KR101397924B1 - Earthquake sensing distribution board and control method using proximity sensor - Google Patents

Abstract

The present invention relates to an earthquake sensing distribution board using a proximity sensor and a method of controlling the same. The earthquake sensing distribution board includes a sensor part (110) including a spring (111) provided perpendicularly to an inner bottom surface of the distribution board, a plurality of proximity sensors (112) provided at an outside of the spring (111), and spaced apart from each other by a preset distance to sense the vibration of the spring (111), and a counter (113) for counting the frequency sensed by the proximity sensor (112) every time; and a control unit (120) for receiving the sensed frequency and the counting number from the sensor part (110), for stopping supplying power to a preset electric device if the frequency counted every time exceeds a reference frequency during a preset time, and for transmitting a message related to earthquake information to a manager terminal (10). As described above, the frequency every second of the spring provided perpendicularly to the inner bottom surface of the distribution board is sensed by the proximity sensor. If the frequency every second exceeds a preset frequency, the power supplied to a dangerous device previously registered is cut off, and an alarm for an earthquake is transmitted to the manager terminal located in a remote place, thereby protecting electric devices installed in a building and allowing all persons remaining in the building to evacuate from the earthquake.

Description

TECHNICAL FIELD [0001] The present invention relates to an earthquake detection switchboard using a proximity sensor,

The present invention relates to an earthquake detection switchboard using a proximity sensor and a control method thereof. More particularly, the present invention relates to an earthquake detection switchboard using a proximity sensor, which detects a frequency per second of a spring formed vertically from a bottom surface of an inside of a switchboard through a proximity sensor, The present invention relates to a technique for shutting down power supply to an apparatus and transmitting an earthquake risk alarm to a remote terminal located at a remote location.

Generally, large and small earthquakes occur in many parts of the world. People who are left inside the building are trapped in the building because of the inability to promptly notify people about the occurrence of the earthquake, resulting in electric shock due to fire, collapse or short- In many cases.

In addition, even if people are evacuated by warning in advance of an earthquake, there is a frequent occurrence of property damage due to a fire caused by leaked gas or combustible material in a boiler room or the like in a building.

In recent years, when an earthquake occurs, a shutoff device is installed to prevent secondary disasters caused by electric leakage or leakage of fuel by shutting off power supply and fuel supply to the building in accordance with the degree of seismic intensity generated.

However, according to the facility control system of the conventional building, the building control device must control the power distribution operation of the switchboard, the fuel supply operation of the fuel distributor, and the valve control operation of the circulation valve controller through manual operation of the manager.

Therefore, in case of a disaster such as an earthquake, the residents in the building immediately evacuate, but the administrator who has to stop the operation of the building control device can not take the safety because it is difficult to evacuate immediately.

On the other hand, Korean Patent No. 803097 (Control System for Earthquake Disaster Prevention) discloses a technique for preventing disasters such as fire by appropriately controlling and interrupting power supplied to a building and distributed to a plurality of electric devices when an emergency occurs .

However, the conventional earthquake sensor includes a special function of detecting a seismic wave in real time and analyzing and predicting the occurrence of vibration, and thus has a problem that the equipment is expensive and installation costs are high.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a proximity sensor which senses a frequency per second of a spring formed vertically from a bottom surface of an inside of a switchgear, The objective is to protect the electrical devices inside the building by safeguarding the building by transmitting the earthquake risk warning to the administrator terminal located at the remote place, and to allow immediate evacuation of all residents inside the building.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a seismic switchboard using a proximity sensor, comprising: a spring formed vertically from a bottom surface of a switchboard; A proximity sensor 112 for sensing the vibration of the proximity sensor 111 and a counter 113 for counting the number of vibrations sensed by the proximity sensor 112 over time; When the number of frequencies counted by time and the number of times counted by the time exceeds the reference frequency for a predetermined period of time, power supply to the predetermined electric device is stopped, and an earthquake warning message To the administrator terminal (10).

The method includes: (a) receiving a proximity sensor ID and a measured frequency according to counting from a sensor unit; (B) judging whether the control unit judges whether the frequency of each counting of each proximity sensor ID exceeds the reference frequency for a preset time period; And (c) stopping power supply to the predetermined electric device when the control unit continues to exceed the reference frequency for a preset time as a result of the determination in the step (b).

According to the present invention as described above, the frequency per second of the spring formed vertically from the bottom of the cabinet is sensed through the proximity sensor. When the predetermined frequency is exceeded, the supply of power to the pre- , It is possible to safely protect the electric devices inside the building and to enable immediate evacuation of all the people residing inside the building.

1 is a view showing an earthquake detection switchboard using a proximity sensor according to the present invention.
2 is a view illustrating an example of a sensor unit of an earthquake detection switchboard using a proximity sensor according to the present invention.
3 is a flowchart showing a method of controlling a seismic switchboard using a proximity sensor according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

1 is a view showing an earthquake detection switchboard 100 using a proximity sensor according to the present invention. 1, an earthquake detection switchboard 100 using a proximity sensor according to the present invention includes a sensor unit 110 and a control unit 120.

