DE2835093C3 - Irrigation valve device - Google Patents

Description

The invention relates to an irrigation valve device according to claim 1 of the Main patent 27 39 650.

According to the main patent, the supply of spring water to the spring body is adjustable in that the An adjustable piece of the valve body can be inserted into the earth and thereby a lower section of the Well body wetted by the spring water and an overlying section due to capillary action in the Swelling body is moistened. The swelling body can thus not be kept arbitrarily small without losing this setting option. on the other hand the swelling times up to the closing of the valve and the shrinking times up to the opening of the same are all the more shorter, the smaller the swelling body is. However, short swelling and shrinking times mean that the to be irrigated Plants are supplied with water in many small portions, which is the ideal state of continuous Water supply in the amount required by the plants

According to an older proposal (DEOS 27 54 307), an element made of plastic gel, in particular Polyurethane gel, housed in a valve body, which is a perforated sleeve in the form of an insertable pointed cone or an insertable pointed pyramid is formed Although polyurethane gel a has a very high swelling capacity, this irrigation valve device cannot be arbitrarily small can be formed without the aforementioned adjustment possibility being lost

In addition, the use of swellable plastic as a moisture sensor for irrigation valve devices already known DE-OS 25 13 600 shows a humidity-controlled valve.

ίο which adapts the irrigation to the atmospheric conditions. A length-dependent plastic or natural material transducer is provided for this purpose. However, the known valve is not suitable for a swelling body made of highly swellable plastic, since the swelling body is designed as a hollow cylindrical body and, in the event of strong swelling, would block the valve control mechanism arranged in its interior.
Furthermore, in DE-GM 77 06 643 Hygrostate.i

2ü addressed, in which hygroscopic bodies made of a hydrophilic plastic, in particular from a Polyamide can be used, which expands or swells with increasing ambient humidity and with decreasing ambient humidity shrinks. According to the further statements in this DE-GM are the Requirements placed on a hygrostat, especially if it is used to control irrigation systems is used, however, so diverse that the existing selection of suitable plastics is not is easily sufficient to adequately meet these requirements.

The invention is based on the object of an irrigation valve device according to the preamble of claim 1 to create the higher

Exploits the swelling capacity of plastic gels

This object is achieved according to the invention with the means specified in the characterizing part of claim 1.
According to the invention, a composite element is thus provided as the swelling body, which consists of an elongated, porous receiving body and a small swelling insert made of plastic gel in a recess at the end of the receiving body. In this way a mutual independence of the size of the receptacle body and source insert is achieved, so that on the one hand the Quc Meinsatz made of plastic gel can be kept as small as is possible due to the high swelling capacity of the plastic gel, while on the other hand the porous receptacle body can be made as long that the supply of spring water remains adjustable in that the receiving body can be inserted into the earth in an adjustable manner. By inserting the receiving body more or less deeply into the earth, its length range, which is directly exposed to the moisture in the soil, is varied, so that the supply of spring water to the source insert can also be controlled as a result of capillary action in the porous receiving body. The section of the receiving body protruding from the earth is exposed to the weather, ie the action of the sun and wind, and removes the absorbed moisture from the source insert. Since the source insert can be made small as a result of the high swelling capacity of the plastic gel, this advantageously results in short swelling and shrinking times. The source insert is able to control the valve without difficulty, even if it is small, because that

Plastic gel can exert great forces on the valve. The recess of the receiving body is advantageous

adhesively provided in its upper end face, the source insert with its upper surface on a top on the receiving body seated elastic sealing element of the valve rests. This lies the source insert is well sealed to the outside in the uppermost end of the receiving body, which is usually remains outside the earth, which favors short swelling and shrinking times

It is advantageous to use a ceramic cylinder as the receiving body to be provided. Ceramic has an ideal porosity for this purpose and, on the other hand, is not so rough that damage to the source insert is to be feared at the source

The recess of the receiving body is expediently conical. The corresponding conical source insert then fills the recess of the receiving body about when it is unswollen The base of the Cone-forming surface of the source element with which it is attached to the elastic sealing element of the valve applied then arches upwards when swelling the source insert and assumes a spherical shape. To this Way it is ensured that the porous receiving body by the swelling of the source insert is not stressed too much.

