KR101301704B1 - Maximum power demand controller - Google Patents

Abstract

PURPOSE: A maximum power demand controller is provided to prevent a blackout and save energy by controlling a device without a remote controller. CONSTITUTION: A maximum power demand controller includes a body (400), a frequency sensor (100), a current sensor (600), a temperature sensor, a control unit (200), and a switching unit (300). The body includes a power line connecting terminal and a load power line connecting terminal. The power line connecting terminal is formed with an outlet type and is detachably connected to the end of a power line. The load power line connecting terminal is connected to the power line connecting terminal and is detachably connected to the end of a load power line. The frequency sensor is installed on the body and senses a frequency. The current sensor is installed on the body and senses a current flow. The temperature sensor is installed on the body and senses the temperature of a demand control object installation place. The control unit outputs a switching signal from the temperature sensor. The switching is installed on the body and switches power supplied from the control unit to a demand control object. [Reference numerals] (100) Frequency sensor; (200) Control unit; (300) Switching unit; (500) Current transformer; (600) Current sensor; (T) Demand control object device

Description

Maximum Power Demand Controllers Save Energy and Prevent Blackout

The present invention relates to a maximum power demand controller that prevents energy savings and blackout.

As society develops and seeks convenience, the use of electric devices is increasing, and the use of electric energy is increasing rapidly.

Currently, the main method of producing electrical energy is to use fossil energy such as coal or oil or nuclear energy.

However, in the case of fossil energy, the limit of use is recommended due to resource depletion and environmental issues.

In the case of nuclear energy, the debate on the pros and cons of use is heating up due to the recent safety issues, which is not easy to expand.

For this reason, it is urgent to develop alternative energy to replace the fossil energy and nuclear energy, but this is also poorly supported.

As mentioned above, the use of electric energy is increasing every year, and the production of electric energy becomes more and more difficult, but people's perception of electric energy saving does not change so much that the shortage of electric energy is continuously occurring.

This lack of electrical energy causes blackouts (blackouts), and blackouts are more likely to occur in summer and winter, when the use of air conditioners is rapidly increasing.

Accordingly, KEPCO is conducting circular blackouts on a global basis to prevent blackouts when the reserve power drops below 1 million kw.

Patent Registration 10-0987318

The present invention is to solve the above problems, to control the use of a device without a controller and the remote control of the demand control target device, to provide a maximum power demand controller to prevent energy saving and blackout It is a task.

The present invention for solving the above problems,
A plug-type power line connection terminal detachably connected to an end of a power line receiving power and forming an outlet type; One end is connected to the power line connecting terminal via the controller power line, the other end is a plug type, the outlet type load power line connecting terminal detachably connected to the end of the load power line drawn from the demand-controlled equipment;
A frequency detecting sensor installed in the main body and detecting a frequency of electricity supplied through the power line:
Installed in the main body, the current sensor for sensing the flow of current:
Temperature sensor installed in the main body, for detecting the indoor temperature of the installation site of the demand control target device:
It is installed in the main body, and reads the frequency detected by the frequency sensor and outputs a switching signal according to the read frequency value, receives a current sensing signal from the current sensor to provide a switching signal when electricity is supplied to the controller power line And a control unit for outputting a switching signal according to the room temperature value from the temperature sensor.
A switching unit installed in the main body and switching power supply to the demand control target device according to a switching signal from the control unit:
And a control unit.

delete

delete

delete

delete

According to the present invention as described above, the maximum power demand controller for preventing energy saving and blackout may block power supply to the demand control target device in a blackout situation. Therefore, it is possible to prevent the worsening of the situation caused by the user's reckless use of energy in the situation that blackout can come.

In addition, according to the present invention, the supply of power to the demand control target device can be blocked according to the room temperature where the demand control target device is installed. This has the effect of preventing the reckless use of energy that ignores government guidelines.

1 is a view for explaining a maximum power demand controller for preventing energy saving and blackout according to the first embodiment of the present invention,
2 is a view for explaining a maximum power demand controller for preventing energy saving and blackout according to a second embodiment of the present invention;
3 is a diagram illustrating a maximum power demand controller for preventing energy saving and blackout according to a third embodiment of the present invention.

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

The maximum power demand controller C according to the first embodiment of the present invention will be described with reference to FIG. 1.

The maximum power demand controller C according to the present invention includes a frequency detection sensor 100, a control unit 200, and a switching unit 300, and a power line L1 connected to the maximum power demand controller C. It is installed in).

The frequency sensor 100 detects the frequency of the power line L1 for supplying power to the demand control target device T equipped with the switch T1. In this embodiment, the frequency detection sensor 100 may be applied to the frequency counter.

The control unit 200 reads the frequency detected by the frequency detection sensor 100 and outputs a switching signal for switching the switching unit 300 according to the read frequency, thereby turning on the demand control target device T. ) Or Off.

In the present embodiment, the reference value of the frequency may be a frequency range where the blackout symptom starts, for example, 59.2 to 59.4 Hz. Therefore, the control unit 200 cuts off the power supply to the demand control target device T when the frequency of the power line L reaches the frequency reference value, and demand control target when the frequency returns to the normal frequency, for example, 60 Hz. Reconnect the power supply to the device (T).

The switching unit 300 is operated and controlled by the control unit 200, and cuts or connects the power supplied to the demand control target device T according to the demand control target device control signal from the control unit 200.

A second embodiment according to the present invention will be described with reference to FIG.

The maximum power demand controller C according to the present embodiment includes a main body 400, and the main body 400 includes the frequency sensing sensor 100, the control unit 200, and the switching unit (according to the first embodiment). 300) is installed.

