RU19422U1 - DEVICE FOR CREATION OF OPTICAL EFFECT ARISING WHEN INTERACTION OF LIGHT FLOW WITH VIBRATING SURFACE OF LIQUID - Google Patents

Abstract

1. A device for creating an optical effect, comprising a light source and / or a light reflector and at least two bodies, one of which has a relief surface, and means for moving at least one of these bodies relative to the other, characterized in that each of the bodies is a transparent body with at least one embossed surface or a mirror with a reflective embossed surface. 2. The device according to claim 1, characterized in that each body is made flat, and said means for moving is arranged to provide plane-parallel movement of at least one of the bodies relative to the other. The device according to claim 1, characterized in that the bodies are made in the form of coaxial cylinders, the outer cylinder is made transparent, and the inner one is transparent or in the form of a mirror, and said means for moving is arranged to rotate at least one of the bodies around their common axis. 4. The device according to claim 1, characterized in that the bodies are made in the form of concentric spheres, the outer of which is made transparent, and the inner one is transparent or in the form of a mirror, and said means for moving are configured to rotate at least one of the bodies around their common central axis. 5. The device according to claim 4, characterized in that when both spheres are transparent, the light source is placed outside the spheres, and the reflector is placed inside these spheres and made in the form of a sphere having reflective fragments moving with non-reflective opaque fragments, with the possibility of its rotation relative to the inner surface transparent sphere

Description

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Device for creating an optical effect arising from the interaction of a light flux with an oscillating surface of a liquid

The utility model is intended for use in discotheques, dance halls, restaurants, cafes, bars and other places of entertainment, in psychotherapy, meditation, relaxation and hypnosis, for presentations and exhibitions, in advertising, theater, concert, circus, television / cinema performances, in all cases requiring the presence of an aqueous medium, as well as for home use.

A device for creating optical effects according to the patent EP 0965789 A2 using a light source and two lenses with external embossed surfaces.

Closest to the proposed is a device for creating optical effects by converting light flux using transparent disks with a relief surface formed by deposited colored glass particles and transparent color filters that are moved relative to each other (see US 5823661, IPC F21V 9/00, National Cl. 362/293, 10.20.98).

Known means allow to obtain a color optical effect, but do not allow to obtain the effect of the "seabed.

A disadvantage of the known technical solutions is their complexity and the inability to simulate the optical effect of the “seabed that occurs when the light flux interacts with an oscillating liquid surface.

The technical result, which is aimed at achieving a utility model, is to provide the possibility of obtaining the specified effect.

The specified technical result is achieved in that in a device for creating an optical effect comprising a light source and / or a light reflector and at least two bodies, one of which has a relief surface, and a means of moving at least one of these bodies relative to the other, each of the bodies is a transparent body with at least one embossed surface or a mirror with a reflective embossed surface.

In one embodiment of the device, each body can be made flat, and said means for moving is configured to provide plane-parallel movement of at least one of the bodies relative to the other.

mirrors, and the specified means for moving made with the possibility of rotation of at least one of the bodies around a common axis.

The bodies can also be made in the form of concentric spheres, the outer of which is made transparent, and the inner is transparent or in the form of a mirror, and this means for moving is made with the possibility of rotation of at least one of the bodies around their common central axis.

In this case, when both spheres are transparent, the light source is placed outside the spheres, and the reflector is placed inside these spheres and is made in the form of a sphere having reflective fragments moving with non-reflective opaque fragments, with the possibility of their rotation relative to the inner surface of the transparent sphere.

The reflector may also include an additional sphere covering the specified sphere of the reflector and having moving reflecting fragments and gaps, and is configured to rotate both spheres of the reflector relative to each other.

Reflecting fragments of the spheres of the reflector can have an arc in the longitudinal section, and in the transverse section a straight line segment perpendicular to the radius of the sphere.

In yet another embodiment, the device body can be made in the form of segments of concentric spheres, and the specified means for moving made with the possibility of rotation or rotation of at least one of them around the axis. passing through the center of the spheres.

The light source may be a visible source, including laser or close to ultraviolet radiation.

The essence of the utility model is illustrated by drawings.

In FIG. 1-5 show options for devices to create an optical effect; 6 is a view of a spherical reflector used in the device of FIG. 5; on figs - options for other possible schemes or devices for creating an optical effect. In the drawings, the following notation. A device for creating an optical effect contains at least two bodies 1,2, each of which is either a transparent body with at least one embossed surface, or a mirror with a reflective embossed surface. The luminous flux is created using a light source 3, or a reflector 4, or both. The means of moving the bodies relative to each other is a low-speed engine 5 and a gearbox 6.

Figure 1 shows a diagram of a variant of the device with two flat transparent bodies 1,2 with a plane-parallel movement of them, preferably rotational about an axis.

Figure 2 shows a diagram of a variant of the device with two transparent bodies 1,2 in the form of coaxial cylinders, inside of which is placed a light source 3. Bodies 1.2 rotate around a common axis.

On Fig.3 shows a diagram of a device with two transparent bodies 1,2 in the form of concentric spheres rotated around a central axis. The light source 3 is placed outside the spheres.

