RU2335693C1 - Item of illumination (versions) - Google Patents

Abstract

FIELD: illumination.

SUBSTANCE: item of illumination in version 1 includes translucent and hard shell and light source and light reflector being inside this shell. Reflector locator is also inside shell. Light reflector is movable and located so that it can be displaced along internal surface of shell and its own axis. Item of illumination is provided with displacement drive represented as a first magnet, which is movable and located on the external side of shell, and the second magnet having rigid connection with reflector. Besides, magnets are made attracting. Displacement drive is both manual and mechanical. The latter has, at least, pair of remotely controlled drivers connected to magnet 1. Item of illumination in option 2 contains translucent hard shell. Light source and light reflector are located inside this shell. Light reflector is movable and located inside shell so that it can be displaced along internal surface of shell and its own axis. Item of illumination is provided with reflector displacement drive represented with the first magnet, which is movable and located on the external side of shell, and the second magnet having rigid connection with reflector. Besides, magnets are made attracting. Brush, which is rigidly connected with magnet and cleaning liquid supply unit for external surface of shell are situated on the side of the first magnet directed to shell.

EFFECT: improvement of functional possibilities of illumination item.

9 cl, 7 dwg

Description

This technical solution relates mainly to indoor lighting devices, including workshops, scenes, including lighting, providing movement of light spots with a change in their shape, and this tool can also be used for outdoor lighting.

Known lighting means, each of which contains a transparent shell, inside of which are located a light source and a light reflector [1-12].

The lighting means [12] also contains a device for changing the position of the reflector, the illumination of the illuminated surface and changing the shape of the light spot on the illuminated surface, the light source being an electric lamp fixed inside the shell of the lighting means.

Of the known devices, the closest device in essence and the achieved effect to the device presented in this description is a lighting device containing a transparent shell, inside of which there is a light source and a light reflector, as well as a means of moving the reflector [12]. The shell in this technical solution is a ceiling.

This technical solution has relatively low functionality, in particular, it does not provide control over the movement of the light spot over the illuminated surface in a wide range in predetermined directions.

In cases of using a known lighting device in limbo when the outer surface of the shell is contaminated, it is necessary to lower this tool to the ground to clean it, which is associated with operating costs.

Solved and achieved technical task of this technical solution is to increase the functionality of the lighting.

To do this, in a lighting device (first option) containing a transparent shell, inside which there is a light source and a light reflector, as well as a means of moving the reflector, the light reflector is movably located in the shell with the possibility of its movement relative to the inner surface of the shell and around its own axis, while the lighting means is equipped with a reflector drive, which is made of a first magnet movably located on the outer side of the shell, and a second magnet rigidly connected to the reflector Telem, wherein the magnets are made mutually attracted to each other.

The drive for moving the reflector is made manual or mechanical. The latter has at least a pair of remotely controlled propulsors associated with the first magnet.

The second magnet is located between the inner surface of the shell and the outer surface of the reflector.

The second magnet is located on the inner surface of the reflector.

The specified technical result is also achieved by the fact that in a lighting device (second option) containing a transparent rigid shell, inside of which there is a light source and a light reflector, the light reflector is movably located in the shell with the possibility of its movement relative to the inner surface of the shell and around its own axis, with this means of lighting is equipped with a drive for moving the reflector, which is made of the first magnet, movably located on the outer side of the shell, and the second magnet, rigidly connected connected with the reflector, the magnets being mutually attracted to each other, and on the side of the first magnet facing the shell there is a brush rigidly connected to the magnet and means for supplying the cleaning liquid to the outer surface of the shell.

The brush is located around the perimeter of the magnet, and the cleaning fluid supply is located in the inner contour of the brush or on the outer surface of the shell.

The second magnet is located between the inner surface of the shell and the outer surface of the reflector.

The second magnet is located on the inner surface of the reflector.

Figure 1 shows the lighting means suspended on a flexible rope,

figure 2 shows a view of figure 1,

figure 3 is a view of B in figure 1,

in Fig.4 - the first beckons with a brush fixed on its lower side,

figure 5 shows the fastening of the second magnet to the reflector,

figure 6 shows a second variant of mounting the second magnet to the reflector,

Fig.7 shows a section bb in Fig.1.

The lighting means (the first option) contains a transparent shell 1 (Fig. 1), for example a shade, or another shell, inside of which are located a light source 2 and a light reflector 3. The light source is an electric lamp. The shell is closed. In another design, it may be open on one side.

The shell 1 is made of any known waterproof, fireproof material having the properties of light scattering and strength, providing reliable fastening in the shell of the light source.

