WO2018128561A1

WO2018128561A1 - Ball fire monitor with a turnable duct

Info

Publication number: WO2018128561A1
Application number: PCT/RU2017/000519
Authority: WO
Inventors: Юрий Иванович ГОРБАНЬ
Priority date: 2017-01-09
Filing date: 2017-07-12
Publication date: 2018-07-12
Also published as: RU2661324C2; RU2017100578A; CN110167644A; RU2017100578A3

Abstract

A ball fire monitor with an oscillating duct, "Yugor-shar", relates to firefighting devices, in particular mounted fire monitors. The object of the invention is to provide a ball fire monitor with a turnable duct having reduced turbulence and hydraulic losses. Said object is achieved by additionally providing guide channels in the form of longitudinal and transverse partitions in a body, which channels are oriented in the direction of the water flow from the inlet of the body up to the spherical surface of the duct and configured with a minimum clearance. Proposed technical solutions configured according to the original design of the turnable ball duct "Yugor-shar", make it possible to significantly reduce the water flow turbulence and to reduce the hydraulic resistance of the ball fire monitor with the turnable duct thereby increasing the advantages thereof in comparison to similar equipment and broadening the possible uses of the device.

Description

BALL BAR WITH ROTARY CHANNEL The invention relates to fire extinguishing devices, namely, fire monitors.

Known fire monitors, for example, MK-150 / MJ firm "8KiM", Sweden, fire monitors according to A.S. 1461480, 2050872, 2122874. A disadvantage of the known devices is the use of multi-turn water flow structures to control the direction of the jet flying out of the barrel, which leads to turbulence of the flow, significant pressure losses, an increase in size and weight.

The closest in technical essence is the "Fire monitor with a ball joint" patent N ° 2412733, which includes a base, a housing pivotally connected at the inlet with the base for rotation in the horizontal plane, and at the output connected with a spherical rolling bearing with an o-ring and cylindrical bearings sliding with a spherical rotary channel mounted on the half shafts for rotation in the vertical plane and rigidly connected to the nozzle.

The disadvantage of this device is the presence of significant turbulence in the housing before entering the spherical rotary channel caused by a frontal obstruction on the jet stream formed by a part of the surface of the ball outside the passage channel, which leads to significant hydraulic resistances and limits the use of the device. The basis of the invention is the task of creating a spherical barrel with a rotary channel, with reduced turbulence and hydraulic losses.

This goal is achieved by the fact that the guide channels are additionally introduced into the body in the form of longitudinal partitions directed along the water flow from the input into the body to the spherical surface of the channel, with a minimum gap gap. The proposed technical solutions, made according to the original design of the Ugor-Shar spherical rotary channel, can significantly reduce water flow turbulence, reduce the hydraulic resistance of the spherical barrel with the rotary channel, which increases its advantages over similar products and expands the possibilities of using the device.

The author does not know devices 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".

Figure 1 presents a General view of a spherical barrel with a rotary channel "Ugor ball." The device includes a base 1, a housing 2, pivotally connected to the base 1 at the inlet for rotation in a horizontal plane, and at the output connected by a spherical rolling bearing 3 with a sealing ring 4 and cylindrical plain bearings 5 with a spherical rotary channel 6 mounted on the axle shafts 7 , for rotation in the vertical plane. The spherical rotary channel 6 at the outlet is connected to the nozzle 8. In the body 2, guide channels are installed in the form of longitudinal partitions 9 directed along the flow of water from the input into the body 2 to the spherical surface of the channel 6, with a minimum gap gap. On the axis 7 of the spherical channel 6, a control handle 10 is installed to guide the barrel.

The device operates as follows.

The fire monitor is connected to the fire water supply network through the flange connection of the base 1. The barrel is guided by the control handle 10. Moreover, the horizontal rotation is performed using the hinge between the base 1 and the housing 2. The vertical rotation is performed using a spherical ball joint kinematic pair, including a spherical rolling bearing 3 with a sealing ring 4, and mounted on a cylindrical bearing axle slip 5 of the ball rotary channel 6, with half shafts 7. When working with water, the trunk is directed to the protected area, and the water flow from the fire water supply network passes through the base 1 to the housing 2. In the housing 2, the water flow passes into the ball rotary channel 6 only along those guide channels formed by partitions 9 that are opposite the inlet of channel 6. The remaining channels 9 are cut off from the rotary channel 6 and do not impede the passage of the main stream and do not create a turbulent zone. When the ball rotates, the rotary channel 6 opens the guide channels 9 along the front of it and closes the subsequent channels 9. The jet formed by the nozzle 10 with the rotary ball channel 6 is directed to the ignition source.

The proposed spherical barrel, thanks to the simplified design and the presence of only one rotary node, bending the flow, allows you to freely control large flows of extinguishing agent in an extended range and is an effective means of fighting fires.

In contrast to the known devices, the proposed spherical barrel has small dimensions and weight, significantly lower pressure losses and low turbulence at the entrance to the rotary channel and, accordingly, the increased range of the jet, which significantly increases its performance in terms of functionality.

Claims

CLAIM

Spherical barrel with a rotary channel "Ugor-Shar", including a base, a housing pivotally connected at the inlet to the base for rotation in a horizontal plane, and at the output connected by a spherical rolling bearing with an o-ring and cylindrical plain bearings with a spherical rotary channel installed on the axles for rotation in a vertical plane and rigidly connected to the nozzle, with the fact that the guide channels are additionally introduced into the body in the form of longitudinal partitions directed downstream of the water flow from the input into the housing to the spherical surface of the channel, with a minimum gap gap.