DE3607484A1 - Solar power heating and/or cooking apparatus - Google Patents

Abstract

A solar power heating and/or cooking apparatus has a collecting device which focuses the solar radiation and a heating and/or cooking part arranged approximately at the focal point of the collecting device and to be heated up. In this arrangement, the collecting device and also the heating and/or cooking part are provided on the upper side of a box-like housing, and a reflector for reflecting the collected solar radiation is provided on the underside of the housing. <IMAGE>

Description

The present invention relates to a solar energy heater and / or cooking device according to the preamble of the patent claim 1.

As is known, in the case of people, in particular who live in Third World countries, often that Problem that suitable fuels or other Energy sources for cooking or heating are not sufficient quantity or not available at all. To Solution to this problem has been proposed instead of Fuels or other energy sources, such as for example coal, straw, petroleum etc., solar energy to use.

DE-OS 31 20 520 is a heating or cooking device device, in which a solar collector during the hot daytime collects the solar heat and one  associated heat storage for the purpose of storing the feeds same. The heat stored in this way can then later on an appropriate hotplate if necessary be transmitted.

However, such a device has the disadvantage that that because of the necessarily existing heat mespeichers and the insulation a relatively large amount lumpy and heavy construction is required so that such a device only very bulky to transport can be tiert.

In addition, a solar energy heating and / or cooking device with the features of the preamble of Pa tent Claim 1 is known. Here, a foldable parabolic mirror is used, the focal point of which is directed onto the heating and / or cooking part to be heated, so as to heat it by irradiating the solar rays.

Such a device has the disadvantage that they have a relatively complicated operation because of the Adjust the focal point to the heating or cooking partially required. In addition, at Using foldable mirrors always runs the risk that these are damaged or bent when folded what has the consequence that such a solar Giekochvorrichtung unusable or in their effect degree is reduced.

The invention has for its object a solar energy heating and / or cooking device of the specified Kind of creating that with special consideration a compact, lightweight design  easy handling and less susceptible to malfunction light.

This object is achieved by a solar Energy heating and / or cooking device with the ident Drawing features of claim 1 solved.

The solar energy heating and / or cooking according to the invention device is based on the basic idea, all for this required parts within a box-like housing to be provided in such a way that a collector is on the top facility and a suitably trained heating or cooking part and on the underside a reflector are arranged. Here, the collecting device causes that the solar rays are converged during the Reflector the rays thus collected onto the heating or Cooking part reflected, which is about the focus the collecting device is arranged.

Because of the equatorial location of the world's hot zones here an almost constant vertical jet the sun's rays take place over several hours det, can be the invention, be above wrote device there particularly advantageous ver turn. Due to the fact that there are only four components (Housing, collecting device, reflector, cooking part) be standing construction is the device according to the invention very light and therefore easy to transport bar, so that the non-sedentary people living there ner carry such a device at all times ren and just by placing on any Can use place for cooking without doing this like in the prior art listed above, an ent speaking adjustment of a parabolic mirror required  is.

As for the size of the solar energy heater according to the invention or -cooking device, so the se according to the required size of the heating or cooking part and the focal length of the lens used in each case direction. Used as a collection facility, for example a converging lens with a focal length between about 20 cm and about 50 cm used, the heating or Cooking device a relatively small design and thus a relatively light weight. With such a Device have, for example, the lens and the Heating or cooking part each have a diameter between about 8 cm and about 15 cm, while the reflector at for example as a planar, square mirror an edge length between about 4 cm and about 10 cm is trained. Such a heating or cooking device tion then has a total width between about 20 cm and about 40 cm, a total depth between about 10 cm and about 20 cm, a total height between about 15 cm and about 30 cm and a total weight between about 2 kg and about 6 kg, from which it can be seen that a such device would stand without great difficulty dig carried by a single user can. Of course, it is also possible correspondingly larger embodiments, for example for family use. So points for example with such a larger version shape the case a width between about 40 and about 75 cm, a depth between about 25 and about 40 cm and a height between about 40 and about 70 cm. At the The upper side is a lens designed as a lens device with a diameter between about 16 cm and about 30 cm, a correspondingly large cook  or heating part arranged while on the lower side of the housing a rectangular or planar, as Mirror trained reflector is located, the Kan length vary between about 12 cm and about 20 cm can. Here, the collecting device has a burner width between about 60 cm and about 100 cm. Depend gig of the material used and the type the housing has such a device Weight between about 15 kg and about 35 kg. To Ge weight saving it is advisable to use the housing as Frame, for example made of appropriate light metal profiles or torsion-resistant plastic parts, to create. To at such a larger version form to facilitate transport, this can be a problem separate components have existing design that is accordingly easy to assemble or disassemble. So it lends itself to the top on which the cook or heating part and the collecting device are arranged, with the lower part on which the reflector is provided, over four profiles arranged on the sides to connect other, these profiles for example se by clamping, screwing u. Ä. at the top and Un are attached to the bottom.

