CN201328927Y

CN201328927Y - Automatically light changing protective spectacle for electric welding

Info

Publication number: CN201328927Y
Application number: CNU2009200316579U
Authority: CN
Inventors: 赵放放
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-01-09
Filing date: 2009-01-09
Publication date: 2009-10-21
Anticipated expiration: 2019-01-09

Abstract

The utility model discloses an automatically light changing protective spectacle for electric welding which includes a direct current main, an eyeglass frame composed by eyeglass casing and the eyeglass leg, two protective glasses lens installed on the eyeglass casing, a circuit board installed on upper part of the eyeglass casing middle and a light-sensitive circuit for inducing extraneous light, two protective glasses lens are also a liquid crystal light valve or one is a liquid crystal light value and another is a black sunglass lens, the circuit board is equipped with a control circuit for controlling the liquid crystal; the control circuit connects with the direct current main through a cut-in-out switch K1, a square wave generating circuit for providing electrical power to the liquid crystal light value, and a sensitivity control circuit for controlling and adjusting the square wave generating circuit, the light-sensitive circuit connects with the sensitivity control circuit. The automatically light changing protective spectacle for electric welding has simple structure, small volume, low cost, easy operation and better using effect which can solve problem that the electric welding protective eyeglass can not protect welder eyesight efficiently.

Description

Electric welding automatic beam change protective spectacles

Technical field

This utility model relates to a kind of electric welding protective spectacles, especially relates to a kind of electric welding automatic beam change protective spectacles.

Background technology

In the arc welding field, employed traditional protective mast mostly is the hand-held electric welder's helmet greatly, and this hand-held electric welder's helmet all is that one of embedding can stop infrared ray and ultraviolet dark glass on its window, and during use, hand shield blocks back and forth.Use in this type of hand-held electric welder's helmet welding process, if cover face with face shield before the welding, then the welder will cannot see solder joint; If the reuse face shield covers face after the striking, welder's vision and face will be subjected to the stimulation of electric arc high light simultaneously so, in addition, take hands of welder during use for a long time, operation inconvenience.

Along with technical development, nowadays also there is a kind of protective mast that is applicable to the employing large-area liquid crystal photo chromic glass in the thermoluminescence welding cutting as the protective cover glass screen on the market, the control section of its glass screen has has only adopted photocell element, does not have sensitivity adjustment device and other control circuit part; Though what have has adopted the sensitivity adjustment device; but the equal more complicated of its control circuit and protective roof structure; thereby the fair needed technical standard of weldering cover that all do not reach of existing protective cover photo chromic glass; can not play complete protective effect to welder's vision; and large-area liquid crystal photo chromic glass cost is too high, and is very uneconomical.

The utility model content

Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art; a kind of electric welding automatic beam change protective spectacles are provided; it is simple in structure, volume is little, cost is low and it is easy to operate to use, result of use good, can effectively solve the electric welding protective spectacles can not effectively carry out safeguard protection to welder's vision problem.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of electric welding automatic beam change protective spectacles, it is characterized in that: the frame that comprises dc source, forms by picture frame and mirror lower limb, be installed in the picture frame two protection glass, be installed on the circuit board of picture frame center upper portion and in real time extraneous light carried out induced photosensitive circuit, described two protection glass are liquid crystal light valve or one and are liquid crystal light valve and another black ink eyeglass, and circuit board is provided with the control circuit that liquid crystal light valve is controlled; Described control circuit joins by on and off switch K1, with dc source and square wave generation circuit that liquid crystal light valve is powered and square wave generation circuit carried out the sensitivity adjustment circuit of regulating and controlling, and described photosensitive circuit and sensitivity adjustment circuit join.

Be connected to an inversion step-up circuit that dc source voltage is promoted between described dc source and square wave generation circuit, the voltage signal of dc source is transported to square wave generation circuit behind inversion step-up circuit and rectification circuit.

Described square wave generation circuit comprises G1, G2, G3 and four NAND gate of G4, wherein G1 and G4 are the NAND gate of three inputs, G2 and G3 are the NAND gate of two inputs, an input of G1, G2, G3 and four NAND gate of G4 all joins with sensitivity adjustment circuit, the outfan of G1 joins with another input of G2 and G3 respectively, and another input of the outfan of G3 and G4 joins; The outfan of G3 is connected to the outfan of G1 and another input of G1 through resistance R 5 and R6 respectively after capacitor C 3; The 3rd input of G1 and G4 joins with the positive supply outfan of rectification circuit and the negative pole of dc source respectively; The outfan of G2 and G4 joins with the positive-negative power end of liquid crystal light valve respectively.

