RU2642005C2 - Sunlight imitator (versions) - Google Patents

Abstract

FIELD: lighting.

SUBSTANCE: invention relates to lighting sources and, in particular, can be used to illuminate residential, medical and educational premises and, in particular, in said facilities in the northern regions of the globe, where daylight is absent for six months. Virtual solar light flux is formed from a light source located in a room with one window, placed in the focus of a parabolic mirror reflector suspended or installed at a height above the window. Light source further comprises a series-connected motor and a reducer, the output shaft of which is connected to a vertical rod, located near the front in the direction of motion of the mirror plate of the side of the frame, in front of each light source there is a frame which is rectangular or curved towards the light source, upper and lower sides of which are made with channels, in which a movable perforated mirror plate is installed, the openings of which are covered with rippled paper petals in the form of leaves. There is an end microswitch connected to the input switch of the power source, which supplies the motor and the light source. For a room with two windows separated by a corner, east and south orientation, the simulator further comprises a second light source, which together with the first source is suspended or installed in parabolic mirror reflectors.

EFFECT: designing a light source, close in its properties to real sunlight, creating a joyful mood, increased efficiency.

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Description

The present invention relates to energy, lighting sources, and, in particular, can be used for lighting residential, medical and educational premises, and especially in the mentioned facilities, in the northern regions of the globe, where there is no daylight for six months.

It is well known that in sunlight people psychologically experience an increase in mental strength, a joyful and benevolent mood, well-being improves, etc.

Known "Solar lamp", containing a solar pipe and nozzles made with an internal mirror surface. According to the second embodiment, the luminaire consists of a solar energy receiver, a main solar duct and nozzles, and the main solar duct contains a mirror for directing the flow to the nozzle and a tap from the main solar duct to select part of the solar flux, and the nozzle is made in the form of a hollow cone with an external mirror surface. In the third embodiment, the solar luminaire is combined, an electric lamp is mounted inside the nozzle, which is automatically turned on in the mains by a signal from the solar flux density sensor when it decreases to an acceptable lower limit and disconnected from the mains when the upper flux density limits, see RU 2182287, F24J 2/42 , F24J 2/00 dated 02.03.2000.

Also known is the "Solar Lighting System" comprising a sunlight concentrator, optical fibers, a light distribution collector, lighting devices with light emission deconcentrators, each lighting device being connected via optical fibers to a light distribution collector, comprising one or a number of successive sunlight receivers made in a straight line and / or curved, for example, in the form of an arc of a circle or circle, and in cross section has the shape of a collective lens made of light opaque material, see RU 2008137155, F21S 9/03 of 09.16.2008.

However, the known device converts sunlight into the light of a traditional source of electric light, i.e., light that has lost the properties of moving the sun in space and transmitting the movement of objects illuminated by the sun. This is a cold light and it does not create a lift, a psychological attitude, does not stimulate the working capacity of people in the room.

The aim of the present invention is to achieve a technical result for creating a light source with properties that are as close as possible to the sun, able to create a joyful mood, increase efficiency and incentives for recovery in patients by reproducing such parameters of sunlight as the movement of sunlight, passage through swaying foliage .

The specified technical result for the first option, a room with one window, is achieved by the fact that it contains a light source placed in the focus of the specular parabolic reflector, suspended or mounted at a height above the window, further comprises a motor and gearbox connected in series, the output shaft is connected to a vertical shaft located near the front, in the direction of movement of the mirror plate, the side of the frame, in front of each light source is located rectangular or curved towards the source with There is a frame, the upper and lower sides of which are made with grooves in which a movable perforated mirror plate is installed, the openings of which are closed with swaying paper petals in the form of leaves, at the top and bottom of the front, in the direction of movement of the mirror plate, the sides of the frame are fixed threads or cables, the second ends which are connected, respectively, at the top and bottom with a vertical rod connected by a flexible shaft through a gearbox to the motor, the rear side of the mirror plate is connected through a spring with the back side of the frame, and near its front side there is a micro switch connected to the input switch of the electric power source supplying the engine and the light source.

The technical result of the second version of the simulator, for a room with two, divided by an angle, windows, east and south orientation, is achieved by the fact that in the known device containing a light source, a second light source is additionally introduced, which, together with the first source, is suspended or mounted in mirror parabolic reflectors, each of them is suspended or placed at a height, separately above the east and south windows, in front of each light source, there is a rectangular or curved, towards the light sources, frame, The upper and lower sides of which are made with grooves along which mirror plates with perforation move flat or curved towards the windows, each hole of which is closed by freely swaying paper petals in the shape of leaves, while an intermediate one is installed in the middle part of the frame of the eastern window, and at its end end microswitches in contact with the mirror plate. At the top and bottom of the front, in the direction of movement, side of the mirror plate, threads or cables are fixed, the second ends of which are connected, respectively, at the top and bottom, with a vertical rod connected by a flexible shaft through a gearbox to the motor, and the rear side of the mirror plate through a spring connected to the back of the frame. The intermediate microswitch of the east window frame is connected via a control key to the light source and to the electromagnetic coupling of the southern window, while the output axes of the electromagnetic couplings are connected to the rods, the top and bottom of which are connected with the bottom and top of the nearest sides of the mirror plates via threads or cables and their rear the sides through the spring are connected to the rear sides of the frames.

