JP3036847U - Eye protection device for arc welding - Google Patents

Abstract

(57) An object of the present invention is to provide an arc-welding eye protection device which immediately shuts off the moment when an arc strong light is generated. A liquid crystal display device 21, a liquid crystal display drive circuit device 22, a photoelectric conversion circuit device 23, a reference voltage generation circuit device 24, a comparison and expansion circuit device 25, a rectification and wave filter circuit device 26, a transistor switch circuit device 27, Cycle generating circuit device 28,
And a DC power supply device 29. Photoelectric conversion circuit device 23
When the LCD detects the strong arc light, the liquid crystal display device 21
To present an opaque state to block strong arc light.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to an eye protection device for arc welding workers.

[0002]

[Prior art]

 Conventional arc welding protection masks are roughly divided into two types: hand-carry type and head-cap type. Among them, the hand-carry type must bring a protection mask to the front of the face immediately before the arc occurs, and the head-cap type must lower the eye protection lens in front of the eyes. Only in this way can the eyes be protected from the intense light produced by the arc, and these arc welding protect masks can achieve the expected effect. However, arc welding workers are often tired from long hours of work, tend to forget the above-mentioned actions to protect their eyes from carelessness, and are prone to occupational diseases.

[0003]

[Problems to be solved by the device]

 The technical problem to be solved by the present invention is to solve the problem that an arc welding operator is likely to inadvertently cause an occupational disease due to fatigue of work, and can immediately interrupt the arc strong light when it is used for arc welding. It is to provide an eye protection device.

[0004]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems, the eye protection device for arc welding of the present invention is fixed to the view window portion of the protection mask for arc welding, is composed of an LCD model unit, and has a liquid crystal display with two input ends. The device adopts a NAND gate, provides two input signals and two output signals, and the two output signals are connected to the two input terminals of the liquid crystal display device, the liquid crystal display driving circuit device, the light emitting diode, the electrical device. A photoelectric conversion circuit that is composed of a resistor and an electric capacitance, and when the light emitting diode in it generates strong voltage, it generates an open circuit voltage and the electric resistance is used as a load to isolate the direct current. A series of devices and diodes is used to provide the basic voltage, and a variable electrical resistance is used to provide the reference voltage required by the photoelectric conversion circuit device. The reference voltage generating circuit device that supplies the divided voltage is operated under a single power supply by the operation expansion device, and the photoelectric conversion circuit device inputs the AC signal of this operation expansion device and expands and outputs the comparison and expansion circuit device and the diode. A rectification and wave filter circuit device that is composed of a capacitor and a condenser, and rectifies and wave filters the AC signal output and expanded by the comparison and expansion circuit device described above, and the AC signal after the rectification and wave filtering process described above is a transistor switch circuit. When the base signal of the device is reached and the base voltage is lower than the impact voltage of the transistor, the rising electrical resistance on the collector raises the collector voltage to the voltage of the system in close proximity, and the divided base voltage impacts. When the voltage is higher than the voltage, the transistor opens. It is composed of a Langistor switch circuit device, two NAND gates, and a spontaneous multivibrator composed of electrical resistance and capacitance, and generates two periodic waves whose polarities are opposite to each other. Used to supply the input signal of the liquid crystal display drive circuit device, supply the cycle generation circuit device that uses the deflection voltage of the liquid crystal display device, and the power supply of each of the above-mentioned constituent circuit devices, and control the on / off by the slide switch. It is characterized by including a DC power supply device, and when the photoelectric conversion circuit device detects arc strong light during arc welding, it causes the liquid crystal display device to present an almost opaque state and shuts off the arc strong light. It is a thing. In the above arc welding eye protection device, the liquid crystal display device should maintain a nearly opaque state when no power is supplied or when there is a problem with other devices. The wave-filtered AC signal is directly input to the transistor switch circuit device to provide an ON / OFF control signal to the liquid crystal display drive circuit device, and the control signal has a low potential, and the liquid crystal display drive circuit device When the two output signals are at high potential, the liquid crystal display device exhibits an almost opaque state because the voltage reference is the same, and when the control signal is at high potential, the signal in the reciprocating direction is the liquid crystal display device. It is appropriate to let the person present a transparent state. Furthermore, the above arc welding eye protection device can be directly installed on the view window of a mask that conforms to the JIS TS 8142-1980 standard. The eye protection device for arc welding with the above configuration is a transparent, visible liquid crystal display device that originally has a function of blocking infrared rays, ultraviolet rays, etc. when arc welding momentarily generates strong arc light. It is transformed into an almost opaque state, blocking the high light and achieving the effect of preventing eye damage. Moreover, the present invention allows a user who already has an eye protect mask to continue using the existing device. In this way, the purpose of replacement and function expansion is achieved.

