KR20090130992A - The electrical device with sensor for temperature - Google Patents

Abstract

PURPOSE: An electric device embedded with a temperature sensor is provided to measure temperature generated from a terminal connected with power, by using the temperature sensor, thereby preventing a risk of fire. CONSTITUTION: A substrate(300) comprises temperature sensors(320). The temperature sensors measure temperature of terminals(120) of a breaker(10). The substrate is installed in the inside of a safety cover(200). NTC(Negative Thermal Coefficient) thermistors are used for the temperature sensors. Output terminals of the substrate output signals, so that the temperature of the terminals is monitored from the outside. The temperature sensors are contacted with the terminals of the breaker.

Description

The electrical device with sensor for temperature}

The present invention relates to an electric device with a built-in temperature sensor that can sense the temperature of the terminal to which the power is input and output in an electric device such as a circuit breaker, a circuit breaker, a magnetic contactor or so called magnetic switch called a magnetic switch.

More specifically, the present invention relates to an electric device having a built-in temperature sensor to cope with a disaster such as a fire by a heat generated from the terminal by sensing a heat of a terminal wired to a power supply.

In general, an electric device such as a circuit breaker, a magnetic contactor, a switch, or the like has a terminal formed so that a power source is wired to input and output.

In addition, in order to prevent external exposure of the terminal, a safety cover is formed at the terminal connection portion of the electric device in which the terminal protrudes, thereby securing the safety of the user.

In the case of electric devices such as earth leakage breakers and wiring breakers used in distribution boards or distribution boards, short circuits and over currents are prevented to prevent damage to the loads that may occur due to over currents or short circuits. However, even when such a circuit breaker is installed in the distribution board, heat is generated in the internal terminal of the circuit breaker through which power is input and output. As a result, when the temperature of the terminal rises significantly, the circuit breaker may explode. There is a problem.

That is, the role of the circuit breaker serves to cut off the power through the trip device in case of an over current or a short circuit, but has a limit in dealing with the fire risk due to the temperature rise of the circuit breaker itself. For this reason, there is no separate means to cope with the case of causing a fire by causing a fire while the temperature of the circuit breaker rises.

1 is a perspective view showing a magnetic switch, the magnetic contactor 1, such as a magnetic switch is configured with a terminal connection portion 2 is formed with a terminal, the safety cover (3) is mounted on the terminal connection upper terminal ( Outside exposure of 4) is prevented. The switch or the contactor 1 shown is an electric device that turns on or off the load current by an external signal, and is connected to a load such as a motor, a compressor, a heater, etc., and serves to turn on or off the operation state of the load. Similarly, heat is generated in the terminal 4 through which the power is input and output, and thus, when the temperature of the terminal rises significantly, there is a problem that the contactor or the switch is always exposed to a fire risk due to partial ignition.

In other words, the cause of these problems is that the terminal to which the power is connected to the electrical devices is not provided with any means for sensing the temperature. Therefore, if the heat generated from the terminals of these electrical devices can be detected and the temperature of the terminal can be monitored and monitored, this risk of fire can be prevented.

However, in the case of the circuit breaker, an additional configuration having a function of sensing a temperature must be provided in the distribution panel or the distribution panel.If such additional equipment is provided in a limited space of the distribution panel or the distribution panel, the number of installable earth leakage breakers in the distribution panel can be reduced. There is another problem that is missing.

In particular, in view of the current situation in which a lot of load machines are used and installation of the earth leakage breaker is required in a distribution board of a limited space, it is unreasonable to configure such additional equipment in a separate space in the distribution board. It is a practical requirement to have the need to be installed while occupying.

Similarly, in the case of the contactor or the switchgear, if the additional means for the separate temperature sensing may be complicated, the entire structure may be complicated, and thus, it is necessary to install the temperature sensing function means more simply.

In order to solve the above problems, it is an object of the present invention to provide an electric device having a terminal capable of measuring the temperature of the terminal connected to the power source in the electric device is formed.

It is also an object of the present invention to provide an electric device having means configured to output a signal on the temperature state of the terminal so that the temperature of the terminal of the electric device can be externally managed.

