DE19611660A1 - Cultivation system for placing on roof or ground - Google Patents

Abstract

The cultivation system comprises a base element (1) which has raised rims (2) having water-drainage holes (3) surrounding the base element. It has honeycomb-shaped troughs (5) running conically (9) downwards in the base tray. The troughs are connected by ribs (6). There are conical humps (7) acting as footboard and projecting above the ribs. Each hump has a hole (8) for drainage of water.

Description

The invention relates to a tray-like device for Sedimentation of solid and liquid materials as System element for the greening / planting of roof and / or Floor areas, especially for the critical Re-greening of sealed base areas and light roofs.

The aim of the invention is a structurally light but still stable and root-resistant sedimentation to create element, which the basis z. B. for the Be greening / planting of newly defined cultivated areas. At the same time, through a targeted structure and material the content and thus weight volume can be controlled.

The requirements are met by a special design and shaping and the loading and Venting and drainage channels for the ventilation and Disposal of the occupied areas created and accompanying an unwanted large quantity and thus weight load specifically avoided.

With the BIOREA ELEMENT according to the invention, which consists of eco mix and ecological reasons preferably from recycled Materials, e.g. B. plastics, manufactured and thus the same make an excellent contribution to waste recycling and to conserve resources is a renaturation also enables sealed surfaces in lightweight construction.  

The disadvantages of previous greening methods and Renatu Effort is serious and problematic require a lot of effort because in addition to a separation layered film a second, root-proof welded film must be applied to protect the existing roof skin. It is expensive materials and the work can usually only be carried out by a specialist company be used prior to the introduction of the substrates Need to become.

Plant growth must be taken into account, because Otherwise, plant roots can have the finest capillary cracks in the "old" roof skin to leak water permeable he continue and the damage would be z. B. of buildings share preprogrammed.

The greening / planting takes place in one system additionally heavy, mostly not breathable Tub. The basic material, sand, expanded clay is placed in this tub and earth in the appropriate thickness (thickness depending on Type of planting) for the seeds.

With the usual methods so far, the surface load is per square meter of the area thus occupied in particular at additionally heavy rainfall due to systemic not existing drainage is disproportionately high, so that the loading greening and / or restoration of sealed / superstructures Areas are kept to a minimum as the load increases Loads of computational security and so on in most Cases exceed the statics basis.

For flat roofs, therefore, especially from the schil  other weight reasons, usually due to extensive, Edge planting - only over the load-bearing area over the outer walls - resorted to, which so everyone Generally, however, a maximum of 5-10% of the built-up area usable for cultivation / renaturation.

Instead of the usual gravel filling of flat roofs, especially in large-scale industrial buildings, which are burdened by a cost-intensive construction due to the required statics, the elements ( 1 ) according to the invention can not only provide a cost-effective roof construction due to a significantly lower area load per square meter, but also also the heat balance - radiation - can be significantly improved without fear of loss of weather protection.

To minimize all these extreme disadvantages and to solve Solution of the task are the characteristics of the BIOREA element of claim 1 provided.

The idea of the invention is therefore to be seen in the fact that the above-mentioned serious disadvantages of the previous methods are minimized in principle via the element ( 1 ) and thus the renaturation potentials (areas) are increased many times over, since, according to the invention, the static load per square meter of occupied area is reduced by more than 50% without giving the plants / grasses the necessary basis - the basis for growth.

This is done in such a way that the elements ( 1 ), which are preferably made of recycled plastic materials, for. B. manufactured in the energy-saving deep-drawing, pressing or spraying process, weight-saving shaped as flat (A) and deep zones (B) and so to offer both deep-rooted and shallow-rooted plants and / or grasses the necessary habitat.

The elements ( 1 ) combine in the culture system according to the invention all eco and economic properties such as low weight, low material costs, low manufacturing costs, excellent use for recycling material = recycling cycle for various materials, low surface load and low maintenance and even mobility in itself.

According to the invention, the planted elements ( 1 ) for any necessary repairs on the occupied areas can be taken up again and, after the repair work has been completed, can be reinserted without problems, so that the green area is retained as it has grown in.

