RU2110174C1 - Aquarium-type apparatus with specific optical effect - Google Patents

Abstract

FIELD: equipment for keeping, growing and/or investigation of aqueous media and associated flora and/or fauna, may be used in aquariums, terrariums and like constructions. SUBSTANCE: apparatus has vessel with aqueous inhabitants and/or interior. Vessel is provided with inlet opening, convex rear spherical wall covered with light-reflecting opaque layer and viewing window opposite spherical wall, with space between window and spherical wall exceeding focal length, but less than radius of curvature of spherical wall. Optical effect is provided by means of Fresnel lens having light-reflecting layer applied to its profiled surface. Such construction intensifies amusing effect by allowing the image of aquarium inhabitants and surrounding interior to be created beyond apparatus through forming the effect of "gliding" picturesque, three-dimensional, dynamically changing images in natural habitat of human beings. EFFECT: wider operational capability, simplified construction, increased entertaining effect and provision for effective observation and investigation of life of aquarium or terrarium inhabitants. 15 cl, 6 dwg

Description

 The invention relates mainly to fish farming, in particular to devices for keeping, growing and / or / studying aquatic and associated flora and / or fauna, for example, aquariums, terrariums, etc. for fish, amphibians, reptiles, insects, other organisms, plants, etc. with an optical effect, providing the creation of visually observable volumetric dynamically changing colorful images of the flora and / or / fauna and / or / interior of these devices outside of them, to increase their aesthetic appeal and to provide the possibility of viewing and / or / exploring the inner world of the aquarium / terrarium / beyond their borders in the natural human environment.

 To date, the problem of aquarium-type devices with a special optical effect, for example, aquariums, terrariums, etc. for the maintenance, cultivation and / or / study of aquatic and related life, for example, flora and / or / fauna, such as fish, amphibians, reptiles, insects, other aquatic plant organisms, etc., providing the creation of visually observable volumetric dynamically changing colorful images created outside of these devices, in order to increase their aesthetic appeal and provide the possibility of viewing and / or / studying the inner world of the aquarium / terrarium / outside their borders in the natural human environment, stood up enough wow sharp.

 This is due to the fact that existing aquarium-type devices with a special optical effect with a relatively high aesthetic attractiveness do not provide the creation of original volumetric dynamically changing colorful images of individual elements and the composition as a whole of all aquatic and related life, for example, flora and / or fauna, such as fish, amphibians, reptiles, insects, other aquatic organisms, plants, etc. outside their borders while providing the possibility of viewing and / or / the internal world of the aquarium / terrarium / in the natural human environment, which increases the aesthetic appeal, amusement and charm of the picture observed outside the boundaries of such devices and the commercial attractiveness of the aquarium type devices themselves.

 On the other hand, aquarium-type devices designed to scientifically study the behavior of aquatic organisms living in the aquarium, to provide the possibility of observing individual manifestations of this life outside the limits of such devices in the natural human environment, they use sophisticated and expensive equipment and devices that lead to a significant increase in the cost of the device itself , and to a sharp decline / or complete absence / of its aesthetic appeal.

 Aquariums of various designs are known - UK patent N 820509, cl. 48 A 12, 1959, US patent N 2808024, class. 119-5.1957, ed. St. USSR N 780829, class A 01 K 63/00, 1976, ed. St. USSR N 695630, class A 01 K 63/00, 1979.

 A well-known aquarium with a special optical effect, containing a container with a transparent flat bottom and front wall and bonded with them at the edges of a convex cylindrical spherical shape of the back wall with the focus placed in front of the front wall and coated with a mirror-reflecting layer / US patent N 2879742, CL . 119-5, 1959 /.

 However, a well-known aquarium with a special optical effect does not have a sufficiently high aesthetic appeal, amusement and charm effect of the picture observed with it due to the lack of the ability to create original volumetric dynamically changing colorful images of individual elements and the composition of the whole underwater life of the aquarium, beyond its borders, and namely: the effect of "soaring" of a colorful volumetric image such as fish, plants, etc. in the volume of the research room, living room, etc. while providing the possibility of viewing and / or / studying the inner world of the aquarium in the natural human environment.

 The technical solution closest in technical essence and the achieved result is an aquarium-type device for aquatic organisms with a special optical effect, containing a container made in the form of a cylinder with a lid with a loading hole and with convex rear and front end spherical walls having the same radius of curvature, the center which is located outside the light-collecting inspection window located in the center of the front end wall and connected to the free end of the light-collecting t cutting, having the shape of a truncated cone and with a hemispherical neck, carrying a fiber bundle, the end of which is placed in the spectrometer, while a reflective opaque layer is applied to the inner surface of the cylinder and end walls /aut. USSR N 618081, class A 01 K 63/00, 1978 /.

