KR200235454Y1 - A sensor by electric wave - Google Patents

Abstract

The present invention relates to a sensing device using electromagnetic waves, and to detect the electromagnetic wave generation area and the proximity of the operator to the electromagnetic wave generation area by comparing and detecting the atmosphere and the attached electromagnetic wave.

That is, the present invention is an atmospheric electromagnetic wave detector 10 for detecting electromagnetic waves emitted from the electronic device to the atmosphere, and the attached electromagnetic wave detector 20 for detecting the electromagnetic waves of the attachment such as the installation target electronic device and the inserter, and The two phase detectors are mixed by comparing the phase inversion unit 11 for inverting the phase of the electromagnetic wave signal input from the atmospheric electromagnetic wave detector 10 and the electromagnetic wave signals input from the phase inversion unit 11 and the attached electromagnetic wave detector 20. A comparison output unit 30 which compares and outputs an electromagnetic signal only when one of the detectors is input, a signal detection unit 40 which detects only a signal from the electromagnetic signal output from the comparison output unit 30, and the signal detection unit ( The controller 50 is configured to control the display means by receiving the signal output from 40.

Description

Sensor using electric wave {A sensor by electric wave}

The present invention relates to a sensing device using electromagnetic waves, and more particularly, to compare and detect atmospheric and attached electromagnetic waves in order to detect the proximity of the operator to the electromagnetic wave generating region and the electromagnetic generating region.

A commonly used sensing device, in particular, a non-contact sensing device, senses by using infrared rays or ultrasonic waves. The sensing process is to detect infrared rays or ultrasonic waves emitted from the sensing device and reflected from a sensing object.

However, the conventional sensing device as described above has a problem in that the object and the width of the sensing has a directionality so that it cannot be detected when it is out of a specific range. There existed a problem, such that the functionality was limited.

In addition, the electromagnetic wave detection device that detects electromagnetic waves emitted from the electronic device is mainly to enable the user to detect when approaching the electromagnetic wave generator in a portable state, when a person who does not carry the electromagnetic wave detector approaches the electronic device There is a problem that can only be exposed to electromagnetic waves.

Accordingly, the present invention has been made to solve the above-described problems, by detecting the electromagnetic wave in the atmosphere and the attached electromagnetic wave to detect the proximity to the electromagnetic region of the user and to detect the electromagnetic region.

1 is a block diagram showing an embodiment according to the present invention.

2 is a main circuit diagram showing an embodiment according to the present invention.

Figure 3 is a block diagram showing another embodiment according to the present invention.

<Description of the code | symbol about the principal part of drawing>

10: atmospheric electromagnetic wave detector 11: phase inversion unit

20: attaching electromagnetic wave detector 30: comparison output unit

40: signal detector 50: controller

61: voice display unit 62: light emitting display unit

70: magnetic field sensing unit

Hereinafter, described in detail by the accompanying drawings as follows.

The present invention is to detect the proximity of the user to the electromagnetic wave area using the electromagnetic wave, and to detect the electromagnetic wave area, the atmospheric electromagnetic wave detector 10 for detecting the electromagnetic wave emitted from the electronic device to the atmosphere, An attaching electromagnetic wave detector 20 for detecting electromagnetic waves by being landed on an installation unit such as an installation target electronic device and an inserter, a phase inversion unit 11 for inverting the phase of the electromagnetic signal input from the atmospheric electromagnetic wave detector 10; A comparison output unit 30 that compares and outputs an electromagnetic signal input from only one of the two detectors by mixing and comparing the electromagnetic signals input from the phase inversion unit 11 and the attachment electromagnetic wave detector 20, and comparing A signal detector 40 for detecting only a signal from an electromagnetic wave signal output from the output unit 30, and a display means for receiving a signal output from the signal detector 40; It is comprised of controller 50 to control.

Here, the comparison output unit 30 is a comparison unit amplifier for amplifying a signal that is compared with a plurality of bias resistors for controlling the input of the electromagnetic signal input through the standby electromagnetic wave detector 10 and the attached electromagnetic wave detector 20. It can be configured and implemented.

The signal detector 40 includes a direct current filter for extracting only an AC component signal from a signal input from the comparison output unit 30, a detection amplifier for amplifying an electromagnetic signal output from the direct current generator, and the detection amplifier from the detection amplifier. It can be implemented by constructing a rectifier which detects and outputs only a signal of a DC component from the AC signal outputted.

In addition, the display means may be implemented by a voice display unit 61 and a light emitting display unit 62, wherein the voice display unit 61 is operated by a switch transistor controlled by a voice control unit composed of an end gate. The light emitting display unit 62 may include a resistor and a light emitting diode to display the amount of electromagnetic waves in multiple stages according to the output of the signal input to the controller 50. will be.

On the other hand, the attachment electromagnetic wave detector 20 can be implemented by configuring the case constituting the body as a detector.

In addition, in using the present invention, the magnetic field generated from the electronic device to be installed by the controller 50 so that the controller 50 can control the operation of the display means according to the operation of the electronic device to be installed when the user is used as a proximity sensor. It can be implemented by having a magnetic field sensing unit 70 for detecting and inputting the.

Hereinafter, the use of the present invention will be described.

