RU2054139C1 - Lighting fixture - Google Patents

Abstract

FIELD: lighting engineering. SUBSTANCE: lighting fixture used for decontamination of air consists of light source radiating in ultraviolet zone of spectrum, start-and-control apparatus for flashup, stabilization and control of mode of operation of light source, housing with holes in upper and lower parts; device is additionally provided with optical device redistributing radiation of light source; optical device has at least one unit of quick-detachable shields located between light source and receiver (living thing, plant) to ensure various functions of device. Housing is provided with dampers in its lower and upper parts for closing the holes. Inner surface is provided with coating which reflects both radiation of light source and radiation of luminescent substance applied together with polymer on one shield; start-and-control apparatus has elements which match its mode with one characteristic of radiation receiver; light source radiates mainly within lengths of waves ranging from 180 to 270 Nm. EFFECT: enhanced efficiency. 13 cl, 3 dwg

Description

 The invention relates to lighting instrumentation, medical equipment, household appliances, techniques for luminescent analysis and photographic equipment, agriculture, meat and fish processing equipment, food service equipment.

 Known lighting devices with gas-discharge light sources for lighting, emitting mainly in the visible spectrum, containing fluorescent lamps as a light source, and an optical device redistributing light in the form of a reflector and a screen located between the radiation source and the light consumer and reducing the brightness of the luminous surface of the device in consumer direction in order to reduce gloss [1,2] These devices are used for general and local lighting in domestic, industrial and residential premises plants, in crop production (in greenhouses to regulate daylight hours, to illuminate plants in the absence of natural light in phytotrons, breeding chambers), in research and other special installations, for breeding-genetic, physiological, phytopathological studies, for the study of photomutagenesis, for photoregulation fungal metabolism, for irradiating the culture of plant tissues, seeds, fruits, for lighting plants in closed ecological systems.

 Known lighting devices [1,2] creating radiation in separate regions of the visible part of the spectrum through the use of color screens, lamps with different colors of radiation and used in medicine for the treatment of jaundice (blue region of the spectrum), neurotic conditions, in photography when processing photographic materials (red region spectrum), in agriculture. In vegetable growing and plant growing, they are used as photo traps for controlling insects using the phototaxis effect (inducing directional movement of free biological objects), based on their ability to better respond to a particular color.

 Known lighting devices with fluorescent lamps [1, 2] for information purposes, in which an image is made on the scattering surface. These include lighting devices for indoor and outdoor signaling, light indicators, advertising, information and art-advertising displays.

Known lighting devices with gas-discharge light sources [1,3] emitting mainly in the ultraviolet (UV) spectral range, used for disinfecting air, water, food, medical equipment, for erythema exposure to human skin, in order to improve the production of vitamin D ₂ , skin pigmentation, treatment of psoriasis, for irradiation of farm animals, for insect control in crop production, vegetable growing and everyday life as photo traps, in which the corresponding radiation source is used Existing UV lamps.

 Known lighting devices with gas-discharge light sources that produce radiation only in the UV region of the spectrum through the use of gas-discharge lamps of "black" light [4] or filters that transmit only the UV component of the radiation of the lamps used, and used for luminescent analysis, in particular for recognition authenticity of paper notes labeled with luminescent paints in the visible spectrum.

 A significant disadvantage of known lighting devices with gas-discharge light sources is their monofunctionality, due to their ability to generate radiation in one region of the spectrum, determined by their design and the type of optical radiation sources used, as a result of which, for performing all the functions inherent in light devices, a large number of types of luminaires are required acting at different times or simultaneously in different places or in one place.

 The closest in technical essence is a light device, which is an irradiator for air disinfection OBOV-8-01 [5] consisting of a rectangular box-shaped case with openings in its lower and upper parts to ensure self-ventilation of air, which is disinfected by bactericidal radiation of non-zoned inside the case 8 W low pressure bactericidal mercury lamps of the DRBB8 type. The used lamp is a UV radiation lamp with a wavelength of 254 nm, which does not generate ozone (this allows the use of irradiators in the presence of people) with high bactericidal efficiency, which reduces energy costs for air disinfection. The air flow rate in the irradiator is 3 l / s and is determined by the temperature gradient between the lower part of the housing and the upper, in which a choke with an operating temperature exceeding the ambient temperature is installed.

