

In addition, the power saving and overload blocking device 30 is formed inside the multi-floor system box 300 as well as the floor-type system box 10 to prevent and cut off power overload, thereby maximizing compatibility of the product. Thus, the function can be diversified.

Thus, the power saving and overload blocking device 30 is formed in the floor type system box 10 according to the present invention to detect and control the power supplied to the outlet 100 and to save and save the overload blocking device 30 according to the load capacity. ) Can be automatically stopped to prevent overload and to prevent safety accidents such as fire.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

10: floor type system box 11: support
20: electric outlet bracket 21: charging hole
22: mounting portion 23: exposure port
24: engaging portion 25: fixed piece
30: Power saving and overload cutoff device 31: USB port
40: remote control receiver 41: light emitting unit
42: operation button 100: outlet
200: fastening member 300: multi-floor system box
400: Floor 500: Communication Bracket
600: connection bracket

Claims (6)

In the floor system box is formed on the floor 400 and the outlet 100 for connecting the electric wire is fixed to the floor 400 is installed,
Combined to the side of the floor-type system box 10, the front end is inserted into the inside of the floor-type system box 10 is fixed and the rear end is a heat outlet socket 20 is formed to the outside of the floor-type system box 10 )and;
It is formed on the floor type system box 10 to be electrically grounded with the outlet 100 at the rear end of the heat transfer outlet bracket 20 to control the power supplied to the outlet 100 and to automatically cut off the current when an overload occurs. Power saving and overload blocking device 30 is formed,
The outlet bracket 20 for heat transfer is inserted into the inside of the floor-type system box 10 at the front end is formed with a charging inlet 21 is formed in the mounting portion 22 to be connected to the outlet 100,
The exposure port 23 is formed in the outer side of the floor system box 10 in conjunction with the charging port 21, the coupling portion 24 is formed so that the power saving and overload cut-off device 30 can be coupled Formed,
The upper portion of the charging port 21 is characterized in that the fixing piece 25 is formed so that the heat transfer outlet bracket 20 can be fixed to the support 11 of the floor type system box 10 by the fastening member 200. Floor type system box with power saving and overload cut-off device. delete The method of claim 1,
The upper portion of the power saving and overload blocking device 30 is formed with a USB port 31, the USB port 31 is coupled to the heat transfer outlet bracket 20 in a position away from the floor-type system box 10 Floor type system box with a power saving and overload blocking device, characterized in that the remote control receiver 40 is connected to check and control the operation state of the power saving and overload blocking device (30). The method of claim 3, wherein
The remote control receiver 40,
The light emitting unit 41 is formed so that the user can check the overload generation signal transmitted from the power saving and overload blocking device 30 at a position away from the power saving and overload blocking device 30,
Power saving and overload blocking device, characterized in that the operation button 42 is formed so as to initialize the power saving and overload blocking device 30 without access to the power saving and overload blocking device 30 from the user's position and adjust the operating state. Floor type system box equipped with. delete The method of claim 1,
A connection bracket 600 is formed on the inner bottom surface of the floor type system box 10, and controls the power supplied to the outlet 100 to the connection bracket 600 and saves electricity to automatically cut off the current when an overload occurs. And Floor type system box with a power saving and overload blocking device, characterized in that the overload blocking device 30 is formed.

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