KR101173916B1 - Weather detector using magnetic field and weather detecting method using the same - Google Patents

Abstract

The present invention relates to a weather observer using a magnetic field and a weather observation method using the same. The present invention, the electromagnetic field generator for generating an electromagnetic field in accordance with the change of the transformer and the first variable resistor; An inhaler that sucks air in the atmosphere and allows the sucked air to pass through a point where an electromagnetic field is generated by the electromagnetic field generator; An ejector which performs a ventilation function to allow air to flow into the inhaler from outside the apparatus to facilitate observation; A digital tester which generates an output value by observing the intensity of the current that changes when air passes through the suction passage connected to the inhaler and the discharger, and outputs it to a monitor or a data logger; And a mobile terminal or a computer which receives the output value from the data logger and outputs the output value. And a control unit.
This provides a new way of observing the current weather and weather (currents) using atmospheric, rain, fog, snow, and yellow dust particles in the atmosphere, allowing the yellow dust, snow, rainfall, drizzle, and fog particles to form an electromagnetic form. It provides the effect of expressing the observation form and intensity with the precise current value that reacts by observing with. In addition, this reduces the error range and provides an effect that can be corrected using a variable resistor or a transformer for the error range.

Description

Weather Observer Using Magnetic Field and Weather Observation Method Using It {WEATHER DETECTOR USING MAGNETIC FIELD AND WEATHER DETECTING METHOD USING THE SAME}

The present invention relates to a meteorological measurement technology, and more particularly, to display the observation form and intensity as a precise current value that reacts to the observation of the yellow dust, snow, rainfall, drizzle, fog particles in the electromagnetic form in the weather detection method A weather observer using a magnetic field and a weather observation method using the same.

Due to global warming and environmental pollution, abnormal weather phenomenon frequently occurs, and as the range of weather changes increases, the use of weather is becoming very important in real life. Specifically, unlike the snow, when there is no umbrella or raincoat, it is necessary to check the weather information because significant damage occurs, such as the whole body wet. However, finding and checking weather forecasts during busy rush hours is very cumbersome, and looking at the sky every time is not so easy.

Weather forecasts are usually seen on TV or newspapers the day before or early in the morning, and it is not so simple to remember and prepare for an umbrella, mask, or other equipment when you leave the door. In addition, since interest in diaries in other regions is growing, it is also important to immediately check the diaries for regions other than the current region.

Therefore, the need for a weather sensor that provides local information through immediate weather observation is emerging. On the other hand, the conventional weather sensor has observed the rainfall intensity, rainfall and snowfall using the plate shape or heating ability, but has been difficult to observe. More specifically, the plate-type weather sensor has a big problem of observation errors such as yellow dust, fog, and drizzle. In addition, the weather sensor using the heating ability can observe only a certain type of particles, there was a difficulty in the observation of yellow dust or dust particles.

Accordingly, in the technical field, it is required to develop a technology for expressing observation type and intensity as a precise current value in which yellow dust, snow, rainfall, drizzle, and fog particles are observed and reacted in an electromagnetic form.

The present invention is to solve the above problems, the weather observer using a magnetic field of a new method for observing the current weather (hyeoncheon) using the electromagnetic field of rain, fog, snow, yellow dust particles, etc. in the atmosphere and the weather using the same It is to provide an observation method.

In addition, the present invention provides a meteorological observer using a magnetic field for expressing the observation form and intensity as a precise current value that reacts to observe the yellow dust, snow, rainfall, drizzle, fog particles in the electromagnetic form and to provide a weather observation method using the same will be.

In addition, the present invention is to provide a weather observer using a magnetic field and a weather observation method using the same to reduce the error range and to correct using a variable resistor or transformer for the error range.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a weather observer using a magnetic field according to an embodiment of the present invention, an electromagnetic field generator for generating an electromagnetic field according to the change of the transformer and the first variable resistor; An inhaler that sucks air in the atmosphere and allows the sucked air to pass through a point where an electromagnetic field is generated by the electromagnetic field generator; An ejector which performs a ventilation function to allow air to flow into the inhaler from outside the apparatus to facilitate observation; A digital tester which generates an output value by observing the intensity of the current that changes when air passes through the suction passage connected to the inhaler and the discharger, and outputs it to a monitor or a data logger; And a mobile terminal or a computer which receives the output value from the data logger and outputs the output value. Characterized in that it comprises a.