The invention is illustrated in graphic materials. In FIG. 1 shows a structural diagram of a simulator of the first embodiment, for a room with one window, in FIG. 2 shows the gutters of the frame; FIG. 3 shows the phases of the position of the virtual sun illuminating the eastern and southern windows; FIG. 4 shows a simplified structural and electrical block diagram of a simulator of the second embodiment, for a room with two windows.

The sunlight simulator with the designations in the drawings includes:

1. The source of light.

2. The framework.

3. Mirror plates.

4. The engine.

5. The gearbox.

6. Intermediate microswitch east window.

7. End microswitch of the east window.

8. Threads or cables from the front of the plate to the axis of the gearbox.

9. Rods located near the front frames.

10. Springs.

11. The gutters of the frame.

12. The end microswitch of the south window.

13. Electromagnetic couplings.

14. The input switch.

15. Control keys - K ₁ , K ₂ .

The sunlight simulator for both options consists of common units and individual blocks for each option. A common part is the input two-pin switch 14, two light sources 1 located respectively above the east and south windows, in front of each of which are flat or curved in the direction of each of the windows of the frame 2 with grooves 11 on the lower and upper sides, see Fig. . 2. Mirror perforated plates 3 are installed in the grooves 12, each hole of which is closed by paper swaying leaf-shaped petals, not shown. At the top and bottom of the front, in the direction of movement, sides of the mirror plates 3, threads 8 or cables are fixed, the second ends of which are attached to the upper and lower parts of the rods 9. The rear sides of the mirror plates 3 are connected through the springs 10 to the rear sides of the frames 2. U front side, in the direction of movement of the mirror plates 3, frames 2 are located end microswitches 7, connected to subsequent controlled nodes and blocks. All input shafts of electromagnetic couplings 13 are connected to the gearbox 5, and their output shafts are separately connected to their rods 9.

The individual features of the first option, for a room with one window, is an engine 4 connected to a power source through a two-pin input switch 14. The output shaft of the engine 4, through a reducer 5 by means of a flexible shaft (not indicated), is connected to an electromagnetic clutch 13, which leads in rotation, the rod 9 of the east window.

In the second embodiment of the simulator, for two windows, conventionally designated as east and south, individual signs are the connection of the intermediate microswitch 6 located in the middle of the frame 2 of the east window with the control key 15 and with the electromagnetic coupling 15 of the south window, the output shaft of which connected to the rod 9. The latter through the yarn 8 or cables connected to the mirror plate 3 of the southern window. The second microswitch 7 of the south window, the end one, is connected to the input switch 14. It should be borne in mind that the inputs of the microswitches are connected to a power source (not shown), and their outputs are connected to the corresponding nodes and blocks.

A simulator of sunlight for a room with one window works as follows.

When the input switch 14 is turned on, electricity is simultaneously supplied to the engine 4 and the light source 1 above the window. The motor 4 through the gearbox 5 through flexible shafts (not indicated) drives the rod 17 mounted near the front, relative to the direction of movement of the mirror plate 3, the side of the frame 2. The rod 17 through the threads 8 or cables located on it above and below, leads into motion a perforated mirror plate 3, the openings of which are closed by paper petals swaying from the air in the form of leaves. The luminous flux from the light source 1 falls on the mirror plate 3, is reflected from it down to the window, window sill and floor near the window, thereby simulating the movement of the virtual sun. Leaf-shaped paper petals fixed above the perforation holes of the mirror plate 3, oscillating from the movement of air in the room (during convection, moving people, etc.), create the effect of sunlight passing through the swaying foliage.

With further movement, the mirror plate 3 runs into the end microswitch 7, which turns off the light source 1, after which the rotation of the rod 9 stops and the spring 10 returns the mirror plate 3 to its original position. This means the virtual sun sets beyond the borders of the window opening and the end of solar lighting in the room.