The shell may be rigid, made of glass or plastic, semi-rigid, made of durable, air-blown, transparent fabric. In the case of a rigid shell, it can have any known shape, including open in the form of a hemisphere. In the case of a semi-rigid inflatable shell, the shell is closed and sealed.

The light reflector is movably located in the shell with the ability to move along the inner surface 4 of the shell and rotate around axis 5. This axis is located perpendicular to the reflector and the shell, the latter being parallel. The reflector 3 can be made spherical, with straight, made around the circumference, concave or convex, with variable curvature having different sections, differing in shape and curvature, with wavy edges, with holes or slits of various shapes on the surface of the reflector, forming ornaments, drawings and inscriptions.

The lighting device is equipped with a drive 6 for moving the reflector 3. The drive is made of the first magnet 7, movably located on the outer side 8 of the shell 1, and the second magnet 9, rigidly connected with the reflector 3. The magnets are mutually attracted to each other. The drive 6 of the movement of the reflector in one design is manual, and in another design, the drive 6 of the movement of the reflector is mechanical, having at least a pair of remotely controlled movers 10 connected to the first magnet 7. Each mover 10 is, for example, tracked, with rubber or metal magnetized caterpillar tracks attracted by the second magnet 9. Each mover has at least one drive motor wheel (not shown). Mover tracks can be made of rubber with metal elements in them, attracted by the second magnet 9.

In one embodiment of the first embodiment of the lighting means (Fig. 6), the second magnet 9 is located between the inner surface 4 of the shell 1 and the outer surface 11 of the reflector. In another embodiment of the first embodiment of the lighting means (Fig. 5), the second magnet 9 is located on the inner surface 12 of the reflector 3.

The second variant of the lighting means is identical to the first variant with the difference that the second variant has a shell cleaner that provides cleaning of the outer surface 13 of the shell with a brush 14 (FIG. 4), which is mounted on the side of the first magnet 7 facing the outer surface 13 of the shell 1 (FIG. one). The specified cleaning is carried out by a cleaning fluid supplied to the outer surface 13 of the shell 1 by means of a fluid supply. Such a supply means is a spiral twisted flexible elastic tube 15, one end of which is fixed to the first magnet 7, and its other end is fixed to the tank with washer fluid (not shown), while the tube is in communication with the cavity of the tank and the liquid in the tank .

The brush 14 (Fig. 4) is located around the perimeter of the first magnet 7, and the cleaning fluid supply means or tube 15, in particular its outlet 16, is located in the inner contour of the brush 13.

In the execution of the second embodiment of the lighting means (Fig. 6), the second magnet 9 is located between the inner surface 4 of the shell 1 and the outer surface 11 of the reflector 3. In another embodiment of the second embodiment of the lighting means (Fig. 5), the second magnet 9 is located on the inner surface 12 of the reflector 3 . In the assembled operating position of the illumination means, the first and second magnets are attracted to each other, as a result of which the first magnet 7, the associated motors 10 and the brush 14 are constantly pressed to the outer surface 13 of the shell 1. Preload p The first magnet is also carried out by attracting the propulsors 10 to the second magnet 9.

The lighting means in one embodiment (Fig. 1) is suspended on a rope 16 from the ceiling of the illuminated room (the ceiling is not shown), and in another embodiment, the lighting means is mounted on known rigid or inflatable pneumatic supports (not shown).

The light source 2 or the electric lamp has a socle 17, mounted in the introductory ballast part 18 of the lighting means. A tube 15 is connected to this part, extending along the rope 16 and fixed on it in the working position in such a way that the tube does not have kinks along its entire path to the tank with the washing liquid. In the tube 15 (figure 3, 7) are the electric wires 18 connected to the motor wheels of the propulsors 10 and to a power source (not shown). The tube 15 is filled with a cleaning fluid 19. Between the tube 15 (Fig. 1) and the drivers 10 there is a protective plate 20 that prevents the tube 15 from contacting the drivers while the reflector drive 6 is moving along the outer surface 13 of the shell 1. An introduction part 21 is fixed to the outside of the plate, in the hole of which the tube 15 is fixed in a position that excludes its excesses during movement of the actuator 6.

The reflector 3 is made with cutouts 22 (figure 2), allowing when moving it to cover the base 17 of the light source 2 from its opposite sides.

The lighting tool operates as follows.

Power is supplied to the light source 2 or to the electric lamp of the lighting means, as a result, part of the light from the light source is directed into the illuminated space through the shell 1, and part of the light is reflected by the reflector 3 and sent from the light source 2 in a given direction.

