Protestion device for a welder
专利摘要:
The present invention relates to a protective device for performing work in areas of greatly varying light intensities, comprising a viewing window having a portion provided with a pair of relatively adjustable grid supports with the movement of said supports being adapted to be controlled by electromagnetic means in response to the intensity of light incident on said protective device and/or the type of light, and which allow the affected portion of said viewing window to be darkened (dimmed) or rendered translucent, whereby said grid supports comprise a material being permeable to light in the visible range of spectrum and said darkening portions (the grid strips) comprise a material being highly absorbent to light in the visible range of spectrum. In a particular embodiment, the protective or safety device serves as a protective hood or helmut on as a protective shield for performing protective welding work; corresponding modification, however, this device may be used also in foundries, rolling mills, physical laboratories and similar facilities where the human eye must be protected against excessive intensities of light. 公开号:SU984397A3 申请号:SU762421901 申请日:1976-11-11 公开日:1982-12-23 发明作者:Джоханес Ван Ден Берг Хенрикус;Корнелиус Антониус-Мария Хюркманс Герадус 申请人:Текниш Бюро А.Б.О.Ф.1972 Б.В.(Фирма); IPC主号:
专利说明:
(54) PROTECTIVE DEVICE FOR A WELDER This invention relates to safety devices used during operation. in a zone of highly fluctuating light intensity, for example, welding. A protective helmet with a protective window for welding and cutting, etc., is known. whose protective glass consists of two parts. The lower part of such a helmet consists of a weakly transparent substance hindering harmful rays, and its upper part is a transparent part for observation. This part is made in the form of a grid that can be opened and zryvovat c. The opening and closing of the grid is generated by small electromagnets that act; Depending on the passage of the current through the welding mount. A file or a cutter. It is also known to construct lattices that have movable and fixed carriers of the grids, and the movable carrier of the lattice can be moved back and forth against the force with the help of an electrically magnetic device; 2. With the help of well-known devices it is impossible to obtain a very short closing time (less than 1 ms), which causes exceptionally effective eye protection, due to lack of atkrm for universal application of the known devices is that the safety device must be connected to the welding machine current loop. In particular, if several persons are present during the welding process (student training), all cannot be connected to a limited number of connecting terminals. In addition, so-called welding booths are also known, in which the process must be observed outside by the third. When using a protective device in foundries and rolling mills, in addition, there is no current loop to which the protective device could be connected at all. The closest to the invention of the technical essence is a protective device for the welder, which contains a protective helmet with a viewing window and a front panel with a movable and stationary light filter placed on it, of which the movable is connected using a core to a driving electromagnetic coil connected to the photosensitive element and source of direct current 3. A disadvantage of the known device is the low reliability of operation and the lack of safety of service during welding operations. The purpose of the invention is to increase the reliability and safety of services. This goal is achieved by the fact that the device is equipped with a second electromagnetic coil mounted on the front panel, placed parallel to the first and made with an additional winding connected to a DC source, and an additional photosensitive element connected to this coil, as well as frames placed on both sides of the shell and made of a material, which is completely residual magnetism, while on the front panel there is a spring of tension associated with the core. In addition, the device is equipped with a control switch connected to a direct current source, which allows to check the operation of the device when the photosensitive elements are disconnected. In FIG. 1 shows a welding helmet with a replaceable viewing WINDOW; in fig. 2 and 3 - lattice carriers moved in each other; in fig. 4 is a scheme for controlling the movement of grating carriers; in fig. 5 - replaceable viewing window, top view; in fig. 6 shows a modified motion control scheme for the lattice carrier. The welding protective helmet 1 consists of a helmet part, which can be fixed by a belt 2, and from a viewing window 3. The replaceable viewing window 3 is