 However, the well-known aquarium is structurally complex, intended solely for the purpose of scientific research of aquatic organisms using sophisticated scientific equipment, and is therefore expensive. In addition, it lacks aesthetic appeal, amusement and the charm effect of the picture observed with it due to the lack of the ability to create original volumetric dynamically changing colorful images of individual elements and the composition as a whole of the underwater life of the aquarium, beyond its borders, namely: the “soaring” effect "colorful surround images such as fish, plants, etc. in the volume of the room, living room, etc. while providing the ability to view and / or study the inner world of the aquarium in the natural human environment.

 The technical result consists in simplifying the design of the aquarium-type device while providing aesthetic appeal, amusement and the charm effect of the image of its inhabitants and its surroundings, observed with its help, by creating the effect of “soaring” of a colorful three-dimensional image in the natural environment of a person outside the device.

 This is achieved by the fact that in an aquarium-type device with a special optical effect, containing a container with inhabitants and / or / interior, made with a loading hole, a convex rear spherical wall, a reflective opaque layer deposited on it and a viewing window located opposite the back wall , the viewing window is located from the rear spherical wall at a distance greater than the focal length, but smaller than the radius of curvature of the sphere forming the back wall.

 At least a part of the front surface of the back spherical wall may be coated with a light-transmitting light-transmitting coating with a color different from the surface color of the reflective layer or at least the primary color of the inner filling of the container.

 At least part of the reflective layer may be made with a surface color different from the color of the rest of the surface of the reflective layer or at least the primary color of the inner filling of the container.

 In front of the reflective layer, at least a part of the surface of the back spherical wall may be coated with an additional color-bearing light-transmitting coating with a color different from the color of the surface of the reflective layer or at least the primary color of the inner filling of the container.

 At least part of the container, limited by the rear spherical wall and the plane passing through the focus of the part of the sphere forming the back wall, parallel to the viewing window, can be made in the form of a lens, while a reflective layer is deposited on the rear convex spherical surface of the lens with the possibility of creating an image of the inhabitants and / or / the interior of the container outside of it behind the viewing window, and the front surface of the lens is the back surface of the container.

 The lens and the container can be made with the possibility of their separate placement in space relative to each other, while the container is equipped with an additional flat transparent back wall located parallel to the viewing window at a distance not less than the focal length of the lens, and the viewing window is located at a distance not greater than the radius lens curvature.

 At least a portion of the lens can be made of a color-bearing light-transmitting material with a color different from the color of the material of the rest of the lens or at least the primary color of the inner filling of the container.

 At least a part of the front surface of the lens can be coated with a light-transmitting light-transmitting coating with a color different from the color of the lens material, the color of the surface of the reflective layer, or at least the primary color of the inner filling of the container.

 At least a portion of the reflective layer may be made with a surface color different from the color of the rest of the surface of the reflective layer, from the color of the lens material, or at least from the primary color of the inner filling of the container.

 In front of the reflective layer, at least part of the rear convex spherical surface of the lens may be coated with an additional color-bearing light-transmitting coating with a color different from the color of the reflective layer, the color of the lens material or at least the primary color of the inner filling of the container.

 The lens can be made in the form of a Fresnel type lens with a reflective layer deposited on its profiled surface.

 The reflective layer can be made in the form of a layer of particles with a highly reflective surface dispersed in a binder.

 The device may be equipped with a lighting source that is installed with the possibility of highlighting at least one object of the inhabitants and / or / the interior of the tank.

The device can be equipped with a projection lens that rotates the actual image by 180 ^o and is installed in front of the objects of internal filling of the tank.

 In FIG. 1 to 6 are schematic diagrams of an aquarium type device with an optical effect.

 The device 1 of the aquarium type with an optical effect contains a container 2 with inhabitants 3 and / or interior 4 made with a loading hole 5, a convex rear spherical wall 6 with a reflective opaque layer 7 deposited on it, and a viewing window 8 located opposite the spherical the wall 6 at a distance greater than the focal length F, but less than the radius R of curvature of the sphere forming the back wall 6 / Fig. one/.

