DE2835093A1 - Inflating component of irrigation valve - provides feed depending on humidity extent, subject to water passage through valve - Google Patents

Abstract

The irrigation valve installation has an inflating component which serves the valve dependent upon its degree of wetness, and is under the influence of the water flowing away through the valve. The installation is formed to be stuck into the ground, and the inflating component (1) has a section (b) which is normally below earth level. Attached to the valve is an outlet conduit (3) which has a droplet outlet point (9) which is at an adjustable distance (c) from the inflating component. Passing through the valve body is a constricted hose (3), the counter bearing (2') of which is adjustable.

Description

Irrigation valve device

The invention relates to an irrigation valve device according to the preamble of claim 1 According to the older main patent, the The supply of spring water to the spring body can be adjusted in that the receiving body an adjustable piece can be inserted into the earth and thereby a lower section of the spring body wetted by the spring water and an overlying section due to the canillary 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, there are the swelling times until the valve closes and the shrinking times until it opens, the shorter the smaller the swelling body is. Short source and shrinking times mean, however, that the plants to be irrigated have the water in many small portions are fed, which is the ideal state of continuous Water supply in the from the Plants required amount comes close.

The additional invention is based on the task of an irrigation valve device according to the preamble of claim 1 in such a way that the source and Shrink times are small.

This object is according to the invention with the in the characterizing part of claim 1 specified means solved.

The swelling body is seated in a recess in the upper end face of the receiving body made of porous material and is from above through the on the Receiving body seated, elastic sealing element of the valve covered. Of the The swelling body is thus enclosed by the receiving body and the sealing element, so that spring water exclusively through the porous material of the receiving body can reach the swelling body. A direct water supply to the source body, like her with a swelling body housed in a perforated sleeve according to the main patent is possible, is therefore prevented. By inserting it more or less deeply of the absorption body in the earth is its length range, which is directly the earth moisture is exposed, varies, which also the spring water supply to the spring body as a result Capillary action is controllable in the porous receiving body.

The swelling body swells so only because of capillary promoted Water. The section of the receiving body protruding from the earth is exposed to the weather, i.e. exposed to the action of the sun and wind and removes the absorbed from the swelling body Moisture again. The swelling body can be made relatively small because it does not have to reach into the area of the receiving body sitting in the ground, what results in short swelling and shrinking times in a favorable manner. Despite the low size of the swelling body, he is able to control the valve without difficulty, since swellable Plastic material has a very significant swelling capacity and great forces can achieve the sealing element of the valve.

A ceramic cylinder is advantageously provided as the receiving body. Ceramic has an ideal porosity for this purpose and, on the other hand, is not so rough that damage to the swelling body during swelling is to be feared.

Polyurethane gel is expedient as the plastic material for the swelling body provided, which shows an extremely strong swelling capacity.

The recess in the upper end face of the receiving body is preferred conical and is roughly filled by the likewise conical swelling body when this is unswollen. The upper surface of the swelling body forming the base of the cone, with which it rests against the elastic sealing element of the valve, arches then when the swelling body swells upwards and assumes a spherical shape. To this Way it is ensured that the porous receiving body by the swelling of the swelling body is not stressed too much.

Appropriately, the ceramic cylinder of longitudinal ribs is one in the ground held insertable housing body, attached to the upper end of the valve body is. In this way it is ensured that a large part of the surface of the ceramic cylinder comes into contact with the earth when the whole establishment is to the desired extent is stuck in the earth.

According to a particular embodiment of the invention, the ceramic body is rotatable around its longitudinal axis in the housing body and points to his Shell surface glaze longitudinal strips, the mutual spacing of which is that of the longitudinal ribs is equivalent to. This makes it possible to reduce the exposure to the ground or the weather To vary part of the outer surface of the ceramic cylinder by removing the glaze longitudinal strips, which are unable to absorb moisture, more or less under the longitudinal ribs to be turned around.

