DE1038531B - End of phase - Google Patents

Description

GERMAN

kl. I2re 4 / Ot

INTERNAT. KL. BOIf

PATENT OFFICE

R 12556

REGISTRATION DATE: SEPTEMBER 15, 1953

NOTICE
THE REGISTRATION
AND ISSUE OF THE
EDITORIAL:

"( Ytjl .? FtK 31

Y-

■ T ^ Ή

SEPTEMBER 11, 1958

The invention relates to an outlet spout on the outlet nozzle of a liquid line for Mixing the flowing out liquid with air.

According to the invention, the outlet spout is characterized by a nozzle opening and a downstream nozzle and arranged coaxially to this and with the tip directed towards the nozzle opening and with Holes provided hollow cone, which is surrounded by a cylinder, through which the connection of the space surrounding the hollow cone is produced with the outside air, the total cross-section of all holes of the hollow cone is considerably larger than the cross section of the nozzle opening, so that by the liquid jet emerging from the nozzle opening and splitting the cone from the outside Air is sucked in.

This makes it possible to mix so much air into the liquid jet that it is several times over becomes thicker and softer.

The air is preferably directed against the flow direction, for example through an outlet supplied for the mixture surrounding annular channel.

The hollow cone can expediently be arranged axially displaceably in the housing, so that it can be brought into a position in which its tip closes the nozzle opening.

In the drawing, two exemplary embodiments of the subject matter of the invention are shown, namely shows

Fig. 1 the first and

Fig. 2 shows the second example in longitudinal section, while

FIG. 3 illustrates the second example in cross section along line HI-III in FIG. 2.

The sleeve designed as a housing 1 of the spout has at its upper end an internal thread 2 for Connection to the outlet nozzle of a liquid line. In the housing 1 is a stepped at the edge Disc 3 inserted with a downwardly widening nozzle opening 4, which with its edge shoulder 5 rests on a shoulder 6 projecting on the inside of the housing 1.

According to Fig. 1, a thin-walled cylinder 7 is attached to the lower cylindrical edge of the disc 3, for example by soldering, which has passage openings 8 for the air in its upper part. A second cylinder 9 is inserted into the cylinder 7 in such a way that it is immovable with respect to this. The cylinder 9 is tapered in its upper part to a cone tip 10, which is provided with a large number of relatively small holes 11. A known jet regulator 12 is inserted into the other end of the inner cylinder 9 which forms the outlet opening. Between the lower end of the ZyYw spout

Applicant:
Rothmayr & Co., Zurich (Switzerland)

Representative: Dipl.-Ing. R. Bibrach, patent attorney,
Göttingen, Groner Str. 35

Claimed priority:
Switzerland from August 5, 1953

Josef Rothmayr, Zollikon (Switzerland),
has been named as the inventor

ders 7 and the lower end of the sleeve 1, which is tapered on the outside, an annular channel 13 is left free, through which air can flow in from the outside and which expands upward to form an annular space 14.

Through the nozzle opening 4, the liquid flowing out of the conduit becomes a large one Speed exiting jet, which is divided by the tip of the cone and in the form of many fine jets penetrate through the holes 11 into the cone interior 15, whereby as a result of the jet pump effect the air entering through the openings 8 is sucked in and, with the formation of eddies, into the space 15 is carried away, which results in an intensive mixture of the two elements. Through the aerator 12 the mixture is then transformed into a uniformly flowing stream.

In the case of the outlet spout according to FIG. 2, the housing is divided into two parts 16 and 17 screwed together, of which the upper, 16, an internal thread 18 and an inwardly protruding annular flange 19 which carries the disk 3 with the nozzle opening 4. The lower part 17 is offset on the inside, so that an annular shoulder 20 is formed. A cylinder 21, which is from the cylinder 7 according to FIG. 1 thereby differs in that its upper part is angled to form a flat flange 22, is in the housing part 17 used, wherein it rests with its flange 22 on the shoulder 20. In the. Cylinder21 is in the same As in the first example, a second cylinder 9 is inserted so that it is immovable with respect to this is. The cylinder 9 is at the top of a cone 10

809 637/430

Claims (4)

tapered with small holes 11 and has a jet regulator 12 in its lower opening. In this embodiment, too, the air to be admixed with the liquid enters the space surrounding the cone through an annular channel 13 left free in the outlet opening of part 17 and through openings 28 provided in flange 22 and is sucked in by the jet emerging from nozzle opening 4 , entrained into the cone interior 15 and mixed intensively with the liquid. In this example, however, the lower housing part 17 is designed as a nut and has, for example, edges or a corrugation on the outside. By correspondingly turning this nut with respect to the housing part 16, it is easy to see that the cone tip of the nozzle opening 4 can be brought closer to or removed from it. By completely screwing up the nut 17, the nozzle opening can be closed and the flow of liquid can be shut off. To protect against contamination and to offer the possibility of a perfect seal, a locking nut 30 is provided which has an edge flange 31 which serves as a stop for an outer annular flange 32 provided on the nut 17. This prevents the housing parts 16 and 17 from becoming detached from one another by unscrewing the latter too far. Due to this special design, the outlet spout described can be used at the same time as a regulating element for the flow rate or as a throttle valve, which is then particularly advantageous. if of several branch lines connected to a main line, for example a car wash, only some are to be used. The outlet spout described can be used wherever it is a question of obtaining a powerful outlet jet that is plentiful for washing purposes, for example, and which is soft due to the finely divided air contained in it, while consuming little liquid. Since the air is also supplied in the axial direction through the spout, so the air inlet opening is located in the outlet of the spout, the arrangement of lateral slots or holes is avoided, which contributes significantly to an attractive outer design of the spout. Pate ν τ λ ν s 1 »r cc.he: 1. Outlet nozzle on the outlet nozzle of a liquid line for mixing liquid with Air, characterized by a nozzle opening (4) and by © inen downstream and coaxial to this arranged with the tip pointing towards the nozzle opening and with holes (11) provided hollow ball (10), which is surrounded by a cylinder (7 or 21), which is with Holes (8 or 28) is provided, through which the connection of the surrounding the hollow cone Room is made with the outside air, the total cross-section of all holes (11) of the Hollow cone is considerably larger than the cross section of the nozzle opening, so that through the out The liquid jet exiting the nozzle opening and divided by the cone is air from the outside is sucked in. 2. outlet spout according to claim 1, characterized in that that the air through a ring-shaped in cross section, surrounding the liquid outlet Entrance to channel (13). 3. outlet spout according to claim 1, characterized in that the cylinder (7) at one in the Housing used, the nozzle opening having disc (3) is attached (Fig. 1). 4. outlet spout according to claim 1, characterized in that the hollow cone (10) for closing the nozzle opening (4) or regulating the flow rate is axially displaceable in the housing (Fig. 2). 1 sheet of drawings 1 809 637/430 9.58