KR101773306B1 - Apparatus for sensing the temperature of a switch board - Google Patents

Abstract

Disclosed is a wireless temperature sensing device for a switchboard, comprising: a temperature sensor which is installed at any one among a tulip contact of a circuit breaker, a main bus, or a cable terminal provided inside the switchboard and measures a temperature value of the inside of the switchboard; a data wirelessly transmitting unit which is connected to the temperature sensor via a cable, installed in a main conductor inside the switchboard while surrounded by a case, and transmits the temperature value of the inside of the switchboard output from the temperature sensor; a coil bobbin which is installed in the case; a self-generating unit which is a metal strip wound around an outside diameter of the main conductor while passing through the coil bobbin, and supplies electric power by generating an induced electromotive force with electricity flowing in the main conductor, so that the temperature sensor and the data wirelessly transmitting unit are operated; a data wirelessly receiving unit which is installed in a control compartment of the switchboard and receives the temperature value of the inside of the switchboard transmitted by the data wirelessly transmitting unit; a control unit which receives the temperature value of the inside of the switchboard received by the data wirelessly receiving unit, compares the temperature value with a reference value, and outputs a signal to a warning unit if the temperature value is not less than the reference value; a display unit which visually displays the temperature value of the inside of the switchboard provided to the control unit; and a warning sound generating unit which generates a warning sound in accordance with the signal output from the control unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless temperature sensing apparatus for a switchboard,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wireless temperature sensing apparatus for an electrical switchboard, and more particularly, to a wireless temperature sensing apparatus for an electrical switchboard that operates a temperature sensing sensor and a wireless transmission unit using electricity supplied from an electric power generator.

Generally, a switchboard, a switch, a meter, a relay, and the like are installed for the operation and control of a power station, a substation, etc., and the operation of an electric motor.

In particular, various types of distribution boxes such as PLC panels, high-low pressure panels, repair panels, special water generators, and communication system panels are used in large-scale factories and communication companies.

Also, in the case of a switchboard with a large load such as a transformer and a switchboard for a high-voltage motor, heat is generated in the switchboard. If excessive heat is generated in the switchboard, it means that a large load is applied to the electric wire. It is an unstable factor such as incomplete contact, so it should be checked and corrected immediately.

As a prior art for solving such a problem, Korean Patent Registration No. 10-0804128 (hereinafter referred to as prior art) is exemplified.

The prior art relates to an ultraviolet discharge sensor for measuring a minute discharge generated from electric power devices inside a switchgear, an infrared temperature sensor for measuring a minute temperature generated from an electric power device inside the switchgear, an ultraviolet discharge sensor and an infrared temperature sensor An A / D conversion module for converting a measured value into a digital signal, and an analysis module for analyzing and processing the digital signal applied from the A / D conversion module to generate measurement result data, A notification unit for providing an alarm sound or a message to the manager when the measurement result exceeds a predetermined temperature; and a communication unit for receiving analysis information (measurement amount, measurement temperature and measurement time) according to the measurement result of each sensor, And an analysis / processing unit that generates measurement result data including trend information on the degree of degradation according to the analysis information, Ryeokbu and the measurement results is composed of a storage for storing and managing data.

However, as described above, the temperature sensing system using the infrared sensor causes many problems in the following process.

First, not only is there a lot of space constraints in the installation process, but installation expertise is required.

Second, in the power supply system, a system such as the prior art has a built-in battery, and after a certain period of time, the battery needs to be replaced. In order to replace the battery, electricity must be shut off.

Thirdly, since the infrared equipment must be installed away from the high voltage area, the measurement site is limited.

Fourth, there is a problem that it is affected by external influences, environmental changes such as humidity and high temperature, and the transmission signal is sensitive to humidity or high temperature, which is unstable.

Document 1: Korean Patent Registration No. 10-0804128

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above problems and to provide a temperature sensing system and a method of operating the temperature sensing system using the electricity supplied from the self-power generator using the induction electromotive force principle. The present invention provides a wireless temperature sensing device for a switchboard that can directly sense a temperature of a closed conductor portion of a high voltage.