 In FIG. 2 shows an aquarium type device 1 with an optical effect, in which, in front of the reflective layer 7, at least a part of the surface of the back spherical wall 6 can be coated with an additional color-bearing light-transmitting coating 9 with a color different from the surface color of the reflective layer 7 or at least from the main the colors of the internal filling of the tank 2, while the device 1 can be equipped with a lighting source 10, installed with the possibility of highlighting at least one object of the inhabitants 3 and / or / in interior interior 4 capacity 2.

 The principle of operation of a variant of the aquarium type device with an optical effect shown in FIG. 1, 2, the incident rays, for example, from the ambient directional or scattered light, are refracted on the surface of the viewing window 8 and interact with the reflective layer 7 deposited on the rear convex spherical wall 6, are reflected from it and, again passing through the surface of the viewing window 8, create a volumetric image 11 of each inhabitant 3 and / or / of the interior 4 of the tank 2 outside it outside the viewing window 8, for example, fish, amphibians, reptiles, insects, other aquatic organisms, plants, oxygen bubbles sparged through the aquatic environment filling the aquarium, etc. as if "soaring" in the air outside the boundaries of the aquarium / terrarium / in the natural habitat of a person, for example, in a research room, in a living room, in an office, etc. moreover, to see in the color corresponding to the color of the light-transmitting coatings 9, 12 / in case of their presence / or the color of the reflective layer 7, 13.

 In FIG. 3 shows an aquarium type device 1 with an optical effect, in which at least a part of the container 2 bounded by the rear spherical wall 6 and a plane passing through the focus of the part of the sphere forming the back wall 6, parallel to the viewing window 8, is made in the form of a lens 14 with reflective a layer 7 deposited on its rear convex surface spherical 15 with the ability to create images of the inhabitants 3 and / or / interior 4 of the tank 2 outside it behind the viewing window 8, while the front surface 16 of the lens 14 represents combat the back surface of the container 2, and at least part of the reflective layer 7 can be made with a surface color 13 different from the color of the rest of the surface of the reflective layer 7, from the color of the lens material 14 or at least from the primary color of the inner filling of the container 2 and in the form a layer of particles 17 with a highly reflective surface dispersed in a binder.

 The principle of operation of a variant of the aquarium type device with an optical effect shown in FIG. 3 consists in the fact that incident rays, for example, from ambient directed or scattered light, passing through a container 2 filled with, for example, water and / or / air, are refracted on the front surface 16 of the lens 14 and converted accordingly depending on the type of lens 14, the light beams interact with a reflective layer 7 deposited on the rear spherical convex surface 15 of the lens 14, are reflected from it and, again passing through the front surface 16 of the lens 14, create a three-dimensional mirror image of the lens 14 above its front surface 16 from the side of the incident beam at a distance provided by the focus F of the lens 14, for example, in the volume of the container 2. And in front of the mirror image 18 of the lens 14, a three-dimensional image 11 of each occupant 3 and / or / of the interior 4 of the container 2 is created outside of the viewing window 8, for example, fish, amphibians, reptiles, insects, other aquatic organisms, plants, etc., as if "soaring" in the air outside the boundaries of the aquarium / terrarium / in the natural human environment, for example, in a research room , in the living room, in the office e etc. moreover, to see in the color corresponding to the color of the material 18 of the lens 14, the color of the light-transmitting coatings 9, 12 / in case of their presence / or the color of the reflective coating 7, 13.

 When creating a mirror volumetric image of the lens 14 in the medium filling the container 2, for example, water, the slightest movement of the medium / tilt of the container 2, the movement of its inhabitants, oxygen sparging through it, thermal convection of the liquid, etc. /, the image is displayed phenomena, which increases the attractiveness, charm, originality and entertaining phenomena observed in the device of the aquarium type 1.

 The size and distance from the rear convex spherical surface 15 of the lens 14 of the three-dimensional mirror image depends on its focal length F.

 The implementation of the reflective layer 7 in the form of a layer of particles 17 with a highly reflective surface dispersed in the binder allows you to widely vary the color of the reflective layer 7, 13 due to the use of various materials such as "eye shine" white, pearlescent, lilac and other exotic colors, and these materials can be made of both metals and non-metals or non-metals with a metal reflective coating. As a binder, for example, varnish or another suitable binder of the type of optical glue can be used.

