KR20200110981A - Electric construction work method with high electricity cost reduction through standby power cut-off - Google Patents

Abstract

The present invention relates to a method for constructing electric work having a high effect of reducing electricity costs through interrupting standby power. According to the present invention, the method for constructing electric work having a high effect of reducing electricity costs through interrupting standby power divides a power supply line installed in a building into a regular power supply line and an interruptible power supply line and separately installs the same, and installs separate power on/off switches between a main power switch connected to the uppermost portion of the interruptible power supply line and an independent area on the interruptible power supply line which is a lower layer of the main power switch, between the independent area and an independent space which is a lower layer of the independent area, and between the independent space and a line terminal unit or an outlet installed at the lowermost portion of the interruptible power supply line. Therefore, if necessary, the power supplied to a device or electronic product connected to the interruptible power supply line can be simply interrupted by operation of the separate power on/off switches, and as a result, the standby power can be interrupted to minimize power waste.

Description

Electric construction work method with high electricity cost reduction through standby power cut-off}

The present invention relates to an electric construction method, and more specifically, electric construction construction that is easy to cut off standby power, which can cut off standby power unnecessarily wasted in electronic products that need to be supplied with power only when necessary, with a simple switch operation. It's about the method.

In general, in homes, offices, factories, etc., electronic products that must be supplied with power at all times and electronic products that must be supplied with power only when necessary coexist in each independent space. Therefore, in order to cut off standby power for electronic products that need to be supplied only when necessary, the power cords of the corresponding electronic products (ie, electronic products that supply power only when necessary) must be unplugged from the outlet. do. However, it is very cumbersome to unplug the power cord from the power outlet each time, and in reality, it is difficult to perform properly. Therefore, there is a great difficulty in fundamentally blocking standby power, and as a result, unnecessary power is wasted.

The present invention was created in consideration of the above, and in the construction of electrical work during new construction or remodeling of a building, a simple switch to reduce standby power unnecessarily wasted in electronic products that must be supplied with power only when necessary. Its purpose is to provide a construction method for electric construction with a high effect of reducing electricity costs by blocking standby power that can be blocked only by operation.

In order to achieve the above object, the electric construction construction method having a high electric cost reduction effect through blocking standby power according to the present invention is an electric construction construction method that facilitates blocking standby power during new construction or remodeling of a building,

a) dividing the power supply line installed in the building into a regular power supply line and a cut-off power supply line, and separately installing the power supply line;

b) The main power switch in the building is connected to the uppermost end of the constant power supply line, and a line terminal or outlet for connecting devices or electronic products to which constant power must be supplied is installed at the most end of the constant power supply line. step;

c) A main power switch in the building is connected to the uppermost end of the cut-off power supply line, and a line terminal or outlet for connecting a device or electronic product capable of shutting off the power supply when necessary. Installing; And

d) installing a separate power on/off switch between the main power switch connected to the uppermost end of the cut-off power supply line and an independent zone on the cut-off power supply line, which is a lower layer of the main power switch. It has its characteristics.

Here, preferably, e) between the independent area on the blockable power supply line and an independent space that is a lower level of the independent area, and between the independent space and a line terminal or outlet installed at the most end of the blockable power supply line. The step of installing separate power on/off switches, respectively, is further included.

In addition, the device or electronic product to be supplied with constant power in step b) may include a security device, a refrigerator, and a computer system server.

In addition, the device or electronic product capable of cutting off the power supply when necessary in step c) may include a personal computer, a photocopier, a cooling and heating device, and the like.

According to the present invention as described above, the power supply line and the cut-off power supply line are divided and installed separately during the electric work of the building, and between the main power switch on the cut-off power supply line and the independent section below it, the independent section and its Separate power on/off switches are provided between independent spaces below and between independent spaces and the final outlet, so that they can be cut off by operating these separate power on/off switches when necessary, or devices connected to power supply lines You can simply cut off the power supplied to the electronic product. Accordingly, standby power can be easily and reliably cut off, and as a result, power waste can be minimized.

1 is a view showing an overview of the electric work constructed according to the electric work construction method having a high effect of reducing electricity costs by blocking standby power according to the present invention.
Figure 2 is a flow chart showing the execution process of the electric construction construction method having a high effect of reducing electricity costs by blocking standby power according to the present invention.

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

1 and 2 are diagrams showing an electrical construction method having a high effect of reducing electricity costs by blocking standby power according to the present invention, and FIG. 1 is a view showing an outline of an electrical work constructed according to the construction method, and FIG. It is a flow chart showing the execution process of the electrical construction method.

Referring to Figures 1 and 2, the electric construction construction method having a high electric cost reduction effect through blocking standby power according to the present invention is an electric construction construction method that facilitates blocking standby power during new construction or remodeling of a building, First, the power supply line installed in the building is a constant power supply line (the part indicated by a solid line in FIG. 1, that is, the line connected to the outlet A102) and a cut-off power supply line (the part indicated by a dotted line in FIG. 1, that is, the outlet B ( 103) and separated and installed (step S201).

Then, the main power switch 101 in the building is connected to the uppermost end of the constant power supply line, and the line terminal for connecting devices or electronic products to which constant power is to be supplied, or A power outlet (outlet A) 102 is installed (step S202). Here, the device or electronic product to be supplied with power at all times may include a security device, a refrigerator, and a computer system server.

