DE10142534A1 - Tracking mirror capturing sunlight for interior illumination, includes transparent cover and frame with azimuth motor drive - Google Patents

Abstract

The motor- (8) driven mirror (13) frame (9) has rotary mountings. A vertical, transparent tube (7) with top cover (5) protects the assembly from the weather. The tube axis and azimuth axis of frame rotation, lie parallel. The motor casing is fastened high on the frame. The motor shaft (4) coupling (6) holds it rigidly against rotation relative to the tube (7) and transmits motor torque. When switched on, the motor casing rotates with the frame, its shaft remains stationary.

Description

State of the art

The invention relates to an arrangement for catching sunlight by tracking of a mirror corresponding to the position of the sun to direct sunlight into interior spaces conduct.

The sun is a very bright light source: on a bright summer day, outside Illuminance levels of 100,000 lux possible, while in closed rooms depending on the function between 100 and 500 lux are sufficient. That's why it's been trying for a long time To direct sunlight into interior rooms. However, the previous devices were very elaborate and costly, so that its application primarily to public buildings or office building remained restricted. However, there is also private residential construction smaller interior rooms, preferably bathrooms and toilets.

A device of the type mentioned above is described in EP 0251162: a mirror is on a frame rotatably mounted in the horizontal direction for tracking the Height angle attached, which in turn is rotatably mounted about a vertical axis Frame for tracking the azimuth is attached. The drive for tracking the mirror in the azimuth direction is fixed to a frame above the axis of rotation. Similar devices can also be found in JP 2000123615 or in US 4425905. The latter A parabolic mirror is used together with an optical conductor is located within a closed transparent dome.

Description of the task

The invention has for its object to an arrangement of the type mentioned create the most compact, easy to assemble and inexpensive to realizing design, so that the lighting of indoor bathrooms with daylight in private housing at reasonable cost is possible.

Description of the invention

The object is achieved according to the invention with the aid of the arrangement mentioned in claim 1. This has three main advantages:
First, mirrors ( 13 ) and all drives ( 8 , 24 ) are housed in a transparent tube ( 7 ) which is sealed against environmental influences, and in such a way that the full tube cross section can be used for the transmission of the sunlight. In this way, the moving parts are not exposed to the weather, which reduces the requirements for the cabling and the protection class of the motors. Transparent tubes with a cross-section sufficient for lighting are available today in both glass and acrylic glass. Secondly, the arrangement according to the invention results in simple assembly: the entire device can be inserted and assembled with the tube in one piece through a circular passage ( 16 ) through a roof ( 17 ).

Third, the arrangement according to the invention of the drive ( 8 ) for the adjustment in the azimuth direction on the frame ( 9 ) has the advantage that only one cable feed ( 31 ) is required. This can be done from below by the frame holder ( 14 ). There is no separate external cable, which would make assembly more difficult.

The subclaims name expedient refinements of the method. Basically, daylight can already be captured by rotating the mirror ( 13 ) according to the azimuth angle of the sun. A higher luminous efficacy is obtained if the height angle of the mirror is also adjusted to the position of the sun, the arrangement according to claims 2, 3 and 11 allowing compact accommodation.

Claims 4 and 5 relate to special configurations in the arrangement of the motor ( 8 ) for adjusting the azimuth. The arrangement according to claim 4 has the advantage that the motor mounting in the axial direction is not loaded by the weight of the mirror ( 13 ) and frame ( 9 ). The arrangement according to claim 5 has the advantage that the lid ( 5 ) of the tube can be removed for maintenance work without having to make any changes to the storage. The uniform tensioning in the tube according to claim 5 is indispensable when using acrylic glass as tube material, since otherwise the tube ( 7 ) warps. In addition, this arrangement has two further advantages: there are no parts protruding from the tube, so that the tube ( 7 ) can optionally also be inserted from below through the roof duct ( 16 ). On the other hand, there are no connections to be sealed with the outside world.

The arrangements according to claims 6 and 7 simplify the connection of a tubular light-guiding element ( 18 ) with simple removal of the cable ( 31 ) and at the same time ensure adequate ventilation.

As the arrangement is exposed to sunlight all day, the air will turn in warm the tube. The arrangement according to the invention uses the thermal buoyancy of the warm air and gives it the opportunity to escape at the highest point, without rain or insects being able to penetrate the arrangement.

The arrangement according to claim 10 prevents condensate from running out through the air holes ( 28 ) into the interior of the arrangement.