[0005]

[Embodiment of the invention]

 First, please refer to FIGS. These are external views of the present invention applied to head mask type and hand carry type arc welding protection masks 10 and 10 '. The view windows 11, 11 'of the arc-welding protection masks 10, 10' are such that the eye protector 20 of the present invention is fixedly installed inside the view windows 11, 11 'and can be replaced. is there. 3 and 4 are an inner plan view and an outer stand view of the eye protector 20 of the present invention.

Please continue to refer to FIG. FIG. 5 is a block diagram of the constituent circuit of the present invention. The eye protection device 20 is mainly composed of a liquid crystal display device 21, a liquid crystal display drive circuit device 22, a photoelectric conversion circuit device 23, a reference voltage generation circuit device 24, a comparison and expansion circuit device 25, a rectification and wave filter circuit device 26. , A transistor switch circuit device 27, a cycle generation circuit device 28, a DC power supply device 29, and the like. Next, please also refer to FIG. FIG. 6 is a circuit diagram of each constituent device of the present invention. As shown in the figure, the present invention is designed by using components with low working voltage under the dual consideration of cost reduction and safety improvement, and mainly adopts low working voltage and low working current. . Among them, the liquid crystal display device 21 is composed of at least two LCD model units. Further, the liquid crystal display drive circuit device 22 adopts two NAND gates and provides three input signals (OSC1, CTRL, OSC2), and when the CTRL is at a high potential, the output signals (LCD +, LCD-) is generated. The two output signals (LCD +, LCD−) are connected to the two input ends (LCD +, LCD−) of the liquid crystal display device 21, and the two input ends (LCD +, LCD−) are connected to the liquid crystal display device 21. The polarized plate electrodes on both ends are mainly controlled. When the voltage reference across the liquid crystal display device 21 is the same, the liquid crystal display device 21 does not operate and remains in a substantially opaque state. When the voltage references at both ends are different, the liquid crystal display device 21 changes to a transparent and visible state.

Next, the photoelectric conversion circuit device 23 will be described. The photoelectric conversion circuit device 23 is composed of a light emitting diode (PD1, PD2), an electric resistance (R5), and an electric capacity (C3). Among them, the light emitting diodes (PD1, PD2) generate a circuit opening voltage when receiving strong light. Further, the electric resistance (R5) is used as a load, and the electric capacity (C3) is used to isolate the direct current. It is opposed to the reference voltage of the reference voltage generating circuit device 24. The reference voltage generating circuit device 24 mainly uses two light emitting diodes (D1, D3) connected in series to provide a basic voltage. Further, the variable electric resistance (VR1) is used to generate a divided reference voltage required by the photoelectric conversion circuit device 23. Further, the comparison and expansion circuit device 25 is operated under a single power source by the operation expansion device (UI), and the photoelectric conversion circuit device 23 receives the AC signal of the operation expansion device (UI) and outputs the expansion output (the The AC signal corresponds to the reference voltage provided by the reference voltage generating circuit device 24.). The magnified output AC signal achieves the rectification and wave filter effect of the signal through the rectification and wave filter circuit device 26 configured by the light emitting diode (D2) and the capacitor (C5).

Further, the signal after the rectification and wave filter processes described above becomes a base signal of the transistor switch circuit device 27. When the base voltage is less than the transistor's impact voltage, the rising resistance (R6) on the collector raises the collector voltage to the voltage of the adjacent system. When the divided base voltage is higher than the impact voltage, the transistor is opened and the collector voltage drops to around 0.27 volt. The cycle generation circuit device 28 is a spontaneous multivibrator composed of two NAND gates, electric resistances (R3, R4) and electric capacitances (C1, C2), and generates two periodic waves whose polarities are opposite to each other. be able to. The output signals in the reciprocating direction are used to provide the input signals (OSC1 and OSC2) of the liquid crystal display drive circuit device 22, which are used as the deflection voltage of the liquid crystal display device. The DC power supply 29 supplies the power required by each of the above-mentioned components, and a slide switch 291 is installed separately. The slide switch 291 is used by an arc welding operator to turn on / off the eye protector 20 of the present invention. It is a switch that controls off.

As described above, when the slide switch 291 of the DC power supply device 29 is turned on, the power supply required by each device described above is supplied, and the liquid crystal display device is in an almost opaque state when the power is not supplied. 21 immediately changes to a transparent state. Its main purpose is to enable the arc welding operator to perform visual arc welding work, and to prevent the arc welding operator's eyes from being unable to be protected when a failure occurs in one of the components. It is to be. Further, the photoelectric conversion circuit device 23 at any time searches for whether or not strong arc light is generated, and determines whether or not to cause the liquid crystal display device 21 to present a substantially opaque state. At this time, the comparison and expansion circuit device 25 and the photoelectric conversion circuit device 26 are used to compare with the reference voltage facing the reference voltage generation circuit device 24. Then, the AC signal output by the photoelectric conversion circuit device 23 is expanded and output. After that, the AC signal is rectified and wave-filtered by the rectifying and wave filter circuit device 26, and then input to the transistor switch circuit device 27 to be an ON / OFF control signal for the liquid crystal display drive circuit device 22. The control signal is at low potential (around 0.27 volts). Further, when the two output signals of the liquid crystal display drive circuit device 22 are at high potential, the liquid crystal display device 21 is in an almost opaque state because the voltage reference is the same. When the control signal is at a high potential, the signal in the reciprocating direction causes the liquid crystal display device 21 to present a transparent state. At the same time, the liquid crystal display driving circuit device 22 provides the cycle signal together with the cycle generating circuit device 28. Thus, when the occurrence of arc strong light is detected, the liquid crystal display device 21 is changed at any time to achieve the eye protection effect.