Described inversion step-up circuit comprises resistance R 1 and R2, inductance L 1 and L2 and capacitor C 1, the base stage of audion G1 anodal and its base stage through connecing dc source after the resistance R 1 connects the negative pole of dc source successively after inductance L 2, resistance R 2 and capacitor C 1, the colelctor electrode of audion G1 connects the positive pole of dc source and the negative pole that its emitter stage connects dc source after inductance L 1; Described rectification circuit is made up of diode D1 and electrochemical capacitor C2, and the colelctor electrode of the positive pole of diode D1 and audion G1 joins, and the negative pole of diode D1 is connected to the negative pole of dc source behind electrochemical capacitor C2.

Described photosensitive circuit is a photodiode; Described sensitivity adjustment circuit is by potentiometer W1, resistance R 3 and the R4 of serial connection form successively, the negative pole of the sliding end of potentiometer W1 and diode D1 joins, potentiometer W1 is connected to the positive pole of photodiode successively behind resistance R 3 and R4, the negative pole of photodiode and the negative pole of dc source join.

The positive-negative power end of described liquid crystal light valve also is connected to a resistance R 7.

Described liquid crystal light valve be shaped as rectangle.

Described picture frame and mirror lower limb are made by plastics and the mirror lower limb is scalable mirror lower limb.

Described picture frame arranged outside is useful on the battery case of placing dc source, and described on and off switch K1 is installed in the battery case outside; Described dc source is a rechargeable battery.

Described liquid crystal light valve divides four layers and be followed successively by coated reflective eyeglass, two black liquid crystal light valve sheets and a transparent glass sheet from outside to inside.

This utility model compared with prior art has the following advantages, and 1, simple in structure and processing and fabricating is convenient.2, the control circuit simplicity of design of liquid crystal light valve and circuit board volume are little, and electronic chip has been realized the miniaturization design.3, result of use is good, adopt the square-wave signal that square wave generation circuit produced to make liquid crystal light valve produce the variation conversion of light and shade, the square-wave signal that square wave generation circuit produces can effectively overcome the color trapping phenomena that liquid crystal light valve is produced when pure DC voltage is worked.4, control circuit is reasonable in design and use easy and simple to handle, in the actual use, by photosensitive circuit is that photodiode GD1 responds to extraneous light in real time and it is delivered to sensitivity adjustment circuit after optical signal that is detected is converted to the signal of telecommunication, according to the real-time institute of photosensitive circuit detection signal, being that potentiometer W1 is corresponding by sensitivity adjustment circuit controls adjustment to square wave generation circuit afterwards.5, do not need to use the large-area liquid crystal photo chromic glass, the area that its liquid crystal light valve that uses is a liquid crystal color-changing glass is less, thereby can reduce cost greatly; And can one in two protection glass being installed in the picture frame another is common black ink eyeglass for liquid crystal light valve, therefore, can further reduce cost of manufacture.6, easy to install and use and good looking appearance, only need during use with these protective spectacles put on can and result of use good, be particularly useful in the spot weld operation.In a word, this utility model is simple in structure, volume is little, cost is low and it is easy to operate to use, result of use good, can effectively solve the electric welding protective spectacles can not effectively carry out safeguard protection to welder's vision problem.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is an external structure sketch map of the present utility model.

Fig. 2 is a circuit block diagram of the present utility model.

Fig. 3 is the circuit theory diagrams of Fig. 2.

Description of reference numerals:

The 1-picture frame; The 2-circuit board; The 3-liquid crystal light valve;

The 4-photodiode; The 5-dc source; The 7-square wave generation circuit;

The 8-sensitivity adjustment circuit; The 9-photosensitive circuit; The 10-inversion step-up circuit;

The 11-rectification circuit; The 12-charger; 13-mirror lower limb;

The 14-battery case.