In the arrangement according to claim 12, signal preprocessing tasks, timers or the entire controller ( 26 ) can be attached to the frame ( 9 ). This allows signals to be amplified in advance. If the entire control ( 26 ) is attached to the frame ( 9 ), only an external energy supply is required.

According to the invention, the frame ( 9 ) always follows the course of the sun. According to the invention, there is therefore the possibility, according to claim 13, of using the upper part of the frame side facing the mirror ( 13 ) for the attachment of solar cells ( 25 ) which, together with a corresponding external battery, make the system self-sufficient. Attaching the accumulator to the frame ( 9 ) is currently not yet possible, since according to the current state of the art these are still too large and too heavy. Therefore, a supply cable cannot currently be dispensed with.

The arrangement according to the invention primarily serves to capture the direct sunlight. So that the diffuse light that enters the tube below the mirror is passed on, the tube can be lined with highly reflective film ( 15 ) in the lower part. Furthermore, it prevents the light in the lower part of the tube ( 7 ) from being absorbed by the surrounding, mostly less reflective roof duct ( 16 ) in the event of small angular errors in the mirror ( 13 ).

In the case of an arrangement according to claim (15), rotation of the frame ( 9 ) by more than 360 ° is mechanically prevented in the event of a malfunction of the control ( 26 ). This arrangement also serves as an alignment aid during assembly.

Description of the figures

Fig. 1 shows the arrangement in section. It is a cylindrical construction. The viewer's direction of view is in the direction of the side to which the solar cells ( 25 ) are attached. The frame ( 9 ) and mirror ( 13 ) are in the position they assume at sunrise. The tube ( 7 ) is shown how it can be installed in a roof duct ( 16 ) in a sloping roof ( 17 ). The height of the tube ( 7 ) depends on how close it can be mounted to the roof ridge ( 36 ).

The top-recognizable attachment, consisting of the large cover ( 5 ), the my tube ( 2 ) with crown-shaped recesses ( 30 ) and the small cover ( 1 ), ensures ventilation (see claims 9 and 10).

The frame ( 9 ), which is rotatable about the vertical axis, is fastened to a frame support ( 14 ) which is mounted at the bottom. This bearing ( 21 ) absorbs the weight. The shaft ( 4 ) of the drive ( 8 ) that moves the frame ( 9 ) is clamped at the top via a driver ( 3 ) in a hub ( 6 ). This hub ( 3 ) is clamped centrally into the tube ( 7 ) via a plurality of radially arranged spokes ( 32 ) with nuts ( 34 ). Blind holes ( 33 ) are provided on the circumference of the tube ( 7 ) and serve to center and fix the spokes ( 32 ).

A stopper ( 35 ) is attached at the top on the left side of the frame ( 9 ) in the direction of view of the solar cells ( 25 ). This prevents according to claim (15) together with a stop, which is mounted on the west-facing spoke, an overturning of the mirror in the event of a control fault. This stop cannot be seen in the figure, since it sits in the middle behind the hub and is therefore covered by it.

The height angle of the mirror ( 13 ) is adjusted via the drive ( 24 ), via two bevel gears ( 23 ) and two spur gears ( 22 ). Signal preprocessing and / or control ( 26 ) are housed in the upper part of the construction within the frame. This is possible because they are flat electronic assemblies. The plate to which these parts are attached cannot be seen, since the viewing direction is in the opposite direction. In contrast, the plate ( 10 ) to which the solar cells ( 25 ) are attached is visible. These are on the outside so that their outlines are covered.

Claims (15)