placed on the front panel 4 and consists of a moving and fixed light filters 5 (Fig. 5). The front panel 4 can be extended and pushed along the guides 6 (Fig. 1). The light filter 5 of the viewing window 3 consists of two gratings 7 and 8 located in the arc of the light filters 7. The overlying grid 7 is fixedly attached to the viewing window panel 4 with its corners, while the underlying grid 8 is located in a large step and is moving in both directions relative to grids 7. Of FIG. Figures 2 and 3 show that the grating has openings 9 and strips 10 and 11. If the strips are mounted one above the other (Fig. 2), a strongly light-absorbing state is reached. The grids themselves consist of grating carriers made of glass or transparent plastic. Lattice strips (opaque substance printed, deposited, etched or deposited using photographic methods. In this case, any method is suitable for applying a strong substance to a ceramic or other carrier. Mobile grid 8 is rigidly connected to block 12, which ends with a trunnion 13. Trunk 13 is inserted Measuring steel 14, consisting of two cheeks 15 and 16. A connecting bolt 13 is pushed between the cheeks, as in a slot, and held there in a slot. Anchor 14 is pulled together with a movable carrier by means of an extension spring 17 the lattice, so that the latter is pressed against the guides 18. The armature is set movably with ryms 19 and 20 by means of two small coils 21 and 22 of electromagnets, through which the current flows at the desired switching position and they pull the bore 14. At the same time, the ends of the ryms act as contact surfaces (Fig. 4). The material of the frame is steel, which, after switching off the current, retains a known residual magnetization, so that the measles in the corresponding last position remains in contact with both contact surfaces E LRG. When moving the core together with the grille B, the block 12 moves. The amplitude of motion (indicated by arrow A and B) is of such magnitude that the lattice stripes are one above the other in one position and exactly above the gaps in the other position, which leads to dimming. In order to strengthen the closing effect of the magnets and so that the grid carrier locks securely when the battery is loosened, a small spring 23 is fixed on the bark 14. The spring 23 is strengthened so that it doesn’t measles together with the grid carrier in the direction of shaking. Due to this spring at low current, the measles are always in the direction of closure, and if the current in the coil is not enough, the measles are pulled away from the end of the coil. In addition, at the termination of the general current of the battery, the window is closed. The coil 22 (retainer) of the open position of the window can be provided with a second small winding with a constantly flowing certain small current which causes the coil 22 to act so that the window is outputted against directing the pull of the spring to the open position. This small voltage when driving the second winding does not affect the rest of the switching process. If, however, the current ceases, then the window is closed. Contacts, coils and other moving and electronic components form a part of the system that acts in conjunction with photoelectric elements, which are also located on the protective helmet and, with increasing light intensity, control the movement of the gratings. FIG. 4 is a diagram of a device suitable for this electronic switch. The device contains two photosensitive transistors 24 and 25 connected in series. The collector of transistor 24 is connected through a series of photoresistor 26, a resistor 27 (Fig. 4) and a switch 28 connected to a pole of a DC source. The emitter of transistor 24 is connected to ground. The collector of the transistor 24, in addition, is connected to both inputs 29 of the valve 30. The output 31 of the latter is connected to the input 32 of the valve 33. The input 34 of the valve 33 through a resistor 35 is connected to the positive plus of the positive potential. The output 36 of the valve 33 through a resistor 37 is connected to the base of the transistor 38, the emitter of which is at a positive potential, and the collector of which is connected to ground through series-connected resistors 39 and 40. The connection point of resistors 39 and 40 is connected to the base of the Darlington dual circuit at transistors 41 and 42. The emitter of transistor 42 is connected to ground, and both collectors are connected to positive potential through a circuit from a parallel connection of an induction coil and a diode 43. The collector of the transistor 24, in addition, is connected to the input 44 of the valve 45, the input 46 of which through a resistor 47 is connected to the positive potential. The output 48 