DE202021102523U1 - Spray head for a spray lance - Google Patents

Abstract

Spray head for a spray lance
full
at least four nozzles, in particular cone nozzles, for applying a liquid, preferably a liquid crop protection agent,
characterized in that
the spray head comprises at least one nozzle, in particular a conical nozzle, at least in a front area of the spray lance (10) and at least three further laterally arranged nozzles, in particular conical nozzles, on the circumference of the spray lance (10).

Description

The invention relates to a spray head for a spray lance, the spray head comprising at least four nozzles, in particular cone nozzles, designed for dispensing a liquid, preferably a liquid crop protection agent.

Pest control is still carried out to a large extent with liquid, which is sprayed as aerosols. In the agricultural sector as well as in the domestic garden, sprayers are used in different versions. The spray is usually sprayed onto the plant from the outside. However, insects such as lice live below the leaf surface. These spots are very difficult to reach when spraying from the outside, especially from the top of the leaf. In the case of hand sprayers for the home garden, the spray lances are angled at the front so that the underside can also be sprayed by turning the spray lance. With the angled lances, the spray jet is deflected by approx. 20° to 30° from the axial spray direction. In such an embodiment, however, the leaves can only be sprayed at an oblique angle. A better result would be achieved if it were possible to implement a spraying angle of 90° with an application device, so that the leaf is wetted directly from the underside. Plants with dense leaf growth can only be sprayed at a spray angle that deviates by 20° to 30° from the axial spraying direction with an increased amount of spraying agent and not completely on the underside of the leaves.

Dense plants, such as the box tree as an ornamental plant, have been endangered by the box tree moth insect for several years. Since the caterpillars of the box tree moth sit on the underside of leaves, it would be desirable if the spray jet was directed from the inside out in order to be able to apply the insecticide to the inside of the leaves over the entire area.

Various types of nozzles have been developed, especially in agriculture, in order to meet the requirements for minimum application quantities with maximum wetting of the plants. Wind drift also plays a major role. For this purpose, specially adjustable nozzles have been developed that increase the droplet size and minimize wind drift. In this regard, for example, on the U.S. 2020/0197957 referred. If inside a nozzle liquid with air as in the U.S. 2020/0197957 mixed, the exit speed is higher and the aerosols can be sprayed much further.

An alternative nozzle shape uses the exiting air to direct the spray jet. Reference is made here to the US patent US-B-5074466 referenced, which shows a possible arrangement of how the exiting spray is given a directed jet shape by air.

For larger areas to be sprayed, such as in agriculture, it must be evenly distributed over the desired surface. the U.S. 2011/0204157 shows a suitable distributor linkage with different nozzles. The volume flow for the nozzles can be adjusted individually.

Another way of changing the spray jet is to switch different nozzles on multiple nozzle heads on or off. the EP2567617 shows such a spray head, which consists of several nozzles. The nozzles have different properties and can be switched according to the requirements.

As previously stated, the majority of spray systems for crop protection applications wet the crops by gravity rather than from below. Insects, on the other hand, are best controlled by spraying the leaves from below. Densely overgrown ornamental shrubs, such as the boxwood trunk, are usually only sprayed from the outside. However, ornamental shrubs, such as the boxwood, must be sprayed evenly from the inside out to wet the underside of the leaves. This is not possible with the spray heads as shown in the prior art.

The object of the invention is therefore to specify a spray head which overcomes the disadvantages of the prior art and in particular allows uniform wetting of the underside of a leaf. Furthermore, the wetting should be sufficient and it should be ensured that an operator does not contaminate himself with the agent.

According to the invention, this object is achieved by a spray head comprising at least four cone nozzles for applying a liquid, preferably a liquid crop protection agent, at least one nozzle, in particular a cone nozzle, being arranged at least in a front region of a spray lance and at least three on the circumference of the spray lance laterally arranged nozzles, in particular cone nozzles.

In order to be able to spray a sufficiently large spherical surface from the inside, for example a bush, it is advantageous if there are four nozzles on the 360° circumference of the spray lance at a distance of 90°, in particular cone nozzles are arranged in addition to the nozzle, in particular cone nozzle, at the tip of the spray lance. The four nozzles placed evenly on the circumference of 360° perpendicular to the axial lance at an angle of 90° to each other are particularly advantageous because they guarantee a uniform distribution of the spray over a spherical surface, for example from inside a bush, on the other hand is easy immersion into a bush because the head diameter of the spray lance can be kept small.