The specific embodiment

As shown in Figure 1 and Figure 2, the frame that this utility model comprises dc source 5, be made up of picture frame 1 and mirror lower limb 13, be installed in the picture frame 1 two protection glass, be installed on the circuit board 2 of picture frame 1 center upper portion and in real time extraneous light carried out induced photosensitive circuit 9, described two protection glass are liquid crystal light valve 3 or one and are liquid crystal light valve 3 and another black ink eyeglass.It is the control circuit that light valve GF controls that described circuit board 2 is provided with liquid crystal light valve 3; Described control circuit joins by on and off switch K1, with dc source 5 and square wave generation circuit 7 that liquid crystal light valve 3 is powered and square wave generation circuit 7 carried out the sensitivity adjustment circuit 8 of regulating and controlling, and described photosensitive circuit 9 joins with sensitivity adjustment circuit 8.In addition, four layers of described liquid crystal light valves 3 minutes and be followed successively by coated reflective eyeglass, two black liquid crystal light valve sheets and a transparent glass sheet from outside to inside, that is to say that this liquid crystal light valve 3 is made up of a coated reflective eyeglass, two black liquid crystal light valve sheets and a transparent glass sheet.

In the present embodiment, 7 of described dc source 5 and square wave generation circuits are connected to an inversion step-up circuit 10 that dc source 5 voltages are promoted, and the voltage signal of dc source 5 is transported to square wave generation circuit 7 behind inversion step-up circuit 10 and rectification circuit 11.In the actual use, when the voltage of dc source 5 satisfies the running voltage of liquid crystal light valve 3, then do not need inversion step-up circuit 10.

In conjunction with Fig. 3, described inversion step-up circuit 10 comprises resistance R 1 and R2, inductance L 1 and L2 and capacitor C 1, the base stage of audion G1 anodal and its base stage through connecing dc source 5 after the resistance R 1 connects the negative pole of dc source 5 successively after inductance L 2, resistance R 2 and capacitor C 1, the colelctor electrode of audion G1 connects the positive pole of dc source 5 and the negative pole that its emitter stage connects dc source 5 after inductance L 1; Described rectification circuit 11 is made up of diode D1 and electrochemical capacitor C2, and the colelctor electrode of the positive pole of diode D1 and audion G1 joins, and the negative pole of diode D1 is connected to the negative pole of dc source 5 behind electrochemical capacitor C2.

Described square wave generation circuit 7 comprises G1, G2, G3 and four NAND gate of G4, wherein G1 and G4 are the NAND gate of three inputs, G2 and G3 are the NAND gate of two inputs, an input of G1, G2, G3 and four NAND gate of G4 all joins with sensitivity adjustment circuit 8, the outfan of G1 joins with another input of G2 and G3 respectively, and another input of the outfan of G3 and G4 joins; The outfan of G3 is connected to the outfan of G1 and another input of G1 through resistance R 5 and R6 respectively after capacitor C 3; The 3rd input of G1 and G4 joins with the positive supply outfan of rectification circuit 11 and the negative pole of dc source 5 respectively; The outfan of G2 and G4 joins with the positive-negative power end of liquid crystal light valve 3 respectively.

Described photosensitive circuit 9 is diode GD1 for photodiode 4.Described sensitivity adjustment circuit 8 is by potentiometer W1, resistance R 3 and the R4 of serial connection form successively, the negative pole of the sliding end of potentiometer W1 and diode D1 joins, potentiometer W1 is connected to the positive pole of photodiode 4 successively behind resistance R 3 and R4, the negative pole of the negative pole of photodiode 4 and dc source 5 joins.The positive-negative power end of described liquid crystal light valve 3 also is connected to a resistance R 7.

In the actual use, described dc source 5 is for being installed in the built-in power in the framework 1 or being positioned at the external power supply of framework 1 outside, and described dc source 5 is charged by external special charger 12 for rechargeable battery and its.In the present embodiment, the shape of described liquid crystal light valve 3 is rectangle, and described picture frame 1 and mirror lower limb 13 are made by plastics and mirror lower limb 13 is scalable mirror lower limb.Described picture frame 1 arranged outside is useful on the battery case 14 of placing dc source 5, and described on and off switch K1 is serially connected in the current supply circuit of dc source 5, and described on and off switch K1 is installed in battery case 14 outsides.In addition, photodiode 4 is installed on picture frame 1 center upper portion and is positioned at circuit board 2 belows.

The above; it only is preferred embodiment of the present utility model; be not that this utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of technical solutions of the utility model according to this utility model technical spirit.

