DE933235C - Spray nozzle for pest control syringes - Google Patents

Description

Spray nozzle for pest control syringes The invention relates to Spray nozzles for pest control syringes. Such nozzles are known to be subject to failure a lot of wear and tear because the spray liquid flows through at great speed the nozzle opening flows. In addition, suspensions, especially calcareous, used as a pesticide, through which the nozzle walls still attacked far more and sanded out in a short time. One has with rotary nozzles already proposed to avoid pitting of the vortex chamber walls to arrange the inflow channels tangentially. This will probably cause the walls of the vortex chamber to be pitted avoided, but not grinding out and thus enlarging the nozzle bores. The latter has the consequence. that the flow rate changes or the pressure drops and in the case of field sprayers, the distribution of the spray liquid is worsened. Around To avoid such grinding out as much as possible, one already has the nozzle opening in a semi-precious stone, for example an agate or sapphire, arranged. Such However, embodiments are too expensive to manufacture for them to be commonly used could become. Pest control syringes are mass-produced, for which a large number of nozzles are needed, so that particularly valuable raw materials cannot be used to manufacture the nozzles.

The invention relates to an atomizer nozzle, in particular for Pest control sprayers, in which at least the nozzle opening containing nozzle head is made of glass. Preferably the nozzle opening is in one the vortex chamber forming hollow cone made of glass arranged with a retaining flange on the inner face of the nozzle cap with the interposition of a sealing ring is applied. The nozzle cone made of glass can be located opposite the nozzle opening Side a protruding over the retaining flange, for example, an annular shoulder included, on its face tangential to the nozzle cone interior Supply grooves are provided for the spray agent. The lead grooves are located expediently on the ground face one between a sieve and the Nozzle cone arranged plate in which on a circle inflow openings for the Spray means are provided. The nozzle opening can also be in one in the nozzle cap clamped perforated disk made of glass be attached, while the supply channels Are arranged helically in a known swirl body. Of the the helical supply channels containing swirl body consists primarily also made of glass. The nozzle cap can also be made from glass. In this case, it takes up the nozzle bore itself.

The bottom of the swirl chamber can also be placed in the with the sieve The lower part of the nozzle body containing the pipe connection is sunk in such a way that that the end face of the nozzle body lower part directly on one in the nozzle head embedded sealing ring and thus an absolutely reliable seal achieved, while the upper part of the nozzle body has an elastic intermediate ring the opposite side of the nozzle head flange. The vortex chamber floor is together with the sieve by spring and liquid pressure against the nozzle head pressed.

The manufacture of the head piece containing the nozzle opening from Glass gives the nozzle a long service life and is very inexpensive to manufacture, since the nozzle cone in the pressing process, d. H. in mass production, at a low price can be produced. In particular, a precisely dimensionally stable can be achieved in the pressing process and achieve uniform production of the nozzles. This advantage is special Significance for field sprayers because any deviation from the prescribed dimensions inaccurate operation of the nozzle and thus uneven distribution of the spray result would. Grinding out the nozzle opening with the spray liquid or the in the float it contains can hardly be done and really should after a long time Period of use a stronger wear can be determined, so the small and replace cheap glass bodies very quickly.

Also the arrangement of the supply grooves or channels in the same or in a special glass body results in a very long durability of the nozzles, which can also be shaped in any shape. Because glass through the pesticide and the solid components contained therein, such as. B. lime, not attacked is, so are such nozzles in excellent measure for facilities for Pest Control. As a result of the low processing costs, such nozzles Manufactured and used in large quantities and at low prices, which means a sensitive void in the manufacture of pest control equipment is closed.

Three embodiments of the nozzles according to the invention are for example illustrated in the drawing.

Fig. I shows a nozzle with a nozzle cone made of glass; Ahb. 2 gives a section through the nozzle cone along section line 11-II of FIG Fig. I again; Fig. 3 shows a longitudinal center section through a nozzle made of glass existing perforated disc and arranged in a glass body in the form of a helix Supply channels represent; Fig. 4 shows a longitudinal center section through a third embodiment the nozzle, in which the swirl chamber floor is embedded in the nozzle body lower part is.