According to the invention, cultures in the Create elements and if necessary to the Ausgestal to lend fixed places, exhibition stands etc., d. H. after finishing z. B. the event, the cultural areas to be returned to the supplier, where this is for a new one If necessary.  

According to the invention it is further provided that not only flat roofs of houses, garages and industrial buildings, but also steep roofs up to an incline of up to 30 degrees are to be covered by means of the culture system according to the invention, for which purpose corresponding support elements according to the invention are accordingly shown in FIG. 10, FIG. 11 and FIG be. 12 provides the system beige.

The BIOREA elements ( 1 ) combine all the requirements for greening / planting the areas and roofs provided for this, because it is a self-contained system that does not require any additional technical work and additional materials such as foils etc. with or several elements ( 1 ) in one operation, which can be carried out easily and inexpensively by laymen, even after short instructions, at least on flat surfaces, the basis for greening / planting = renaturation of built-up and / or built-over, also sealed Creates surfaces.

Through the all-round closed element ( 1 ) - "tray" - with sections such. B. the honeycomb-shaped (4) - see Fig. 1 - arranged substrate troughs ( 5 ) corresponding to Fig. 3 immediately, that is in one operation and only with a Deckma material the required root protection for the roof skin be.

Due to the inventive shape of the element (1) with built-in UV-stabilizer on the substrate trays (5) and hump (7) to the formation of ground-side vertical, vertically and horizontally extending Ventilating (10), and drain channels (11) - see from exemplary embodiments according to Figures 3 and 5 -.. one forth projecting air above the existing roof is reached and the introduced substrate and the subsequent Begrü planning / planting provide almost 100% UV protection as a free extra of the system and carry thus significantly extending the life of the roof covering. In addition, the culture system according to the invention offers further natural advantages, because it produces oxygen, moistened by evaporation - water retention in the element ( 1 ) - z. B. the dry city air and offers new living space for animals, such as bees, butterflies and birds.

The breakdown of the elements ( 1 ) into corresponding parts of flat (A) and deep zone areas (B) forms ge through the sections ( 5 ) and ( 6 ), - see for example Fig. 3, Fig. 3/1 and Fig . 4, the volume of the introduced breeding material reduces such. B. sand, expanded clay, earth etc. or a mixture thereof and thus the weight at the same time by more than 50% of the usual loading load of the surfaces.

The board ( 2 ) - see Fig. 3 - prevents the washing away of light base material as long as no root formation has solidified the introduced substrate, so that the growing material for further relief of the surface can also be admixed with styrofoam beads, which simultaneously serve to loosen the substrate.

The drainage holes ( 3 ) and ( 8 ) incorporated in the board ( 2 ) and the conical (9) humps ( 7 ) - see, for example, FIGS. 3 and 3/1 - serve to drain off excess surface water.

The honeycomb-shaped ( 4 ) according to, for example, shown in Fig. 1 and Fig. 6, arranged conical ( 9 ) to the bottom substrate troughs ( 5 ) according to embodiment examples Fig. 3, Fig. 3/1 and Fig. 7 u. 8 on the one hand as a deep zone (B), even have a volume-reducing flat zone (A) z. B. can be formed by a conical or hemispherical groove bottom ( 12 ), see e.g. B. Fig. 7 or Fig. 9, which also serves the static load capacity and dimensional stability of the element ( 1 ).

The substrate troughs ( 5 ) can, however, also be designed step-like / terrace-like, as is shown, for example, in FIG. 3/1, to reduce the volume and thus form the flat (A) and deep zone (B) in a section in an almost natural way.

The element ( 1 ) according to FIG. 1 and FIG. 6 can be divided into sub-segments by hand, circle or jigsaw, as shown for example in FIG. 2, so that practically every surface is gapless - down to the smallest Angle can be occupied - although you have to accept a slight difference in height due to the stacking edge or material doubling.

However, this can be avoided if one uses the developed compensation element analogously to element ( 1 ). The compensating element ( 20 ) has as the first feature no all-round rim ( 2/15 ) but is open at least on one side - see, for example, execution according to FIG. 6 -.

Second, the dimensions of the element ( 1 ) are changed so that the compensating element ( 20 ) can be inserted into the sections of the element ( 1 ) underneath if it was previously separated on one side of the board ( 2 ).