 The implementation of part of the reflective layer 7 with a color of the reflective surface 13 different from the color of the rest of the surface of the reflective layer 7 and / or / of the lens 14, allows you to create images painted in colors corresponding to the painted parts of the corresponding part of the reflective surface 7, 13. So, for example, reflective surface 7, 13, made of aluminum, corresponds to the silver color of copper - golden, brass - yellow, bronze - reddish, steel and molybdenum - steel-gray, etc. In this case, the reflective layer 7 can be applied directly to the rear convex spherical surface 6, 16 of the container / Fig. 1, 2 / or lenses 14 / Fig. 3, 4 /, for example, by thermal vacuum deposition of a corresponding metal with highly reflective properties or, for example, by spraying particles 17 in a binder.

In FIG. 4 shows an aquarium type device 1 with an optical effect, in which the lens 14 and the container 2 are arranged for separate placement in space relative to each other, while the container 2 is provided with an additional flat transparent back wall 19 located parallel to the viewing window 8, while the container 2 is placed in the space between the focal length F and the radius R of the lens 14, moreover, a color-bearing light-transmitting coating 12 with a color other than color can be applied to a part of the front surface 16 of the lens 14 the lens material 14, from the surface color of the reflective layer 7 or from the primary color of the inner filling of the container 2, and the device 1 can be equipped with a lighting source 10 that is installed with the possibility of highlighting the inhabitants 3 and / or / of the interior 4 of the container 2 with a projection lens 20, turning a valid image of 180 ^o and installed in front of objects 3, 4 of the internal filling of the tank 2.

 All elements of an aquarium type 1 device with an optical effect shown in FIG. 3, 4 for conventional lenses 14, are also performed for Fresnel lenses 21 / Fig. 5 /, and in the part of the light-reflecting layer, light-transmitting, including an additional light-transmitting coating, are performed for the aquarium type device 1 shown in FIG. 1, 2 and vice versa.

The principle of operation of the device 1 according to the embodiment shown in FIG. 4 is similar to the operation of the device 1 according to the embodiment shown in FIG. 3. The only difference is that a three-dimensional mirror image of the lens 14 can be created both in the volume of the container 2 and between the front surface 16 of the lens 14 and an additional flat transparent back wall 19. And the presence of the projection lens 20 allows you to rotate the image 11 behind the viewing window 8, for example, fish, amphibians, reptiles, insects, other aquatic organisms, plants, etc. as if "soaring" in the air outside the boundaries of the aquarium / terrarium / in the natural habitat of a person, for example, in a research room, in a living room, in an office, etc. at 180 ^o .

 Drawing on a part of the front and / or / rear convex spherical surface 15, 16 of the lens 14 / Fig. 4 /, as well as on the back spherical wall 6 / Fig. 2 / color-bearing transparent coatings 9, 12, for example, color-bearing transparent varnish, etc. with a color different from the color of the lens material, allows you to highlight individual elements of the volumetric image 11 in a given color. It should also be noted that in this case, individual parts of the volumetric image 11 of the inhabitants 3 and / or / of the interior 4 of the container 2 outside it outside the viewing window 8 may have different colors for the above reason. So, the body of a fish, reptile, plant, etc. there may be one or several shades, the head - a different color, the tail - the third, etc.

 It should be noted that the optimal placement of the container 2 lies between the focal length F and the radius of curvature R of the part of the sphere forming the rear convex spherical wall 6 and the rear convex spherical surface 15 of the lens 14, which makes it possible to create clear images 11 behind the viewing window 8, for example, of fish , amphibians, reptiles, insects, other aquatic organisms, plants, etc. as if "soaring" in the air outside the boundaries of the aquarium / terrarium / in the natural habitat of a person, for example, in a research room, in a living room, in an office, etc. which in turn provides an increase in their aesthetic appeal and the possibility of a clearer and more detailed examination and / or study of the inner world of the aquarium. In the case of placing the tank 2 outside the specified range, the formed image 11 of the corresponding observed object 3, 4 spreads out and becomes fuzzy.

 As the lens 14, for example, convex-concave, plane-convex or convex-convex type lenses are used.

 In FIG. 5 shows an aquarium type 1 device with an optical effect, in which the lens can be made in the form of a Fresnel type lens 21 with a reflective layer 7 deposited on its profiled surface 22, while at least part of the Fresnel lens 21 can be made of color-bearing light-transmitting material 18 with a color different from the material color of the rest of the Fresnel lens 21, or at least the primary color of the inner filling of the container 2.