In addition, an object of the present invention is to provide an electric device having a built-in means capable of simply sensing the temperature of a terminal without occupying an additional space.

In order to achieve the above object, the present invention provides an electric device having a terminal for inputting and outputting power, and the electric device includes a built-in temperature sensor contacting the terminal to measure the temperature of the terminal. An electric device with a built-in temperature sensor is provided.

In addition, to achieve the above object, in the electrical device is equipped with a safety cover for preventing the external exposure of the terminal and the power input and output, the safety cover, so that the temperature of the terminal can be measured, An electrical device with a built-in temperature sensor is provided, wherein the board includes a substrate including a contact temperature sensor in contact with the terminal.

The substrate may further include an output terminal for outputting a signal to monitor the temperature of the terminal from the outside, and preferably, the temperature sensor may be configured as an NTC thermistor.

Through the electric device having a substrate with a built-in temperature sensor according to the present invention can measure the temperature generated from the terminal connected to the power source and can be managed by outputting the measured temperature to the outside, so that the temperature of the terminal of the electric device can be always checked Therefore, there is an effect that can prevent the risk of fire caused by the ignition of the electric device in advance.

In addition, by constructing a safety cover of an existing electric device with a substrate having a temperature sensor, the temperature of the terminal of the electric device can be measured without occupying a separate additional space, and is installed in a distribution board of a limited space such as a circuit breaker. In particular, there is an effect that can overcome the space constraints in particular.

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

The present invention can be applied to both an electric device including a terminal, such as a circuit breaker, a switch, a contactor, etc. Hereinafter, the circuit breaker will be described as an embodiment.

2 is an exploded perspective view of a circuit breaker having a temperature sensor as an embodiment according to the present invention, such that the terminal 120 through which power is input / output protrudes from a wall surface of the circuit breaker 10 mounted on the distribution panel or the distribution panel. The formed terminal connection part 100 is comprised.

In addition, a safety cover 200 is mounted on an upper portion of the terminal connection part 100 to prevent external exposure of the terminal 120. In general, a power line of each phase is input to the terminal 120 of the circuit breaker 10, and the input power is connected to an external load through the circuit breaker 10, where an overcurrent or a short circuit occurs. In this case, while the trip device inside the breaker 10 is tripped, it prevents damage to the external load.

However, apart from the role of the circuit breaker 10, a joule heat is generated in the breaker to which external power is input as the current flows through the input terminal, and the resistance value of the terminal is also generated through the joule heat. As the temperature increases, the joule heat eventually increases, and as a result, the temperature of the circuit breaker increases significantly for a long time, resulting in a risk of fire.

Therefore, in order to prevent this, a temperature sensor capable of measuring the temperature of the terminal 120 of the circuit breaker 10 may be embedded.

Figure 3 is an exploded perspective view of a circuit breaker with a temperature sensor as an embodiment according to the present invention. Referring to FIG. 5, the substrate 300 having the temperature sensor 320 capable of measuring the temperature of the terminal 120 of the circuit breaker 10 may be configured to be mounted on the safety cover 200. .

That is, the safety cover 200 further includes a substrate 300 having a temperature sensor 320 capable of measuring the temperature of the circuit breaker terminal 120 in order to manage the temperature of the circuit breaker when the circuit breaker 10 is used. It consists.

In order to embed the substrate 300 inside the safety cover 200, a groove into which the substrate may be inserted may be separately formed in the safety cover 200, and as shown in FIG. 3, the substrate And the safety cover may be screwed in. However, the present invention does not limit any mounting method, and any method may be used as long as the substrate can be embedded in the position of those skilled in the art.

The temperature sensor 320 may be both a contact temperature sensor and a non-contact temperature sensor, the contact temperature sensor is directly in thermal contact with the measurement object to reach the thermal equilibrium state to measure the temperature, the non-contact type in the measurement object The temperature is measured by detecting emitted ultraviolet rays or mainly infrared rays.