of the valve 45 through the resistor 49 is connected to the base of the transistor 50. The emitter of the transistor 50 is at a positive potential. The collector is connected in series through the resistors 51 and 52 to ground. The connection point of resistors 51 and 52 is connected to the base of the transistor 53, the emitter of which is connected to ground, and the collector is connected to a positive potential through a parallel-connected coil 22 and diode 54. The input 34 of the valve 33 is connected to the contact surface 55. The input 46 of the valve 45 is connected to the fixed contact point 56 of the switch 57, which is connected to ground potential by one of the contacts 56 or 55. Coils 21 and 22 are the excitation windings of the electromagnets rm 19 and 20, which are shown with a common crust 14 (Fig. 5). Phototransistors 24 and 25 (Fig. 5) are placed in special sleeves that are directed to the source of light. Phototransistors are connected in series and in such a way that other sources of light from the environment do not affect them as much as possible. For this, the phototransistors are embedded in small glasses so that a funnel-shaped angle of incidence of light arises, whereby transistors react only to a signal inside this angle and interfering light outside the angle does not strike the phototransistors. In the collector circuit of transistors 24 and 25 0 included also light sensitive. An LDR resistor 27, which serves to make automatic, possibly more precise adjustment of transistors 24 and 25 according to ambient light. It does not depend on the actual measured light source, but is irradiated solely by ambient light. Resistor 27 limits the maximum current through the transistors 24, 25 and resistor 26. 0 If the array is in the open position, at which the phototransistors 24 and 25 remain in the locked position, the transistors go to 5 is the conductive state when light falls on them. Inputs 29 of valve 30 are set to a logic zero, and the output 31 of valve 30 is set to a logical unit. The input 34 of the valve 33 is at the unit level through 0, a resistor 35. At the input 32, a valve 33 is set to a logical unit and as a result, at the output 36, a logical zero. Due to this, the transistors 38, 41 and 42 become 5 in the TC conductive. A current flows through the coil 21, which attracts the measles and moves the mobile grid 8 to the closed position. In addition, due to the rotation of the core, the switch of the switch of the switch 57 moves to the contact surface 55. If at this point, thanks to the contact of the lever switch 5 57 a contact surface occurs, a logical zero is seen at the input 34, and a logical unit at the output 36, and therefore the transistors 38, 41 and 42 are locked and the current no longer flows through the coil 21. The translucent system remains closed state (due to residual magnetism of the coil 21). five If the light source weakens, then the phototransistors 4 and 5 are locked. At the inlet 44, the valve 45 is set to a logical unit. The input 46 is also set to the level of the logic unit through the resistor 47, so that at the output 48 a logical zero is set. The transistors 50 and 53 become conductive and flow through the coil 22 5 current. The magnetic field of katyuzhi 22 t no measles against the direction of the gland of the coil 21, as a result of which the moving grating is shifted to the open position. In addition, due to the rotation of the core, the switch 57 moves with to the surface of the contact 56. If it reaches it, a logical zero is established at the input 46, and a logical unit is output at the output 48. Transistors 50 and 53 are locked and the current through the coil 22 is interrupted. Due to this transparent system of gratings remains in the open position. For verification testing of the switching process, a control switch 58 is provided which stimulates the action of the phototransistors 24 and 25. The switch 58 is connected at one end to the ground and the other end to the inputs of the gates 30 and 45. If the switch 58 is pressed under the open grid, the output of the valve 30 is set per unit. In the rest s.uch x such is caused. the same action that has already been explained for the method of switching phototransistors 24 and 25. In addition, instead of a mechanically operating control switch, the body 58 is provided with an electronic device. (Fig. 6). Switch 58 consists mainly of one of the known square-wave voltage generators, which, operating in self-oscillation mode, continuously supplies pulses with a duration of about 2 ms to valve 30. Thanks to this, the welder learns that the shutdown device is working normally., In switch 58, valves 59-62 are for this purpose connected to a current source that is turned on at the input of the valve. 