RU23573U1 - FIRE BARREL - Google Patents

Description

The proposed technical solution relates to fire fighting equipment, namely to fire trunks and can be used to extinguish fires, in particular as a device for in-house fire extinguishing.

Many fire barrels of various designs are known in the art. Most conventional trunks give a mosh, a long-range water stream that effectively extinguishes, but at the same time inflicts an additional material ear; Therefore, fire trunks have recently appeared in which they decided to: give the creation of a finely sprayed water stream, which much less damages material assets during fire fighting.

In particular, to give the water jet the necessary characteristics at the exit from the barrel, for example, a scattering body placed behind the exit nozzle of the barrel (Section RF No. 2124913), or various twists located inside the nozzle nozzle of the barrel (ref. No. 93041220) are used.

As a prototype took a fire barrel at the request of the Russian Federation 9912353/12. The prototype contains a cylindrical hollow body located in its front part of the atomizer in the form of a nozzle head having several nozzles made in the form of through end holes, with a spiral-shaped swirl fixedly installed in each nozzle.

In the well-known fire barrel, due to the presence of several nozzles with a swirl in each, the problem of spraying water is successfully solved, but at the same time the range of the jet is reduced due to the absence of a clearly marked direct-flow component in it. In addition, the absence of a filter in the barrel under actual operating conditions leads to clogging of the nozzle head and swirl, which leads to a decrease in the range and intensity of the jet.

th scattering of a jet of water.

The problem is solved by creating a fire barrel containing a hollow cylindrical body and placed in its front part of the atomizer, made in the form of a nozzle head in which the swirl is fixedly mounted. The swirl is made in the form of a body of revolution with helical grooves on its surface and a central through hole. Additionally, there is a filter installed behind the nozzle head and made in the form of a truncated cone with longitudinal slotted holes on its side surface, with a central hole at its apex and an annular protrusion at the base, and this annular protrusion is sandwiched between the nozzle head and the casing, namely:

-between the casing and the annular ledge made at the inlet of the nozzle head from its inner side;

-between the nozzle head and the annular ledge made on the front end of the housing from its inner side.

Compared with the prototype, the proposed design additionally has a filter located behind the nozzle head and made in the form of a truncated cone with longitudinal slotted holes on its lateral surface, with a central hole at its apex and an annular protrusion at the base, and this annular protrusion is sandwiched between the housing and an annular ledge made at the inlet of the nozzle head from its inner side or between the nozzle head and the annular ledge made at the front end of the housing with its inner her hand. In addition, the swirl is made in the form of a body of revolution with helical grooves on its surface and a central through hole made coaxially with the hole in the filter. Thus, the claimed fire barrel meets the criterion of novelty.

the plow head, in the swirl and in the filter. They are carried out coaxial, which ensures that there is a direct-flow component in the jet along with the vortex flows formed by the helical grooves of the swirler.

To maintain the range and intensity of the jet within the specified limits, the proposed design has a plastic filter in the form of a truncated cone with longitudinal slotted holes on its side surface, with a central hole at its apex and an annular protrusion at the base. The specified filter does not clog the nozzle head and thereby reduce the range and intensity of the jet. In addition, the filter base, made in the form of an annular protrusion, serves as a sealing element between the components of the barrel.

The utility model is described in more detail with reference to FIG. 1 and 2, where shown:

FIG. 1 is a sectional view of a fire barrel, in which an annular protrusion of the filter is sandwiched between the housing and the annular ledge made at the inlet of the nozzle head from its inner side;

FIG. 2 is a sectional view of a fire barrel in which an annular protrusion of the filter is sandwiched between the nozzle head and an annular ledge made at the front end of the housing from its inner side.

The fire barrel (Fig. 1) contains a hollow cylindrical body 1, a nozzle head 3 with a ledge 2 made at its entrance from the inside, with an outlet 4 in which the swirl 5 is fixedly mounted with screw grooves 6 applied to its surface and a central through hole 7, filter 8 with slotted holes 9, a Central hole 10 and an annular protrusion 11.

The fire barrel (Fig. 2) contains a hollow cylindrical body 1, with an annular ledge 2 made on its front end from the inside, a nozzle head 3, with an outlet 4 in which the swirl 5 is fixedly mounted with screw grooves 6 applied to its surface and the Central through hole 7, the filter 8 with slotted holes 9, the Central hole 10 and the annular protrusion 11.

The inventive fire barrel works as follows.

When connecting the fire barrel to a fire or ordinary water supply (not shown), water under pressure enters the housing 1 through openings 9, 10 of the filter 8 into the central through hole 7 and the holes of the screw grooves 6 of the swirl 5 and exits through the outlet 4 of the nozzle head 3, and the water flows passing through the helical grooves 6 of the swirler 5 acquired centrifugal acceleration, which forms a sprayed stream, and the stream passing through the central hole 7 retained a direct-flow direction and high kinetic energy, at the outlet, it mixes with the sprayed streams that have passed through the helical grooves and carries them along a long distance. Thus, a high range of the jet is achieved in combination with a fine (finely dispersed) spray.

The swirler 5 is made in the form of an ingrowth body and has a central through hole 7, the axis of which coincides with the axis of the outlet 4 of the nozzle head 3 and the central hole 10 of the filter. On the outside of the swirl 5, helical grooves 6 (grooves) are made. This embodiment of the swirl allows you to provide a combination in the stream of direct-flow and vortex components.

The filter 8 is made of plastic in the form of a truncated cone with longitudinal slotted holes 9 on the side surface and a central hole 10 on the top of the cone, while the width of the slotted holes 9 and the diameter of the central hole 10 are less than the width and height of the screw grooves 6 on the swirl, and also smaller than the diameters of the Central holes 4 and 7 of the swirler and nozzle head. In this case, the total (total) area of the filter openings is greater than the total area formed by adding up the cross-sectional area of the central through-hole of the swirler and the largest cross-sectional areas of its screw

grooves.

This implementation of the filter provides:

-small loss of water pressure in the trunk;

- availability of a direct-flow component of a water stream;

- protection against clogging of the nozzle head and swirl. In addition, in the proposed design due to the fact that the filter

made of plastic and the base of the filter has an annular protrusion, no additional sealing element is required, since this ring element is an annular protrusion of the filter. The clamp of the annular protrusion of the filter between the housing and the nozzle head can be performed in two ways: between the housing and the annular ledge made at the inlet of the nozzle head from its inner side or between the nozzle head and the annular ledge made at the front end of the housing from its inner side.

The manufacture of the proposed fire barrel will not cause difficulties, since well-known techniques and materials are used. The practical need for fire barrels, giving a long-range and at the same time finely dispersed stream is great, since such barrels allow you to effectively extinguish a fire without causing much material damage, which happens when using conventional barrels. The product has been tested and is being prepared for serial production.

HS € M / b45cf 5

Claims (3)

1. A fire barrel containing a hollow cylindrical body and a nozzle located in its front part made in the form of a nozzle head in which a swirl is fixedly mounted, characterized in that the swirl is made in the form of a body of revolution with helical grooves on its surface and a central through hole, additionally there is a filter installed behind the nozzle head and made in the form of a truncated cone with longitudinal slotted holes on its side surface, with a central hole on its top and a stake tseobraznym projection at the base, wherein the annular protrusion is sandwiched between the nozzle head and the housing.  2. The fire barrel according to claim 1, characterized in that the annular protrusion of the filter is sandwiched between the housing and the annular ledge made at the inlet of the nozzle head from its inner side. 3. The fire barrel according to claim 1, characterized in that the annular protrusion of the filter is sandwiched between the nozzle head and the annular ledge made on the front end of the housing from its inner side.