With previous calculation, the area can be laid out with almost no waste using the available compensation element ( 20 ).

Of course, according to the invention, there is the possibility not only of carrying out the compensating element ( 20 ) entirely without a shelf ( 2 ), but also of generally using this itself as occupancy element and thus enabling nesting - interlocking - as storm protection, which is also possible with step-like / terrace-like conical ( 9 ), shaped substrate troughs according to Fig. 3/1 is also unproblematic.

Due to the minimal weight of the element ( 1 ) itself and the rearing material / substrate, all prerequisites for an ecological and economic renaturation contribution are given, especially since the culture system can also be produced from recycled material and thus also makes an outstanding contribution to environmental protection and waste prevention .

The underlying roof skin underneath is optimally protected by, among other things, the almost 100% absorption of UV radiation, remains breathable and by the ventilation channels ( 10 ) and the drain system ( 3 ) and ( 8 ), as well as ( 11 ) - see Fig. 5 - the previous drainage installation remains usable for the area unchanged.

The invention is described below, for example Described in the drawings; in this shows:

Fig. 1 The top view of the tray-like element ( 1 ) with board ( 2 ), the honeycomb-shaped ( 4 ) molded conical ( 9 ) substrate tubs ( 5 ) with stiffening ribs ( 6 ) over conical ( 9 ) humps ( 7 ) in turn with each other are connected.

Fig. 2 shows a corresponding plan view of various Tei processing elements as they can be formed from the element ( 1 ).

Fig. 3 is a perspective view of the element ( 1 ) here z. B. in a box-shaped design of the substrate tub ( 5 ) and humps ( 7 ), which also serve as a tread and leveling element for pulling the sediments at the same height, as well as the arrangement of drainage holes ( 3 ) and ( 8 ) and the placement of a lancing soil ( 12 ).

Fig. 3/1 A perspective view of the element ( 1 ) without board ( 2 ) and as an alternative staircase / terrace-like shape of the substrate trays ( 5 ).

Fig. 4 shows a detail of the element ( 1 ) as a top view of the top.

Fig. 5 shows a detail of the element ( 1 ) as a top view of the underside with the ventilation ( 10 ) and drain channels ( 11 ) defined at the bottom.

Fig. 6 A corresponding top view of the compensation element ( 20 ) with, for example, three-sided board ( 2 ).

Fig. 7, Fig. 8, Fig. 9 The cross-section to various training possibilities of the substrate troughs ( 5 ) and the puncture plate ( 12 ), the embodiment of Fig. 8 being only partially stackable, since the side walls of the substrate trough ( 5 ) are one The inner radius could be inserted into the absorber tubes ( 21 ) for operating a heat pump.

Fig. 10 The side view of the carrier element ( 15 ) with the stop cams ( 16 ) which are formed in the shape of the cusps ( 7 ) of the element ( 1 ) for clipping accordingly.

Fig. 11 The top view of the carrier element ( 15 ).

Fig. 12 section through the carrier element ( 15 ) and the stop cam ( 16 ) with the fastening screw ( 19 ), drilled with the roof batten ( 18 ).

Fig. 13 A representation of the footboard ( 13 ) with the fixing formations ( 14 ) for placing on the element ( 1 ).

Reference list

A flat zone
B deep zone
1 basic element
2 board
3 drainage holes
4 honeycomb arrangement / sections
5 substrate tray - conical ( 9 ) -
6 stiffening ribs - flat zone (A) -
7 hump = leveling and treading element
8 drainage holes
9 conical
10 ventilation ducts
11 drain channels
12 puncture floor
13 running board
14 Fixing formation
15 support element
16 stop cams
17 screw hole
18 roof batten
19 fastening screw
20 compensation element
21 absorber tubes

Claims (21)

