KR101657141B1 - Glare protecting apparatus and method for controlling the same - Google Patents

Abstract

The present invention relates to an anti-glare device and a control method thereof for reducing the illuminance of light incident on a front LCD of a protective mask so that an operator does not apply light of high illuminance generated in a welding operation to an operator's eye, Which can change the illuminance of the LCD by adjusting the light transmittance so as to protect the operator's eyes from the light generated from the welding operation, A control unit for receiving a signal sensed by the optical signal detecting unit or the RF signal detecting unit and generating a driving control command according to the RF signal, The LCD driver adjusts the illuminance of the LCD by controlling the light transmittance by the drive control of the controller Comprising, wherein the control unit after entering the light-blocking mode only when both the received and the optical signal of the RF signal, and enters the light-blocking mode is determined to keep the light shielding mode enable only whether the RF signal received.
According to the present invention, only when the optical signal and the RF signal are inputted simultaneously, it is recognized as the step of entering the shading mode, and the shading mode is driven so that the shading cut-off speed is fast and unnecessary light shielding Mode. In the light-shielded mode, the controller recognizes only the RF signal to generate a shield mode hold or release command, thereby improving work efficiency between welding operations without glare due to the malfunction of releasing the shield mode during welding .

Description

TECHNICAL FIELD [0001] The present invention relates to a glare prevention device and a control method thereof,

The present invention relates to an anti-glare device and a control method thereof for reducing the illuminance of light incident on a front LCD of a protective mask so that an operator does not apply light of high illuminance generated in a welding operation to an operator's eye, The system recognizes the optical signal and the RF signal generated in the welding operation and recognizes the signal as the welding operation start signal only when the two signals are input together and recognizes that the welding operation is maintained only by the RF signal. When the welding operation is not detected for a predetermined period of time, it is determined that the welding operation has been canceled, thereby preventing the malfunction of the shading mode other than the welding operation, and a control method thereof.

Generally, in welding work, a high-intensity light is generated, and a protective mask should be worn to protect the operator's eyes.

The conventional protection mask includes a light shielding glass and protects the operator's eyes by moving the protection mask to the face when the welding operation is started with the operator grasping the mask with one hand. In such a case, the worker must grasp the protective mask with his or her hand at all times, and thus the fabrication work becomes very disadvantageous.

In this case, the LCD is provided with an anti-glare plate to reduce the illuminance of light applied to the operator's eyes by controlling the transmittance of light into the LCD in a state where the operator does not grasp the protective mask An anti-glare device is disclosed.

The operation of such an anti-glare device allows the light intensity of the LCD to be adjusted by using light detecting means for detecting light generated between the welds.

However, in the case of using only the optical detecting means, a malfunction frequently occurs due to a difference in detection signals and interference light that may occur depending on the type of welding and welding machine.

In other words, when the low current welding, the outdoor welding and the thin plate welding, the light detection sensitivity is increased. At this time, the anti-glare plate should be brightened by reacting with the surrounding interference light. Malfunctions occur.

An anti-glare device further comprising an RF signal detecting means for solving the above problems is disclosed.

The anti-glare device to which the RF signal detection means is added uses the RF signal detection system regardless of the working environment, so that the light transmittance of the anti-glare plate is unnecessarily undesirably caused by a lot of electromagnetic waves generated in the surrounding environment other than the worker's welding So that it is possible to prevent the precise operation of the operator from being interrupted.

To solve this problem, a method of selectively using an optical signal detection and an RF signal detection method is disclosed in Korean Patent No. 611935.

In Korean Patent No. 611935, only the optical detection means is used or the optical detection means and the electromagnetic wave detection means are used at the same time according to the conditions of the surrounding environment. However, when only optical detection is used, In addition, after the light is detected by the optical detection means, the control unit applies the operation signal of the electromagnetic wave detection means to detect the electromagnetic wave, so that the shading cut-off speed becomes slow and an error occurs in adjusting the sensitivity.

Therefore, it is possible to overcome the unreasonable point of the conventional anti-glare device, to recognize it as the welding start signal only when the RF signal is detected with the light detection, and then determine the welding operation cancellation only by the RF signal, There is a need for an anti-glare device capable of accurately performing a welding operation so as not to cause malfunction such as being blocked by a light source.

Korea Patent No. 611935

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for operating a light shielding apparatus, .

Another object of the present invention is to determine only the RF signal detected in the light-shielded mode driving state as the welding operation holding signal, and to prevent the malfunction by allowing the light-shielded mode to be released only when the RF signal is not detected for a predetermined time.

According to an aspect of the present invention, there is provided an anti-glare device capable of changing an illuminance of an LCD by adjusting a light transmittance to protect an operator's eye from light generated from a welding operation, An RF signal detector for detecting an RF signal generated during a welding operation through the antenna, and a signal detector for detecting a signal detected from the optical signal detector or the RF signal detector, And a LCD driver for adjusting a light transmittance of the LCD to change an illuminance of the LCD by driving control of the controller, wherein the controller is configured to receive the optical signal and the RF signal, And enters the light shielding mode only when it is received. After entering the light shielding mode, the light shielding mode .