The principle of operation of the Fresnel lens 21 is that incident rays, for example, from the ambient directional or scattered light, are refracted on its front surface and converted accordingly depending on the type of Fresnel lens 21 used in accordance with the slopes of the edges of its working areas on the profiled surface 22, the light beams interact with the reflective layer 7, are reflected from it and, again passing through the profiled surface 22 and the front surface, also create / as in the case of variants troystva 1 in FIG. 3, 4 / a volumetric mirror image of the Fresnel lens 21 in front of it from the side of the incident beam at a distance provided by the foci f ⁱ created by the slopes of the edges of the working areas of the Fresnel lens 21. As a result, the wave front incident on the Fresnel lens 21 is converted to another front, which provides the required focusing process in accordance with the specified shape of the volume mirror image 18.

 Imaging 11 of the corresponding observed objects 3, 4, as if "soaring" in the air outside the boundaries of the aquarium / terrarium / in the natural environment of a person, for example, in a research room, in a living room, in an office, etc. by means of a Fresnel lens 21 is carried out in the same manner as described above, as for a conventional lens 14 / Fig. 3, 4 /.

 The use of a Fresnel 21 lens instead of a conventional lens 14 allows one to make more compact aquarium type 1 devices. It should be noted that the Fresnel 21 lens can be made in the form of a disk, rectangle, square, regular triangle or hexagon, or other geometric shape, if necessary, in accordance with the contour created volumetric mirror image.

 At the same time, the observer sees a 3D image of a Fresnel lens 21 of a given shape as the created volumetric mirror image, for example, in the form of an image of a butterfly, a crocodile, the name of the country and the manufacturer, its trademark, etc., as if “soaring” in the air in the space between the Fresnel lens 21 and the additional rear transparent wall of the container 2, or floats in a medium filling the container 2, and in a color corresponding to the color of the reflecting surface 7, 13, the color of the material 18 of the Fresnel lens or the color of light-transmitting coatings tiy 9, 12, applied to its front or / and / profiled surface 22 / in the presence of at least one of the coatings /.

 As Fresnel type 21 lenses, zone plates can also be used in the form of, for example, phase optical zone reflective elements using reflective kinoforms with a stepped zone profile, which are described mathematically in accordance with the shape of a volumetric mirror image defined above the profiled surface 22 of the zone plates.

 Use, for example, phase reflective zone plates or Fresnel lenses 21, consisting of an internal carrier layer with a profiled surface, made in the form of, for example, concentric refractive elements of the working areas.

 The preparation of the Fresnel lens 21 is carried out by giving it a predetermined geometric shape, for example, in the form of an image 23 as a result of molding material 18 of the corresponding type, for example, in a matrix with a surface pattern that provides a given profile on the profiled surface 22 of the Fresnel lens 21.

 Light source 10 / Fig. 2, 4 / is intended to illuminate objects 3, 4 of the internal filling of the tank 2 and increase the brightness of the obtained volumetric images 11 of the observed volumetric objects 2, 3, as if “soaring” in the air outside the boundaries of the aquarium / terrarium / in the natural human environment, for example, in a research room, in a living room, in an office, etc. by highlighting, for example, one of them, which is the center of the composition being created from the created volumetric images of 11 observed objects 3, 4 or a series, including possibly all observed objects 3, 4 of the internal filling of the tank 2.

 It should be noted that all of the above and presented in FIG. 1 to 5, manufacturing options for an aquarium type 1 device can be performed as with a conventional lens 14 / FIG. 3, 4 /, and with the Fresnel lens 21 / Fig. 5 /, and in the presence of only a spherical reflective back wall 6 of the tank 2 / Fig. 12/.

 The Fresnel lens 21 and the conventional lens 14 can be made of transparent materials such as glass, quartz, polymeric material, etc., including a color-bearing transparent material 18, in accordance with the coloring of the created volumetric mirror image and images 11.

 In FIG. 6 shows a terrarium with a Fresnel lens placed on the rear side surface of the terrarium.

A positive result of the invention is:
- increasing the aesthetic appeal, amusement, charm and originality effect of both the aquarium type device itself and the images of its inhabitants and the surrounding environment observed with it by creating voluminous colorful dynamically changing images of objects observed in it, as if “soaring” in the air beyond its borders in the natural human environment, for example, in a research room, in a living room, in an office, etc., as well as the presence of optical lenses that provide e over the surface of the original optical effects observed in volumetric mirror like "hovering" in the air or in the medium filling the device colorful dynamically changing image that in the aggregate enhances the commercial attractiveness of both the device and releasing its firms;
- simplification of the design of the aquarium type device due to the rejection of the use of complex scientific equipment while providing the ability to consider and / or / study the inner world of the aquarium type device in the natural human environment;
- increasing the degree of development of artistic taste, color perception and spatial imagination of the observer by creating voluminous colorful dynamically changing images of the observed objects, as if “soaring” in the air outside the boundaries of the aquarium type device in the natural human environment, for example, in a research room , in the living room, in the office, etc .;
- providing the ability to vary the color gamut of images of observed objects and mirror images of lenses;
- providing the ability to consider the resulting volumetric image in a wide range of angles in scattered light.