59. Using the feedback control 63 and the diode 64, respectively, a switching pulse is generated from step to step, which, at the output of the valve 61, has a rectangular shape. Instead of an input circuit (Fig. 4 for phototransistors (Fig. 6), another switching circuit for photosensitive transistors (type F of the PT 100) Branch with transistors 65 and 6.6 connect the dinen not directly to the gate 30, but through the potentiometer to the base of the transistor 67. As the light hits the transistors 65 and 66, the emitter-base voltage of the transistor 67 changes, so that the input 30 of the valve 30 is a logical zero. At the same time, the already described switching process is triggered. With a change in potentiometer 68, the sensitivity of the photosensitive switching can be controlled. branches, due to the fact that the resistance of the potentiometer between the transistors 65, 66 and 68, 67 is made less (more sensitive), as well as the fact that it increases (insensitive). The image of a valve 69 with a series-connected diode 70 and a capacitor 71 makes it possible that the window remains closed until the electric arc disappears. This lasts for a certain time, until the input current at input 44 of valve 45 switches the input 44 by one through the locking resistance of diode 70 and opens the grating by switching coil 22. At the same time, the eyes are protected from intense infrared light. welding places In order to adapt to different types of light (spectra) and welding, the viewing window, together with the gratings, is replaceable. In this case, the electronic part together with the phototransistors is mounted on a protective device (protective helmet). The cheeks of the core take on pin 13, so that the helmet immediately after insertion of the viewing window is ready to work again. In addition, it is also possible to connect a still smaller filter with replaceable parts, which, when inserted, inserts phototransistors, and also changes their characteristics. Along with a uniform distribution of the bands, it is also possible to assign the distribution and arrangement of the bands to another: 1. Material bands vary thickness. If it is made thicker at the bottom than at the top, then all the normal values will absorb the radiation along the lattice height to absorb the radiation. 2. The grille held in the frame is made only as a grille in the lower part, while the upper part has a definite, strong light absorption and is fixed. In this form of execution, only a small mass participates in the motion, which further reduces the switching time. 3. The window, according to type 2, is designed so that the upper part consists of two lying behind each other windows with grids, which can be manually shifted relative to each other, regardless of the magnetically controlled lower part. Thanks to the appropriately designed 1st thickness of the grating strips and the shape of the strips, it is possible to manually set the upper part to a certain transmission capacity.
权利要求:
Claims (3) [1] These options are mainly based on the fact that the viewing window consists of two parts, the upper part being permanently fixed for a certain transmission and the lower part moving and opening and closing with the help of a circuit. The invention contributes to the safety of work associated with the occurrence of oscillating light intensity. Claim 1. Protective device for the welder, containing a protective helmet with a viewing window and a front panel with a fixed and placed under the filter light filters, of which the movable is connected by means of a core with a drive electromagnetic coil connected to a photosensitive element and a DC source , characterized in that, in order to increase reliable operation and safety of service, it is provided with a second electromagnetic coil mounted on the front panel placed parallel to first and made with an additional winding connected to a direct current source and connected to this cataclysum additional photosensitive element, as well as with rms located on both sides of the core and made of a material with residual magnetism, while a tension spring is attached to the front panel associated with the bark. 2. The device according to claim 1, which is designed so that, in order to ensure the verification of the operation of the device when the photosensitive elements are switched off, the device is equipped with a control switch, connected to a DC source. Sources of information taken into account in the examination of Germany Patent No. 572153, cl. 30 27/02, 1933. [2] 2. The patent of Great Britain 834021, cl. 75 (4) C, 1960. [3] 3. Authors certificate of the USSR 447154, cl. A 61 F 9/06, 1974. 9 10 / / fig. :) euf / aus Phage. if "ac j
类似技术:
