RU169416U1 - NOZZLE PLANEJET - Google Patents

Abstract

The utility model relates to flat spray nozzles and can be used in various industries, including for extinguishing fires, for irrigation, for dust suppression and preventing an emergency. The technical result of the proposed utility model is the creation of a monodispersed, high-density spray nozzle with an angle disclosure 180 °. The nozzle is flat-blown, including a body with an external thread for installation in the node of the spray system, the body in the center has a channel. In this case, the outlet channel has a vertical cylindrical groove, turning into a cone-shaped recess of the slit-like nozzle, with a ratio of the diameter of the groove to the size of the nozzle slit from 1.5 to 2. 3 silt.

Description

The utility model relates to flat spray nozzles and can be used in various industries, including for extinguishing fires, for irrigation, for dust suppression and preventing an emergency situation associated with a fire.

Known flat-jet nozzle (AS No. 866232, class E21F 5/04, application No. 2740131, priority date 03/21/1979, published on 09/23/1981 State Design and Experimental Institute of Coal Engineering). A known flat-blast nozzle includes a body with an external thread for installing the nozzle in a dust suppression system assembly. An insert is installed in the housing opening having a groove for forming a flat torch. To fix the insert in the hole in the housing there is an annular bore into which the o-ring is inserted. The insert is mounted movably with the possibility of rotation around its axis.

A disadvantage of the known nozzle is that the formation of the cone spraying occurs only due to the opening angle of the groove. In this case, the direction of the jet of water is regulated. The use of a known nozzle, for example, for powder fire extinguishing is not effective.

The technical result of the proposed utility model is the creation of a monodispersed, high density spray torch with an opening angle of 180 °.

A flat-blast nozzle is proposed that includes a body with an external thread for installation in a spray system assembly; the body has a channel in the center.

The difference is that the channel at the exit has a vertical cylindrical groove that passes into a cone-shaped recess of the slit-like nozzle with a ratio of the diameter of the groove to the size of the nozzle slit from 1.5 to 2.

The essence of the proposed utility model is shown in FIG. 1, which shows a section view from above, in FIG. 2, which shows a sectional side view in volume, FIG. 3, which shows a general view of the nozzle.

The body of the flat-spray nozzle is shown 1, the external thread (trapezoidal) for installation in the spray system assembly is shown 2, the channel located in the center is shown 3, the vertical cylindrical groove is shown 4, the groove diameter is marked d ₁ , the nozzle slot size is shown h ₁ .

The proposed nozzle is designed to spray a substance (liquid or powder) under the influence of pressure. The nozzle is a device in the form of a single housing. When working under high pressure, the presence of a trapezoidal thread increases the reliability of the fastening of the proposed nozzle in spray installations. The nozzle is well held and allows you to create a stable monodisperse spraying (leakage is excluded).

The flow of the sprayed substance when moving along the channel 3, located in the center of the housing 1, enters the cylindrical groove 4, where the artificial expansion of the channel 3 is created. A diffuser effect occurs, caused by the expansion of the channel, then the pressure stream slides along the conical recess 5 to form a fan, forming an additional part the flow is directed to the upper and lower part of the vertical groove. A large pressure gradient in the system causes a uniform flow distribution in the direction of the cone-shaped recess 5 and the upper and lower parts of the vertical groove. The use of a cone-shaped recess 5 along the spray stream allows to slightly reduce the resistance of the nozzle, which prevents the formation of more concentrated streams, the flow is distributed fan-shaped, slides along the cone, i.e. monodispersion of the sprayed torch is created. The nozzle nozzle, made in the form of a slit, inhibits the dispersion of the sprayed substance (stabilizes the spray direction) and creates the directionality and monodispersion of the torch. A dense (uniform in density) spray pattern with an opening angle of 180 ° is formed. The features of the utility model formula are essential and are in a causal relationship with the claimed technical result.

The ratio d ₁ / h _{1 is} taken in the range from 1.5 to 2. The predetermined ratio is determined when testing samples of nozzles of various modifications. The parameters are selected that confirm in practice the production of a uniform, monodisperse, dense irrigation torch. The tests were carried out by spraying powdered substances and substances on a water basis. The feature of the utility model formula is essential and is in a causal relationship with the claimed technical result.

The specified parameters for the ratio of the groove diameter 4 to the size of the nozzle slit (d ₁ / h ₁ ) from 1.5 to 2, the design solution, made in the form of a smooth transition of the cylindrical groove into a cone-shaped recess, these are signs that together define the spray pattern and uniformity its dispersion. The preset pressure mode ensures uniform torch density. With a value of the indicated ratio over two, the density of the torch decreases already at the exit of the nozzle, at values of less than 1.5, a denser jet is ejected through the side openings of the groove, which violates the uniformity of the dispersion of the spray torch. Signs in the aggregate are significant and are aimed at achieving the claimed technical result.

To obtain a dense plume of uniform dispersion, systems with a sufficiently high pressure are used. For stable operation of the spray system, threaded connections of the spray nozzles are used to install them in the spray system assembly. During fire extinguishing, dust suppression and other purposes of spray systems, the issue of their stable operation, namely the elimination of leaks of the sprayed substance, is important. Therefore, a threaded connection is more reliable. The symptom is significant because provides spray stability, i.e. achievement of the claimed technical result.

The flat-spray nozzle is easy to manufacture, convenient to use. It can be used both for spraying liquid-based substances and powdery ones. Reliable. The design features of the proposed nozzle allow you to get a good effect on the formation of a uniform and dense spray torch.

Claims (1)

The nozzle is flat-blown, including a body with an external thread for installation in a node of the spraying system, the body in the center has a channel, characterized in that the outlet channel has a vertical cylindrical groove passing into a cone-shaped recess of the slot-like nozzle, with the ratio of the groove diameter to the size of the nozzle slit from 1 , 5 to 2.

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