RU2424836C1 - Fire monitor with circle oscillator - Google Patents

Abstract

FIELD: fire-fighting means. ^ SUBSTANCE: invention refers to fire extinguishing devices, namely to a fire monitor. The fire monitor with a circular oscillator comprises a nosepiece, a turbine with a reduction gear. The nosepiece is mounted in a pivot joint of the oscillator body. The turbine with the reduction gear is coupled with the nosepiece. The turbine is arranged on an input shaft of the reduction gear. The reduction gear is fixed in the oscillator body through a crosspiece directly in a water flow. An output shaft of the reduction gear is connected through the crosspiece to the nosepiece. The nosepiece represents a capped elbow. A boundary line of a cap spray angle is crossed with a rotation axis of the oscillator in a plane of a sprinkling area. ^ EFFECT: reduced weight and dimensions of the assembly, hydraulic loss reduction, enlarged sprinkling area, ensured uniform sprinkling intensity. ^ 1 dwg

Description

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

Famous fire monitors with oscillators, for example FJM-100 WTO-150 / MJ by SKUM, Sweden, official dealer in Russia ZAO NPP Gerda, 123308, Moscow, 3rd Khoroshevskaya St., 2, www.gerda. ru.

A disadvantage of the known devices is the use of relatively complex structures with open mechanisms that reduce their reliability when working in outdoor conditions.

The closest in technical essence is a fire monitor with an oscillator (patent RU 2375094), which is a fire barrel mounted in a swivel joint of the oscillator body, in which a turbine is connected through a spider to the water stream, connected through a worm pair to an external gearbox, the output shaft of which is connected to barrel crank mechanism.

The disadvantages of this device are the relatively large dimensions and weight, significant losses in the barrel due to the multi-turn design of the water stream, a relatively small irrigation zone, variable angular velocity of the barrel, depending on the boundaries of the change in the direction of movement of the barrel, due to the design of the connecting rod mechanism, which leads to uneven intensity irrigation, and in turn limits the use of the device, for example, as irrigators of shelving warehouses with high eniya.

The basis of the invention is the task: facilitating the design and reducing the dimensions of the device, reducing hydraulic losses, increasing the irrigation zone, ensuring a constant angular velocity of the barrel and, accordingly, a uniform intensity of irrigation.

This goal is achieved by the fact that the turbine is placed on the input shaft of the gearbox installed in the oscillator housing through the crosspiece directly into the water stream, the output shaft of the gearbox is connected through the crosspiece to the fire barrel, which is made in the form of an angular nozzle with a nozzle, while the nozzle spray angle is set so that its boundary line intersects with the axis of rotation of the oscillator in the plane of the irrigation zone.

The proposed technical solutions can significantly reduce weight and dimensions of the structure, reduce hydraulic losses, increase the irrigation zone, provide a constant angular velocity of the barrel and uniform irrigation intensity.

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".

The drawing shows a fire monitor with a circular oscillator: General view and diagram of irrigation.

The device includes a fire barrel 1 mounted in a swivel joint 2 of the oscillator housing 3, a turbine 4 on the input shaft of the gearbox 5 installed in the housing of the oscillator 3 through the crosspiece 6 directly into the water stream. The output shaft of the gearbox 5 is connected through the crosspiece 7 to the fire barrel 1, which is made in the form of an angular nozzle 8 with the nozzle 9, while the spray angle of the nozzle 9 is set so that its boundary line A intersects the axis of rotation of the oscillator B in the plane of the irrigation zone Si, see irrigation chart.

The device operates as follows.

When water is supplied, the turbine 4 integrated in the water stream rotates, which creates the necessary torque through the gearbox 5, and the fire monitor 1 rotates at the design speed. The nozzles 9 form a sprayed jet at a predetermined spray angle, which irrigates at a fixed point in time the area Si shown in the irrigation diagram. The boundary line A of the angle intersects with the axis of rotation of the oscillator B in the plane of the Si irrigation zone, see the irrigation diagram. When the oscillator rotates, the protected zone is uniformly irrigated over a much larger total area So. This area for fire monitors with a circular oscillator at a spray angle of 90 ° with a flow rate of 60 l / s is approximately 3000 m ² with an irrigation intensity of 0.02 l / m ² × s. For irrigation of the same area in accordance with NPB 87-2001 “Water and foam fire extinguishing systems automatic sprinklers”, about 300 deluge sprinklers with the same irrigation intensity of 0.02 l / m ² × s would be required.

The proposed fire monitor with a circular oscillator allows you to freely control large flows of extinguishing agent in automatic mode, cyclically irrigating large protected areas, and with its small size and weight is an effective means of fighting fires.

Unlike the known ones, the proposed fire monitor with a circular oscillator has a closed device for supplying water to the turbine, which allows working at low outside temperatures in winter. The oscillator does not require additional extinguishing agent consumption.

Claims (1)

A fire monitor with a circular oscillator, including a fire barrel mounted in the swivel joint of the oscillator body, a turbine with a gearbox connected to the fire barrel, characterized in that the turbine is located on the input shaft of the gearbox installed in the oscillator body through the crosspiece directly into the water stream, and the output shaft of the gearbox is connected through a spider to the fire barrel, which is made in the form of an angular nozzle with a nozzle, while the spray angle of the nozzle is set so that its boundary line It intersects the axis of rotation of the oscillator in the plane of the irrigation zone.