In order to be able to spray as large a spherical surface as possible, the cone nozzles are arranged on the spray lance in such a way that the spray jets emerging from the cone nozzles collectively spray a spherical surface from 180° to 360° from the inside. Ideally, the spray is distributed in all directions by the nozzle head through the five spray nozzles, the head spray nozzle and the four nozzles distributed at a 90° angle around the circumference of the lance, with the surface to be wetted being viewed as a spherical surface from the inside of a spherical shell.

In order to prevent an operator from being contaminated by escaping spray, the spray angles of the spray jets emerging from the cone nozzles are at least 240° to 300°, preferably 270°. The fact that spray is only released from the spray lance via the front spray head and the four lateral spray heads arranged 90° from one another can prevent an operator holding the lance with the spray heads opposite the front spray heads from contaminating himself with spray.

In order to be able to adjust the spray cone of the axial spray jet that emerges from the conical nozzle, it is advantageously provided that the laterally arranged nozzle, in particular the conical nozzle, is arranged on a body that can be rotated about the axis of the spray lance. This enables the nozzles arranged on the side to be switched on and off by turning the head. In such a case, in a first position of the rotatable body, only the head cone nozzle arranged at the head of the spray lance is exposed to spray and in a second position of the rotatable body, all four laterally arranged cone nozzles and the head cone nozzle result in a spray angle of 270°, for example. In a further embodiment, in order to be able to sufficiently spray bushes with branches that are not too densely overgrown and to keep the use of spraying agent as low as possible, the lance can be designed in such a way that conical nozzles can be controlled individually.

In order to be able to clean individual spray heads, in particular their fine nozzles, it is provided that the conical nozzles can be removed from the spray lance, in particular unscrewed.

In addition to the spray head according to the invention, an entire spray system, in particular for plant protection applications, is specified that includes a spray head as described above.

In the following, the invention will be described with reference to the drawings and without being limited thereto.

• 1a: Eine erfindungsgemäße Lanze mit mehreren Sprühdüsen, wobei der Sprühwinkel der Sprühdüsen für die Sprühstrahlen angegeben wird.
• 1b: Sprühkegel einer erfindungsgemäßen Lanze mit mehreren Sprühdüsen.
• 2: Anwendung eines Sprühsystems mit Sprühlanze und erfindungsgemäßem Sprühkopf.
• 3: Detailansicht einer erfindungsgemäßen Lanze mit insgesamt fünf Sprühdüsen.
• 4a-4b: Schnitt durch eine erfindungsgemäße Lanze mit Ansteuerung unterschiedlicher Sprühdüsen.
• 5a-5e: Ausbringkegel des Sprühmittels bei unterschiedlichen Ausführungsformen mit unterschiedlicher Zahl an Kegeldüsen.
• 6a-6b: Sprühsystem mit Sprühlanze gemäß der Erfindung zum Anschluss an ein Sprühsystem.

Show it:

• 1a : A lance according to the invention with a plurality of spray nozzles, the spray angle of the spray nozzles for the spray jets being specified.
• 1b : Spray cone of a lance according to the invention with several spray nozzles.
• 2 : Use of a spray system with spray lance and spray head according to the invention.
• 3 : Detailed view of a lance according to the invention with a total of five spray nozzles.
• 4a-4b : Section through a lance according to the invention with control of different spray nozzles.
• 5a-5e : Application cone of the spray in different embodiments with a different number of cone nozzles.
• 6a-6b : Spray system with spray lance according to the invention for connection to a spray system.