1. Device for capturing daylight by means of a mirror tracking the position of the sun for lighting purposes, characterized in that the mirror ( 13 ) in a rotatably mounted, by a motor ( 8 ) driven frame ( 9 ) in a transparent, above by a Lid ( 5 ) is protected against environmental influences, the vertically positioned tube ( 7 ) is fastened, the axis of rotation of the frame ( 9 ) running parallel to the axis of the tube ( 7 ), ie the rotational movement in the azimuth direction, and the housing of the motor ( 8 ) at the top is fixed to the frame ( 9 ), while the motor shaft ( 4 ) is rigidly coupled in the circumferential direction to a part ( 6 ) which is fixedly connected to the tube ( 7 ) and thus transmits its torque, so that when the motor is switched on, the motor housing ( 8 ) rotates together with the frame ( 9 ) while the shaft ( 4 ) remains at rest. 2. Arrangement according to claim 1, characterized in that the mirror ( 13 ) is flat and has an elliptical outer contour, the main axes being chosen so that the mirror at a 45 ° inclination to a slight clearance the cross section of the tube ( 7 ) Fills out completely. 3. Arrangement according to claim 2, characterized in that the mirror ( 13 ) is mounted on a rotatable horizontal shaft ( 12 ) with a flat contact surface which is mounted on both sides of the frame ( 9 ) and is driven by a motor ( 24 ) , so that the height angle is adjusted when the mirror ( 13 ) rotates. 4. Arrangement according to claim 1, characterized in that the axis of rotation of the frame ( 9 ) via a shaft or a carrier ( 14 ) is extended down to the end of the tube ( 7 ) and is mounted there in a lower cross strut ( 20 ) , This bearing ( 21 ) absorbs the weight of the frame ( 9 ) and the parts mounted thereon, while the transmission of the torque takes place at the top via a driver ( 3 ) fastened on the motor shaft ( 4 ), which is inserted into a groove of a fixed part ( 6 ) engages so that the force is transmitted only in the circumferential direction, while no force transmission takes place in the axial direction. 5. Arrangement according to claim 4, characterized in that the fixed part ( 6 ) is designed as a hub, in the evenly distributed on the circumference several radially arranged spokes ( 32 ) are screwed, which are countered by nuts ( 34 ), so that the The hub is clamped uniformly on all sides between the wall of the tube ( 7 ), blind holes ( 33 ) for centering and fixing the spokes ( 32 ) being made in the wall. 6. Arrangement according to claim 4, characterized in that the lower cross strut has on its underside two recesses ( 19 ) at the same distance from the center of the tube. 7. Arrangement according to claim 6, characterized in that the tube with the lower cross strut ( 20 ) on a tube ( 18 ) smaller diameter and good reflectance is placed so that the supply cable ( 31 ) can be placed through the resulting annular gap and air is supplied to the arrangement, the recesses ( 19 ) serving as centering aids. 8. Arrangement according to claim 4, characterized in that the supply of the cable ( 31 ) on or in the carrier ( 14 ) which supports the frame ( 9 ) downwards takes place. 9. Arrangement according to claim 1, characterized in that the cover ( 5 ) which closes the tube ( 7 ) has a plurality of air holes ( 28 ) which are located in the interior of a second tube ( 2 ) of smaller diameter, which are crown-shaped at the top Has recesses ( 30 ) on which a second cover ( 1 ) is glued, which has in the middle a concentric circular recess ( 29 ) whose diameter is larger than that of the second tube ( 2 ), so that the air through the air holes ( 28 ) of the first cover ( 5 ), through the crown-shaped recesses ( 30 ) and through the gap ( 29 ) between the small tube ( 2 ) and the small cover ( 1 ) can reach the outside. 10. The arrangement according to claim 9, characterized in that the large cover ( 5 ) which closes the tube ( 7 ) has a circumferential groove ( 27 ) whose outer diameter corresponds to the diameter of the tube ( 7 ) and whose inner diameter is smaller than the inside diameter of the tube ( 7 ). 11. The arrangement according to claim 3, characterized in that the drive motor ( 24 ) of the mirror ( 13 ) is arranged parallel to the drive motor ( 8 ) of the frame ( 9 ) on a cross strut ( 11 ), the torque of the motor ( 24 ) via a pair of bevel gears ( 23 ) and a pair of spur gears ( 22 ) is transmitted to the axis of rotation of the mirror ( 12 ). 12. The arrangement according to claim 1, characterized in that on the side facing away from the mirror ( 13 ) of the frame via spacers, preferably with low thermal conductivity, a plate is attached to the electronic modules for signal preprocessing and / or control ( 26 ) are attached can. 13. The arrangement according to claim 1, characterized in that a plate ( 10 ) with solar cells ( 25 ) is arranged on the side of the frame ( 9 ) facing the mirror ( 13 ), which supply the arrangement with energy. 14. Arrangement according to claim 1, characterized in that the lower part of the tube ( 7 ) is lined with a highly reflective film ( 15 ) which captures the diffusely incident light and can transmit it. 15. The arrangement according to claim 5, characterized in that a stopper ( 35 ) is attached to the left side of the frame in the direction of view to the sun, and on the west-facing spoke there is a stop, so that in the event of a malfunction of the control ( 26 ) the stopper ( 35 ) pushes against the stop, thus preventing the frame ( 9 ) from rotating by more than 360 °, the stop simultaneously serving as an alignment aid during assembly.