In a further, particularly advantageous embodiment form of solar energy heating or cooking according to the invention device are the collecting device and the reflect Gate movably arranged on the housing. To be safe here deliver the focal point of the collection facility always remains in the heating or cooking part, that is Collecting device connected to the reflector in such a way that with a movement of the collecting device the Re is moved accordingly. Such an out is not as described above  Embodiment, to a relative to the collective device seen vertical or almost vertical on radiation of the solar rays bound. Rather, it allows light them up, the collection facility according to the status align the sun so that the user, for example wise even in the early morning or morning hours in or in the late afternoon or evening hours, in which the solar rays are relatively pointed under one The angles hit the surface of the earth, the Vorrich device can be used for cooking or heating. It is then only necessary to do this Collection facility on the current position of the sun align or adapt to the course of the sun and if necessary, because the connection between the collector and the reflector inevitably the reflector is also moved such that the focal point of the collecting facility is always about The heating or cooking part remains and thus an optimal one Efficiency with regard to the use of solar energy is ensured. Such an embodiment comes in a particularly suitable way in particular the lifestyle of the residents of the hot step pen and desert regions, as these preferentially during the cooler morning and evening hours Prepare food.

In this case, the collecting device is preferably moved along a curved path moves and the reflector around an axis panned. A particularly suitable embodiment stipulates that the collection device along a circle path movable and the axis around which the reflector ver is pivotable, is formed as a central axis, wherein the center of the circular path lies on the central axis. This always ensures that the focal point  the collecting device always in the heating or cooking part, preferably at the center of it. Ge The collecting device is suitably such aligned with the reflector that the through the Sam center device always on the Mit telachse of the reflector falls, with preference point the connection between the collection facility and the reflector via a mechanically working Ver binding facility takes place. For example, the Connection device between the collecting device and the reflector can be designed as a linkage if necessary, the length can be changed so that, if this it is necessary to readjust the position of the collection device relative to the reflector is made possible.

Another embodiment of the invention direction provides that the connecting device a meshing pair of gears or Gear segments exist. Here is a first tooth rad or gear segment of the collector and a thus meshing second gear or segment with the Reflector firmly connected, so that one corresponds appropriate movement of the collecting device always the Re is moved with the reflector. Such an embodiment lends itself particularly when the fiction appropriate device from several, easily assembled or removable components, since this le only intermeshing the gear pair or -segment pair on a specific one, on the gears marked position is required, so that elaborate Adjustments can be omitted. Regarding the relationship nisse of the angle of movement of the collecting device the pivoting angle of the reflector should be noted that the connecting device designed and attached in such a way  is that the pivot angle of the reflector is about half the size of the Sam's movement angle melter. This will ensure that at moving the collector the reflector if moved and thus the focus of the collection device always remains in the cooking or heating section.

Collection lenses made of glass are preferably used as collection device used, the focal length depending of the desired size of the invention Device vary between about 10 cm and about 150 cm can. Corresponding converging lenses can also be used as well made of scratch-resistant plastic, the like converging lenses have the advantage that they Compared to glass lenses a much lower Ge to have importance. Of course it is, too possible to use plastic coated glass lenses see their lifespan due to the coating ent speaking is increased.

Suitable reflectors are the usual, known Spie gel, prisms or, for example, correspondingly right reflective metal surfaces.

As for the material of the cooking or heating part, it should generally be noted that every material is suitable that a good thermal conductivity and a has excellent heat storage capacity. For this include in particular cast iron, copper and aluminum, whereby the latter metal has the advantage that it in addition to a very good thermal conductivity and one excellent heat storage capacity is still a relative light weight.  