To change the direction of the reflected light, the reflector 3 is moved along the shell 1 (Fig. 1) or the reflector is rotated around axis 5, and if the reflector is located in the lower part of the shell, the reflector is rotated around the axis of symmetry of the magnets.

To move the reflector 3 or to rotate it, the first magnet 7 is moved along the outer surface 13 of the shell 1 or rotated around the axis 5 (or around its own axis of symmetry), as a result, the second magnet 9 moves or rotates around it around axis 5 or its own axis 23, and with this magnet the reflector 3 moves or rotates. This adjustment of the position of the reflector 3 is carried out manually in one case, and in the other case, the position of the reflector 3 is mechanically adjusted by means of an actuator 6 ion control of the operation of the propulsors 10 and their coordinated movements. To do this, the first magnet 7 is moved along the outer surface 13 of the shell 1 by the propellers 10 in a predetermined direction or the first magnet is rotated in the same way as described above when manually adjusting the position of the reflector. In both cases, during the movement of the reflector 3, the cutouts 22 (Fig. 2) move relative to the base 17 of the light source, cover it from two sides, center the reflector relative to the base. In the case of movement of the reflector 3 in the lower part of the shell 1 (Fig. 1), the reflector freely and without interference moves relative to the inner surface 4 of the shell.

During operation of the second embodiment of the lighting means having a surface cleaner of the shell 1, two options for cleaning the shell are possible.

The first option involves manual cleaning of the outer surface of the shell, for which the shell 1 is lowered to the ground and manually moved the first magnet 7 and the brush 14, while wetting the surface 13 of the shell with a cleaning fluid.

In another embodiment, the cleaning of the shell 1 is carried out in its position suspended on the rope 16, for which the first magnet 7 is mechanically moved by the reflector movement drive 6, the cleaning liquid 19 is supplied to the outer surface 13 of the shell 1 through the tube 15 and the first magnet 7 and the brush are moved in the indicated directions 14, which cleans the surface 13 of the shell.

This technical solution provides the greatest effect in cases where large-sized shells or shades are used in lighting devices. In this case, the use of special expensive stationary means for cleaning plafonds is excluded.

Information sources

1. WO 02/44613 A1, 11.29.2001.

2. US 5117344, 05.26.1992.

3. WO 03/088197 A1, 10.23.2003.

4. JP 9306210, 11.28.1997.

5. JP 2003157712, 03/05/2003.

6. EP 1394466, 03.03.2004.

7. US 6238067 B1, May 29, 2001.

8. US 5142463, 08.25.1992.

9. WO 2005/103557.

10. RU 2149307 C1, 05.20.2000.

11.JP 2006190624, 07.20.2006.

12. JP 2001273802, 10/05/2001 (prototype).

Claims (9)

1. A lighting device (first option) containing a transparent shell, inside of which there is a light source and a light reflector, as well as a means of moving the reflector, characterized in that the light reflector is movably located in the shell with the possibility of its movement along the inner surface of the shell and around its own axis wherein the lighting means is equipped with a reflector drive, which is made of a first magnet, movably located on the outer side of the shell, and a second magnet, rigidly connected with razhatelem, wherein the magnets are made mutually attracted to each other. 2. The lighting tool according to claim 1, characterized in that the reflector drive is made manually. 3. The lighting means according to claim 1, characterized in that the reflector displacement drive is made mechanical, having at least a pair of remotely controlled propulsors associated with the first magnet. 4. The lighting tool according to claim 1, characterized in that the second magnet is located between the inner surface of the shell and the outer surface of the reflector. 5. The lighting tool according to claim 1, characterized in that the second magnet is located on the inner surface of the reflector. 6. A lighting device (second option) containing a transparent rigid shell, inside of which there is a light source and a light reflector, characterized in that the light reflector is movably located in the shell with the possibility of its movement along the inner surface of the shell and around its own axis, while the lighting means equipped with a drive for moving the reflector, which is made of the first magnet, movably located on the outer side of the shell, and the second magnet, rigidly connected to the reflector, and the magnets are made They are mutually attracted to each other, and on the side of the first magnet facing the shell there is a brush rigidly connected to the magnet and means for supplying the cleaning liquid to the outer surface of the shell. 7. The lighting means according to claim 6, characterized in that the brush is located around the perimeter of the magnet, and the means for supplying the cleaning liquid is located in the inner contour of the brush. 8. The lighting means according to claim 6, characterized in that the second magnet is located between the inner surface of the shell and the outer surface of the reflector. 9. The lighting tool according to claim 6, characterized in that the second magnet is located on the inner surface of the reflector.

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