Sources of information:
1. GB, patent 820509, cl. 48 A 12, 1959.

 2. US patent 2808024, cl. 119-5, 1957.

 3. US copyright certificate 780829, cl. A 01 K 63/00, 1976.

 4. SU, copyright certificate 695630, cl. A 01 K 63/00, 1979.

 5. US patent N 2879742, class. 119-5, 1959.

 6. SU, copyright certificate N 618081, cl. A 01 K 63/00, 1978.

Claims (15)

 1. The device is an aquarium type with a special optical effect, containing a container with inhabitants and (or) the interior, made with a loading hole, a convex rear spherical wall with a reflective opaque layer deposited on it and a viewing window located opposite the rear spherical wall, characterized in that that the viewing window is located from the back wall at a distance greater than the focal length, but less than the radius of curvature of the sphere forming the back wall.  2. The device according to claim 1, characterized in that at least part of the front surface of the back spherical wall is coated with a light-transmitting light-transmitting coating with a color different from the surface color of the reflective layer or at least from the main color of the internal filling of the container.  3. The device according to claim 1, characterized in that at least part of the reflective layer is made with a surface color different from the color of the rest of the surface of the reflective layer or at least from the primary color of the inner filling of the container.  4. The device according to claim 1, characterized in that in front of the reflective layer at least part of the surface of the rear spherical wall is applied additional color-bearing light-transmitting coating with a color different from the color of the surface of the reflective layer or at least from the main color of the inner filling of the tank.  5. The device according to claim 1, characterized in that at least a part of the container bounded by the rear spherical wall and the plane passing through the focus of the part of the sphere forming the back wall parallel to the viewing window is made in the form of a lens, with a reflective layer deposited on the rear convex spherical surface of the lens with the ability to create an image of the inhabitants or / and the interior of the tank outside it behind the viewing window, and the front surface of the lens is the back surface of the tank.  6. The device according to claim 5, characterized in that the lens and the container are arranged to be separately placed in space relative to each other, while the container is equipped with an additional flat transparent back wall located parallel to the viewing window at a distance not less than the focal length of the lens, and the viewing window is located at a distance not greater than the radius of curvature of the lens.  7. The device according to claim 5 or 6, characterized in that at least part of the lens is made of a color-bearing light-transmitting material with a color different from the color of the material of the rest of the lens at least from the primary color of the internal filling of the container.  8. The device according to claim 5 or 6, characterized in that at least part of the front surface of the lens is coated with a light-transmitting light-transmitting coating with a color different from the color of the lens material, from the color of the surface of the reflective layer or at least from the main color of the inner filling of the container .  9. The device according to claim 5 or 6, characterized in that at least part of the reflective layer is made with a surface color different from the color of the rest of the surface of the reflective layer, from the color of the lens material or at least from the primary color of the inner filling of the container.  10. The device according to claim 5 or 6, characterized in that in front of the reflective layer at least part of the rear convex spherical surface of the lens is applied an additional color-bearing light-transmitting coating with a color different from the color of the reflective layer, from the color of the lens material, or at least primary color of the internal filling of the container.  11. The device according to any one of paragraphs.5 to 10, characterized in that the lens is made in the form of a Fresnel type lens with a reflective layer deposited on its profiled surface.  12. The device according to any one of claims 1 to 11, characterized in that the reflective layer is made in the form of a layer of particles with a highly reflective surface dispersed in a binder.  13. The device according to any one of claims 1 to 12, characterized in that it is equipped with a lighting source that is installed with the possibility of illumination of at least one object of internal filling of the tank. 14. The device according to any one of paragraphs.6 to 13, characterized in that it is equipped with a projection lens that rotates the actual image by 180 ^o and is installed in front of the objects of the internal filling of the tank. 15. The device according to any one of paragraphs.6 to 14, characterized in that the additional transparent back wall is made in the form of a projection lens that rotates the image 180 ^o .

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