First, the sensor unit 110 includes a spring 111 vertically formed from the bottom surface of the inside of the switchboard, a proximity sensor 112 installed to the outside of the spring 111 to sense the vibration of the spring 111, And a counter 113 for counting the frequency detected by the proximity sensor 112 by time.

When the frequency counted by the sensor unit 110 and the time counted by the time unit exceeds a reference frequency for a preset time, the controller 120 receives power from the sensor unit 110 And transmits an earthquake warning message to the administrator terminal 10.

2, the spring 111 of the sensor unit 110 is formed vertically from the bottom surface of the inside of the switchgear, and the proximity sensor 112 is disposed at a position spaced apart from the spring 111 by a predetermined distance And is constituted by a plurality of units.

The proximity sensor 112 of the sensor unit 110 may be any one of a high-frequency oscillation type, a capacitance type, a magnetic type, a photoelectric type, and an ultrasonic type, and may include a proximity sensor, an optical proximity sensor, An inductive proximity sensor, a capacitive proximity sensor, or an eddy current proximity sensor.

The acquisition module 121 of the control unit 120 collects proximity sensor IDs and measured frequency-dependent frequencies from each of the plurality of proximity sensors 112 provided in the sensor unit 110, do.

The determination module 122 of the controller 120 determines whether the frequency of each of the proximity sensor IDs is greater than the reference frequency for a preset time period and continues for a preset time period exceeding the reference frequency , The power supply to the predetermined electric device is stopped and an earthquake warning message including the proximity sensor ID exceeding the reference frequency is generated.

The communication module 123 receives the seismic alert message including the proximity sensor ID exceeding the reference frequency from the determination module 122, and transmits the seismic alert message to the predetermined administrator terminal 10.

At this time, the administrator terminal 10 may be configured as any one of a PC, a tablet, and a smart phone capable of communicating with the controller 120, but the present invention is not limited thereto.

In addition, the seismic detection switchboard 100 using the proximity sensor according to the present invention further comprises a management server 130 that receives, stores, and manages the frequencies counted by the proximity sensor IDs from the controller 120 in real time .

Hereinafter, a method of controlling a seismic switchboard using a proximity sensor according to the present invention will be described with reference to FIG.

First, the control unit 120 receives the proximity sensor ID and the measured frequency according to the counting from the sensor unit 110 (S10).

Next, the control unit 120 determines whether the frequency of each of the proximity sensor IDs per counting exceeds the reference frequency for a predetermined time (S20).

If it is determined in operation S20 that the frequency exceeds the reference frequency for a predetermined period of time, the controller 120 stops power supply to the predetermined electric device (S30).

Then, the control unit 120 generates an earthquake warning message including the proximity sensor ID that exceeds the reference frequency, and transmits the generated earthquake warning message to the predetermined administrator terminal 10 (S40).

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100: Seismic detection switchboard using proximity sensor
110: sensor part 111: spring
112: proximity sensor 113: counter
120: control unit 121: acquisition module
122: determination module 123: communication module
130: management server

Claims (5)

In an earthquake detection switchboard,
A proximity sensor 112 installed to be apart from the bottom surface of the switchboard by a predetermined distance outside the spring 111 to sense the vibration of the spring 111 and a proximity sensor 112, And a counter 113 for counting the number of vibrations sensed by the sensor unit 110 over time; And
When the frequency counted by the sensor unit 110 and the time counted by the time count exceeds the reference frequency for a preset time, the power supply to the predetermined electric device is stopped, And a control unit (120) for transmitting the control signal to the manager terminal (10). The method according to claim 1,
The proximity sensor (112)
A proximity sensor, an optical proximity sensor, an ultrasonic proximity sensor, an inductive proximity sensor, a capacitive proximity sensor, or an eddy current proximity sensor. The method according to claim 1,
The control unit (120)
A collection module 121 for collecting proximity sensor IDs and frequencies measured by counting from each of a plurality of proximity sensors 112 provided in the sensor unit 110;
Determines whether or not the frequency of each of the proximity sensor IDs for each counting period continues for more than a reference frequency for a predetermined period of time and stops power supply to the predetermined electric device A determination module 122 for generating an earthquake warning message including the proximity sensor ID that exceeds the reference frequency; And
And a communication module (123) for receiving an earthquake warning message including a proximity sensor ID exceeding a reference frequency from the determination module (122) and transmitting the same to a predetermined administrator terminal (10) Seismic detection switchboard used. In an earthquake detection method for an electric distribution panel,
(a) the control unit receiving the proximity sensor ID and the measured frequency by counting from the sensor unit;
(b) determining whether the frequency of each counting of each of the proximity sensor IDs exceeds a reference frequency for a preset time period; And
(c) stopping power supply to the predetermined electric device when the control unit continues to exceed the reference frequency for a predetermined time as a result of the determining in the step (b) Control Method of Seismic Sensing Switchboard Using. 5. The method of claim 4,
After the step (c)
(d) generating a seismic alert message including a proximity sensor ID whose control unit has exceeded a reference frequency, and transmitting the seismic alert message to a predetermined administrator terminal.

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