DE202013005714U1 - Irrigation flap for the nutrient supply of roots - Google Patents

Abstract

Irrigation flap (1) for the nutrient supply of roots, in particular those of road plants, with at least one irrigation opening (2) having a base plate (3) with a top (4) and a bottom (5), characterized by at least two at the Bottom side (5) on a circular line (6) arranged, resilient flanges (7), on each of which at least one, preferably exactly one, inwardly or outwardly directed latching lug (8) is arranged.

Description

Plants need to be watered regularly so they can absorb nutrients they carry in the water via their roots. Plants found in the wild are usually supplied by rainwater. Problems arise in planting in the public spaces of cities, where the soil around the plant's location is often more or less sealed by asphalting or plating. As a result, a sufficient irrigation of such plantings without water-conducting structural measures is often no longer given. Here, irrigation flaps, which are embedded in the ground, have been proven to have a flexible corrugated tube attached to the earth's end, which leads precisely into the root system of the plant via the irrigation flap.

In detail, the irrigation flaps usually have a rigid, relative to the corrugated pipe comparatively short nozzle, which opens on the ground side in a base plate, which often has recesses for fasteners such as pegs in their the Stutzeneinmündung circumferential edge. The irrigation flap is inserted into the soil around the length of the nozzle and is usually additionally fixed there with pegs or other fastening means, so that the free end of the nozzle approximately flush with the earth's surface, which is usually the surface of a walkway, a street, a square or the like. The irrigation opening formed by the nozzle has at the free end of the nozzle usually a water-permeable lid that prevents leaves or similar contamination and is often grid-structured.

The connection of the corrugated tube to the irrigation flap is conventionally such that a corrugated tube with the appropriate diameter is inserted into the socket and clamped there. In order to achieve a sufficient clamping effect, it is regularly necessary to equip the corrugated pipe with specially profiled end pieces, such as Christmas tree profiles, which increases the production costs and costs. In addition, the diameter of the corrugated pipe is limited by it. Although an enlargement of the nozzle diameter is possible in principle, however, the size of the visible part of the bottom of the irrigation valve to the local conditions. In any case, the outer diameter of the corrugated pipe is smaller than the inner diameter of the nozzle, because the corrugated pipe could not otherwise be inserted into the nozzle. Thus, the inner diameter of the corrugated pipe is smaller than that of the nozzle and the cross-section of the nozzle can not be fully used water. Since irrigation flaps are needed in significant quantities, it is desirable to save material and thus costs without compromising the efficiency of irrigation. To achieve this by means of the structural design of an irrigation flap is the object of the present invention.

The object is achieved by an irrigation flap according to claim 1 and an arrangement according to claim 7, wherein advantageous embodiments result from the respective subclaims.

The connection of the corrugated pipe succeeds elegantly and simply, if at least two resilient flanges are arranged on a circle on the underside of the base plate of the irrigation flap, in each case at least one, preferably exactly one, inwardly, ie in the direction of the interior of the circle have described circle, or opposite, so outward, aligned latching nose have. Even this simple basic embodiment of the invention surprisingly allows a sufficiently stable arrangement of such a watering damper and a corrugated pipe with wave troughs and wave crests viewed from the outside parallel to the pipe circumference, wherein the at least two locking lugs in a trough of the corrugated pipe, preferably in the same trough, or vice versa from the inside of the corrugated pipe under a wave crest, preferably under the same wave mountain, grab.

The stability of the arrangement with preferably engaging from the outside in a trough of the corrugated pipe locking lugs is given when the flanges on which the locking lugs are arranged, have a spring elasticity, which makes an additional, the flanges enclosing clamping ring dispensable. An increase in the stability of the connection of corrugated tube and irrigation flap can be achieved by increasing the number of each locking lug flanges, the spring elasticity can be the lower, the more flanges are arranged on the underside of the base plate of the irrigation flap. With only two flanges, each with a detent, it is advantageous if the detents are directed outward, as they then grab in the assembly from the inside of the tube under a wave crest of the corrugated tube and so lateral slippage of the corrugated tube along the bottom of the base plate can be excluded , If the flanges are arranged at regular intervals on the circular line, which is preferred even with multiple flanges because then equal load distribution.

A significant material savings compared to conventional irrigation valves results from the fact that the neck of the irrigation valve is no longer needed for the attachment of the corrugated pipe and running according to short and material-saving or can be completely saved. But it is also possible to combine the conventional mounting option for a corrugated pipe by means of connection with the possibility of attachment by means of at least one, preferably exactly one locking lug having flanges. It is also possible to arrange the flanges of different lengths and / or the locking surfaces of the locking lugs at different heights.

Preferably, the locking lugs taper steadily in the direction of the free end of the respective flange. Thus, the foremost crest of the corrugated tube more and more press apart inwardly directed locking lugs along the inclined plane of the taper until the detents engage in a wave trough. For use with angularly shaped wave troughs having corrugated pipes facing the base plate facing locking surface of the locking lug with the flange preferably forms a right angle. In any case, it is advantageous if the latching surface of the locking lug is complementary to the formation of the wave troughs of the corrugated pipe used. The same applies in the reverse direction for outward locking lugs that engage under a wave crest of the corrugated tube.

Since corrugated pipes are usually cut not obliquely but straight, ie parallel to the pipe circumference, they stand in this case within the array at right angles from the base plate. It is therefore advantageous for the flanges to form at least one right angle with the underside of the flanges so that an approximately correct fit is formed above the detents for the end of the corrugated tube which is preferably brought into contact with the underside of the baseplate.