In 1 a A section of the discharge cone of a nozzle head with several cone nozzles is shown. Shown is the discharge cone or spray cone 115 of a cone nozzle, which is arranged in the front area of the lance, and the spray cones 111, 113 of four other cone nozzles, which are distributed radially over the circumference. Of the total of four nozzles, only the spray cones 111, 113 of two cone nozzles are shown. The total of five cone nozzles are arranged on the spray lance in such a way that the combined spray jets can spray a spherical surface from 180° to 360°. It is particularly preferred if the spray angle of the cone nozzles on a spherical surface 10 is an angle of 270°, as in 1a shown and denoted by α, has. With a spray angle of 270°, as in 1a shown, very good spraying results are achieved. On the one hand, with a lance according to the invention, a spherical surface 10 can be wetted very well from the inside with the resulting spray cone, on the other hand, the operator not sprayed when he uses the lance outdoors. 1a shows the spray cones 111 - 115 of a total of five cone nozzles. The four lateral conical nozzles distributed around the circumference are arranged radially to one another at an angle of 90° on the smallest possible diameter. The spray head arranged at the front end 20 of the spray lance 10 is thus slim enough to be able to penetrate without resistance into the interior of a densely overgrown bush. Although one could also largely wet a spherical surface from the inside by turning and tilting the lance with only one spray head arranged at the tip of the lance, this is associated with considerable effort, which can be minimized by the spray lance according to the invention. In particular, the simultaneous use of a total of five spray heads makes it possible to ensure that the leaves of a box tree, for example, are evenly wetted from below.

1b shows the spray cone 100 in a three-dimensional view, which results from the arrangement of five spray nozzles on the spray lance when a spray is applied. As in 1b is clearly visible, spray is only released forwards via spray cone 115 and the side nozzles 111, 112, 113, 114, of which only the nozzles 111 and 112 are shown. How out 1b is clear, no spray reaches the end 118 of the lance, which as in 2 shown, is held by an operator 32. This ensures that the operator 32 is not contaminated with spray and that spray only gets into the bush or shrub 12 .

The typical application of a spray lance 10 according to the invention with several 270 ° spray nozzles - here four lateral spray nozzles - and a front spray nozzle shows 2 . The operator 32 holds the spray lance 10 in a dense bush 12 and actuates the quick-acting valve 14 of the spray system 30. The spray mist is then evenly distributed on the inside of the leaves. The spray lance 10 is connected to a container 40 which can be carried and in which the spray agent is stored. The spray agent stored in the syringe can be pressurized using an air cushion. The pressure in the container is built up by a hand pump 42 . The lance 10 is connected to the hand pump tank 42 by the hose 44 . clearly in 2 it can be seen that the operator is not contaminated when spraying a spray with the lance 10 with a spray head according to the invention, since spray is not released in the direction of the operator 32 from any of the five spray heads.

3 shows the spray head 100 in detail. The spray head 100 is screwed onto the lance 10. A rotating body 120 is fixed on a connecting member 110 . The total of four flat conical jet nozzles 101, 102, 103 and 104 distributed on the circumference are arranged in a screwable manner on the rotating body 120 at an angle of 90° in the radial spraying direction. The spray cone of the axial spray jet of the spray nozzle 105 arranged at the end of the lance can be adjusted by turning the nozzle.

Another special feature of this invention is the possibility of switching off the four lateral spray nozzles 101-104 by turning the connecting element 110, as shown in 4a and 4b shown.

4a Figure 12 shows the spray lance 10 with the spray head comprising the four peripheral cone jet nozzles 101, 102, 103 and 104 and one head cone jet nozzle 105 in section in a closed position, only the nozzles 101 and 103 being shown. A guide cylinder 123 rests tightly against a seal 124 so that the liquid can only escape axially through the nozzle 105 . No liquid is applied to the nozzles 101-104 distributed around the circumference. The connecting element 110 can now be unscrewed counterclockwise by one to two turns, as in FIG 4b shown. The connection between the guide cylinder 123 and the axial seal 124 opens so that the liquid can be distributed in the chamber 122. The nozzles 101-104 as well as the axial nozzle 105 are then all evenly supplied with liquid. In order not to be able to unscrew the connecting element 110 completely, two driving pins 121 are fixed to the connecting element 110 . The adjustment path is limited by the circumferential groove 125. 4b shows the driving pin 121 at the stop of the circumferential groove 125 in the open position. In the closed position according to 4a the stop is given by the seal 124. The circumferential groove 125 is so wide open at this point that the guide cylinder 123 and the seal 124 seal as a result of the tightening force when twisting. As in the 4a until 4b shown, in the closed position the laterally arranged nozzles 101 - 104 are not acted upon by spray, which is why no spray cones are shown here. In the open position in 4b the side nozzles are open and spray is applied through the nozzles, which in 4b is shown.

In order to spray bushes with branches that are not too densely grown on the underside of the leaves, it is also possible to switch off the axial nozzles and several nozzles distributed around the circumference. In addition to shutting off all of the axial nozzles, the switching of different axial nozzles can be implemented in a further design design the. Switching different nozzles on and off is in 5a-5e shown.