A simulator for two windows, one of which is oriented, for example, to the east, and the second to the south, works as follows. When the input switch 14 is turned on, electricity is simultaneously supplied to the engine 4, to the light source 1 and to the electromagnetic clutch 13 of the east window. The motor 4 through the gearbox 5 and the electromagnetic clutch 13 of the east window by means of flexible shafts (not indicated) drives the rod 9 mounted near the front, relative to the direction of movement of the mirror plate 3, side of the frame 2 of the east window. The rod 9, by means of the winding threads 8 located on it above and below, drives the perforated mirror plate 3. The light flux from the light source 1 falls onto the moving mirror plate 3, is reflected from it down onto the window, window sill and floor near the window, simulating the beginning of the movement of light from the virtual sun, see Fig. 3A. The paper petals (not marked) in leaf shape, mounted above the perforation holes of the mirror plate 3, sway from the movement of air in the room (convection, movement of people in the room, etc.), creating the effect of the passage of sunlight through the crowns of trees, which is still more creates a feeling of the presence of sunlight in the room. The mirror plate 3 during further movement along the frame 2 runs into an intermediate microswitch 6 mounted in the middle of the frame 2, which includes the electromagnetic clutch 13 of the south window and, through the control key 15 K ₁ , the light source 1. This clutch 13 drives the rod 9 to rotate, thereby drives the mirror plate 3 in the grooves 11 of the frame 2. The phase of illumination of the southern window with the first rays of the virtual sun begins, see FIG. 3B. Next, the mirror plate 3 of the east window runs onto the end microswitch 7 located on the frame 2, which turns off its light source 1 through the control key 15K ₂ and through the key 15K _{3 the} electromagnetic clutch 13, which rotates the rod 9, after which the spring 10 returns the mirror plate 3 to the starting position. This demonstrates the end of the solar illumination of the east window, see FIG. 3B. Further movement of the virtual sun continues only in the south window. The light from the source 1 falls on the mirror plate 3, moving along the grooves 11 of the frame 2. Finally, the mirror plate 2 runs onto the end microswitch 12, which turns off the light source 1, all the working units, blocks and with them the electromagnetic clutch 13 that rotates the rod 9, after which the spring 10 returns the mirror plate 3 to its original state. The cycle of lighting a room with two windows with virtual sunlight has ended, see Fig. 3G. The time of movement of sunlight in the room, i.e. the rotation speed of the output shaft of the chain “engine 4 - gear 5” is calculated and adjusted based on the geographical latitude of the room. The movement of virtual sunlight in the room is slow and may be invisible, but sunlight reflects off objects, creates variable illumination, color saturation and shadow from internal objects that occur at a much greater speed, which makes the process of perceiving the presence of sunlight more real.

The use of this invention improves the mood of people in the room, makes it more joyful, increases the working mood and productivity, in patients in hospital conditions, hopes for a quick recovery and other positive emotions are born. A particularly large positive effect when using this invention is achieved in the northern regions, where the sun has been out for almost six months, as well as for those who have a long labor and military shift in underground and underwater conditions.

The claimed invention is new, previously unknown, which indicates its compliance with the patentability criterion - novelty.

The design of a simulator of sunlight can be manufactured at an instrument-making or radio engineering enterprise of medium technological equipment, which indicates its compliance with the patentability criterion of industrial applicability.

Claims (2)

1. A simulator of sunlight for a room with one window, containing a light source, characterized in that the light source is placed in the focus of the parabolic specular reflector, suspended or mounted at a height above the window, further comprises a series-connected motor and gearbox, the output shaft of which is connected to a vertical a rod located near the side of the frame in front of the mirror plate in the direction of movement of the frame, in front of each light source there is a rectangular or curved towards the light source a hole, the upper and lower sides of which are made with grooves in which a movable perforated mirror plate is installed, the openings of which are closed with swaying paper petals in the form of leaves, threads or cables are fixed at the top and bottom of the front, in the direction of movement, the sides of the mirror plate, the second ends of which are connected respectively, above and below with a vertical rod connected by a flexible shaft through a gearbox to the motor, and the rear side of the mirror plate through a spring is connected to the rear Rhone frame, wherein near its front side is mounted a microswitch terminal, connected to the switch input power source supplying the motor and a light source. 2. A sunlight simulator for a room with two, divided by an angle, windows, east and south orientation, containing a light source, characterized in that it further comprises a second light source, which, together with the first source, are suspended or mounted in mirror parabolic reflectors, each of them suspended or placed at a height separately above the east and south windows, in front of each light source there is a rectangular or curved frame towards the light sources, the upper and lower sides of which are made with grooves along which mirror plates with perforation move flat or curved towards the windows, each hole of which is closed with freely swaying paper petals in the form of leaves, while in the middle of the frame of the east window there is an intermediate one, and at the end of the mirror frame movement, end microswitches in contact with with a mirror plate, at the top and bottom of the front in the direction of movement of the side of the mirror plate, threads or cables are fixed, the second ends of which are connected respectively up and down with a vertical rod connected via a flexible shaft through the gearbox to the motor, while the rear side of the mirror plate is connected through the spring to the rear side of the frame, the intermediate microswitch of the east window frame is connected via a control key to the light source and to the electromagnetic coupling of the south window, in addition, the weekend the axis of the electromagnetic couplings are connected to the rods, the top and bottom of which is connected via threads or cables to the bottom and top of the nearest sides of the mirror plates, respectively, and their rear The e sides are connected through the spring to the rear sides of the frames.

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