The controller may further include a comparator for outputting a trigger signal to the controller when the optical signal detected by the optical signal detector and the RF signal detected by the RF signal detector are received together within a predetermined period of time.

The comparison unit may be an end gate for receiving two signals of an optical signal and an RF signal and outputting a falling edge signal to the control unit when two signals are input together, .

A method of controlling an anti-glare device for protecting an operator's eye from light generated from a welding operation, the method comprising: detecting an optical signal and an RF signal generated during a welding operation; The control unit transmits a shading mode driving signal to the LCD driving unit to adjust the light transmittance to lower the illuminance of the LCD to a predetermined value or less. After entering the shading mode, And determining whether to maintain the shading mode only by whether the RF signal is received or not.

In addition, an optical signal and an RF signal generated in a welding operation are input to a comparator. When the comparator inputs two input signals together within a predetermined time, the comparator outputs a falling edge signal to the controller. And recognizing the falling edge signal as a trigger signal and entering a shading mode.

If the RF signal transmitted to the controller in the shading mode holding step is not received at a predetermined time interval or more, the control unit recognizes the RF signal as a shading mode release and transmits a shading mode releasing signal to the LCD driving unit, And returning to the light-shielding mode when the optical signal and the RF signal are received together with the control unit after the shading mode is canceled.

According to the present invention, only when the optical signal and the RF signal are inputted simultaneously, it is recognized as the step of entering the shading mode, and the shading mode is driven so that the shading cut-off speed is fast and unnecessary light shielding Mode. In the light-shielded mode, the controller recognizes only the RF signal to generate a shield mode hold or release command, thereby improving work efficiency between welding operations without glare due to the malfunction of releasing the shield mode during welding .

1 is a block diagram showing a main configuration of an anti-glare device according to the present invention.
2 is a circuit diagram showing an example of an anti-glare device according to the present invention.
3 is a flowchart showing the operation sequence of the anti-glare device according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a main configuration of an anti-glare device according to the present invention, and FIG. 2 is a circuit diagram showing an example of an anti-glare device according to the present invention.

Referring to FIG. 1, an anti-glare device according to the present invention reduces an illuminance of light applied by an operator to the eyes of a worker through a front LCD between welding operations, and includes an optical signal detecting unit 10, an RF signal detecting unit 20, A comparator 30 for outputting a falling edge signal when the optical signal or the RF signal is input together, a controller 40 for receiving a falling edge signal or an RF signal to generate a control signal, And an LCD driver 50 for changing the illuminance of the LCD by driving control.

The optical signal detecting unit 10 detects light generated during a welding operation and further includes an amplifying and filtering unit 12 for detecting an optical signal having an effective wavelength band in a signal input from the photosensor 11 .

The RF signal detecting unit 20 receives electromagnetic waves generated during a welding operation through the antenna 21 and is resonated and detected. The RF signal detecting unit 20 detects the RF signal from a signal of an electromagnetic wave applied to the antenna 21 It is preferable that a resonant circuit and an amplifying and filtering unit 12 are further included to receive the frequency of the band.

The apparatus may further include a sensitivity adjusting unit 22 for adjusting the sensitivity of the RF signal detected by the RF signal detecting unit 20 to transmit only the RF signal having a specific sensitivity to the controller 40.

The comparing unit 30 receives the optical signal detected by the optical signal detecting unit 10 and the RF signal detected by the RF signal detecting unit 20 and outputs a falling edge signal to the control unit 40 when the optical signal and the RF signal are recognized together. .

More specifically, when the two signals of the optical signal and the RF signal are input and the two input signals are input together within a predetermined time, the bar issuing unit 30 outputs the falling edge signal to the control unit 40, The control unit 40 recognizes the falling edge signal output from the comparison unit 30 as a trigger signal and generates an LCD drive control command in accordance with entry into the shading mode.

In addition, the control unit receives the RF signal detected through the RF signal detecting unit 20, generates a shading mode hold control command according to the application of the RF signal, monitors the signal change, and if a change does not occur, Preferably the microcomputer or the control circuit including the microcomputer, in which the drive control command is stopped.

The LCD driving unit 50 controls the light transmittance of the LCD to reduce the illuminance of light applied to the operator's eyes through the LCD by the drive control command of the controller 40. [

When the optical signal and the RF signal are inputted together, the anti-glare device according to the present invention recognizes and controls the optical signal and the RF signal as entering the shading mode only. After the start of the shading mode, the control unit 40 outputs only the RF signal as the shading mode holding signal If the RF signal is not recognized in the control unit 40 for a predetermined time, the control unit 40 recognizes the signal as a shading mode release signal and controls the LCD driver 50 to release the shading mode.

