RU2734356C1 - Portable water cannon with vacuum support - Google Patents

Abstract

FIELD: fire fighting equipment.

SUBSTANCE: portable water cannon with a vacuum support relates to fire extinguishing devices – fire water cannons. Portable water cannon with a vacuum support includes a housing installed on a support structure, comprising front and rear supports, pivotally connected via half axles for rotation in vertical plane to rotary channel inlet, which at output is articulated via semi-axes with barrel and nozzle for rotation in horizontal plane. According to the invention, a vacuum sucker is installed in the device on the front support and connected by means of a flexible tube to the vacuum inlet of the ejector nozzle.

EFFECT: technical result is higher stability of device at low angles of inclination of barrel when installing barrel on solid surface; disclosed technical solution allows providing reliable coupling of the barrel support with a solid surface in the point of the highest breakout force, increasing the barrel stability against the jet reaction and providing safety of the firefighter.

1 cl, 1 dwg

Description

The invention relates to fire extinguishing devices, namely to fire monitors.

Known fire monitors, for example, portable fire monitor 8297-25 "Stinger", see the catalog of the company "Elkhart", USA. The disadvantage of the known devices is that to orient the direction of the jet, in which the reaction of the jet falls on the support zone, an extended multi-turn structure of the water flow is used, which creates additional pressure losses and makes the product heavier, which is essential for portable installations. Known portable fire monitor according to A.S. 2122874, where these disadvantages are significantly reduced.

The closest in technical essence is the portable fire monitor LS-P20Ush, see the magazine "Catalog of fire safety No. 1 (17) -2016", ed. "Grotek", M. 2016, p. 73, including a housing mounted on a support structure containing front and rear supports, pivotally connected through axle shafts for rotation in a vertical plane with an inlet of a rotary channel, which at the outlet is pivotally connected through axle shafts with a barrel and a nozzle for rotation in a horizontal plane.

The disadvantage of this device is low stability and the possibility of breaking the barrel at low angles of inclination under the action of forces caused by the reaction of the jet due to the lack of sufficient adhesion between the support structure and the solid surface.

The basis of the invention is the task of increasing the stability of the device at low angles of inclination of the barrel when installing the barrel on a hard surface.

This goal is achieved by the fact that the device uses an ejector nozzle, the vacuum inlet of which is connected by a flexible tube with a vacuum suction cup mounted on the front support.

The proposed technical solution will ensure reliable adhesion of the barrel support with a solid surface at the point of the highest breakout force and increase the barrel stability from the jet reaction.

The author is not aware of a device with distinctive features in accordance with the claimed technical solutions.

The invention meets the requirements of novelty and positive effect, as well as the criterion of "significant differences".

FIG. 1 shows a general view of a portable monitor with a vacuum support.

The device contains a housing 1 mounted on a support structure containing front 2 and rear supports 3, pivotally connected through the semi-shafts 4 for rotation in the vertical plane with the inlet of the rotary channel 5, which at the outlet is pivotally connected through the semi-shafts 6 with the barrel 7 and the ejector nozzle 8, see fire monitors with an ejection nozzle (monograph Gorban Yu.I "Fire robots and barrel equipment in fire automation and fire protection" // ed. Pozhnauka, M., 2013, p. 214). The body 1 and the swivel channel 5 are connected by a fixing handle 9. A vacuum suction cup 10 is installed on the front support 2, connected by a flexible tube 11 to the vacuum inlet of the ejector nozzle 8, to which a vacuum hose 12 with a shut-off valve 13 from the foam concentrate tank is also connected for working with foam

The device works as follows.

The fire monitor is installed directly on a flat hard surface using a support structure 2,3 with a vacuum suction cup 10 and is connected to the fire-fighting water supply network using fire hoses through the connecting head on the body 1. Before turning on the water, the barrel 7 is guided to the water supply point using the handle 9 When the supply is on, the water flow passes through the housing 1, the rotary channel 5 to the barrel 7 and the nozzle 8. The formed stream is directed to the place of irrigation. With the high-speed movement of water in the zone of the ejector nozzle 8, a reduced pressure is formed, which creates a vacuum in the vacuum suction cup, providing adhesion to a hard surface and the stability of the barrel against overturning. To supply foam, the shut-off valve on the vacuum hose 12 opens and a foaming agent flows through it, which, mixing with water, forms foam at the outlet of the nozzle 8. In the absence of water supply, the vacuum suction cup connects to the atmosphere and the clutch stops acting. The barrel can be freely moved to another location.

The vacuum monitored barrel has a stable structure against the reaction of the jet in a wide range at different angles of inclination, which ensures the safety of the fireman's work. If it is necessary to change the position of the zone, the fire monitor can be easily moved along with the support structure.

The proposed fire monitor, due to its design, allows you to freely control large flows of extinguishing agent and is an effective means of fighting fires.

In contrast to the known, the proposed fire monitor allows you to significantly increase the stability of the barrel from the reaction of the jet on various coatings.

Claims (1)

A portable monitor with a vacuum support, including a body mounted on a support structure containing front and rear supports, pivotally connected through the axle shafts for rotation in a vertical plane with the inlet of the swivel channel, which at the outlet is pivotally connected through the axle shafts with the barrel and a nozzle for rotation in the horizontal plane, characterized in that a vacuum suction cup is installed in the device on the front support, connected by a flexible tube to the vacuum inlet of the ejector nozzle.

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