NO135446B - - Google Patents

Description

Nozzle for contaminated media.

The present invention relates to a nozzle for contaminated media, e.g. land water and which comprises an elastically expandable outlet opening and a non-expandable neck for clamping. Such nozzles have already been proposed for the transport of contaminated agents. Such known nozzles are clamped onto the end of a wire, e.g. on the nozzle of an irrigation device or a hose, so that the neck of the nozzle already due to the repulsion of the clamping device, e.g. a capsule nut, cannot be expanded. In the known designs, the expandable outlet opening serves to regulate the jet, i.e. to adapt to different supply pressures. Within certain limits, with these known designs, it is possible to obtain favorable flow conditions at different supply pressures.

From the Swedish patent no. 131 284, a nozzle is further known where a nozzle which tapers towards the outlet end is provided with a spring-actuated flap so that the mouth cross-section of the nozzle can be made larger against the action of the spring. However, this device has the disadvantage of transporting contaminated media, e.g. fertilizer water, that the mouth cross-section is only increased in one direction, while it remains unchanged in a direction at right angles to this. The nozzle therefore also forms, when the spring-actuated flap is in the "open" position with the narrowed cross-section at the mouth, an obstacle for contaminants which may pass through the connected pipeline, but which will lead to clogging of the nozzle.

From the U.S. patent no. 1 831 586 it is known that nozzles for water hoses, where mouth parts are made in one piece of an elastic material. At the end of the mouth section facing away from the mouth, a screw sleeve is screwed in, which in turn is inserted and secured in the connected pipeline. For the transport of contaminated media, this construction has the disadvantage that the screw sleeve reduces the free internal diameter of the pipeline and thereby provides a critical point where contaminants that can just pass through the connected pipeline can get stuck and lead to blockage.

The present invention is to provide a nozzle for the transport of contaminated media with which the above-mentioned disadvantages are avoided. The invention essentially consists in that the mouth part of the nozzle opening can be expanded to approximately the internal free diameter of the wire to which it is connected by the radially inwardly directed part of the mouth part folding outwards around the end of the non-expandable neck and that the smallest internal diameter for the neck and for the parts that serve to attach the neck to the wire to which it is connected is not smaller than the internal diameter of this wire. This will make any interference by using contaminated media impossible in advance, since the nozzle has no cross-section which cannot be expanded to the internal diameter of the pipeline the nozzle is to be connected to. Any body that can get through the supply line will also be able to pass the nozzle. The critical cross-section in front of the outlet opening at the previously known outlets

ducts that could be blocked by gross contamination are avoided. The nozzle according to the present invention is therefore for any type of medium to be transported

is operationally reliable and it will no longer

there are cases where the nozzle must be removed

res to remove contaminants of the me-

dium to be transported. Thus up-

at the same time, the advantage of a nozzle which, with regard to the flow conditions, is elas-

tically expandable and the advantage of complete operational reliability. The fact that the throat cannot

vides can be achieved in a simple way by means of the clamping device, or by means of the cap nut that holds the

Late. According to the invention, however, the nozzle can also in the area of the neck re-

grasp an insert in the elastic material, which insert is not or is less elastic. Within the framework of the invention, this insert can be formed from a part for

connection of the nozzle, e.g. a screw sleeve or a flange. The insert can also be designed as one half of a ball-and-socket joint.

ling, e.g. the nut part of this. Such ball joint couplings are common in agriculture for pipelines for ground water or for spraying plants, i.e. where gross contamination in the media to be transported occurs. With the help of the present invention, when connecting such a coupling half with an elastic extension

bare nozzle thus possible to spray the medium immediately from the pipeline.

Such nozzles of elastic material, e.g.

rubber has such elasticity that they can

widened to several times its diameter. It has e.g. proved that it is easily possible to transport such pollutants again

nom the nozzle where the contaminants have three times the diameter of the nozzle. In order to

reduce the stress on the nozzle opening and possibly also increase expandability, the outlet opening can be designed with non-

round cross section, e.g. star shape. The outlet opening may altogether have one

any form. It can e.g.

slot-shaped openings for certain purposes can also be arranged, resulting in a better

sharing of the media, and in such cases may,

when clamping parts are also non-round,

the smallest internal diameter of the neck corresponds to the internal diameter of the connected cable, in order to safely prevent blockage with coarse contaminants

nings.

The invention must be described with reference to the attached drawing.

Fig. 1 and 2 show different embodiments

forms of such a nozzle as e.g. suitable for irrigation systems.

Fig. 3 shows an embodiment of the nozzle with a coupling half for a ball joint

coupling.

In the embodiment shown in fig.

L the nozzle body 1 consists of rubber. In about-

the tip 2 of the outlet opening 3 is elastic

the tip of the nozzle body only limited by the material in it. In the neck 4 there is an device

net an insert 5 of metal or tissue, which makes the nozzle body 1 essentially non-

slastic in this area. Furthermore, an elas-

technical expansion in this area also made impossible by means of a capsule nut 6. The insert 5 is designed with an outward

projecting flange 7 which is clamped by means of the nut 6. The part 2 of the nozzle in the area of the outlet opening 3 can in practice be expanded to the internal free diameter of the neck 4, and this neck 4 now forms the critical cross-section for the flow of coarse contaminants. Then the internal diame-

ter of the neck 4 approximately corresponds to the in-

diameter of the wire that dy-

then connected, the nozzle can no longer block

keres of the grossest pollutants.

The embodiment shown in fig.

2 differs from that shown in fig. 1 wood

that the insert 5 has threads 9 so that the nozzle can be clamped without the use of a capsule nut

ter. In fig. 2, lot 2 is shown in extended to-

stand at 2' and it turns out that the nozzle can easily be expanded to the internal free diameter of the neck 4.

In the embodiment shown

in fig. 3, the insert 5 is made as part of a coupling half 8, namely of nut-

part of a ball joint coupling. Also in this embodiment, the neck 4 has an internal free diameter that roughly corresponds to the diameter

the wire to which the nozzle is connected.

Claims (5)

1. Nozzle for transporting contaminated media, e.g. fertilizer water, which comprises an elastically expandable outlet opening and a non-expandable neck for clamping, where the mouth part of the nozzle opening is ex- carried in one piece of a material with great elasticity, e.g. rubber, characterized in that the mouth part (2) for the nozzle opening (3) can be expanded to approximately the internal free diameter of the wire that is connected by the radially inwardly oriented part of the mouth part (2) folding outwards around the end of the non-expandable neck (4) and that the smallest internal diameter for the neck (4) and for the parts (6) that serve to attach the neck (4) to the cable to which it is connected is not less than the internal diameter of this cable. 2. Nozzle as stated in claim 1, characterized in that in the area of the neck (4) it is in one piece with the mouth part and in a manner known per se has an insert (5) of no or less elastic material which is inserted in the elastic material. 3. Nozzle as stated in claim 2, characterized in that the insert (5) has a flange (7) which serves to connect the nozzle to the pipeline. 4. Nozzle as stated in claim 3, characterized in that the insert (5) on a part of the outer circumference which is not covered by elastic material has a screw thread (9). 5. Nozzle as stated in claim 3, characterized in that the insert (5) is shaped as a connecting half of a ball joint coupling, in particular as the nut part (8) thereof.