In the meteorological observer using a magnetic field according to an embodiment of the present invention, the digital tester, the current and the voltage is changed by observing the change in the magnetic field generated when the air sucked through the inhaler passes through the electromagnetic field It is characterized by observing the degree to.

In the meteorological observer using a magnetic field according to another embodiment of the present invention, the output value measured by the digital tester, the air made of liquid or water vapor is output as a large value due to the particle characteristics when passing through the electromagnetic field, yellow dust particles Are output as small values.

In the meteorological observer using a magnetic field according to another embodiment of the present invention, the inhaler is formed in a square plate shape, a pair formed at a predetermined interval on the vertical of one copper plate and the other copper plate at a predetermined interval Copper plate; And a second variable resistor formed to adjust an intensity of a current applied to the pair of copper plates. Characterized in that it comprises a.

According to an embodiment of the present invention, a meteorological observation method using a weather observer using a magnetic field may include: a first step of controlling an electromagnetic field generated by an electromagnetic field generator by adjusting a transformer and a variable resistor; The ejector is operated by a data logger connected to the digital tester, in which air is sucked into the inhaler and passes through the intake passage; And a third step of the digital tester observing the intensity of the current that changes when air passes, generating an output value, and outputting the output value to the monitor or the data logger. It includes and outputs to the portable terminal or a computer receiving and outputting the output value from the data logger.

In the meteorological observation method using a weather observer using a magnetic field according to another embodiment of the present invention, the third step, the digital tester of the magnetic field generated when the air sucked through the inhaler passes through the electromagnetic field Observing the change is characterized by observing the degree of occurrence of fluctuating current and voltage.

In the meteorological observation method using a weather observer using a magnetic field according to another embodiment of the present invention, the output value measured by the digital tester in the third step, the air consisting of liquid or water vapor when passing through the electromagnetic field Due to the large value is output, the yellow dust particles are characterized in that the output to a small value.

According to an embodiment of the present invention, a weather observer using a magnetic field and a weather observation method using the same provide a new method for observing a current weather (prefecture) using electromagnetic fields for atmospheric rain, fog, snow, and yellow dust particles. It provides the effect that it can.

In addition, a weather observer using a magnetic field and a weather observation method using the same according to another embodiment of the present invention, the observation type and intensity as a precise current value to react by observing yellow dust, snow, rainfall, drizzle, fog particles in an electromagnetic form It provides an effect that can be expressed.

In addition, a weather observer using a magnetic field and a weather observation method using the same according to another embodiment of the present invention provide an effect that can be corrected by using a variable resistor or a transformer for reducing the error range.

1 is a view showing a weather observer using a magnetic field according to an embodiment of the present invention.
FIG. 2 is a view illustrating an inhaler of a weather observer using the magnetic field of FIG. 1 according to an exemplary embodiment of the present invention. FIG.
3 is a view showing a suction discharge in the weather observer using a magnetic field according to another embodiment of the present invention.
4 is a view showing an inhaler of the inhalation discharger of FIG. 3 according to another embodiment of the present invention.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

1 is a view showing a weather observer using a magnetic field according to an embodiment of the present invention. Referring to FIG. 1, a weather observer using a magnetic field may include a transformer 110, a first variable resistor 120, an electromagnetic field generator 130, an intake discharger 140, an inhaler 150, a digital tester 160, and an discharger ( 170, a data logger 210, a monitor 220, a mobile terminal 230, and a computer 240.

Transformer 110 is a device for generating an electromagnetic field by changing the value of the alternating voltage or current using the electromagnetic induction phenomenon to the electromagnetic field generator (130). In addition, in one embodiment of the present invention, the transformer 110 may observe a change in voltage.

The first variable resistor 120 is attached to adjust the intensity of the current output by the transformer 110 and the intensity of the electromagnetic field generated by the electromagnetic field generator 130 by the transformer 110. That is, in the present invention, the first variable resistor 120, which is an apparatus for adjusting the electromagnetic field strength, may be formed to be adjusted by a user for precise particle observation inhaled by the inhaler 150.

The electromagnetic field generator 130 generates an electromagnetic field according to a change in the value of alternating voltage or current by the transformer 110 and the first variable resistor 120.