In figure 4, the body 1 is made in the form of a transparent sphere, and the body 2 is in the form of a spherical mirror placed inside the transparent sphere concentrically to it. Spheres rotate around a central axis. and the light source 3 in this case is mounted outside the spheres. Solids 1,2 may also take the form of segments of spheres (not shown in the drawings).

Fig. 3 shows a variant of the device with two bodies 1,2 in the form of transparent spheres, inside of which a spherical reflector 4 is located. Fig. 6 shows a view of the preferred embodiment of the reflector 4. It is made two-layer in the form of two concentric spheres. The inner sphere has reflective fragments 7 moving with non-reflective opaque fragments 8. The outer sphere also has reflective fragments 9 and gaps in which fragments of the inner sphere are visible. The reflecting fragments 7, 9 of the spheres are made in the form of tapes having an arc in the longitudinal section, and in the transverse section a straight line segment perpendicular to the radius of the sphere. Reflector 4 may have a simpler design and consist of only one sphere similar to the inner sphere described above, but the optical effect using a two-layer reflector 4 is more expressive.

The spheres of the reflector 4 rotate d) g relative to each other and relatively transparent spherical bodies 1,2. In this case, the light source 3 is placed outside of all spheres.

Reflector 4. located inside the spheres, may have another design. In this case, the nuances of the optical effect may change, but basically the effect will retain its specificity - imitation of the interaction of the light flux with the oscillating surface of the liquid.

has a relief surface. Figure 7 shows some options for possible schemes of such devices.

A device for creating an optical effect works as follows.

Light from a light source or from a reflector is directed to bodies 1,2 moving relative to each other with embossed surfaces. Passing through a transparent body and refracting on an uneven embossed surface of a mirror or reflected from an uneven embossed surface of a mirror, individual rays of the light flux constantly change direction due to the constantly changing path of their passage inside transparent bodies and between bodies, due to constantly changing angle of incidence, exit angle, and reflection angle of rays on embossed surfaces forming the required distortion. Thus, the luminous flux is converted, and the observer sees the surrounding space with a constantly changing intensity of illumination of various zones of space due to focusing of the rays passing through the bodies and reflected from them in these zones according to the algorithm for changing the mutual superposition of the relief of the bodies and the frequency of their movement. In the projection of light, a moving pattern of light and shadow is formed, imitating the sea or river bottom, i.e. provides the optical effect that occurs when the light flux interacts with the vibrating surface of the liquid.

You can use a light source, including a laser, both in the visible and in the range close to ultraviolet (with a wavelength of 320-400 nM), or both ranges simultaneously. Some surfaces when irradiated with ultraviolet radiation are excited and begin to glow, in this case, the effect is not reflected, but excited light, simulating the reflection of light by an oscillating fluid.

The devices described above (Figs. 1-5) can be installed in a dark, or dimly lit, or lit room. Turn on the engine 6 and the light source 3. The bodies 1,2 carry out mutual movement, and on the dark surfaces of the surrounding space the light effect described above occurs.

The proposed utility model can find the widest distribution due to its simplicity and wide functionality, since it is possible to simulate virtually any effects that occur when light is reflected by an oscillating fluid (during sea waves, the water surface of the river, etc.) by selecting the appropriate relief for the surfaces of bodies.

Claims (9)

1. A device for creating an optical effect, comprising a light source and / or a light reflector and at least two bodies, one of which has a relief surface, and means for moving at least one of these bodies relative to the other, characterized in that each of the bodies is a transparent body with at least one embossed surface or a mirror with a reflective embossed surface.  2. The device according to claim 1, characterized in that each body is made flat, and the specified means for moving made with the possibility of ensuring plane-parallel movement of at least one of the bodies relative to the other.  3. The device according to claim 1, characterized in that the bodies are made in the form of coaxial cylinders, the outer cylinder is made transparent, and the inner one is transparent or in the form of a mirror, and said means for moving is arranged to rotate at least one of bodies around their common axis.  4. The device according to claim 1, characterized in that the bodies are made in the form of concentric spheres, the outer of which is made transparent, and the inner one is transparent or in the form of a mirror, and said means for moving are configured to provide rotation of at least one from bodies around their common central axis.  5. The device according to claim 4, characterized in that when both spheres are transparent, the light source is placed outside the spheres, and the reflector is placed inside these spheres and made in the form of a sphere having reflective fragments moving with non-reflective opaque fragments, with the possibility of its rotation relative to the inner surface of a transparent sphere.  6. The device according to claim 5, characterized in that the reflector includes an additional sphere covering the specified sphere of the reflector and having moving reflecting fragments and gaps, and is configured to rotate both spheres of the reflector relative to each other.  7. The device according to claim 5 or 6, characterized in that the reflecting fragments of the spheres of the reflector have an arc in the longitudinal section, and in the transverse section a straight line segment perpendicular to the radius of the sphere.  8. The device according to claim 1, characterized in that the bodies are made in the form of segments of concentric spheres, and the specified means for moving is made with the possibility of rotation or rotation of at least one of the bodies around an axis passing through the center of the spheres. 9. The device according to any one of claims 1 to 8, characterized in that the light source is a source of visible, including laser, or close to ultraviolet radiation.