According to a particular embodiment of the invention, the ceramic cylinder is about its longitudinal axis rotatable and has on its lateral surface glaze longitudinal strips, the mutual spacing of which is that of The longitudinal ribs of the valve body correspond to this exposed part of the outer surface of the Ksramik cylinder to vary by the glaze longitudinal strips, which are not able to absorb moisture, more or rotated less under the longitudinal ribs of the valve body.

The invention is described below with reference to the description of an exemplary embodiment explained in more detail on the drawing

F i g. 1 shows a longitudinal section of the irrigation valve device and

F i g. 2 shows a cross section of the device according to FIG. 1 along the line H-II.

The illustrated irrigation valve device has a valve body S, the upper end of which as Valve body attachment S 'is formed with an inlet 33 and an outlet 34. The inflow and outflow have the In the form of tubular films. The valve body 5 encloses a swelling body I with three longitudinal ribs 6 a receiving body Γ made of porous material in the form of an elongated ceramic cylinder, in which A kegerige recess 38 is formed on the upper end face 37. and one that is also conical Source insert I "made of · plastic gel, in particular polyurethane gel, which the recess 38 receives.

The valve body attachment 5 'forms in its interior a cylindrical valve chamber 40, the longitudinal axis of which runs in the longitudinal direction of the irrigation valve device. In the upper end face of the valve chamber 40 The inlet 33 opens axially, while the outlet 34 opens into the jacket surface of the cylindrical valve chamber 40 flows out. An elastic sealing element 41 in the form of a cylinder made of rubber enters the from below Valve chamber 40, at the lower end of which a flange 42 is formed. The flange 42 lies with it its lower surface on the upper end faces of the ceramic cylinder and Quelieinsatz 1 ".

The upper surface of the flange 42 forms an annular bead 43 which fits into an annular groove 44 of the valve body attachment 5 'penetrates the upper fly of the sealing element 41 is with the help of a conical recess 45 designed zn a valve plate surface 46, which the Inflow 33 closes when the source insert 1 ″ due to its swelling, which is shown in dashed lines in FIG is, the seal member 41 lifts up. The diameter of the seal member 41 is so much smaller than that Diameter of the cylindrical valve chamber 40 that the source insert 1 "even when it is already closed

ίο valve can swell and this swelling by a The sealing element 41 becomes crowned.

The valve body 5, the longitudinal ribs 6 of which are positively connected to the valve attachment S ', has its lower end has a central longitudinal threaded hole 47 into which a grub screw 48 from below is screwed in. With the help of the grub screw 48, the ceramic cylinder is pressed upwards in such a way that the flange 42 is firmly clamped between the ceramic cylinder and the valve attachment body 5 '. About that In addition, the position of the sealing element is 41 at swollen Queiieinsatz t "adjusted where the The elasticity of the flange 42 is used. Below the grub screw 48 is an insertion point 5 "in the

Threaded hole 47 screwed in As material for the Ventilkörperauisatz 5 'and the valve body 5 and the 5 "plug-in tip comes in plastic, in particular Polypropylene into consideration On the hose nozzles of inlet 33 and outlet 34

water hoses SO and Sl are pushed. The hose 50 is used to connect the irrigation valve device to a water connection. If this water connection supplies too high a pressure, it is advisable to connect a reducing valve between the water connection and the irrigation valve device. The hose connected to the drain 34 is provided with a series of drip nipples, the first of which - 52 - is shown in FIG. 1 and is at a distance c from the ceramic cylinder. For example, a hose 51 with up to 50 drip points can be used. First of all, the valve is opened when the spring sow has not swollen. 1 "adjusted by screwing the grub screw 48 in so far that the valve plate 46 just closes the inflow 33 the valve closes. Then the irrigation valve device is plugged into the ground as shown in FIG. I is shown. The water emerging from the drip nipple 32 penetrates the soil, with part of this water reaching the ceramic cylinder as spring water after it has covered the path c in the earth ►, at This spring water wets the lower section of the ceramic cylinder that is in contact with the earth, the length of which is denoted by b in FIG. 1, and penetrates into this. Under capillary action, the spring water that has penetrated reaches the top of the exposed section of the ceramic cylinder, the length of which is denoted by a in FIG. until the valve disk 46 closes the inflow 33. The upper section of the length a of the ceramic cylinder is exposed to wind and sun, so that the spring water that has penetrated evaporates depending on the weather conditions, which