 The disadvantage of the prototype is its multifunctionality, which requires other lighting and irradiation devices and associated additional material and labor costs to ensure other functions inherent in light devices.

 The essence of the invention lies in the fact that the known light device, consisting of a light source emitting in the ultraviolet region of the spectrum, a ballast for ignition, stabilization and control of the operating mode of the light source, a housing with holes in the upper and lower parts, further comprises an optical device redistributing radiation , consisting of at least one block of quick-detachable screens located between the source and the light receiver, moreover, one of the screens contains on the surface of the surface facing the light source, a coating comprising a polymer and a luminescent substance, redistributing the radiation over the spectral composition and in space, one of the screens absorbs the radiation of the light source and the radiation of the luminescent substance in predefined areas of the spectrum, one of the screens absorbs radiation of a luminescent substance and a light source, one of the screens on the surface facing the light receiver contains an adhesive layer, the housing has flaps in the upper it and the lower parts for overlapping holes, and on the inner surface a coating that reflects both the radiation of the light source and the radiation of the luminescent substance, the ballast has elements that match its mode with one of the characteristics of the light receiver, and the light source is predominantly emitted in the length region waves from 180 to 370 nm.

 An essential feature of the invention is that the luminescent substance emits mainly in the visible region of the spectrum.

 An essential feature of the invention is that the luminescent substance emits mainly in separate parts of the visible region of the spectrum.

 An essential feature of the invention is that the luminescent substance emits mainly in separate parts of the ultraviolet region of the spectrum.

 An essential feature of the invention is that the luminescent substance emits mainly in different parts of the visible region of the spectrum in different parts of the surface of the screen, forming an artistic information color image.

 An essential feature of the invention is that the control gear contains elements controlled by a software device that provides the most efficient light perception by the radiation receiver (eye, plant).

 An essential feature of the invention is that the light device has two blocks of screens, and a predetermined choice of screens installed in the device allows the device to perform two functions at the same time, and with open dampers on the case, three functions.

 An essential feature of the invention is that the light device has more than two blocks of screens, and a predetermined choice of screens installed in separate blocks allows the device to perform at least three functions at the same time, and at least four functions with open shutters on the body.

 An essential feature of the invention is that the cross section of the light device has a round shape, and the screens are made in the form of cylinders.

 An essential feature of the invention is that the cross section of the light device has the shape of a triangle, and the number of screen blocks used, depending on the required functions of the device, varies from one to three.

 An essential feature of the invention is that the cross section of the light fixture has a rectangular shape, and the number of used screen blocks depending on the required functions of the device varies from one to four.

 An essential feature of the invention is that the light source is an electrodeless spherical high-frequency lamp having a reflex coating on the inner surface of the bulb reflecting the ultraviolet radiation of the discharge, with a window in the reflex coating to exit through the window and the bulb in the area of the radiation window to the screen block, wherein the shape of the screens coincides with the shape of the window in the reflex coating.