In the embodiment according to Figs. I and 2, a nozzle cone 2 made of glass is clamped in a nozzle cap i, for example fluted on its circumference, the flange 3 of which rests on the inner end face 6 of the nozzle cap with the interposition of a sealing ring 4. The nozzle cone 2 has, on its side opposite the nozzle opening, an annular extension 7 in which, as can be seen in FIG. The grooves are covered by the ground face 9 of a curved plate io, which has inflow openings ii for the spray agent on a circle. The plate 9, io can also contain one or more bores 12, the arrangement of which enables a more pointed design of the spray cone. At the lower edge of the plate io lies the flange of a sieve 12, which is pressed with the interposition of a sealing ring 13 from the end face of the nozzle body lower part 14 against the plate io, which in turn presses against the nozzle cone and thereby clamps it firmly in the cap. The spray agent is fed through the nozzle body lower part 14 to the cavity containing the sieve 12, flows through the sieve and then enters the swirl chamber through the plate opening 12 or the inflow openings ii and the grooves 8, in order to atomize when exiting through the nozzle opening 5 to become.

In the nozzle design according to FIG. 3, a perforated disk 17 made of glass with a bore 15 is clamped in a nozzle cap 16. Inside the nozzle cap, a swirl body 19, which can also consist of 3las, is arranged, which contains helical inflow channels 20 for the spray agent. In the same way as in the embodiment according to FIGS. 1 to 2, it can also have an axial inflow opening 18 in the middle, which is smaller than the nozzle opening 15 of the perforated disk 17 .

In the embodiment according to Figure 4, the vortex chamber bottom 21 is also made of pressed glass. It is sunk into the nozzle body lower part 22 and is together with the sieve 23 by a lying in the bottom of the nozzle body lower part Spring 24 and the higher pressure prevailing in the supply line against the nozzle head 7 pressed. The flange 3 of the nozzle head is opposite the nozzle cap 1 and the Lower part of the nozzle body by a sealing ring embedded in the nozzle head 25 securely sealed off from the outside, while on the other side of the Flange 3 between this and the inner surface of the nozzle cap, an elastic intermediate ring , 4 is arranged.

Claims (7)

PATENT CLAIMS: 1. Atomizer nozzle for pest control syringes, characterized in that at least the nozzle head (2, 17) containing the nozzle opening (5, 15) consists of glass. 2. Atomizer nozzle according to claim 1, characterized in that that the nozzle opening (5) is arranged in a swirl chamber (2) made of glass, whose Body with a retaining flange (3) on the inner face (6) of the nozzle cap (i) is applied with the interposition of a sealing ring. 3. Atomizer nozzle after one of claims 1 or 2, characterized in that the one made of glass Nozzle head (2) on its side opposite the nozzle opening (5) one over the retaining flange (3) contains projecting, preferably ring-shaped extension (7), on its end face one or more tangential to the vortex chamber Supply grooves (8) are provided for the spray agent. : 4. Atomizer nozzle after one of claims t to 3, characterized in that the supply grooves (8) on the ground face (9) one between a sieve (12) and the nozzle head (2) arranged curved plate (1o) rest in the inflow openings on a circle (11) and optionally also one or more directly into the vortex chamber leading openings (12) are provided. 5. Atomizer nozzle according to claim 1, characterized characterized in that the nozzle opening (15) 111 is clamped in the nozzle cap (16) Perforated disc (17) made of glass is provided, while the supply channels (20) are helical are mounted in a swirl body (19) known per se. 6. Atomizer nozzle after Claim 1 or 5, characterized in that the swirl body (19) is made of glass is. 7. Atomizer nozzle according to one of claims 1 to 6, characterized in that that the glass parts are produced in a pressing process. B. atomizer after a of claims 1 to .4, characterized in that the swirl chamber floor (21) together with the sieve (23) is sunk into the nozzle body lower part (22) in such a way that the end face of the nozzle body lower part directly on one in the nozzle head (2, 3, 7) embedded sealing ring (25) rests, while the swirl chamber floor with the sieve is pressed against the nozzle head by spring and liquid pressure. Attached publications: Swiss patent specification No. 9i .496.