DE4317279A1 - Solar-collector arrangement - Google Patents

Abstract

There is provided a solar-collector arrangement having at least one panel-like solar-collector element which is attached to a buiding or the like so as to be adjustable in the angle of inclination. In order to achieve adjustability of the angle of inclination in a constructionally simple manner, the solar-collector element is attached to the building via a first pivot bearing with a first pivot axis, and also via a second pivot bearing which comprises at least one pendulum rod mounted in articulated fashion on the solar-collector element and also the building. One of the pivot bearings is designed to be non-displaceable relative to the building and the other pivot bearing is designed to be displaceable relative to the building. In this arrangement, the first pivot bearing can be constructed on an adjusting element, for example a push rod, which is displaceable relative to the building and is associated with a driving element. If a plurality of solar-collector elements are arranged, they can be adjusted by means of a common push rod.

Description

The invention relates to a solar collector device with at least one panel-like solar collector el ment that is adjustable in the angle of inclination on a building de or similar is attached.

Because of the limited stocks of fossil fuel fen on earth have been around for a relatively long time Efforts have been made to reduce the radiation energy from the sun to generate heat and / or electricity use. Solar collector devices are known those on roofs of houses with an essentially south-facing roof area the inclination of the solar collector elements in the we corresponds substantially to the roof pitch. For attachment The solar collector elements are on flat roofs usually using a subframe under one Tilt angle of approximately 45 ° to the horizon valley set up. In this way, the sun or Rays of light with a relatively high intensity on the collector surfaces of the solar collector elements  impact, which is through the panel-like solar Collector elements flowing fluid, for example wise water, is heated. Beyond that it is possible, by way of photovoltaics from the incident Rays of light generate electrical energy.

However, such solar collector devices have used only to a relatively small extent so far because they are relatively expensive and especially in Areas with a temperate climate, such as Mitteleu ropa, have a low efficiency. Of the Efficiency of the solar collector elements depends on other of the intensity of the streak of light hold d. H. from their angle of incidence on the surface surface of the solar collector element. The highest possible Intensity becomes when the Rays of light reached. Because on the one hand the position the sun relative to earth and thus the direction of the Rays of light continuously throughout the day change and on the other hand the trajectory that the sun covered over the course of a day, in Depending on the season is different it is very difficult to get one over a long period of time to achieve high efficiency. It is from this Basically complex designs have been proposed to track the solar collector elements of the sun the building supporting the solar collector elements become vertical once in a day Center axis rotates and the inclination of the solar collector Elements by means of an electronic control device can be changed via hydraulic actuating cylinders. With this structure can be achieved that the light always radiate perpendicularly to the solar collector elements te, but this procedure is due to the  associated very high costs not in inn socially applicable.

The invention has for its object a solar to create collector device, with one technical construction a relatively high impact degree is achievable.

This object is achieved with a solar col Lector device achieved in that the solar col lecturer element via a first pivot bearing with a first swivel axis and a second swivel axis ger, the at least one on the solar collector element as well the building hinged pendulum rod includes, on Building is attached, one of the pivot bearings immovable relative to the building and the other Swivel bearing slidable relative to the building is designed.

Because of this double-jointed mounting of the solar collector element on the building it is possible by shifting the slidably trained Bearing point, d. H. a movement along the buildings surface, an inclination adjustment of the solar panel bring about gate element. Preferably there is provided that the solar collector element in particular in an angular range of 30 ° to 60 ° relative to adjust to the horizontal is what corresponds to accordingly changing the distances of the bearing points as a result moving the push rod can be achieved.

When the solar collector device according to the invention a building wall above a window opening is brought, the panel-like solar collector-Ele  ment for shading the interior of the building be used. This can be done through storage two pivot points and the pendulum rod with one appropriate design of this lever system achieved be that the lower edge of the solar collector Ele mentes when adjusting the inclination on one Horizontal moves, so that when adjusting the Inclination of the shaded area for the interior of the building not changed.

The solar collector device can be used instead of one Building wall, d. H. in essentially vertical out direction, even in a horizontal position, for example a flat roof can be installed without further Subframes or similar are necessary.

In a preferred embodiment it is provided that the Pendulum rod immovable on a bearing block on Building is stored. The one connected to the pendulum rod That section of the solar collector element can thus just a movement on a circular path around the Execute the articulation point of the pendulum rod on the bearing block, whereby clearly defined adjustment movements for the Solar collector element are reached.