The electromagnetic field generator 130 has a wire for generating a magnetic field, and the number of wires can be adjusted according to the suction material sucked into the inhaler 150.

The electromagnetic field generator 130 is composed of a primary coil at the top and a secondary coil at the bottom, and the secondary coil at the bottom includes the inhaler 150, the digital tester 160, and the discharger 170, which are components of the suction discharger 140. ), And a suction passage through which the inhaler 150 and the discharger 170 are connected is formed.

On the other hand, the air sucked into the inhaler 150 passes through the electromagnetic field generated by the electromagnetic field generator 130, the digital tester 160 observes the change in the magnetic field generated in this case.

In addition, the degree of generating the electromagnetic field generated by the electromagnetic field generator 130 is made through a test for adjusting the transformer 110 and the first variable resistor 120.

As described above, the inhalation discharger 140 includes an inhaler 150, a digital tester 160, and an ejector 170, and each configuration will be described below in detail.

The inhaler 150 sucks air in the atmosphere and allows the air to pass through the point where the electromagnetic field is generated by the electromagnetic field generator 130.

On the other hand, the air sucked by the inhaler 150 passes through the discharger 170 of the lower right. Inhaler 150 is designed to maintain a constant size, smooth air intake is maintained.

The digital tester 160 detects the components of the sucked particles due to variations in current and voltage generated when the air sucked through the inhaler 150 passes through the electromagnetic field. The digital tester 160 is installed to observe a change in current caused by a substance sucked in the middle of a wire generating a magnetic field.

The digital tester 160 is installed to generate an output value by observing the intensity of the current that changes when air passes. The installed digital tester 160 transmits the output value to the monitor 220 or the data logger 210 connected with the data cable and stores the output value in the digital tester 160. Accordingly, the data logger 210 transmits or stores the output value to the mobile terminal 230 or the computer 240 connected with the data cable.

More specifically, the digital tester 160 observes a change in the magnetic field generated by the air sucked through the inhaler 150 and passes through the electromagnetic field, and observes the degree of change in current and voltage. do.

In one embodiment of the present invention, an example of the output value measured by the digital tester 160 is that the air made of liquid or water vapor is output as a strong current due to the particle characteristics when passing through the electromagnetic field, the yellow dust particles of the current The output is weak.

Ejector 170 has a vent function and is configured to facilitate the observation by introducing air from the outside of the device.

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On the other hand, the portion through which the air connecting the inhaler 150 and the discharger 170 passes is present as an empty space, and the secondary coil portion of the other electromagnetic field generator 130 is filled with iron to generate the electromagnetic field.

With such a configuration, the meteorological observer using the magnetic field according to the present invention is a sensor for expressing the observation form and intensity as an output value which is an electric current value that reacts by observing yellow dust, snow, rainfall, drizzle, and fog particles in an electromagnetic form. Accordingly, the apparatus can observe the current weather and weather (prediction) using rain, fog, snow, yellow dust particles, etc. in the air using electromagnetic fields.

2 is a view showing an inhaler 150 of the weather observer using the magnetic field of FIG. 1 according to an embodiment of the present invention. 1 and 2, the inhaler 150 includes a pair of copper plates 151 and a second variable resistor 152.

The pair of copper plates 151 are formed in a plate shape of a square (2.5 cm x 2.5 cm), and are formed at intervals of the length of one side of the corresponding square, which is a preset length on the vertical of one copper plate and the other copper plate. .

The second variable resistor 152 is formed to control the intensity of the current applied to the pair of copper plates 151.

3 is a view showing the suction discharger 140 in the weather observer using a magnetic field according to another embodiment of the present invention. 1 and 3, the suction discharger 140 formed in the secondary coil at the lower end of the electromagnetic field generator 130 may deform the suction passage in which the inhaler 150 and the discharger 170 are connected to a cylindrical shape.

In this case, the primary coil of the upper end in the electromagnetic field generator 130 is also deformable into a cylindrical shape as in the secondary coil shown in FIG.

On the other hand, in the suction discharge generator 140, which is the secondary coil of the electromagnetic field generator 130 forming the suction passage, N wires are wound around the cylindrical outer circumferential surface, and 3N wires are wound around the cylindrical inner circumferential surface.

4 is a view showing the inhaler 150 of the inhalation discharger 140 of FIG. 3 according to another embodiment of the present invention. 1 to 4, the inhaler 150 of FIG. 3 includes a pair of copper plates 151 and a second variable resistor 152, similarly to the inhaler 150 of FIG. 1.