Since corrugated pipes are often used for irrigation purposes with diameters of 80 mm or 100 mm, it is advantageous to use irrigation flaps in which the diameter of the circular line on which the flanges are arranged is between 95 mm and 105 mm, as with one-size irrigation flaps , which would conventionally only allow the use of corrugated pipes with 80 mm, even those with a diameter of 100 mm can be used and the diameter or the lumen of the irrigation opening is thus fully utilized.

In special cases, it may be desirable to arrange a sealing ring between the end of the corrugated pipe and the underside of the base plate.

If appropriate, then irrigation flaps are used, in which the distance between the locking surfaces and the underside of the base plate is dimensioned accordingly to receive a sealing ring in addition to a corrugated pipe section. Another advantage of the invention is that this is easily possible both for the variant with outwardly directed latching lugs and for the variant with inwardly directed latching lugs.

LIST OF REFERENCE NUMBERS

1

irrigation flap

2

watering hole

3

baseplate

4

Top of the base plate ( 3 )

5

Bottom of the base plate ( 3 )

6

circle line

7

flange

8th

locking lug

9

facing plate locking surface of the locking lug ( 8th )

10

arrangement

11

corrugated pipe

12

trough

13

Wellenberg

14

seal

The invention will be explained in more detail below by way of example with reference to the drawings, in which:

1 shows the irrigation flap ( 1 ) as a combination of conventional attachment by means of nozzles and four flanges ( 7 ) each with an inwardly directed latching nose ( 8th ) in perspective view obliquely from below. You can also see the circle ( 6 ) on which the flanges ( 7 ) are arranged at regular intervals, the irrigation opening ( 2 ) as well as the base plate ( 3 ), in which the nozzle opens and the bottom ( 5 ) of the base plate ( 3 ).

2 shows the arrangement ( 10 ) from irrigation flap ( 1 ) and corrugated pipe ( 11 ), also with nozzle, which is optional, in lateral cross-section. You can also see the top ( 4 ) and the underside ( 5 ) of the base plate ( 3 ), at which the flanges ( 7 ) with the locking lugs ( 8th ), which in turn here from the outside into a wave trough (see 3 , Para. 12 ) of the corrugated tube ( 11 ) to grab. The bottom ( 5 ) of the base plate ( 3 ) points upward in this drawing, although it is installed in exactly the reverse orientation.

3 shows a flange ( 7 ) and a catch ( 8th ) together with a corrugated tube ( 11 ) in cross-section in the close-up view. To recognize here is the base plate ( 3 ) with upper ( 4 ) and underside ( 5 ), on which a flange ( 7 ) is arranged, to which the detent ( 8th ), which in turn from the outside into a wave trough ( 12 ) of the corrugated pipe ( 11 ), which in addition to troughs ( 12 ) also wave mountains ( 13 ) having. Also in this illustration, the underside ( 3 ) as in 2 up. In addition, between the bottom ( 4 ) of the base plate ( 3 ) and the corrugated tube a sealing ring ( 14 to see). Furthermore, you can the locking surface ( 9 ) recognize, from their furthest inwardly projecting point only the locking lug ( 8th ) and then the flange ( 7 ) tapers to its free end.

Claims (10)

Irrigation flap ( 1 ) for the nutrient supply of roots, in particular those of road plants, with at least one irrigation opening (2) which has a base plate ( 3 ) with an upper ( 4 ) and a bottom ( 5 ), characterized by at least two on the underside ( 5 ) on a circle ( 6 ), resilient flanges ( 7 ), on each of which at least one, preferably exactly one, inwardly or outwardly directed latching lug ( 8th ) is arranged. Irrigation flap ( 1 ) according to claim 1, characterized in that the flanges ( 7 ) at regular intervals to each other on the circular line ( 6 ) are arranged. Irrigation flap ( 1 ) according to one of the preceding claims, characterized in that the latching noses ( 8th ) each in the direction of the free end of the respective flange ( 7 ) constantly rejuvenate. Irrigation flap ( 1 ) according to one of the preceding claims, characterized in that each of the base plate ( 3 ) facing locking surface ( 9 ) of the locking lugs ( 8th ) with the respective flange ( 7 ) forms a right angle. Irrigation flap ( 1 ) according to one of the preceding claims, characterized in that the flanges ( 7 ) on the nose side with the underside ( 5 ) each form at least one right angle. Irrigation flap ( 1 ) according to one of the preceding claims, characterized in that the diameter of the circular line ( 6 ) is between 95 mm and 105 mm. Arrangement ( 10 ) from an irrigation flap ( 1 ) according to one of the preceding claims and a corrugated tube ( 11 ) with troughs ( 12 ) and wave mountains ( 13 ) parallel to the tube circumference, characterized in that at least two locking lugs ( 8th ) from the outside into a wave trough ( 12 ) or from the inside under a wave mountain ( 13 ) to grab. Arrangement ( 10 ) according to claim 7, characterized in that at least two locking lugs ( 8th ) into the same wave trough ( 12 ) or under the same wave mountain ( 13 ) to grab. Arrangement ( 10 ) according to one of claims 7 or 8, characterized in that the corrugated tube ( 11 ) with the underside ( 5 ) of the base plate ( 3 ) is in contact. Arrangement ( 10 ) according to one of claims 7 to 9, characterized in that between corrugated pipe ( 11 ) and underside ( 5 ) a sealing ring ( 14 ) is arranged.

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