 Comparative analysis shows that the proposed device is as follows different from the prototype: it contains at least one block of quick-detachable screens; one of the screens redistributes the radiation of the light source not only in space but also in the spectrum by creating a coating on it containing polymer and a luminescent substance; one of the screens absorbs radiation from a light source and radiation from a luminescent substance in predetermined spectral regions; one of the screens in predetermined areas of the surface absorbs the radiation of the luminescent substance and the light source; one of the screens on the outer surface contains a layer of adhesive; the housing in the upper and lower parts has a flap for overlapping holes; on the inner surface of the body has a coating that reflects radiation in the visible and ultraviolet regions of the spectrum; the control gear mode is coordinated with one of the characteristics of the light receiver using a software device; depending on the function performed by the device, the luminescent substance: radiates mainly in the visible region of the spectrum, radiates mainly in separate parts of the visible region of the spectrum, radiates mainly in separate parts of the ultraviolet region of the spectrum, radiates mainly in different parts of the visible region of the spectrum in different parts of the screen surface; the body of the device has a circular cross-sectional shape, and the screens are made in the form of cylinders; the case of the device has a triangular cross-sectional shape, and the number of blocks used, depending on the required functions of the device, varies from one to three; the instrument case has a rectangular cross-sectional shape, and the number of blocks used, depending on the required functions of the device, varies from one to four. In one embodiment, the novelty compared to the prototype is that the light source is an electrodeless spherical high-frequency lamp with a reflector coating on the inner surface and a window in the reflex coating for radiation to exit to the screen block.

 The analysis showed the novelty of the proposed technical solution compared to the prototype. Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field allowed us to identify signs that distinguish the proposed solution from the prototype, which allows us to conclude that the criterion of "significant differences".

 The presence of several essential features of the invention is caused by the fact that the device made in accordance with the invention allows to carry out many functions depending on which screens and which coatings are used on them.

 So the use of a luminescent substance emitting mainly in the visible spectrum allows the device to be used for general and local lighting in domestic, industrial, residential premises, in greenhouses, phytotrons, breeding chambers, research and other special installations.

 The use of a luminescent substance emitting in certain areas of the visible part of the spectrum allows the device to be used to produce certain colors of light in medicine (treatment of jaundice with blue), in photo laboratories (as a photo lamp when processing photo materials), and in agriculture for color exposure of insect organs , farm animals and birds in order to increase the productivity of the latter or to attract insects to the lamp, which in this case acts as a camera trap Alice screen with the adhesive on the outer surface. Screens of various colors of a luminescence can be used for research visual works, and also for the purpose of definition of color of radiation to which this or that plant, an insect or an animal better responds.

 The use of a luminescent substance emitting in the erythema region of the spectrum allows the device to be used for erythema exposure to human skin in order to preventively compensate for the lack of ultraviolet radiation in polar nights or during the autumn-winter and early spring periods of the year in industrial and residential premises and for therapeutic treatment in medicine. For the treatment of psoriasis and other chronic skin diseases (dermatoses), a light device can be used using a luminescent substance emitting in the near ultraviolet region (wavelength 350-370 nm).

 The complete absence of a screen allows you to use the device of the present invention as a source of bactericidal radiation for the disinfection of air, water, milk, juices, food, medical instruments, blood irradiation, etc.

 The use of a screen with a coating containing a luminescent substance emitting in the visible region of the spectrum, together with a screen on which light-absorbing images are applied from the consumer’s side, allows the device to be used for artistic and advertising design.

 The use of a screen with a coating containing a luminescent substance, applied in such a way that it emits in different parts of the surface of the screen in different regions of the visible spectrum, allows the invention to be used as lighting fixtures for color artistic and advertising design with increased brightness of individual parts of the luminous surface.

 The use of a screen with a coating containing a luminescent substance emitting in the long-wave ultraviolet range and transmitting this radiation well, together with a screen not transmitting the visible component of the spectrum of the radiation source, makes it possible to use the device according to the invention as a black light device for luminescent analysis, in particular for the recognition of labeled paper notes.

The use of ballasts with program control allows you to use the invention as a lamp for advertising, in light and music installations and in installations with a programmed mode of the color environment (greenhouses, rooms for psychological relief, etc.)
The use of valves closing the openings in the upper and lower parts of the housing allows the device, made in accordance with the invention, to be operated with a light source whose radiation forms ozone in the air, that is, with a more stable and efficient light source with a quartz glass bulb .

 The presence on the inner surfaces of the coating body, which reflects radiation well in the visible and ultraviolet spectral regions, makes it possible to increase the conversion of electric power to radiation power coming from a light device.

 The presence of several screen blocks in light devices with a triangular and rectangular cross-section allows you to increase the number of simultaneously performed functions to three, four, five (including the function of air disinfection with open dampers on the body).

