FI108407B - Spray nozzle to provide spray mist - Google Patents

Abstract

The spray nozzle is built into a pipe conduit of a fire-fighting installation comprises a housing in which a flow body forming a torsion mixt. chamber is incorporated. The flow body (4) at the end opposite to the nozzle opening (9) is located tightly in a bore (10) of the housing and is provided with a conical part (6) extending towards the nozzle opening. To the conical part connects a cylindrical pin (7), which in the nozzle opening forms a ring gap (15). The housing (3) is provided with one or more tangential and radially inclined holes (14).

Description

108407

The present invention relates to a spray nozzle for developing a spray mist by means of a low pressure method, in particular for firefighting by means of fixed water mist fire extinguishing means, the spray nozzle being integrated into the mouth a flow member which, with the housing, moves the vortex chamber and has a pin-shaped end which is coaxially connected to the nozzle orifice.

Such nozzles are used for spraying liquids, whereby a uniform jet pattern is sought with respect to the liquid distribution, particularly for fire extinguishing devices. DD 116 398 discloses such a nozzle consisting of a nozzle cavity piece and a nozzle insert having an external vortex groove. These nozzles mainly spray 20 circular rings. The area inside the circular ring is sprayed only slightly. This means that when the water flow is released from the nozzle, a cavity cone is formed in the jet due to the development of internal vortexes. Another disadvantage of the older jet nozzle is that the vortex channels 25 that are formed tend to clog, and furthermore, the vortex body requires a great deal of time during manufacture.

It is an object of the present invention to provide a shower nozzle that avoids the use of an older shower nozzle. ': 30 drawbacks and develop a jet cone, which is a full cone with more intense turbulence.

This problem is solved by providing the flow body with the plug turned away from the nozzle opening, which is tightly fitted to the bore in the housing 35 and is provided with a mouth piece ·; ; a tapered portion tapering towards the tin opening, to which a cylindrical pin is formed, wherein the pin forms an annular slot with the nozzle opening, and the housing is provided with one or more feed bores having a cylindrical, second bore in a perpendicular plane inclined towards the nozzle opening, and that the vortex chamber in the direction of the nozzle opening initially widens in cross section and then narrows.

The invention provides a full cone whereby the jet nozzle develops a uniform and stable jet pattern across the circular surface with respect to the liquid distribution. The jet nozzle can thus be used in the conventional pressure range for jet fire extinguishing devices. The jet nozzle has a large and intense horizontal 15 and radial jet effect, while providing good internal and deep action. Use in the supply air flow and the gravity feed of the water to the firing point is thus possible.

The design of the jet nozzle, with an externally guided flow piece pin at the nozzle outlet 20, provides a very stable and clean jet of cone due to the extra stabilization and centralization of the water flow. Due to the construction of the spray nozzle according to the invention, the clogging tendency is small due to the larger nozzle outlet and inlet surfaces.

The drawing shows an exemplary embodiment of the invention 1, which will be explained in more detail below. In addition, an embodiment of the invention is provided, with reference to other features of the invention. In the drawing:

Fig. 1 is a sectional view of a spray nozzle,

Figure 2 is a sectional view taken along line A-B of Figure 1.

* 35)

The jet nozzle 1 is embedded radially in the tube 2. The jet nozzle 1 comprises a housing 3 having a cylindrical inner bore 10 with a built-in flow 1088. When pressure is applied to the liquid 3, e.g. water, through the bores 14 ' In the vortex mixing chamber 8. Flow cabinet 5, palette 4 consists of a conical part 6 and a cylindrical pin 7 which together with the cylindrical nozzle opening 9 forms an annular slot 15. The water flow from the bores 14 to the vortex mixing chamber 8 The upper part of the flow body 4 consists of a cylindrical part 5 with an external thread 12 which is screwed into an internal thread 13 in the cylindrical bore 10 of the casing 3. 8 and is accelerated by means of a conical bore 20i in connection with the smallest diameter 16 of the conical part 6. The flow of water comes out of the ring gap in a short distance in a concentrated, turbulent, pressurized shower. The jet flowing out of the nozzle is stabilized and further centered in the annular slot 15. After this distance, a jet cone is formed into which a vortex zone develops inside the jet cone .25. Due to the annular slot 15, • the droplet jet released by the nozzle is known from the large droplet and fine droplet portion, whereby the fine droplet portion is larger. The large drop part acts as a carrier medium for the fine droplets by forming tension swirls. The spray cone developed by the spray nozzle 1 according to the invention 30 is very stable from the operating pressure of the nozzle, even if the pre-pressure, i.e. pressure of line 2 varies. By adjusting the corresponding flow geometry, the jet angle of the outward spray mist can be adjusted from 60 ° to 140 °. This is achieved by:.