The pair of copper plates 151 are formed in a plate shape of a square (50 mm x 50 mm), and are formed at half intervals of the length of one side of the square, which is a preset length on a vertical of one copper plate and the other copper plate.

The second variable resistor 152 is formed to control the intensity of the current applied to the pair of copper plates 151.

5 is a flowchart illustrating a weather observation method using a weather sensor according to an embodiment of the present invention. 1 to 5, the weather observer user using the magnetic field adjusts the transformer 110 and the first variable resistor 120 (S11) to adjust the electromagnetic field generated by the electromagnetic field generator 130 (S12). ).

According to step S12, the ejector 170 is operated by the data logger 210 connected to the digital tester 160 so that air is sucked into the inhaler 150 and passes through the suction passage (S13).

Accordingly, the digital tester 160 generates an output value by observing the intensity of the current that changes when air passes, and outputs the output value to the monitor 220 or the data logger 210 (S14).

More specifically, the data logger 210 transmits or stores the output value to the mobile terminal 230 or the computer 240 connected with the data cable.

That is, the digital tester 160 observes the change in the magnetic field generated in this case, the air that is sucked through the inhaler 150 passes through the electromagnetic field, and observes the degree of change in current and voltage.

In one embodiment of the present invention, an example of the output value measured by the digital tester 160 is that the air made of liquid or water vapor is output as a strong current due to the particle characteristics when passing through the electromagnetic field, the yellow dust particles of the current The output is weak.

As described above, the specification and the drawings have been described with respect to the preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

110: transformer 120: the first variable resistor
130: electromagnetic field generator 140: suction exhaust generator
150: inhaler 151: a pair of copper plate
152: second variable resistor 160: digital tester
170: ejector
210: data logger 220: monitor
230: mobile terminal 240: computer

Claims (7)

An electromagnetic field generator for generating an electromagnetic field according to changes of the transformer and the first variable resistor;
An inhaler that sucks air in the atmosphere and allows the sucked air to pass through a point where an electromagnetic field is generated by the electromagnetic field generator;
An ejector which performs a ventilation function to allow air to flow into the inhaler from outside the apparatus to facilitate observation;
A digital tester which generates an output value by observing the intensity of the current that changes when air passes through the suction passage connected to the inhaler and the discharger, and outputs it to a monitor or a data logger; And
A mobile terminal or a computer which receives the output value from the data logger and outputs the output value; Weather observer using a magnetic field comprising a.
The method of claim 1, wherein the digital tester,
The weather observer using a magnetic field, characterized in that for observing the change in the magnetic field generated when the air sucked through the inhaler passes through the electromagnetic field to vary the current and voltage.
The method of claim 2, wherein the output value measured by the digital tester,
Air made of liquid or water vapor is a large value due to the particle characteristics when passing through the electromagnetic field, yellow dust particles are output to a small value characterized in that the magnetic observer using a magnetic field.
The method of claim 1, wherein the inhaler,
A pair of copper plates which are formed in a square plate shape and are formed at a predetermined length on a vertical line between one copper plate and another copper plate; And
A second variable resistor formed to control an intensity of a current applied to the pair of copper plates; Weather observer using a magnetic field comprising a.
A first step of controlling an electromagnetic field generated by the electromagnetic field generator by adjusting the transformer and the variable resistor;
The ejector is operated by a data logger connected to the digital tester, in which air is sucked into the inhaler and passes through the intake passage; And
A third step of the digital tester observing the intensity of the electric current changing as the air passes, generating an output value, and outputting the output value to a monitor or the data logger; And a weather station using a magnetic field observer using a magnetic field, characterized in that for outputting the output value from the data logger to a portable terminal or a computer.
The method of claim 5, wherein in the third step:
The digital tester uses a meteorological observer using a magnetic field to observe the degree of change in current and voltage generated by observing a change in the magnetic field generated when the air sucked through the inhaler passes through the electromagnetic field. Weather observation method.
The method of claim 6, wherein in the third step:
The output value measured by the digital tester, the air consisting of liquid or water vapor is output as a large value due to the particle characteristics when passing through the electromagnetic field, yellow dust particles are output to a small value characterized in that the weather observer using a magnetic field Weather observation method using.

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