1. Culture system for the systematic covering and occupancy of roof and floor areas and also of sealed underground consisting of one or more square and / or rectangular and / or round or rounded, walk-in BIOREA ELEMENTS ( 1 ), characterized in that these are provided with a shelf ( 2 ) and with drainage holes ( 3 ), which are characterized in their tray-like base by honeycomb-shaped ( 4 ) molded substrate troughs ( 5 ) which run conically towards the bottom ( 9 ) and which are connected by stiffening ribs ( 6 ) which again lifeline to by more than conical (9) shaped protuberance (7) as Nivel and tread element support (13) continuing provided with drainage holes (8) so carried out who the that the side walls of the substrate trays (5) and the shape of the bumps ( 7 ) conical ( 9 ) for the empty stacking of the elements ( 1 ) are formed from one another, the substrate trays ( 5 ) through the puncture base ( 12 ) in F laughing and deep zone are divided, the areas of the stiffening ribs ( 6 ) defining the further flat zones, at the same time forming the ventilation channels ( 10 ) for the roof skin, and serving as drain channels ( 11 ) for surface drainage and thus as one in themselves closed unit create the basis for ecological and economic greening and / or greening. 2. Element according to claim 1, characterized in that the BIOREA element ( 1 ) - hereinafter defined as an element - is formed in its tray-like base in sections. 3. Element according to claim 1 and 2, characterized in that this is provided with an all-round retaining board ( 2 ). 4. Element according to one of the preceding claims, characterized in that in the retaining board ( 2 ) drainage holes ( 3 ) are incorporated. 5. Element according to any one of the preceding claims, characterized in that the sections in the tray z. B. are honeycomb-shaped (4) as substrate receiving trays ( 5 ). 6. Element according to any one of the preceding claims, characterized in that the substrate trays ( 5 ) are round or angular, rectangular or square, trapezoidal or terrace-like. 7. Element according to any one of the preceding claims, characterized in that the substrate trays ( 5 ) through the puncture base ( 12 ) are divided into flat (A) and deep zone (B). 8. Element according to any one of the preceding claims, characterized in that the side walls of the substrate troughs ( 5 ) are conical (9) to the bottom. 9. Elements according to any one of the preceding claims, characterized in that the substrate troughs ( 5 ) are connected via stiffening ribs ( 6 ). 10. Element according to any one of the preceding claims, characterized in that the stiffening ribs ( 6 ) via humps ( 7 ) continue as a leveling and treading element. 11. Element according to any one of the preceding claims, characterized in that the humps ( 7 ) with drainage holes ( 8 ) are equipped. 12. Element according to one of the preceding claims, characterized in that the humps ( 7 ) conical (9) from the stiffening ribs are formed ascending. 13. Element according to any one of the preceding claims, characterized in that through the bottom element formation ( 5 ), ( 6 ) and ( 7 ) ventilation channels ( 10 ) are formed. 14. Element according to any one of the preceding claims, characterized in that, analogously to claim 13, drain channels ( 11 ) for discharging the surface water, derived via the drainage approximately holes ( 3 ) and ( 8 ) arise simultaneously through the bottom-side formation. 15. Element according to one of claims 1 to 15, characterized, that the tablos through their targeted shaping in the empty can be stacked under one another to save space. 16. Element according to any one of the preceding claims, characterized in that the tread element ( 13 ) with Fixierausformungen ( 14 ), analogous to the hump contour ( 7 ) to secure the foot and the elements ( 1 ) Be placed in the growth phase. 17. Element according to one of the preceding claims, characterized in that these are placed in a sloping roof to prevent slipping and / or storm in the carrier element ( 15 ), in the stop cam ( 16 ) are incorporated. 18. Element according to one of the preceding claims, characterized in that this is clipped onto the carrier element ( 15 ) via the stop cams ( 16 ), which are shaped in accordance with the respective cusp contour ( 7 ), at the same time a single one in the cusps ( 7 ) Integrated drainage holes ( 8 ) can be used as screw holes ( 17 ) for fixing on the support element ( 15 ) through the stop cam ( 16 ) into the roof batten ( 18 ). 19. Element according to any one of the preceding claims, characterized in that it is not equipped as a compensating element with an all-sided board ( 2 ). 20. Element according to one of the preceding claims, characterized in that such a high rigidity is achieved by the formation of the substrate troughs ( 5 ) and the hump ( 7 ) on the stiffening ribs ( 6 ) that the elements ( 1 ) even in the filled state can be resumed and relocated - mobility -. 21. Element according to any one of the preceding claims, characterized in that the all-round rim ( 2 ) is missing and so a nesting - interlocking effect - for storm protection he aims.