14 boreholes and a vortex mixing chamber. The ratio of the 8 largest ring cross-sections is 41084U7 between 1: 2 and 1:10, and the ratio between the bore 14 cross-section and the annular slot 15 is 1: 1.5 to 1: 5. The dimensioning and functional adjustment of this vortex mixing chamber '8 according to the inlet (nozzle 14) of the nozzle 5 and the outlet surface (annular slot 15) of the nozzle can influence the jet flow, fluid distribution and droplet distribution. The flow geometry of the invention ensures a uniform, stable and fine spray mist consisting of fine water droplets, including the Greater-10 drop part.

In particular, the design of the annular slot 15 at the outlet of the nozzle allows to avoid instability of the spray mist cavity and jet cone at the nozzle outlet 15. Due to the inward directed vortex formation of the spray mist, after leaving the stabilization distance formed by the pin 7, a stable full cone is secured.

The simple operation of the nozzle flow inlet principle of 20 simply allows for larger tangential bores 14 to be used with a smaller throughput rate, which has reduced the clogging tendency of these nozzles to a minimum. The bores 14 according to the invention are inclined tangentially so that the angle α is between 25 ° to 45 °, preferably 30 ° to 40 °, and radially so that the angle β is between 5 ° to 40 °, preferably 10 ° to 20 °. °.

The lower surface of the pin 7 may be flush with the outer edge 30 of the nozzle opening 9 or protrude from the housing 3.

. . This operation ensures that the shower * 'cone does not disengage at the outer edge of the nozzle opening 9. To develop even finer droplets inside the jet, the liquid film should be grit even more broken.

This may be done with the outer surfaces of the conical portion 6 and the pin, and the bores 10 and 11 and the orifice; 9 surfaces are roughened. Roughing can be performed in a conventional manner.

The spray nozzle according to the invention can not only be used in fixed water mist fire extinguishing devices. They can also be used to seal and purify toxic flue and flue gases and to bind and seal dust.

<».. · * ·«

Claims (6)

A spray nozzle for effecting spray mist by means of the low pressure method, in particular for firefighting with stationary fire extinguishing systems of water mist type, wherein the spray nozzle is buildable in the fire extinguisher pipe line, with nozzle which is radially cut in the housing and which is radially drained with nozzle. forming a drum mixing chamber with the housing 10 and having a tapered end connecting concentrically to the nozzle opening, characterized in that the flow body (4) is tightly fitted into a bore (10) away from the nozzle opening (9). ) in the housing (3) and it is provided with a tapered conical portion (6) of the plug (5) towards the nozzle opening (9), to which connects a cylindrical pin (7), the pin (7) forming with the nozzle opening (9). ) a ring gap (15), and the housing (3) is provided with one or more inlet bores ( 14), whose cylindrical bore walls tangentially touch the outer wall of the drill mixing chamber (8) and terminate in the drill mixing chamber (8) inclined toward the nozzle opening in a perpendicular to the axis of the drill mixing chamber, and that the drill mixing chamber (8) points in a direction towards the nozzle (8). · Increases in cross-section and then tapered. Spray nozzle according to claim 1, characterized in that the bore (10) of the housing (3) which encloses the flow body (4) is cylindrically formed in its portion away from the nozzle opening (9) and terminates in a connection thereto. the smallest diameter (16) of the conical part (6) towards the nozzle opening (9) tapered conical bore portion (11), to which the cylindrical nozzle opening (9) joins. 3. Spray nozzle according to claims 1 and 2, characterized in that the plug (5) with an outer thread (12) can be screwed into an inner thread (13) in the cylindrical bore (10) of the housing (3). 54. Spray nozzle according to any of claims 1-3, characterized in that the ratio between the sum of the cross-section of the feed bore (14) and the largest ring cross-section of the drill mixing chamber (8) is between 1: 2 - 1:10, and that the ratio between the sum of the cross-section of the feed bores 10 (14) and the cross-section of the annular gap (15) are between 1: 1.5 - 1: 5. Spray nozzle according to claim 1, characterized in that the free end of the pin (7) ends in the outlet plane of the nozzle opening (9) or protrudes on the outside of the housing (3). Spray nozzle according to any of claims 1-5, characterized in that the outer surfaces of the cone-shaped portion (6) and the pin as well as the surfaces of the cylinder and cone-shaped bore portions (10 and 11) and the nozzle opening (9) are roughened. «1 * <