In addition, a main power switch 101 in the building is connected to the uppermost end of the cut-off power supply line, and a line for connecting a device or electronic product capable of cutting off the power supply if necessary at the most end of the cut-off power supply line. A terminal unit or an outlet (outlet B) 103 is provided (step S203). Here, the device or electronic product capable of cutting off the power supply when necessary may include a personal computer, a photocopier, and a cooling/heating device.

In addition, a separate power supply between the main power switch 101 connected to the uppermost end of the cut-off power supply line and an independent zone (power switch) 104 on the cut-off power supply line that is a lower layer of the main power switch 101 An on/off switch 106 is provided (step S204).

And, preferably, between the independent area (power switch) 104 on the cut-off power supply line and the independent space 105 that is a lower layer of the independent area (power switch) 104, and the independent space 105 ) And separate power on/off switches 107 and 108 are further provided between the line terminal or outlet (outlet B) 103 installed at the most end of the cut-off power supply line (step S205).

Here, each of the steps as described above is not necessarily limited to being performed in the same order as above. That is, each of the above steps may be performed in a different order depending on a specific situation in the construction of an electrical work or work conditions at the site.

In addition, in the series of processes and explanations as described above, the independent zone 104 may refer to, for example, a first generation of an apartment, the entire space of a tenant company of a building, and the like.

In addition, the independent space 105 may be, for example, a room of a home, a kitchen, a living room, etc., a unit office space within a company, a unit work place within a factory, and the like.

The electric wire indicated by the dotted line in FIG. 1 can be arbitrarily cut off the power supply by the on/off switches 106, 107, and 108. In addition, electronic products (personal computers, copiers, air conditioners, etc.) to cut off standby power are connected to the outlet (outlet B) 103 connected to the dotted line as described above. Therefore, when the office space, factory, etc. leave the office, the power supplied to all electronic products to be blocked by standby power can be cut off by turning off the entire building or the on/off switch for each space, and accordingly, standby power is immediately cut off. I can make it.

In addition, as described above, electronic products (servers, fax machines, refrigerators, security devices, etc.) to which electricity must be supplied at all times are connected to the outlet (outlet A) 102 connected to the solid electric line. Therefore, even if the on/off switches 106, 107, and 108 are turned off to cut off standby power, power is supplied regardless of these electronic products.

On the other hand, the on/off switch 106 between the main power switch 101 of the building and the power switch 104 in the independent area and the on/off switch 107 between the power switch 104 and the independent space 105 ), you can cut off the standby power of the lighting equipment inside the building and the area.

That is, all standby power including lighting equipment inside the house by turning off the on/off switch 107 of the independent area or the on/off switch 106 of the building when going out from the house or when the entire company leaves work. The power can be cut off all at once, and at this time, power is supplied to security devices and refrigerators connected to the solid line where power is always supplied.

In addition, all standby power inside the factory can be cut off by turning off the on/off switch 106 of the building at the end of work at the factory or on vacation. When only a specific unit work place is operated, other independent areas excluding the corresponding independent area By turning off the on/off switch 107, only standby power in other workplaces other than the operation can be cut off.

As described above, the electric construction construction method having a high electric cost reduction effect through the standby power cut-off according to the present invention is to separate and install a regular power supply line and a cut-off power supply line during the electric work construction of a building, and Separate power on/off switches are installed between the main power switch on the supply line and its sub-independent section, between the independent section and its sub-independent space, and between the independent space and the final terminal outlet. Can be cut off by operating the power on/off switch The power supplied to the device or electronic product connected to the power supply line can be simply cut off. Accordingly, standby power can be easily and reliably cut off, and as a result, there is an advantage of minimizing power waste.

As described above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto, and it is apparent to those skilled in the art that various changes and applications can be made without departing from the technical spirit of the present invention. Therefore, the true scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

101 building main power switch
102 outlet A
103 outlet B
104 Independent area (power switch)
105 Independent space
106,107,108 on/off switch

Claims (4)

As an electrical construction method that makes it easy to cut off standby power during new construction or remodeling of buildings,
a) dividing the power supply line installed in the building into a regular power supply line and a cut-off power supply line, and separately installing the power supply line;
b) The main power switch in the building is connected to the uppermost end of the constant power supply line, and a line terminal or outlet for connecting devices or electronic products to which constant power must be supplied is installed at the most end of the constant power supply line. step;
c) A main power switch in the building is connected to the uppermost end of the cut-off power supply line, and a line terminal or outlet for connecting a device or electronic product capable of shutting off the power supply when necessary. Installing; And
d) Standby power including the step of installing a separate power on/off switch between the main power switch connected to the uppermost end of the cut-off power supply line and an independent zone on the cut-off power supply line that is a lower layer of the main power switch. Electrical work construction method that is easy to block.
The method of claim 1,
e) Separate power on between the independent area on the cut-off power supply line and the independent space that is a lower level of the independent area, and between the independent space and the line terminal or outlet installed at the end of the cut-off power supply line. Electric construction construction method with high effect of reducing electricity costs through standby power cutoff, further comprising installing each of the /off switches. The method of claim 1,
The device or electronic product to be supplied with constant power in step b) includes at least one of a security device, a refrigerator, and a computer system server.
The method of claim 1,
In the step c), the device or electronic product capable of cutting off the power supply when necessary includes at least one of a personal computer, a photocopier, and a cooling/heating device.

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