As described above, the present invention includes an atmospheric electromagnetic wave detector 10, an attached electromagnetic wave detector 20, a phase inversion unit 11, a comparison output unit 30, a signal detection unit 40, a control unit 50 and display means. In use, when using as a proximity blocker of the user using the electronic device, when explaining the operation process, the present invention is first installed on the electronic device.

When the electronic device is operated while the present invention is installed in the electronic device as described above, electromagnetic waves are emitted from the electronic device, and an electric field is formed by the electromagnetic waves in the surrounding atmosphere and the case of the present invention.

At this time, the attached electromagnetic wave detector 20 composed of the atmospheric electromagnetic wave detector 10 and the case detects the electromagnetic wave and outputs an electromagnetic wave signal.

On the other hand, the electromagnetic wave signal output from the atmospheric electromagnetic wave detector 10 is inverted in phase from the phase inversion unit 11 and input to the comparison output unit 30, the electromagnetic wave signal output to the attached electromagnetic wave detector 20 is the phase It is input to the comparison output section 30 without inversion.

As described above, the two electromagnetic wave signals input to the comparison output unit 30 to the two detectors are offset in phase and thus no signal is output from the comparison output unit 30.

At this time, when the user is close to the electronic device, the electric field formed by electromagnetic waves in the air is grounded through the human body so that the electric field of the air disappears, so that the electromagnetic wave signal is not input from the atmospheric electromagnetic wave detector 10.

As described above, when the electromagnetic wave signal is not input from the standby electromagnetic wave detector 10 and the electromagnetic wave signal is input only from the attached electromagnetic wave detector 20, the electromagnetic wave signal is output from the comparison output unit 30 to the signal detection unit 40. The signal detection unit 40 receiving the electromagnetic signal from the 30 detects only the DC component signal from the electromagnetic signal and outputs the signal to the control unit 50, and the control unit 50 receiving the signal from the signal detection unit 40 is inputted. The light emitting display unit 62 and the voice display unit 61 are controlled according to the size of the signal to warn the user of the proximity, thereby preventing the user from being excessively exposed to electromagnetic waves.

On the other hand, the present invention can be used as an intrusion detector by installing the present invention in all the equipment generating electromagnetic waves and adjusting the sensitivity of the atmospheric electromagnetic wave detector (10).

In addition, when the electromagnetic wave is to be detected using the present invention, the case approaching to the electromagnetic wave generating superiority area is inserted while the case forming the attached electromagnetic wave detector 20 is inserted.

As described above, when the case is approached to the region where the electric field is formed by the electromagnetic waves, the atmospheric electromagnetic wave detector 10 and the attached electromagnetic wave detector 20 detect the electromagnetic waves, and the electromagnetic wave detected by the attached electromagnetic wave detector 20 The electric field is grounded through the body of the inserter, and the electromagnetic wave signal is output to the comparison output unit 30 only in the atmospheric electromagnetic wave detector 10.

As described above, when the electromagnetic wave signal is inputted only in the standby electromagnetic wave detector 10, the electromagnetic wave signal is output from the comparison output unit 30. Thus, the display such as the voice display unit 61, the light emitting display unit 62, and the like is operated as in the above-described proximity detector operation. In the Sudan, the sound signal and the light indicating the electromagnetic region are made, so that the reader can recognize the electromagnetic region.

On the other hand, by having a magnetic field sensing unit 70 in the present invention it is possible to prevent the operation in other electronic devices that are not installed when a plurality of electronic devices are installed in succession.

Therefore, the present invention detects an electric field formed by electromagnetic waves emitted from an electronic device through an atmospheric electromagnetic wave detector and an attached electromagnetic wave detector, thereby preventing the user of the electronic device from being overexposed to the electromagnetic wave.

By installing in an area where electromagnetic waves are generated, it can be used as an intrusion detector for detecting intruders.

In addition, it can be used as a detector for detecting the presence of electromagnetic waves of electronic devices is very useful.

Claims (3)

An atmospheric electromagnetic wave detector 10 for sensing electromagnetic waves emitted from the electronic device to the atmosphere; An attaching electromagnetic wave detector 20 which lands on an attaching object such as an installation target electronic device and an inserter and detects electromagnetic waves; A phase inversion unit (11) for inverting the phase of the electromagnetic wave signal input from the atmospheric electromagnetic wave detector (10); A comparison output unit (30) for mixing and comparing the electromagnetic signals inputted from the phase inverting unit (11) and the attaching electromagnetic wave detector (20) when the electromagnetic signal is inputted from only one of the two detectors; A signal detector 40 detecting only a signal from the electromagnetic signal output from the comparison output section 30; And a control unit (50) configured to control the display means by receiving the signal output from the signal detection unit (40). The method of claim 1; The display means is a sensing device using electromagnetic waves, characterized in that consisting of a voice display unit 61 and the light emitting display unit (62). The method of claim 1, The magnetic field sensing unit detects and inputs a magnetic field generated by the installation target electronic device to the control unit 50 so that the control unit 50 can control the operation of the display means according to the operation of the installation target electronic device when the user is used as the proximity sensor. A sensing device using electromagnetic waves, characterized in that it is provided with (70).