The valve body advantageously forms a valve chamber with an inflow and a drain, wherein the resilient sealing element protruding into the chamber in a sealed manner of the valve opens the inflow like a valve disk under the influence of the swelling body and closes. The sealed entry of the elastic sealing element into the Chamber is very important in that it avoids being in the chamber water can get to the receiving body or the swelling body.

The elastic sealing element is preferably designed as a cylinder, the upper end face of which faces the inlet as a valve disk and the one at the bottom End has a flange that is attached to the upper end faces of the ceramic cylinder and Swell body rests, the upwardly facing flange surface sealingly against a Ring surface of the valve body rests. The flange of the sealing element is thus sandwiched between the ceramic cylinder and the valve body and thus acts as a Sealing ring.

The upward-facing flange surface advantageously has an annular bead, which penetrates into an annular groove in the annular surface of the valve body. This is the position of the flange is reliably determined even with extreme swelling of the swelling body.

Since the swelling body is also used when the valve is already closed swells and this after-swelling to a considerable extent, especially in the case of prolonged rain can assume, the valve chamber volume is preferably dimensioned so large that the After-swelling is absorbed by elastic deformation of the sealing element. In this way it is avoided that the swelling body becomes too high during after-swelling Exerts pressure on the receiving body and may damage it.

One engages in a threaded hole at the lower end of the ceramic cylinder of the housing seated adjusting screw in the direction of the cylinder axis. With help This adjusting screw is used to achieve a sufficient ceramic cylinder Seal moved against the flange of the sealing element. In addition, it serves due to the elasticity of the flange at the same time the adjustment of the valve by the distance between the upper end face of the sealing element, which acts as the valve disc acts, and the inlet can be adjusted.

A grub screw is advantageously provided as the adjusting screw, where in the section of the threaded hole remaining under the grub screw an insertion tip is screwed in. After the adjustment, the lower End of the threaded hole closed by the insertion tip, As materials come for the valve body and the housing plastic, in particular polypropylene into consideration.

The sealing element is expediently made of rubber.

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

Fig. 1 shows a longitudinal section of the irrigation valve device and FIG. 2 shows a cross section of the device according to FIG. 1 along the line II-II.

The illustrated irrigation valve device has a housing 1, on the upper end of which a valve body 2 with an inlet 3 and an outlet 4 is attached.

Inflow and outflow are in the form of hose nozzles.

The housing 1 encloses a receiving body with three longitudinal ribs 5 made of porous material in the form of an elongated ceramic cylinder 6, in the upper End face 7 a conical recess 8 is formed, which is also conical Absorbs swelling body 9 made of polyurethane gel.

The valve body 2 forms a cylindrical valve chamber in its interior 10, the longitudinal axis of which runs in the longitudinal direction of the irrigation valve device. In the upper end face of the valve chamber 10, the inlet 3 opens axially, währerdder Drain 4 opens into the lateral surface of the cylindrical valve chamber 10. From underneath forth occurs an elastic sealing element in the form of a cylinder 11 made of rubber into the valve chamber 10, at the lower end of which a flange 12 is formed. The flange 12 rests with its lower surface on the upper end faces of the ceramic cylinder 6 and swelling body 9. The upper surface of the flange 12 forms an annular bead 13, which penetrates into an annular groove 14 of the valve body 2. The top surface of the cylinder 11 is designed with the help of a conical recess 15 to form a valve disk surface 16, which closes the inflow 3 when the swelling body 9 due to its swelling, the is shown in dashed lines in Fig. 1, the cylinder 11 lifts. The diameter of the cylinder 11 is so much smaller than the diameter of the cylindrical valve chamber 10 that the swelling body can swell even when the valve is already closed and these Swelling is absorbed by the cylinder 11 becoming crowned will.