Claims

1. electric welding automatic beam change protective spectacles, it is characterized in that: the frame that comprises dc source (5), forms by picture frame (1) and mirror lower limb (13), be installed in the picture frame (1) two protection glass, be installed on the circuit board (2) of picture frame (1) center upper portion and in real time extraneous light carried out induced photosensitive circuit (9), described two protection glass are liquid crystal light valve (3) or one and are liquid crystal light valve (3) and another black ink eyeglass, and circuit board (2) is provided with the control circuit that liquid crystal light valve (3) is controlled; Described control circuit joins by on and off switch K1, with dc source (5) and square wave generation circuit (7) that liquid crystal light valve (3) is powered and square wave generation circuit (7) carried out the sensitivity adjustment circuit (8) of regulating and controlling, and described photosensitive circuit (9) joins with sensitivity adjustment circuit (8).

2. according to the described electric welding of claim 1 automatic beam change protective spectacles, it is characterized in that: be connected to an inversion step-up circuit (10) that dc source (5) voltage is promoted between described dc source (5) and square wave generation circuit (7), the voltage signal of dc source (5) is transported to square wave generation circuit (7) behind inversion step-up circuit (10) and rectification circuit (11).

3. according to the described electric welding of claim 2 automatic beam change protective spectacles, it is characterized in that: described square wave generation circuit (7) comprises G1, G2, G3 and four NAND gate of G4, wherein G1 and G4 are the NAND gate of three inputs, G2 and G3 are the NAND gate of two inputs, an input of G1, G2, G3 and four NAND gate of G4 all joins with sensitivity adjustment circuit (8), the outfan of G1 joins with another input of G2 and G3 respectively, and another input of the outfan of G3 and G4 joins; The outfan of G3 is connected to the outfan of G1 and another input of G1 through resistance R 5 and R6 respectively after capacitor C 3; The 3rd input of G1 and G4 joins with the positive supply outfan of rectification circuit (11) and the negative pole of dc source (5) respectively; The outfan of G2 and G4 joins with the positive-negative power end of liquid crystal light valve (3) respectively.

4. according to claim 2 or 3 described electric welding automatic beam change protective spectacles, it is characterized in that: described inversion step-up circuit (10) comprises resistance R 1 and R2, inductance L 1 and L2 and capacitor C 1, the base stage of audion G1 anodal and its base stage through connecing dc source (5) after the resistance R 1 connects the negative pole of dc source (5) successively after inductance L 2, resistance R 2 and capacitor C 1, the colelctor electrode of audion G1 connects the positive pole of dc source (5) and the negative pole that its emitter stage connects dc source (5) after inductance L 1; Described rectification circuit (11) is made up of diode D1 and electrochemical capacitor C2, and the colelctor electrode of the positive pole of diode D1 and audion G1 joins, and the negative pole of diode D1 is connected to the negative pole of dc source (5) behind electrochemical capacitor C2.

5. according to the described electric welding of claim 4 automatic beam change protective spectacles, it is characterized in that: described photosensitive circuit (9) is a photodiode (4); Described sensitivity adjustment circuit (8) is by potentiometer W1, resistance R 3 and the R4 of serial connection form successively, the negative pole of the sliding end of potentiometer W1 and diode D1 joins, potentiometer W1 is connected to the positive pole of photodiode (4) successively behind resistance R 3 and R4, the negative pole of the negative pole of photodiode (4) and dc source (5) joins.

6. according to the described electric welding of claim 2 automatic beam change protective spectacles, it is characterized in that: the positive-negative power end of described liquid crystal light valve (3) also is connected to a resistance R 7.

7. according to claim 1,2 or 3 described electric welding automatic beam change protective spectacles, it is characterized in that: described liquid crystal light valve (3) be shaped as rectangle.

8. according to claim 1,2 or 3 described electric welding automatic beam change protective spectacles, it is characterized in that: described picture frame (1) and mirror lower limb (13) are made by plastics and mirror lower limb (13) is scalable mirror lower limb.

9. according to claim 1,2 or 3 described electric welding protective cover electronic light valve, it is characterized in that: described picture frame (1) arranged outside is useful on the battery case (14) of placing dc source (5), and described on and off switch K1 is installed in battery case (14) outside; Described dc source (5) is a rechargeable battery.

10. according to claim 1,2 or 3 described electric welding protective cover electronic light valve, it is characterized in that: described liquid crystal light valve (3) divides four layers and be followed successively by coated reflective eyeglass, two black liquid crystal light valve sheets and a transparent glass sheet from outside to inside.