[0010]

[Effect of the invention]

 As described in detail above, the eye protection device for arc welding of the present invention can replace the manually operated eye protection lens, that is, the view window of the current eye protection mask for arc welding. Since it can be installed directly on top, the existing arc welding eye protection mask can be used continuously without needing to be discarded, and unnecessary waste can be avoided. Also, when the eye protection device is switched off or when there is a problem, it shuts off strong arc light and presents a nearly opaque state, but once turned on, it maintains a transparent and visible state immediately. To do. Moreover, when it senses the strong light emitted by arc welding, its transparent state instantly changes to an opaque state that blocks strong light that is harmful to the eyes such as infrared rays and ultraviolet rays. In this way, it is possible to prevent damage to the eyes of the arc welding operator. Furthermore, it is very safe for arc welders because it uses a low working current.

[Brief description of the drawings]

FIG. 1 is an external perspective view of the present invention applied to a head-cap type arc welding protection mask.

FIG. 2 is an external perspective view of the present invention applied to a hand carry type arc welding protection mask.

FIG. 3 is a plan view of the inside of the eye protection device of the present invention.

FIG. 4 is an outer perspective view of the eye protection device of the present invention.

FIG. 5 is a block diagram of the eye protection device configuration circuit of the present invention.

FIG. 6 is a circuit diagram of each device of the eye protection device of the present invention.

[Explanation of symbols]

10 Head cap type protection mask for arc welding 10 'Hand carry type protection mask for arc welding 11, 11' View window of protection mask 20 Eye protection device

Claims (4)

[Utility model registration claims] 1. A liquid crystal display device fixed to the view window portion of a protection mask for arc welding and composed of an LCD model unit, having a two-input end, and a NAND gate are adopted, and two input signals and two output signals are provided. The two output signals are provided by the liquid crystal display drive circuit device connected to the two input terminals of the liquid crystal display device, the light emitting diode, the electric resistance, and the capacitance, and the light emitting diode therein receives strong light. When the open-circuit voltage is generated and the electric resistance is used as a load, the electric capacity is used to isolate the direct current, and the photoelectric conversion circuit device is used. The reference voltage generating circuit device that supplies the reference voltage required by the photoelectric conversion circuit device by using the It is operated under a power source, and the photoelectric conversion circuit device is composed of a comparison and expansion circuit device, a diode and a capacitor, which inputs the AC signal of this arithmetic expansion device and expands and outputs it. Rectification and wave filter circuit device for rectifying and wave-filtering the AC signal to be processed, the above-mentioned AC signal after rectification and wave filter processing is the base signal of the transistor switch circuit device,
When the base voltage is lower than the impact voltage of the transistor, the rising electrical resistance on the collector raises the collector voltage to the voltage of the adjacent system, and when the divided base voltage is higher than the impact voltage, the transistor opens. It is composed of a transistor switch circuit device, two NAND gates, and a spontaneous multivibrator composed of electric resistance and capacitance, and generates two periodic waves whose polarities are opposite to each other. A DC power supply that supplies an input signal to the display drive circuit device and that supplies a power to each of the above-described component circuit devices and a cycle generation circuit device that uses the deflection voltage of the liquid crystal display device, and is controlled to be turned on / off by a slide switch. Device, including photoelectric conversion circuit device Upon sensing the arc strong light when, to present a substantially opaque state to a liquid crystal display device, to cut off the arc strong light, arc welding eye protection device, characterized in that. 2. The arc-welding eye protection device according to claim 1, wherein the liquid crystal display device maintains a substantially opaque state when power is not supplied or when there is a malfunction in the other device. . 3. The rectifying and wave-filtering circuit device rectifies and wave-filters the AC signal, which is directly input to the transistor switch circuit device to provide an ON / OFF control signal to the liquid crystal display drive circuit device. Is low potential, and when the two output signals of the liquid crystal display drive circuit device are high potential,
The liquid crystal display device exhibits an almost opaque state because the voltage reference is the same, and when the control signal is at a high potential, the signal in the reciprocating direction causes the liquid crystal display device to present a transparent state. The eye protection device for arc welding according to claim 1 or 2. 4. The eye protection device for arc welding according to claim 1, wherein the eye protection device for arc welding is configured so that it can be directly installed on a view window of a mask conforming to JIS TS 8142-1980 standard. .