The housing 1, the longitudinal ribs 5 of which form a positive fit with the valve body 2 are connected, has a central longitudinal threaded hole at its lower end 17, into which a grub screw 18 is screwed from below. With the help of the grub screw 18, the ceramic cylinder 6 is pressed upwards in such a way that the flange 12 is fixed is clamped between ceramic cylinder 6 and valve body 2. In addition, will the position of the cylinder 11 is adjusted when the swelling body 9 is unswollen, the elasticity of the flange 12 is utilized. Below the grub screw 18 is an insertion point 19 screwed into the threaded hole 17.

As the material for the valve body 2 and the housing 1 and the insertion tip 19 plastic, in particular polypropylene, comes into consideration.

There are water hoses on the hose nozzles of the inlet 3 and outlet 4 20 and 21 pushed. The hose 20 is used to connect the irrigation valve device with a water connection. If this water connection supplies too high a pressure, it is advisable to insert between the water connection and the irrigation valve device Switch on the reducing valve. The hose connected to the drain 4 is with a Series of drip nipples, the first of which - 22 - is shown in FIG and is at a distance c from the ceramic cylinder 6. For example, it can be a Find hose 21 with up to 50 drip points.

First, the valve is adjusted when the swelling body 9 is not swollen, by screwing the grub screw 18 in so far that the valve disk 16 is the Inflow 3 is just closing.

Then the grub screw is a certain piece, for example half a turn, turned back, indicating the degree of swelling of the swelling body 9 is set at which the valve closes. Then the irrigation valve device plugged into the earth as shown in FIG. That from the drip nipple 22 Escaping water penetrates into the ground, with part of this water as spring water reaches the ceramic cylinder 6 after it has covered the path c in the earth Has. This spring water wets the lower one, which is in contact with the earth Section of the ceramic cylinder 6, the length of which is denoted by b in FIG. 1, and penetrates into this. The penetrated spring water arrives under capillary action up into the exposed section of the ceramic cylinder 6, the length of which in Fig. 1 is denoted by a, and thus to the swelling body 9 and moisturizes this. The cylinder 11 is raised by the subsequent swelling of the swelling body, until the valve disk 16 closes the inflow 3.

The upper portion of the length a of the ceramic cylinder 6 is wind and Sun exposed, so that the penetrated spring water depending on the weather conditions evaporates, eventually causing the valve to reopen and the earth is re-watered. To adjust this cycle so that the to be irrigated Once the required amount of water is allotted, the irrigation valve device plugged more or less deep into the earth. If it is inserted less deeply the lower section of length b wetted directly by the spring water is shorter, while the exposed portion of length a becomes longer, with the result that the ceramic cylinder 6 absorbs less spring water and this evaporates over a larger surface. The supply of moisture to the swelling body 9 is thus reduced, so that the valve opening times get longer. This can also reduce the water supply to the swelling body be achieved that the drip nipple 22 is attached further away from the Irrigation valve device becomes, so that a larger distance c is provided.

Another way of adjusting the watering cycle is given by the fact that the jacket of the ceramic cylinder 3 in the longitudinal direction of the cylinder extending glaze strips 23, the mutual angular distance as the of the longitudinal ribs is 5 1200. The ceramic cylinder 6 does not absorb or release moisture. The width of the glaze strips corresponds for example that of the longitudinal ribs 5, in the area of which no moisture has been absorbed either or can be delivered. So if the ceramic cylinder is rotated so that the Glaze strips 23 lie entirely under the longitudinal ribs 5, is the one for moisture absorption and discharge exposed surface of the ceramic cylinder 6 maximum. The further now the glaze strips 23 are twisted out of the area of the longitudinal ribs 5, the more the surface available for absorbing and releasing moisture becomes smaller of the ceramic cylinder 6. In Fig. 2, the case is shown that the exposed Ceramic surface of the ceramic cylinder 6 is reduced by about 50%.

If with the described irrigation valve device only one If only one plant is to be watered, a short hose at outlet 4 of the is sufficient Valve, the length of which must be chosen according to the desired distance c.