公开号 | 公开日 | 专利标题 SU984397A3|1982-12-23|Protestion device for a welder DE2315308B2|1974-04-04|Device for protecting the human eye against radiation Rüffer et al.1990|Flagellar photoresponses of Chlamydomonas cells held on micropipettes: I. Change in flagellar beat frequency DE2611736A1|1976-10-07|ELECTRICAL POWER CIRCUIT US3137784A|1964-06-16|Device for protecting the eyes of welders DE4318871A1|1993-12-16|Coin acceptor DE2511362B2|1980-05-22|Electromagnetic actuation circuit for a camera DE1254377B|1967-11-16|Tape recorder for a tape housed in a cassette with a photoelectric limit switch DE2158951C3|1979-10-25|Anti-glare device for drivers DE3518262C2|1988-03-31| AT225515B|1963-01-25|Circuit arrangement for automatic control of the exposure time DE4401069C1|1995-07-27|Device for detecting surge currents on lightning rods or the like DE935751C|1955-12-01|Motor-driven coffee grinder DE3040238C2|1982-12-09|Photographic device DE2604067A1|1976-08-05|Exposure information display and film marking device - has light source and system of mirrors and half mirrors CA1069366A|1980-01-08|Copying device with electromagnetic cover release DE947753C|1956-08-23|Arrangement for comparing two light paths of different intensities using the alternating light method US2408576A|1946-10-01|Apparatus for integrating radiant energy JPS572069A|1982-01-07|Fixing method DE2726968B2|1979-07-19|Photo camera DE1956756C3|1978-08-10|Exposure control circuit for a photographic camera DE102015105250A1|2016-10-13|Method and device for data input DE2532260A1|1976-01-29|CONTROL DEVICE DE853922C|1952-10-30|Photocell motor SU809270A1|1981-02-28|Examining post
同族专利:
公开号 | 公开日 DE2550559B2|1978-02-09| NL172118C|1983-07-18| SE423307B|1982-05-03| IT1064355B|1985-02-18| CA1113756A|1981-12-08| SE7612144L|1977-05-12| NL7612168A|1977-05-13| JPS5261149A|1977-05-20| BE848136A|1977-03-01| US4130903A|1978-12-26| GB1564419A|1980-04-10| FR2331321A1|1977-06-10| FR2331321B1|1982-11-19| DE2550559A1|1977-09-29| BR7607529A|1977-09-20| JPS5438055B2|1979-11-19| DE2550559C3|1981-07-16| NL172118B|1983-02-16|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 DE572158C|1930-07-30|1933-03-11|Tobis Tonbild Syndikat Akt Ges|Method and device for obtaining sound recording copies by means of step-by-step copying of successive sound recording sections| DE572153C|1931-02-12|1933-03-11|Aeg|Protective hood with protective windows used for welding, cutting or the like| US1959915A|1932-09-22|1934-05-22|Charles C Guthrie|Lensless spectacles| US2232455A|1936-10-20|1941-02-18|Hebrard Leon|Spectacles or goggles| GB834021A|1956-07-17|1960-05-04|Bailey Meters Controls Ltd|Improvements in or relating to incandescent electric lamp means for producing a stabilised or controlled light flux| US3238535A|1963-11-04|1966-03-08|Richey Willie Hugh|Welding helmet| US3460079A|1967-07-07|1969-08-05|Ite Imperial Corp|Polarized electromagnet| GB1430183A|1972-03-27|1976-03-31|Aga Ab|Device for the protection of an operators eyes against intensiveradiation| US3873804A|1972-04-14|1975-03-25|Mack Gordon|Welding helmet with eye piece control| DE2349794A1|1973-03-26|1974-10-10|Hermann Budmiger|AUTOMATIC PROTECTIVE SHIELD DEVICE ON PROTECTIVE SHIELDS, PROTECTIVE HELMETS OR PROTECTIVE GOGGLES, IN PARTICULAR FOR FUSION WELDING|EP0027518A1|1979-09-06|1981-04-29|Gor-Vue Corporation|Lens assembly for a welding helmet for use in sunlight conditions and in a welding helmet the combination of a circuit including a photodetector| DE3019091A1|1980-05-19|1981-11-26|Dieter Dr. 7993 Langenargen Hauth|Eye shield for welding appts. operator - has two mutually shiftable sections, each with evenly spaced parallel strips| DE3276596D1|1982-04-14|1987-07-23|Eggenschwiler Andre M|Protective light filter, in particular for protective shields or welding glasses| EP0189231A1|1985-01-18|1986-07-30|Hendrikus Petrus Wiegel|A protective shield to protect the eyes against vivid light such as a welders mask| DE3634508C1|1986-10-09|1988-06-16|Rupert Fuerthbauer|Optical filter with automatic control of the optical transmission| TW390808B|1997-06-18|2000-05-21|Optrel Ag Optoelektronik|Active electrooptic filter device| US6317886B1|2000-05-09|2001-11-20|Esteban Madurkay|Welding mask with slatted window| US6934967B2|2000-11-09|2005-08-30|3M Innovative Properties Company|Welding operation liquid crystal protection mask| WO2002049554A1|2000-12-21|2002-06-27|Optrel Ag|Antiglare device for welding protective masks| US7967457B2|2007-08-10|2011-06-28|Mario Rabinowitz|Control grid for solar energy concentrators and similar equipment|
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申请号 | 申请日 | 专利标题 DE19752550559|DE2550559C3|1975-11-11|1975-11-11|Protective device for working in areas with strongly fluctuating light intensity| 相关专利
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