KR20080029430A - Digital multi meter - Google Patents

Abstract

A digital multi-meter is provided to remove an accident due to electric shock by performing a non-contact type temperature measuring process using infrared rays. A probe unit(110) contacts with a measuring target in order to receive a measuring signal. A measurement unit(120) analyzes the measuring signal of the probe unit and produces a measuring value according to each of measurement modes. A temperature measurement unit(130) measures the temperature of the measuring target and produces a measured value. A display unit(140) outputs the measured value of the measuring target on a screen. A function operation unit(150) receives a command related to measurement mode selection and function selection from the user. A control unit(160) receives the measurement modes from the user in order to control the measurement unit, the temperature measurement unit, and the display unit.

Description

Digital Multimeters {DIGITAL MULTI METER}

1 is a perspective view showing a general contact digital thermometer.

Figure 2 is a perspective view showing the appearance of the digital multimeter according to an embodiment of the present invention.

FIG. 3 is a block diagram for explaining the configuration of the digital multimeter shown in FIG.

<Explanation of symbols for the main parts of the drawings>

100: digital multimeter

110: probe 120: measurement

130: temperature measuring unit 140: display unit

150: function control unit 160: control unit

The present invention relates to a digital multimeter.

In order to measure voltage, current, resistance, phase, etc. in electrical / electronic devices, various measuring tools such as voltmeters, ammeters, ohmmeters, and phase meters have been used for a long time. In addition, some instruments can measure measured values according to DC and AC characteristics, and a multimeter capable of performing all of these various measuring tools has also been developed. In particular, a multimeter that converts the measured value digitally and displays it as an accurate value is called a digital multimeter. The present invention relates to such a digital multimeter.

When checking electrical / electronic devices using a general digital multimeter, a probe of a digital multimeter is contacted with a measurement object to obtain a measured value. In particular, in order to check electrical safety, there are many cases of inspecting distribution boards installed at points that distribute electricity to various places in the building.In this case, the inspector uses a digital multimeter to check AC current, leakage current, effective leakage current and live insulation resistance. Carry out a safety check by measuring the back.

On the other hand, the inspector also needs to check the tightness of the bolts for fixing the respective wires in the distribution panel. If the bolts used for coupling between current-carrying conductors are loosened, that is, the contacts are not good, high heat will be generated at that point, causing high heat, which can lead to malfunction and fire of the equipment. Because of the risks that must be observed. In other words, it is necessary to measure the temperature to find the point where the contact point is not good as well as the tightening state of the bolt. Therefore, the inspectors carry not only a digital multimeter but also a thermometer 10 capable of measuring temperature as shown in FIG.

That is, since the process to measure the temperature is essential, the inspectors have to carry the thermometer 10 as well as the digital multimeter, even if the user suffers inconvenience, and thus the inconvenience of the possession of the equipment follows. In addition, due to such inconvenience, the temperature measurement is sometimes neglected because the thermometer 10 is not prioritized in taking inspection equipment.

And, the thermometer as shown in Figure 1, the measurement pin 11 should be in direct contact with the measurement object for measuring the temperature, the measurement pin 11 is made of a metal, so the risk of electric shock during temperature measurement work It is always following.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a digital multimeter capable of easily measuring temperature without the risk of electric shock in order to check the contact state of electrical / electronic devices.

According to an aspect of the present invention, there is provided a digital multimeter comprising: a probe unit receiving a measurement signal in contact with a measurement object; A measurement unit for analyzing the measurement signal input from the probe unit and calculating a measurement value for each measurement mode; A temperature measuring unit measuring a temperature generated from the measurement target and calculating a measured value; A display unit for outputting a measurement value for the measurement object on a screen; A function manipulation unit that receives a command for selecting a measurement mode and selecting a function from a user; And a control unit configured to control the measuring unit or the temperature measuring unit to calculate a measurement value for each measurement mode when the measurement mode is input from the user through the function manipulation unit, and to digitally convert the measured values accordingly and output them through the display unit. ; It includes.

Here, it is preferable that the said measurement part measures at least any one or more of the voltage, the electric current, a phase, and a resistance of the said measurement object.

In addition, it is more preferable that the temperature measuring unit measures the temperature in a non-contact manner using infrared light.

In addition, the temperature measuring unit for measuring the temperature in a non-contact manner using the infrared ray, it is preferable that the visible light is emitted so as to display the position for measuring the temperature on the temperature measurement object.

Hereinafter, preferred embodiments will be described so that the present invention described above can be understood in more detail.

FIG. 2 is a perspective view illustrating an external appearance of the digital multimeter 100 according to an exemplary embodiment of the present invention, and FIG. 3 is a block diagram illustrating each configuration of the digital multimeter 100 shown in FIG. 2.