Regarding the design of the cooking or heating part it can be generally stated that this after the respective use of the device according to the invention direction. So is for example with a use extension of the device according to the invention as Kochvor direction the cooking part in one piece out as a hemisphere forms and so in the beam path of the collection arranged direction that their focal point approximately in the Middle of the hemisphere. This will secure represents that the planar surface that is in contact with the saucepan is even, seen over the surface is heated. It is also possible to replace the half spherical cooking part to provide a cooking block, the one with a recess for holding a saucepan and a corresponding isola on the outside tion.

For example, the device according to the invention can be used as a heater, so it offers itself, preferably the heating part in several pieces to train a material that has a very high heat storability, such as corresponding Ceramic materials, and corresponds to the heating part Appropriate insulation to the outside see. This ensures that depending on the Be may remove and correspond to one or more heating parts who used to heat the common rooms can, while the remaining heating parts in the insulated device according to the invention remain.

The invention is based on execution examples in connection with the drawing he closer purifies. Show it:  

Fig. 1 is a side view of a first embodiment of a solar energy heating or -ochvor direction;

Fig. 2 is a sectional view of an embodiment of a cooking part; and

Fig. 3 is a side view of a preferred embodiment of the solar energy heating or cooking device.

In Fig. 1, a first, generally designated 1 embodiment of a solar energy heating or -kochvor direction is shown. On the top of a housing 4 , which in the embodiment shown there consists of a frame, for example of corresponding light metal profiles, a cooking part 2 and a collecting device 3 is arranged, which is formed as a collecting lens. On the underside of the housing 4 , a reflector 5 designed as a planar mirror is provided, which is arranged rigidly on the housing 4 by means of a fastening element 7 . Depending on the size of the device and arrangement of the cooking or heating part, the distance between the collecting device 3 and the reflector 5 varies, the reflector usually being arranged at a distance from the collecting device 3, which is between about 30% and 70%, preferably between about 40% and about 60%, the focal length of the collecting device 3 corresponds. The cooking part 2 is arranged on the housing 4 such that the focal point 8 of the collecting device is approximately in the middle of the cooking part. Here at the cooking part is arched down, with the result that the cooking part is evenly heated on its surface facing the saucepan, because due to the higher mass of the cooking part in the center compared to the side sections here the heat flow is accordingly reduced is what is indicated by the different sized arrows 6 . The embodiment described above works as follows:

To use the device, it is directed such that the sun rays 20 fall in parallel through the collecting device 3 . Here, these are kon vergiert and reflected by the reflector 5 so that the focal point 8 is about strikes the collecting device 3 to the center of the hob. 2 This in turn acts that the cooking part is heated accordingly. Should the position of the sun change slightly in the direction of the arrow 11 during cooking, there is the possibility of pivoting the device in the direction of the arrow 10 by means of adjusting devices (not shown), which are arranged, for example, on the housing designated by 4 a , that the focal point 8 of the collecting device remains in the center of the cooking part. In order to prevent the saucepan from slipping, it is advisable to use a cooking part 2 a , as shown in FIG. 2. Here, the cooking part 2 a has a recess 9 , which is used to hold and hold a saucepan. Advantageously , the lower section 8 a is correspondingly curved in the cooking part 2 a , in order to thereby achieve that the heat is distributed uniformly over the surface 2 b of the cooking part 2 a . In addition, such a cooking part 2 a still has the advantage that the heat losses occurring laterally on the saucepan are reduced. Of course, such a cooking part 2 a can additionally be provided with an outer insulation layer, not shown, which further reduces the heat losses.