 The use of a spherical electrodeless high-frequency lamp as a light source, having a reflector layer on the inner surface of the bulb and a window in the reflex layer, opposite which a block of screens is installed in the device, makes it possible to miniaturize the device and use it as a multifunctional portable lamp when the light source is powered by batteries or an accumulator (in the absence of a power supply network).

 In FIG. 1 shows a device with a cross-section in the form of a rectangle and a linear light source, general view; in FIG. 2 possible options for the arrangement of the screen blocks relative to the radiation source in light devices with a round, triangular and rectangular cross-section; in FIG. 3 arrangement of elements in a light device with an electrodeless high-frequency lamp.

 The device (Fig. 1, 2) consists of a housing 1, in which there are openings 2 for self-ventilation of air, inside the housing 1 a light source of bactericidal ultraviolet radiation 3 and ballasts are installed 4. From the inside, the housing 1 is covered with a layer of reflective material 5. On the guide grooves in interchangeable screens 6 are inserted into the casing, coated on the side of the light source 3 with a layer of luminescent substance 7. At the bottom of the casing, stands 8 are attached to it (for the desktop version). For operation with bactericidal lamps forming ozone, dampers 9 are provided. For operation as light traps, the device is provided with a second screen 10 with an adhesive substance 11 on the outer surface. In FIG. 2 shows the arrangement of the protective screen 12 in devices with a triangular and rectangular cross-section, it is installed when the blocks of screens 6, 10 carry different functions, i.e. when the illumination of one screen 6 by another screen 6 is undesirable.

 The light device shown in FIG. 3 has a cylindrical body 1 in which an electrodeless high-frequency ultraviolet light source 3 is mounted with a reflector layer 13 on the inner surface and a window 14 in this layer for the exit of a directed ultraviolet beam through it. On the back of the light source 3, a control gear 4 is installed in the housing 1, which is a high-frequency generator connected to an inductor 15 worn on the light source 3. On the other side of the housing 1, a block of screens 6, 10 with coatings is installed opposite the window 14 of the light source 3 7, 11, the change of properties of which allows to provide a variety of functions inherent in the light device shown in FIG. 1 and as described above and in the claims.

 The device in accordance with the invention operates as follows. When irradiating air or any objects, screens 6, 10 are removed, giving access to the hard ultraviolet radiation of light source 3 on the irradiated objects or in the irradiated space. Moreover, the eyes and skin of a person or plant should not be in the field of radiation of the light source 3 and the reflective layer 5 on the housing 1 of the device.

 When irradiated with long-wave ultraviolet radiation (in the region of 312, 350, 370 nm) or illuminated by visible radiation, a set of screens 6, 10 (color or colorless) with phosphor coatings 7 are used, emitting in the desired region of the spectrum and, if necessary, creating the necessary information picture, including dynamic in time with the corresponding operation of the ballast 4.

 To recognize a weak glow of inks deposited on banknotes, or to perform another type of luminescent analysis, a screen 6 is used that absorbs the visible radiation of the discharge of the light source 3 and transmits luminescence radiation in the ultraviolet region of the spectrum.

 When using the device as a phototrap, the color of the screen 6 and the radiation of the luminescent substance 7 are selected so as to attract the insects with their radiation, and the outer surface of the outer screen 10 (transparent or colored) has a layer of adhesive 11 that traps insects. The external screen 10 can be replaced with a new one after collecting a sufficiently large number of insects.