2 and 3, the digital multimeter 100 according to the present invention includes a probe unit 110, a measurement unit 120, a temperature measuring unit 130, a display unit 140, and a function operation unit 150. ) And the controller 160.

The probe unit 110 receives a measurement signal by directly contacting a measurement object. These probes are usually made of diodes, resistors, and capacitors, and the input impedance should be high so as not to affect the measurement waveform.

The measurement unit 120 analyzes a measurement signal input from the probe unit 110 and calculates a measurement value for each measurement mode. The digital multimeter 100 may measure various values such as voltage, current, phase, and resistance, and the measurement unit 120 calculates measurement values for the measurement mode selected by the user through the function operator 150.

The temperature measuring unit 130 calculates a measured value by measuring the temperature generated from the measurement target. At this time, the temperature measuring unit 130 preferably measures the temperature in a non-contact manner using infrared (Infrared).

All materials do not emit more heat than a blackbody at the same temperature and in the same infrared wavelength range.The non-contact temperature measuring device, which uses infrared light, emits infrared energy emitted by the object at the same temperature. The temperature is measured by calculating the ratio compared to the infrared energy. Of course, such a temperature measuring unit using infrared rays is calibrated by measuring the temperature emitted from the black body at the time of manufacture. Therefore, by using the temperature measuring unit, the user can accurately measure the temperature without directly contacting the measuring pin with the measurement object, thereby eliminating the risk of electric shock or the like by the measuring pin.

In addition, the temperature measuring unit 130, the visible light is more preferably emitted from the temperature measurement object to display the position for measuring the temperature. Therefore, it is possible to measure the temperature by precisely aiming the point to be measured, which can be more useful in places where lighting is insufficient.

The display unit 140 outputs the measurement value for the measurement object to the screen.

The function manipulation unit 150 receives a command for selecting a measurement mode and selecting a function from a user. That is, the user may perform a selection operation such as a measurement mode such as voltage, current, resistance, phase, power on / off, backlight function of the display 140, and memory function through the function manipulation unit 150.

When the controller 160 receives the measurement mode from the user through the function manipulation unit 150, the controller 160 controls the measurement unit 120 or the temperature measuring unit 130 to calculate a measurement value for each measurement mode. The measurement unit 120, the temperature measuring unit 130, and the display unit 140 are controlled to be digitally converted and output through the display unit 140.

As described above, since the digital multimeter according to the embodiment of the present invention includes a temperature measuring unit capable of measuring the temperature generated from the measurement object, even if the user does not carry a thermometer additionally, According to the digital multimeter, it is possible to measure the temperature for checking the contact state of the electrical / electronic equipment. In particular, since the temperature can be measured in a non-contact manner using infrared rays, it is possible to eliminate the risk of electric shock by the measuring pin, it is possible to ensure the safety of the inspector as well as the safety of electrical / electronic equipment. In addition, since the measurement position can be aimed at by using visible light, work efficiency can be improved even during night work.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiments have been described by way of example only, and thus the present invention is limited to the above embodiments. It is not to be understood that the scope of the invention should be understood by the claims and equivalent concepts described below.

As described in detail above, the present invention has the following effects.

First, even if the user does not carry a thermometer in addition, the temperature for checking the contact state of the electrical / electronic device can be measured.

Second, since the temperature can be measured in a non-contact manner using infrared rays, by removing the risk of electric shock by the measuring pin, it can ensure the safety of the inspector as well as the safety of electrical / electronic equipment.

Third, since the measurement position can be aimed using visible light, work efficiency is improved even at night.

Claims (4)

A probe unit which receives a measurement signal by contacting a measurement object; A measurement unit for analyzing the measurement signal input from the probe unit and calculating a measurement value for each measurement mode; A temperature measuring unit measuring a temperature generated from the measurement target and calculating a measured value; A display unit for outputting a measurement value for the measurement object on a screen; A function manipulation unit that receives a command for selecting a measurement mode and selecting a function from a user; And A control unit configured to control the measurement unit or the temperature measuring unit to calculate a measurement value for each measurement mode when the measurement mode is input from the user through the function manipulation unit, and to control the measurement value to be digitally converted and output through the display unit; Digital multimeter comprising a. The method of claim 1, And the measuring unit measures at least one of voltage, current, phase, and resistance of the measurement object. The method according to claim 1 or 2, The temperature measuring unit is a digital multimeter, characterized in that for measuring the temperature in a non-contact manner using infrared. The method of claim 3, The temperature measuring unit for measuring the temperature in a non-contact manner using the infrared rays, the digital multimeter, characterized in that the visible light is emitted to indicate the position for measuring the temperature on the temperature measurement object.

Images