For reasons of spatial stability, it has proven when on opposite side edges of the Solar collector element each a first swivel ger and a pendulum rod is arranged. Through the to achieve symmetrical storage of the Solar panel element on the building is a simple one Load transfer as well as safe guidance in the ver Ensure adjusting movement of the solar collector element continuous  

In a preferred embodiment it is provided that the Axis of the first pivot bearing along the upper one Longitudinal edge of the solar collector element runs and the pendulum rods in the middle of the side edges of the solar collector element are articulated. If that first swivel bearing along the surface of the building is pushed, can due to this structure in essentially horizontal movement of the lower What the end of the solar collector element can be achieved is advantageous if the solar collector elements over Balconies or window openings can be arranged there the field of vision is not restricted in this way.

The displacement of the first pivot bearing is advantageous achieved by the fact that the first Schwenkla at a position that can be moved relative to the building element is formed. As an actuator can for example, use a push rod or similar. For adjusting the inclination of the solar collector element the user can either adjust the actuator manually or apply with the help of a drive device, whereby the actuator along the building surface is moved. The actuator takes the first one Swivel bearing with what to change the inclination of the solar leads collector element.

If the bearings on the two opposite sides- Edges of the solar collector element are arranged, a push rod should also be arranged on each side be whose adjustment movement can be coupled. This paired arrangement of bearings and adjusters elements ensures high spatial stability the adjustment.  

It is necessary that the actuator during Shift on the surface of the building is performed. In a preferred embodiment of the invention is provided that the push rod acting as an actuator means of the bearing block is slidably guided. The camp block is for this purpose with a through opening or the like, through which the push rod passes leads is. The bearing block thus fulfills next to his Function as an immovable bearing for the pendulums rod also has a guide function for the thrust pole.

Especially for buildings that are relatively large Have hot water and / or energy requirements, for example wise administration buildings, apartment buildings, sick houses etc., a variety of solar collectors Elements arranged, each in their inclination must be adjustable relative to the horizontal. In Further development of the invention provides that several Solar collector elements using a common Adjusting element are adjustable. That way not only reduced the design effort, but at the same time a synchronization of the adjustment movements of several or all solar collector elements reached. If several solar collector elements match are arranged differently, the as an actuator nenden push rod through the preferably together aligned bearing blocks can be passed so that safe and precise guidance of the push rod in can be easily achieved. Preferably the push rod with a linear drive, for example a screw jack, a hydraulic cylinder or similar connected, and thus serves as a transmission element of  Adjustment movement of the linear drive to several solar collector elements.

To use a solar collector element for example To heat water or a similar heat transfer fluid men, it is necessary to pass the heat transfer fluid through the Let solar collector element flow through. Consequently there must be a supply line on each solar collector element and a derivation for the heat transfer fluid vorese hen. In a preferred embodiment of the invention it is provided that the push rod has a hollow profile, for example is an extruded aluminum profile, inside a pipe for the heat transfer fluid id is trained. The articulated connection of the first Swivel bearing on the push rod is a turn bushing designed for the heat transfer fluid. If the solar collector element on both sides is each stored in the manner described and has a corresponding push rod, one of the Push rods as a feed line for the heat transfer fluid serve that over the assigned bearing point of the first Pivot bearing enters the solar collector element, flows through and at the opposite end the first swivel bearing trained there into the other Push rod flows that way as a derivative serves. Arranged one above the other, particularly if there are several Neten solar collector elements can be a common same supply or discharge can be provided without a additional external piping is required. It is also independent of the number of over mutually arranged solar collector elements per Push rod only a single connection to a supply line or derivation necessary.  

To prevent excessive heat loss of the heat transfer fluid To avoid ids in the supply or discharge is before preferably provided that the line in the hollow profile a thermal insulation material, such as one up foamed plastic material is surrounded.

To automatically readjust the solar collector Elementes depending on the position of the sun len, a sensor device can be provided, by means of the angle of incidence of the sun's rays the solar collector element is detectable. If the Sensor device detects that the sun's rays at an angle of incidence on the solar collector el encounter the opposite of the target position, d. H. perpendicular impact deviates by a limit, a corresponding deviation is detected and the So larch collector element by moving the push rod adjusted accordingly in the inclination.