 To perform several functions with one device at the same time, opening the ventilation holes 2 in the device case, installing two, three, four blocks of screens 6, 10 with the necessary set of screens in each block can be used. For example, in addition to disinfecting air, it is possible to simultaneously illuminate the work surface, lure and catch mosquitoes (when performing a light device with two blocks of screens 6, 10, shown in Fig. 2). With a rectangular cross-sectional shape of the light device and the presence of four blocks of screens 6, 10 (see Fig. 2), five functions can be obtained simultaneously: air disinfection, erythema irradiation (exposure of people in conditions of ultraviolet insufficiency), irradiation with close ultraviolet radiation with a length waves 350-370 nm (treatment of psoriasis, skin pigmentation), blue light exposure with a wavelength of 420-450 nm (treatment of jaundice), red light (prevention of hypertension). Such a light device inside should have partitions 12 (Fig. 2), which shield one block of screens from another in order to avoid their illumination with each other. Such light devices can be installed in rooms for medical prevention and treatment in clinics or hospitals.

 Given the variety of possible designs of light sources in shape, size and power, the variety of possible luminescent coatings and the absorbing abilities of screens, other structural and functional devices of lighting devices based on the proposed solutions are possible.

Claims (13)

 1. LIGHT INSTRUMENT, consisting of a light source emitting in the ultraviolet region of the spectrum, a ballast for ignition, stabilization and control of the light source, a housing with holes in the upper and lower parts for self-ventilation of air, characterized in that it is provided with a redistributing radiation source light optical device, which is at least one block of quick-detachable screens located between the source and the receiver of light, and one of the screens contains surface facing the light source, a coating comprising a polymer and a luminescent substance, redistributing the radiation of the light source over the spectral composition and in space, one of the screens is designed to absorb the radiation of the luminescent substance and the light source in predetermined areas of the spectrum, one of the screens in predetermined areas the surface absorbs the radiation of the luminescent substance and the light source, one of the screens on the surface facing the radiation receiver contains a layer of adhesive, cor The whisker is equipped with dampers in the upper and lower parts to cover the holes, and on the inner surface - a coating that reflects both the radiation of the light source and the radiation of the luminescent substance, the ballast is equipped with elements that ensure the matching of its mode with one of the characteristics of the radiation receiver, and the light source made predominantly emitting in the wavelength region from 180 to 370 nm.  2. The device according to claim 1, characterized in that the luminescent substance is selected emitting mainly in the visible region of the spectrum.  3. The device according to claims 1 and 2, characterized in that the luminescent substance is selected mainly emitting in certain parts of the visible region of the spectrum.  4. The device according to claim 1, characterized in that the luminescent substance is selected emitting mainly in the ultraviolet region of the spectrum.  5. The device according to claims 1 and 4, characterized in that the luminescent substance is selected emitting mainly in separate parts of the ultraviolet region of the spectrum.  6. The device according to claims 1 and 3, characterized in that the luminescent substance is selected emitting mainly in different parts of the visible region of the spectrum in different parts of the surface of the screen, forming an artistic information color image.  7. The device according to claims 1, 3 and 6, characterized in that the ballast is equipped with elements controlled by a software device that provides the most efficient light perception by the radiation receiver.  8. The device according to claims 1, 3 and 5, characterized in that it is equipped with two blocks of screens, and a predetermined choice of installed screens allows the device to perform two functions simultaneously, and with open dampers on the case, three functions.  9. The device according to claims 1, 3 and 5, characterized in that it is equipped with at least two blocks of screens, and a predetermined choice of installed screens allows the device to perform at least three functions at the same time, and at least with shutters on the case least four functions.  10. The device according to paragraphs. 1 to 7, characterized in that its cross section is round in shape, and the screens are made in the form of cylinders.  11. The device according to claims 1 to 9, characterized in that the cross-section is triangular in shape, and the number of used screen units, depending on the required functions of the device, varies from one to three.  12. The device according to claims 1 to 9, characterized in that the cross section is made in the form of a rectangle, and the number of used screen blocks depending on the required functions of the device varies from one to four.  13. The device according to claims 1 to 7, characterized in that the light source is an electrodeless spherical high-frequency lamp having, on the inner surface of the bulb transmitting ultraviolet radiation, a reflector coating reflecting the ultraviolet radiation of the discharge, with a window in the reflector coating to exit through the window and a flask in the area of the radiation window to the block of screens, while the shape of the screens coincides with the shape of the window in the reflex coating.

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