Fig. 3 shows a second, generally designated 11 embodiment of the device. This embodiment also has a housing 14 , on the upper side of which a cooking part 12 and a collecting device 13 and on the underside of which a reflector 17 are arranged. Here, too, the reflector 17 has the effect that the solar rays 20 converged by the collecting device 13 are reflected and focused approximately in the center of the cooking part 12 , as is represented by the reference number 18 . Here, the reflector 15 is pivotally mounted ver on a designated 19 central axis. The collecting device 13 can be moved along a curved path in the direction of the arrow 16 or vice versa, the curved path in the embodiment shown there being designed as a circular path whose center lies on the central axis 19 . In order to be able to transport the embodiment shown in FIG. 3 more easily, the housing has releasable connecting sections 14 a , which in a known manner, for. B. are designed as clamping or connector sections. The embodiment shown in Fig. 3 functions as follows:

Depending on the current position of the sun, the Sam meleinrichtung 13 is aligned to the sun so that the focus of the solar rays 20 falls on the center of the cooking part 18 . Now the sun is moving in the direction of arrow 16 , the collecting device 13 is correspondingly adjusted and takes a position, as shown, for example, by the collecting device 13 a for the solar rays 20 a in FIG. 3. Simultaneously with the movement of the collecting device 13 , the reflector is pivoted about the central axis 19 by a certain angle β , wherein the position 17 a of the reflector shown in FIG. 3 by way of example is assigned to the position 13 a of the collecting device. By pivoting the reflector in this way, the focal point of the collecting device always remains approximately in the center of the cooking part 12 . To EI ner movement of the collecting means by an angle α simultaneous pivoting of the reflector through the angle β ensure the collecting device 13 and the reflector 17 are tung a Verbindungseinrich, such as a suitably fancy tes linkage, a pinion meshing with each gear pair or correspondingly trained gear segments, connected to each other. Here, the United binding device is preferably designed and arranged such that when the collecting device 13 moves in the arrow direction 16 by the angle α, the reflector 17 is pivoted in the arrow direction 15 by the angle β , the angle β preferably being approximately half as large as that Angle α .

In order to enable the movement of the collecting device described above, the collecting device has, for example, a socket provided with opposite pins, which is guided in a curve-shaped extension provided in the housing 14 .

Claims (11)

1. Solar energy heating and / or cooking device with a solar device focusing the collecting device and an approximately in the focal point of the collecting device arranged to be heated heating and / or cooking part, characterized in that it has a box-like housing ( 4 , 14 ) the upper side of the collecting device ( 3 , 13 , 13 a ) and the heating and / or cooking part ( 2 , 2 a , 12 ) and on the underside a reflector ( 5 , 17 , 17 a ) for reflecting the collected solar rays ( 20 , 20 a ) are seen before. 2. Device according to claim 1, characterized in that the collecting device ( 13 , 13 a ) and the reflector ( 17 , 17 a ) are movably mounted on the housing ( 14 ) and are connected to one another such that when the collecting device ( 13 , 13 a ) the reflector ( 17 , 17 a ) is moved so that the focal point ( 18 ) of the collecting device ( 13 , 13 a ) always remains approximately in the heating or cooking part ( 12 ). 3. Apparatus according to claim 2, characterized in that the collecting device ( 13 , 13 a ) along a course venbahn movable and the reflector ( 17 , 17 a ) is pivotable about an axis. 4. The device according to claim 3, characterized in that the curved path is a circular path, that the axis is designed as a central axis ( 19 ) and that the center point of the circular path lies on the central axis ( 19 ). 5. Device according to one of claims 2 to 4, characterized in that the collecting device ( 13 , 13 a ) and the reflector ( 17 , 17 a ) are connected to one another via a connecting device and that the collecting device ( 13 , 13 a ) is aligned with the reflector ( 17 , 17 a ) in such a way that the central beam passing through the collecting device always falls on the central axis ( 19 ) of the reflector. 6. The device according to claim 5, characterized in that the connecting device is designed such that when the collecting device ( 13 , 13 a ) moves by an angle α the reflector ( 17 , 17 a ) by an angle β which is approximately half as much is large as the angle α is pivoted. 7. Device according to one of claims 5 or 6, there characterized in that the connecting device is a linkage. 8. Device according to one of the preceding claims, characterized in that the reflector ( 5 , 17 , 17 a ) is a planar mirror. 9. Device according to one of the preceding claims, characterized in that the collecting device ( 3 , 13 , 13 a ) is a plastic-coated collecting lens. 10. Device according to one of the preceding claims, characterized in that the heating and / or cooking part ( 2 , 12 ) is designed as a heating and / or cooking plate which is movably arranged on the housing ( 4 , 14 ). 11. The device according to one of the preceding claims, characterized in that the heating and / or cooking part has a plurality of heat storage elements.