5a shows an application when only one of the four spray nozzles arranged at an angle of 90° on the circumference of the lance, here spray nozzle 101, is sprayed with spray agent, in which the leaves are sprayed from below, resulting in the spray cone 111. Around the 90° To double the cone, two side-by-side spray nozzles 101, 102 distributed on the circumference can also be used according to FIG 5b additionally switched on, resulting in the spray cones 111, 112.

With the device according to the invention not only crop protection agents can be sprayed, but also formwork oil. Formwork boards with formwork oil are used in the construction industry to achieve an even and smooth concrete surface. The application of formwork oil via two opposite spray nozzles 101, 103 according to 5c is ideal for a wall to be built in concrete. The surrounding formwork boards are sprayed at the same time in one operation. However, other combinations of axial nozzles can also be interconnected, as in 5d , 5e shown. In all 5a-5e the same reference numerals 111-115 for the spray cones and 101-105 for the spray nozzles are used as in the previous figures.

In 6a and 6b a spray system with a spray lance according to the invention and a spray head 100 is shown. In addition to the spray lance, the spray system also includes a quick-acting valve 14 with a connection, for example, to a pressure vessel 40, as in 2 shown receiving the spray and present in 6a and 6b is not shown.

To spend the spray head 100 on the lance in different positions and different spray patterns, as in the 5a-5e shown, a rotary head is provided, which can be brought into the desired position by turning it by one or two turns. As in 6a shown, this process is carried out with a key 200 via grooves 126 in the rotary head. In this way, the user does not come into contact with the spray. Once the desired position of the connecting element has been reached, the setting key 200 can be brought back into the parking position by sliding it on the spray lance. this is in 6b shown. In doing so, it is pressed onto the connecting nut 210 so that it does not release itself from its position.

To clean the very fine, axially arranged spray nozzles from which the spray cones 101-104 emerge, they can be completely unscrewed from the spray head. The nozzle head with spray cone 105 can also be unscrewed for cleaning. In order to avoid clogging of the nozzle as much as possible, a filter 11 is embedded in the pipe. The filter has a mesh size of 0.15 and is therefore smaller than the bore diameter of the nozzles. This prevents clogging from contaminated spray liquid. With the spray head according to the invention, on the one hand a reliable spraying of spray onto the underside of the leaves of shrubs is ensured, on the other hand an operator is protected from being contaminated with the spray.

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• US2020/0197957 [0004]
• US5074466B [0005]
• U.S. 2011/0204157 [0006]
• EP 2567617 [0007]

Claims (10)

Spray head for a spray lance comprising at least four nozzles, in particular conical nozzles, for dispensing a liquid, preferably a liquid crop protection agent, characterized in that the spray head comprises at least one nozzle, in particular conical nozzle, at least in a front region of the spray lance (10) and on the circumference the spray lance (10) has at least three further nozzles arranged on the side, in particular cone nozzles. spray head after claim 1 , characterized in that four nozzles, in particular cone nozzles, are arranged on the circumference of the spray lance (10). spray head after claim 2 , characterized in that the four on the circumference of the spray lance (10) arranged nozzles, in particular cone nozzles, are applied radially to each other at an angle of 90 ° on the spray lance. Spray head after at least one of Claims 1 until 3 , characterized in that the nozzles, in particular conical nozzles, are arranged on the spray lance (10) in such a way that the spray jets emerging from the nozzles, in particular conical nozzles, collectively spray an inner spherical surface from 180° to 360°. Spray head after at least one of Claims 1 until 4 , characterized in that the spray angle of the spray jets emerging from the nozzles, in particular cone nozzles, is at least 240° to 300°, preferably 270°. Spray head after one of Claims 1 until 5 , characterized in that the at least three laterally arranged nozzles, in particular cone nozzles, are arranged from a body which can be rotated about the axis of the spray lance. Spray head after one of Claims 1 until 6 , characterized in that the nozzles, in particular the cone nozzles, can be controlled individually. Spray head after one of Claims 1 until 7 , characterized in that the nozzles, in particular cone nozzles, can be controlled individually by rotating the rotatable body. Spray head after one of Claims 1 until 8th , characterized in that the nozzles, in particular the conical nozzles, can be removed from the spray lance, in particular unscrewed. Spray system, in particular for crop protection applications, comprising a spray head according to one of Claims 1 until 9 .

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