According to another aspect of the present invention, there is provided an apparatus for detecting a temperature of a switchboard, the apparatus comprising: a temperature sensor for detecting a temperature value inside the switchboard, the temperature sensor being installed directly on a tulip controller, A data wireless transmission unit connected to the temperature sensor via a cable and installed in the main conductor in the cabinet in a state surrounded by the case to transmit a temperature value of the cabin to the temperature sensor, A bobbin and a metal band configured to be wound around the outer diameter of the main conductor in a state of passing through the coil bobbin to generate an induced electromotive force by the electric current flowing through the main conductor so that the temperature sensor and the data wireless transmitter A self-generated electricity generating unit for supplying power to the control panel of the switchboard, A data radio receiver receiving a temperature value of an inside of the switchboard, which is transmitted from the data radio transmitter, a temperature value inside the switchboard received by the data radio receiver, A display unit for visually displaying a temperature value of an inside of the cabin, and an alarm generator for generating an alarm sound according to a signal output from the controller.

The present invention enables the temperature sensing system to be used semi-permanently by operating the temperature sensing sensor and the data wireless transmission unit by using the electricity supplied from the self-power generator using the induction electromotive force principle, and to perform troublesome work such as replacing the battery So that the workability due to maintenance can be improved. In addition, it has the effect of directly detecting the temperature of an important part difficult to approach the high voltage part directly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating the overall configuration of a wireless temperature sensing device of an ASS according to a preferred embodiment of the present invention; FIG.
FIG. 2 is a view showing a state in which the temperature sensing sensor and the data wireless transmission unit of FIG. 1 and the self-power generating unit are installed inside the switchboard.
3 is a diagram illustrating the operation of the wireless temperature sensing device of an ASS according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

FIG. 2 is a block diagram of a temperature sensing device and a data wireless transmission unit of FIG. 1, and FIG. 2 is a block diagram of a temperature sensor and a data wireless transmission unit of the present invention. Fig.

1 and 2, the wireless temperature sensing device includes a temperature sensor 10, a data wireless transmitter 16, an electric power generator 20, a data wireless receiver 30, a controller 40, , A display (50), and an alarm generating unit (60).

The temperature sensing sensor 10 senses the temperature of the switchboard. The temperature sensing sensor 10 is installed in the tulip control 200 provided in the circuit breaker in the switchboard to sense the temperature of the switchboard. In this case, it is obvious that the temperature sensor can be selectively installed at any one of the main bus or the cable terminal in addition to the tulip controller 200. In the following description, the temperature sensor is typically provided in the tulip controller 200 .

The data wireless transmission unit 16 is connected to the temperature sensor 10 through a cable 12 to transmit a temperature value inside the switchboard measured by the temperature sensor 10.

The temperature sensing sensor 10 and the data wireless transmission unit 16 may be integrally formed and directly installed in the tulip contact 200 of the circuit breaker installed in the switchboard in a position where the temperature is to be measured in the switchboard. I will.

The self-power generating unit 20 is a means for supplying electricity to the temperature sensing sensor 10 and the data wireless transmission unit 16. Since the temperature sensor 10 and the data wireless transmitter 16 are means for directly measuring the temperature in the switchboard, they can not be installed at the measuring position in the switchboard. Therefore, the temperature sensor 10 and the data wireless transmitter The battery for supplying electricity to operate the battery 16 can not be installed in the switchboard. When the life of the battery is exhausted due to this restriction, it is necessary to periodically perform the operation of interrupting the electricity of the switchboard and then replacing the battery with a new one. As a result, Thereby causing inconvenience due to battery replacement work.

Therefore, in the present invention, the self-power generating unit is installed in the main conductor 210, which is a means for flowing electricity installed in the switchboard by applying the induced electromotive force principle, and the generated power is transmitted to the temperature sensor 10 and the data wireless transmitter (16), so that the battery can be used semi-permanently without replacing the conventional battery.