Hereinafter, a control method of the anti-glare device according to the present invention will be described in more detail.

3 is a flowchart showing the operation sequence of the anti-glare device according to the present invention.

Referring to the drawings, the anti-glare device according to the present invention, when a worker wears a protective mask equipped with an anti-glare device to start a welding operation, the photo sensor 11 senses the light The RF signal detector 20 detects the electromagnetic waves generated between the welds in step S220 and the two signals are input to the comparator 30 in step S230 ).

When two signals input to the comparator 30 are input together within a predetermined time, the comparator 30 outputs a falling edge signal to the controller 40 (S240).

Thus, the control unit 40 recognizes the falling edge signal as the trigger signal and transmits the shading mode driving signal to the LCD driver 50 (S250).

When the optical signal and the RF signal are not input simultaneously or simultaneously in the comparator 30, the falling edge signal is not outputted to the controller 40, and the comparator 30 outputs the two signals of the optical signal and the RF signal Are continuously inputted and compared.

When the shading mode driving signal is transmitted to the LCD driving unit 50, the LCD driving unit 50 adjusts the light transmittance so that the illuminance of the LCD falls below a predetermined value at step S260.

After the start of the shading mode, the control unit 40 continuously receives the RF signal (S270). If the RF signal is continuously received, the control unit 40 recognizes the RF signal as the shading mode holding step and continues to maintain the shading mode (S280).

If the RF signal is not recognized during the predetermined time interval in the shading mode maintaining step, the control unit 40 recognizes the RF signal as a shading mode releasing step, transmits a shading mode driving cancel signal to the LCD driving unit 50, (S290). In this case, as shown in Fig.

Then, when the comparator 30 receives the optical signal and the RF signal again, the comparator 30 outputs a falling edge signal to the controller 40, and the controller 40 repeats the above operation (S230).

As described above, the anti-glare device according to the present invention recognizes only the two signals of the optical signal and the RF signal as the welding operation start step, so that the operation of generating the light, such as grinding, To prevent malfunction caused by light generated in the environment.

In addition, the welding operation maintenance step is not recognized as an optical signal but only the RF signal is recognized between the welding operations. When the RF signal is not detected for a predetermined time, it is determined that the welding operation is canceled. .

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the scope of the appended claims should include all such modifications and changes as fall within the scope of the present invention.

10: optical signal detecting unit 11: photo sensor
12: amplification and filtering unit 20: RF signal detection unit
21: antenna 22: sensitivity adjusting section
30: comparator 40:
50: LCD driver

Claims (6)

1. An anti-glare device capable of changing an illuminance of an LCD by adjusting a light transmittance to protect an operator's eyes from light generated from a welding operation,
An optical signal detecting unit for detecting light generated in the welding operation by the photo sensor;
An RF signal detector for detecting an RF signal generated during a welding operation through an antenna;
A control unit for receiving a signal sensed by the optical signal detecting unit or the RF signal detecting unit and generating a driving control command according to the received signal;
An LCD driver for adjusting illuminance of the LCD by controlling light transmittance by driving control of the controller;
A comparator for outputting a trigger signal to the control unit when the optical signal detected by the optical signal detecting unit and the RF signal detected by the RF signal detecting unit are received together within a predetermined time; Including,
The comparator is an end gate for receiving two signals of an optical signal and an RF signal and outputting a falling edge signal to the controller when the two signals are input together. The controller recognizes the falling edge signal as a trigger signal The control unit enters the light-shielding mode only when the optical signal and the RF signal are both received, and if the RF signal is not received beyond a predetermined time interval after entering the light-shielding mode, And transmits the shading mode cancel signal to the LCD driving unit. When the optical signal and the RF signal are received together, the control unit determines that the shading mode is entered again after the shading mode is canceled.
delete delete A control method of an anti-glare device for protecting an operator's eye from light generated from a welding operation,
Detecting an optical signal and an RF signal generated during a welding operation;
Inputting the detected optical signal and RF signal to a comparator;
Outputting a falling edge signal to the control unit when the comparison unit inputs the two input signals together within a predetermined time;
Recognizing the falling edge signal as a trigger signal and recognizing the falling edge signal as a step of entering a shading mode;
Transmitting a shading mode driving signal to the LCD driver through the control unit to adjust the light transmittance to lower the illuminance of the LCD to a predetermined value or less;
Determining whether the shading mode is maintained only when the control unit receives the RF signal after entering the shading mode; Including,
If the RF signal transmitted to the controller in the step of determining whether to maintain the shading mode is not received over a predetermined time interval, the control unit recognizes the shading mode release and transmits a shading mode canceling signal to the LCD driving unit step;
And when the optical signal and the RF signal are simultaneously received by the control unit after the shading mode is released, entering the shading mode again.
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