The substrate 300 of the present invention uses a principle that the resistance value of platinum is changed according to temperature as a contact type temperature sensor, and is most commonly used as a platinum resistance temperature sensor and a current temperature sensor, and is made by sintering metal oxide and changing resistance according to temperature. As a characteristic, a sub-characteristic (NTC) thermistor and a positive-characteristic (PTC) thermistor can be used.

Thermistors are all devices whose resistance changes with temperature. Generally, thermistors are divided into negative temperature (NTC) thermistors and positive temperature (PTC) thermistors. NTC (Negative thermal coefficient) is a material whose resistance decreases with increasing temperature. In contrast, PTC (Positive Thermal Coefficient) is a material whose resistance increases with increasing temperature.

Preferably, the substrate of the present invention has a characteristic that the resistance value changes greatly with temperature change, and because it is very simple, it can be simply attached to the substrate 300, and in particular, the design of the main body of the circuit breaker 10 is not required. Therefore, as a temperature sensor mounted on the substrate, the temperature of the breaker terminal is measured through an NTC thermistor.

4 is a state diagram showing an internal block diagram and a monitoring method of a substrate in which a temperature sensor is built according to the present invention. As shown in the drawing, the substrate 300 includes a temperature sensor 320 for sensing a temperature of a terminal, a calculation unit 340, It is configured to include an output terminal 360.

When a contact temperature sensor such as a thermistor is brought into contact with the terminal of the breaker, the resistance of the temperature sensor changes according to the temperature change of the terminal.

In a conductor, the electrical resistance changes with temperature. Using this characteristic, if the change rate of resistance to unit temperature change is known, the temperature can be measured only by the change of resistance value. Here, the rate of change of resistance with respect to unit temperature is called the temperature coefficient, and if the resistance increases as the temperature increases, it is called the positive temperature coefficient, and if the resistance decreases, it is called the negative temperature coefficient.

Therefore, through this principle, the substrate includes a calculation unit 340 for calculating the temperature of the terminal from the change in the resistance value of the temperature sensor.

In addition, a signal is output through the output terminal 360 so that the temperature of the terminal calculated and measured by the calculator 340 can be monitored from the outside.

To this end, a separate monitoring system is provided outside so that the signal output from the output terminal 360 can be input and monitored.

However, in the substrate 300, a calculation unit 340 that calculates the temperature through the resistance value changed from the temperature sensor 320 is built in, but it is directly mounted on the monitoring system installed outside the substrate 300, the modified configuration It may also be possible to change within the scope of those skilled in the art.

In the above detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention, and in particular, other contactors and switchgears, etc., as well as the circuit breakers described in the embodiments of the present invention. It will be apparent to those of ordinary skill in the art that the same configuration can be applied to an electric device having an input / output terminal.

1 is an exploded perspective view of a magnetic contactor in which the safety cover according to the prior art is disassembled.

Figure 2 is an exploded perspective view of a breaker in which the safety cover according to the prior art is disassembled.

Figure 3 is an exploded perspective view of a circuit breaker with a temperature sensor as an embodiment according to the present invention.

Figure 4 is a state diagram showing the internal block diagram and the monitoring method of a substrate with a temperature sensor according to the present invention.

* Explanation of symbols for main parts of the drawings

100: terminal connection portion 120: terminal

200: safety cover 300: substrate

320: temperature sensor 340: arithmetic unit

360: output terminal

Claims (4)

In the electrical device formed with a terminal for inputting and outputting power, The electrical device has a built-in temperature sensor, characterized in that the built-in contact type temperature sensor in contact with the terminal to measure the temperature of the terminal. In the electrical device equipped with a terminal to which the power is input and output and a safety cover for preventing the external exposure of the terminal, The safety cover is an electric device with a built-in temperature sensor, characterized in that the substrate including a contact type temperature sensor in contact with the terminal so as to measure the temperature of the terminal is mounted. The method of claim 2, The substrate further comprises an output terminal for outputting a signal for outputting a signal to monitor the temperature of the terminal from the outside. The method according to claim 1 or 2, The temperature sensor is an electric device with a built-in temperature sensor, characterized in that consisting of NTC thermistor.

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