The sensor device preferably comprises a slot aperture, behind which at least two photo sensors are arranged are not. One of the photosensors receives preferably the light rays, which are essentially lower right on the solar collector device, while the other photosensor against this light rays is shadowed. When the light rays under a certain angle of inclination on the solar panel these light rays arrive the other photo sensor. By comparing the of the The amount of light received by photo sensors can thus be determined be whether the solar collector element in an inclination angle that is within a Target range is.  

The photo sensors are preferably a control device device downstream, the inclination of the solar panel gate element depending on the means of the Photo sensors can adjust the amount of light detected.

Further details and features of the invention are from the following description of an embodiment game with reference to the drawing. Show it:

Fig. 1 is a side view of a solar collector to the invention OF INVENTION Before direction,

Fig. 2 is a front view in the direction of the arrow II in Fig. 1,

Fig. 3 is a detailed view of a sensor device and Sen

Fig. 4 shows a detailed view of the first pivot bearing.

The solar collector illustrated in Fig. 1 and 2 tor device 10 comprises two panel-Solarkol lecturer elements 11 of known construction, which at the Be tenwand a building 17, respectively, above a Fen steröffnung 17 a are mounted. Each solar collector element 11 is articulated on the two opposite side edges in the central region thereof to a pendulum rod 13 c via a bearing 13 a, the pendulum rod 13 c being articulated to a bearing block 14 at its opposite end via a pivot bearing 13 b which is set on the outside of building 17 . The pivot bearing 13 a define a second pivot axis 13 d in the middle loading area of the solar collector element 11 .

Near its upper end, each solar collector element 11 is connected via two first pivot bearings 12 , which are also arranged on the side edges of the solar collector element 11 , with a common thrust rod pair 15 . The two push rods 15 are substantially vertical and parallel to each other and can store a variety of other solar collector elements in addition to the two Darge presented solar collector elements.

Each push rod 15 is by means of the bearing blocks 14 slidably on the outer wall of the housing 17 and held at its lower end with a Antriebsvor direction 16 in the form of a linear drive. If the two push rods 15 are pushed upwards by activating their respective linear drive 16 according to FIGS. 1 and 2, they perform a movement relative to the bearing blocks 14 , whereby they are guided through them. A movement of the push rods 15 upwards brings an upward displacement of the upper end of the solar collector members 11 with it, whereby the central region thereof to pivot about its stationary lower bearing 13 performs b in consequence of storage over the pendulum rod. 13 In this way, the inclination of the solar collector element 11 can be changed.

As indicated in the lower solar collector element in Fig. 1, at least one of the coupled via the push rod 15 in their adjustment movement of the solar collector elements 11 has a Sensorvor direction for detecting the angle of incidence of the light rays on the solar collector element, as in Fig. 3 is shown enlarged. The Sensorvorrich device comprises a slit diaphragm 21 which is formed on the light incident side of the solar collector element 11 . Behind the slit diaphragm 21 , at a certain distance from it, two photo sensors 22 and 23 are arranged next to one another, which are coupled to a control device in a manner not shown. If the light rays are incident substantially perpendicularly on the solar collector element 11 , they reach the photosensor 22 , while the photosensor 23 arranged next to it does not receive any light rays (illustration LS I in FIG. 3). If the inclination of the solar collector element 11 relative to the horizontal is too small to allow the light rays to strike perpendicularly, the photo sensor 22 does not receive any light rays, while the adjacent photo sensor 23 receives the corresponding rays that pass through the slit diaphragm 21 (beam path LS II in Fig. 3).

If the inclination of the solar collector element 11 is too great in relation to the horizontal to allow the light beams to strike perpendicularly, neither of the two photo sensors 22 and 23 receives the light beams passing through the slit diaphragm 21 (beam path LS III in FIG. 3). With this arrangement, it is possible to bring the solar collector element 11 automatically into the correct inclination position. If, for example, the photosensor 22 receives light while the photosensor 23 does not receive any light, this means that the light rays strike the solar collector element 11 essentially perpendicularly (beam path LS I) and the solar collector element is in the correct inclination position located. If only the photosensor 23 receives light, this means that the solar collector element is inclined too flat, so that by means of the control device not shown, the linear drive 16 is activated and the push rods according to FIG. 1 are pushed upwards.