The self-power generating unit 20 includes a coil bobbin 22 mounted inside a case 14 in which the data wireless transmission unit 16 is installed, a coil bobbin 22 penetrating the center of the coil bobbin 22, And a metal band 24 wound around the outer periphery of the base member 210 several times. The self-power generating unit 20 having the above-described configuration generates an induction electromotive force in the course of electricity flowing into the main conductor 210 and supplies the generated power to a power source for operating the temperature sensor 10 and the data radio transmitter 16 . The metal strip 24 is made of a special alloy and is saturated regardless of the magnitude of the current of the main conductor 210 and is more than 5 amperes to obtain a constant electromotive force.

The data wireless receiving unit 30 receives and stores a temperature value inside the switchboard, which is transmitted from the data wireless transmitting unit 16, in a state where the data wireless receiving unit 30 is installed in the control compartment of the switchboard.

The control unit 40 receives the temperature value of the inside of the cabinet received by the data wireless receiving unit 30 and transmits the temperature data to the display 50 so that it can be checked in real time from the outside, The temperature of the inside of the switchboard 30 is compared with the temperature of the inside of the cabin, and if it is determined that the temperature of the inside of the cabin is higher than the pre-input reference value, an alarm sound is generated through the alarm generator 60, . In addition, the control unit is connected with a communication cable so that the temperature value detected by the switchboard can be confirmed at a remote place.

The operation of the switchboard wireless temperature sensing device of the present invention thus configured will be described with reference to FIG.

A temperature sensor 10 is installed in a tulip controller 200 of an internal circuit breaker of a switchboard and a data wireless transmitter 16 connected to the temperature sensor 10 via a cable 12 is connected to a case 14, The coil bobbin 22 is installed in the case 14 in this state and the metal band 24 is inserted into the coil bobbin 22 through the coil bobbin 22, And then wound around the outer circumference of the main conductor 210 several times, thereby completing the assembly.

An induced electromotive force is generated in the metal strip 24 while electricity flows to the main conductor 210 and the generated power is supplied to the temperature sensor 10 and the data wireless transmitter 16 in operation S10.

Next, the temperature sensor 10 measures the temperature value of the inside of the switchboard in real time (S20) and then outputs the data to the data radio transmitter 16 (S30). Then, the switchboard internal temperature The control unit 40 displays the temperature value of the inside of the switchboard in real time through the display unit 50 (S60) And compares the reference value and the internal temperature of the switchboard (S70).

If it is determined that the temperature of the inside of the switchboard is higher than the reference value input to the controller 40, an alarm sound is generated through the alarm generator 60 to promptly report an abnormal situation to the outside, (S80).

10: Temperature sensor 16: Data radio transmitter
20: Self-generated power unit 22: Coil bobbin
24: metal strip 30: data radio receiver
40: control unit 50:
60: alarm generator 200: tulip control
210: main conductor

Claims (1)

In a wireless temperature sensing device of an ASSEMBLY,
A tulip controller 210 of a circuit breaker installed in the switchboard, a temperature sensor 10 installed at any one of the main bus or the cable terminal and measuring the temperature inside the switchboard;
The temperature sensor 10 is connected to the temperature sensor 10 through a cable 12 and is installed in a main body 210 that flows electricity in the enclosure 14 surrounded by the case 14, A data radio transmission unit (16) for transmitting a temperature value inside the switchboard;
A coil bobbin 22 installed in the case 14;
And a metal band 24 wound around the outer diameter of the main conductor 210 while passing through the coil bobbin 22 to generate an induced electromotive force by the electric current flowing through the main conductor 210, And the data wireless transmission unit 16 is connected to the main body 210 through the metal band 24 wound around the main conductor 210 so that the data wireless transmission unit 16 can be driven by the detection sensor 10 and the data wireless transmission unit 16, An electric generator (20) for fixing to the conductor (210);
A data wireless receiver 30 installed in the switchboard control compartment and receiving a temperature value of an inside of the cabin, which is transmitted from the data wireless transmitter 16;
A control unit 40 for comparing the internal temperature value of the switchgear received by the data wireless receiver 30 with a reference value inputted thereto and outputting a signal to the alarm unit when it is determined to be equal to or greater than the reference value;
A display unit 50 for visually displaying a temperature value of the inside of the switchboard applied to the control unit 40;
And an alarm generator (60) for generating an alarm sound according to a signal output from the controller (40).

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