The main body 400 has a power line connection terminal 410 connected to the power line (L1), one end is connected to the power line connection terminal 410 via a controller power line (L2), the other end is the demand control target device (T) A load power line connection terminal 420 connected to the load power line (L3) drawn from the) is provided. At this time, the controller power line (L2) is installed in the main body 400 refers to a power line for energizing the power line (L1) and the load power line (L3).

Meanwhile, in the present embodiment, an end of the power line L1 is formed of an outlet type, and the power line connection terminal 410 is made of a plug type, so that the connection between the power line L1 and the controller power line L2 is detachable. Can be done. In addition, the end of the load power line (L3) is made of a plug type, the load power line connection terminal 420 is made of an outlet type, the connection of the load power line (L3) and the controller power line (L2) can be made detachable. have.

In addition, in the present embodiment, a current transformer (500, CT; Current Transformer) is installed in the controller power line (L2), the current transformer 500 is installed between the power line connection terminal 410 and the switching unit 300, power line connection The terminal 410 and the switching unit 300 are electrically connected. In addition, a current sensor 600 is electrically connected to the current transformer 500, and the current sensor 600 is electrically connected to the frequency sensor 100.

At this time, the control unit 200 receives a current sensing signal from the current sensor 600, and is driven to switch the switching unit 300 when electricity is supplied to the controller power line (L2).

Here, the current transformer 500 and the current sensor 600 are well known technologies, and can be easily implemented by those skilled in the art.

On the other hand, when the maximum power demand controller (C) for preventing energy saving and blackout according to the second embodiment of the present invention is applied to the demand control target device (T) such as a signboard, the operation of the maximum power demand controller (C) Looking at it as follows.

First, the maximum power demand controller (C) of the present invention is connected to the power line (L1) to the power line connection terminal 410, the load power line (L3) from the demand control target device (T) to the load power line connection terminal 420 Connected. At this time, if the demand control target device (T) is running, the current sensor 600 detects the flow of current, and accordingly the maximum power demand controller (C) is driven.

As described above, when the maximum power demand controller C is driven, when the frequency sensor 100 detects a frequency indicating an indication of blackout, the control unit 200 of the maximum power demand controller C switches the switching unit ( By turning off 300, the power supplied to the demand control target device T is cut off, and the demand control target device T is turned off. Then, the demand control target device T stops driving.

Meanwhile, when the blackout indication disappears and the frequency detection sensor 100 detects a normal frequency, the control unit 200 of the maximum power demand controller C turns on the switching unit 300 to the demand control target device T. Allow power to be supplied again. The demand control target device T is then driven again.

3, the maximum power demand controller C for preventing energy saving and blackout according to the third embodiment of the present invention will be described.

The maximum power demand controller C according to the present invention further includes a temperature sensor 700 for measuring an indoor temperature of a place where the demand control target device T is installed.

In particular, when the demand control target device (T) is applied to the heater, the temperature sensor 700 is operated and controlled by the control unit 200 of the maximum power demand controller (C) to measure the room temperature of the place where the heater is installed. do. At this time, the control unit 200 operates to control the heater according to the temperature measured by the temperature sensor 700.

For example, when the government recommends the recommended indoor temperature guidelines for winter, the control unit 200 of the maximum power demand controller (C) sets the recommended indoor temperature as a reference value. When the room temperature is higher than the recommended room temperature, the control unit 200 cuts off the power supplied to the heater through the switching unit 300 of the maximum power demand controller C, thereby turning off the heater. In addition, when the room temperature is lower than the recommended room temperature, the control unit 200 is connected to the switching unit 300 again, so that the heater is driven again.

On the other hand, the maximum power demand controller (C) according to the present invention can be applied to a variety of devices that consume power, such as outdoor large signboards, entertainment signs, ventilation fans in the tunnel, heaters.

As described above, the maximum power demand controller for preventing energy saving and blackout according to the present invention may block power supply to the demand control target device T in a blackout situation.

Thus, in situations where blackout may occur, the situation may be prevented from worsening due to users' indiscriminate use of energy.

In addition, the maximum power demand controller for preventing energy saving and blackout according to the present invention may block power supply to the demand control target device T according to the room temperature at which the demand control target device T is installed.

Thus, reckless use of energy that ignores government guidelines can be prevented.

This saving of electrical energy makes it possible to reduce the expansion of the main power plant or the reserve power plant.

Furthermore, the saving of electric energy can establish national greenhouse gas reduction targets and low carbon green growth infrastructure, achieve national energy efficiency improvement targets, and make a rapid transition to low energy consumption society, and Strong countermeasures allow for maximum cost in the shortest possible time.

C; Maximum power demand controller 100; Frequency Sensor
200; Control unit 300; The switching unit
T; Demand control target device T1; switch
400; Main body 500; deflector
600; Current sensor 700; temperature Senser

Claims (5)

A plug-type power line connection terminal detachably connected to an end of a power line receiving power and forming an outlet type; One end is connected to the power line connecting terminal via the controller power line, the other end is a plug type, the outlet type load power line connecting terminal detachably connected to the end of the load power line drawn from the demand-controlled equipment;
A frequency detecting sensor installed in the main body and detecting a frequency of electricity supplied through the power line:
Installed in the main body, the current sensor for sensing the flow of current:
Temperature sensor installed in the main body, for detecting the indoor temperature of the installation site of the demand control target device:
It is installed in the main body, and reads the frequency detected by the frequency sensor and outputs a switching signal according to the read frequency value, receives a current sensing signal from the current sensor to provide a switching signal when electricity is supplied to the controller power line And a control unit for outputting a switching signal according to the room temperature value from the temperature sensor.
A switching unit installed in the main body and switching power supply to the demand control target device according to a switching signal from the control unit:
Maximum power demand controller for preventing energy savings and blackout comprising a. delete delete delete delete

Images