If neither of the two photo sensors 22 and 23 receives light, the solar collector element is set too steep, so that the inclination is correspondingly reduced by activating the linear drive 16 .

The push rods 15 are used in addition to the transmission of the adjustment movement of the linear drive 16 on the solar collector element 11 and the supply and Ablei device of the heat transfer fluid to the solar collector elements 11th In Fig. 4 a section through a push rod 15 is shown, which is designed as an aluminum hollow profile and in the middle of a device in the longitudinal direction extending fluid-tight bore 15 a. The cavities of the hollow profile surrounding the bore 15 a are filled with an insulating material 18 . On two opposite side surfaces, the hollow profile is provided with triangular longitudinal grooves 15 b, engage in the guide prisms 14 a, which are formed on each bearing block 14 . In this way, the push rod is guided in the longitudinal direction, ie perpendicular to the plane of the drawing according to FIG. 4, and held in the transverse direction.

In the area of the connection of the upper first Schwenkla gers 12 of the solar collector element 11 to the thrust rod 15 is in the hollow profile with a bore 15 a in connection transverse bore 15 c formed in a fluid-tight manner with a not-shown, in Solar collector element 11 extending and through the pivot bearing 12 line is connected. The heat transfer fluid can thus flow into the solar collector element 11 via the bore 15 a and the transverse bore 15 c. In the in Fig. 4, not shown, opposite side of the solar collector element 11, the other push rod is connected in a similar way 15 so that the heat transfer fluid can be derived there from the solar collector element 11.

Claims (14)

1. Solar collector device with at least one panel-like solar collector element which is adjustably attached to a building or the like at an angle of inclination, characterized in that the solar collector element ( 11 ) via a first pivot bearing ( 12 ) with a first pivot axis ( 12 a) and via a second pivot bearing ( 13 ) which comprises at least one pendulum rod ( 13 c) articulated on the solar collector element ( 11 ) and the building ( 17 ), attached to the building ( 17 ), one of the pivot bearings ( 13 ) is immovable relative to the building ( 17 ) and the other pivot bearing ( 12 ) is designed to be displaceable ver relative to the building ( 17 ). 2. Solar collector device according to claim 1, characterized in that the pendulum rod ( 13 c) via a bearing block ( 14 ) is mounted immovably on the building ( 17 ). 3. Solar collector device according to claim 1 or 2, characterized in that a respective first pivot bearing ( 12 ) and a pendulum rod ( 13 c) is arranged on opposite side edges of the solar collector element ( 11 ). 4. Solar collector device according to one of Ansprü che 1 to 3, characterized in that the first pivot bearing ( 12 ) is attached to the upper longitudinal edge of the solar collector element ( 11 ) and the pendulum rod ( 13 c) in the central region of the side edges of the Solar collector element ( 11 ) is articulated. 5. Solar collector device according to one of Ansprü che 1 to 4, characterized in that the first pivot bearing ( 12 ) is formed on a relative to the building ( 17 ) displaceable actuator ( 15 ). 6. Solar collector device according to claim 5, characterized in that the actuating element is assigned a drive element ( 16 ). 7. Solar collector device according to claim 5 or 6, characterized in that the actuating element is a push rod ( 15 ). 8. Solar collector device according to claim 7, characterized in that the push rod ( 15 ) by means of the bearing block ( 14 ) is displaceably guided. 9. Solar collector device according to one of Ansprü che 1 to 8, characterized in that a plurality of solar collector elements ( 11 ) are arranged which are adjustable by means of a common actuating element ( 15 ). 10. Solar collector device according to one of Ansprü che 7 to 9, characterized in that the push rod ( 15 ) is a hollow profile, in the interior of which a line is formed for the heat transfer fluid. 11. Solar collector device according to claim 10, there characterized in that the line in the Hohlpro fil is surrounded by a thermal insulation material. 12. Solar collector device according to one of claims 1 to 11, characterized by a sensor device ( 20 ) by means of which the angle of incidence of the sun rays on the solar collector element ( 11 ) can be detected. 13. Solar collector device according to claim 12, characterized in that the sensor device comprises a slit diaphragm ( 21 ), behind which at least two photosensors ( 22 , 23 ) are arranged. 14. Solar collector device according to claim 12 or 13, characterized by a control device which adjusts the inclination of the solar collector element ( 11 ) as a function of the amounts of light detected by means of the photo sensors ( 22 , 23 ).