eventually results in the valve reopening and re-watering the earth. In order to adjust this cycle in such a way that the required amount of water is allocated to the plants to be irrigated, the irrigation valve device is inserted more or less deeply into the earth. If the insertion is less deep, the lower section of length b which is directly wetted by the spring water becomes shorter, while the exposed section of length a becomes longer, with the result that the ceramic cylinder absorbs less spring water and this evaporates over a larger surface. The moisture supply to the source application I "is thus reduced, so that the valve opening times are longer. A reduction in the water supply to the source application can also be achieved by, \ that the drip nipple is mounted further 52 away from the irrigation valve means, and that therefore a larger distance is cvorgesehen .

Another possibility to adjust the watering cycle is! given by the fact that the Mar.ic! des. ■ .. Ceramic cylinder having glaze strips 53 extending in the longitudinal direction of the cylinder, their mutual angular spacing like that of the longitudinal ribs 6 is 120 °. The ceramic cylinder does not absorb or release moisture. The width of the glaze strips corresponds roughly to that of the longitudinal ribs 6. In the area of which no moisture can be absorbed or released. If so the ceramic cylinder is rotated so that the glaze strips 53 tu entirely under the longitudinal ribs 6 the surface of the ceramic cylinder exposed for moisture absorption and release is maximum. The further the glaze strips 51 are now rotated out of the area of the longitudinal ribs 6, the less becomes the surface of the ceramic cylinder available for absorbing and releasing moisture. In Fig. 2 the case is shown that the exposed Ceramic surface of the ceramic cylinder is reduced by about 50%.

If only one plant is to be watered with the described irrigation valve device, A short hose at the outlet 34 of the valve is sufficient, the length of which corresponds to the desired distance c must be selected.

If, on the other hand, the irrigation valve device is to irrigate a very large area, it can be used as Control valve device can be used for a larger hydraulically controllable valve. The hose 5t then has no drip nipple, but ends at a distance c from the irrigation valve device. Of the

SCiiiSüCii 50 iät SiTt Stcücfcirigäfig des Iiyür üuiiM'fl

controllable valve connected, whose throughput is correspondingly greater. As soon as the described If the valve opens, the water pressure in the hose 50 is reduced, which is sufficient to close the valve to be controlled to open. The from the hose end of hose 51 in The water reaching the earth penetrates up to the spring salt I "until it closes the valve, whereby the pressure rebuilt in ski 50 and also to control that. Valve is closed again. This works synchronously with the valve controlled by the source insert.

1 sheet of drawings

Claims (5)

Patent claims: 1. Irrigation valve device for insertion into the ground with a valve and a swelling body, which controls the valve depending on its moisture content and under the influence of the water passing through the valve, the valve body at least one Leaves the main part of the surface of the swelling body exposed and is designed to be plugged in, that the swelling body, depending on the insertion depth, more or less directly with the Earth comes into contact, according to Patent 27 39 650, characterized in that as a swelling body (1) a composite element of an elongated, porous receiving body (1 ') and a small source insert (1 ") made of plastic gel, in particular polyurethane gel, is provided, which in an end recess (38) of the receiving body (Γ) is housed 2. Device mzh claim 1, characterized in that the recess (38) of the Aufnah'mekörpers (V) is provided in its upper end face (37) and that the source insert (1 ") with its upper surface on a top of the receiving body (V) seated elastic sealing element (41) of the valve rests 3. Device according to claim 1 or 2, characterized in that a ceramic cylinder as the receiving body (Γ) is provided 4. Device according to one of claims 1-3, characterized in that the recess (38) of the receiving body (1 ') is conical 5. Device according to claim 3 odv-r 4, characterized characterized in that the ceramic cylinder is rotatable about its longitudinal axis and on its i, antelfläche Has glaze longitudinal strips (53), the mutual spacing of which is that of the longitudinal ribs (6) of the Valve body (5) corresponds.