If, on the other hand, the irrigation valve device has a very large area is to irrigate, it can be used as a control valve device for a larger hydraulic controllable valve can be used. The hose 21 then has no drip nipple, but ends at the distance c from the irrigation valve device. The hose 20 is connected to the control input of the hydraulically controllable valve, its throughput is correspondingly larger. As soon as the valve described opens, the water pressure is degraded in the hose 20, which is sufficient to open the valve to be controlled. The end the end of the hose of the hose 21 getting into the earth penetrates up to the swelling body 9 until it closes the valve, whereby the pressure rebuilt in the hose 20 and also closed the valve to be controlled again will. This works synchronously with the valve controlled by the swelling body.

Blank page

Claims (14)

Irrigation valve device with a valve and a swelling body made of swellable plastic material, which is housed in a water-permeable receiving body, controls the valve as a function of its moisture content and is under the influence of the water that has passed through the valve, has penetrated into the earth and possibly the rainwater, wherein the supply of spring water to the spring body, which has passed the valve, is adjustable in that the receiving body can be inserted an adjustable piece into the earth. according to patent (patent application dadurchgeken nz eichnet that an elongated body made of porous material as a receiving body (6) in its upper end face (7) has a recess (8) in which the swelling body (9) is housed, which in turn with its upper surface on a top the receiving body (6) seated elastic sealing element (11) of the valve rests. 2. Device according to claim 1, characterized in that a ceramic cylinder (6) is provided as a receiving body. 3. Device according to claim 1 or 2, characterized in that as a plastic material for the swelling body (9) Polyurethane gel provided is. 4. Device according to one of claims 1 - 3, characterized in that that the recess (8) of the receiving body (6) is conical and of the also conical unswollen swelling body (9) is approximately filled. 5. Device according to one of claims 2-4, characterized in that that the ceramic cylinder (6) of longitudinal ribs (5) can be inserted into the earth Housing body (1) is held, attached to the upper end of the valve body (2) is. 6. Device according to claim 5, characterized in that the ceramic cylinder (6) is rotatable about its longitudinal axis and on its lateral surface glaze longitudinal strips (23), the mutual spacing of which corresponds to that of the longitudinal ribs (5). 7. Device according to one of claims 1 to 6, characterized in that that the valve body (2) has a valve chamber (10) with an inlet (3) and an outlet (4), the sealed elastic sealing element protruding into the chamber (11) under the influence of the swelling body (9) opens the inflow (3) like a valve plate and closes. 8. Device according to claim 7, characterized in that the elastic Sealing element is designed as a cylinder (11), the upper end face of which as The valve disk (16) faces the inflow (3) and has a flange at the lower end (12), the one on the upper end faces of the ceramic cylinder (6) and the swelling body (9) rests, and that the upwardly facing flange surface (13) sealingly against one Ring surface (14) of the valve body (2) rests. 9. Device according to claim 8, characterized in that the after the flange surface facing above has an annular bead (13) which is inserted into an annular groove (14) penetrates into the annular surface of the valve body (2). 10. Device according to one of claims 7 to 9, characterized in that that the valve chamber volume is dimensioned so large that swelling of the swelling body (9) after closing the valve by elastic deformation of the sealing element (11) is included. 11. Device according to one of claims 6 to 10, characterized in that that at the lower end of the ceramic cylinder (6) one in a threaded hole (17) of the Housing body (1) seated adjusting screw (18) engages in the direction of the cylinder axis. 12. Device according to claim 11, characterized in that as Adjusting screw a grub screw (18) is provided and in the under the grub screw The remaining section of the threaded hole (17) is screwed in with an insertion tip (19) is. 13. Device according to one of the preceding claims, characterized in that that the valve body (2) and the housing (1) made of plastic, in particular polypropylene, exist. 14. Device according to one of the preceding claims, characterized in that that the sealing element (11) consists of rubber.