RU2739390C1 - Robotic fire-extinguishing installation with blitz-monitoring system - Google Patents

Abstract

FIELD: fire-prevention equipment.

SUBSTANCE: robotic fire-extinguishing installation with blitz monitoring system relates to robotic fire-extinguishing installations. Device includes fire robots with a gun shaft with drives of vertical and horizontal guidance, a nozzle with a jet spraying angle changing drive, a portable control panel, a disc gate with a drive and a pressure sensor connected to the switching unit, with an optical device mounted on the barrel with a television camera and an infrared sensor, as well as device for identification and determination of coordinates of ignition source, connected to control device with video monitor, connected to switching unit and determination of coordinates of ignition source and control device at output. According to the invention, the device further includes a unit for blitz-monitoring on fixed zones connected to a device for identifying and determining coordinates of the source of ignition and a control device with a video monitor, and optical device is equipped with own drives of horizontal and vertical guidance, connected to switching unit.

EFFECT: distinctive features of the device significantly reduce the time from the beginning of ignition to the start of the fire extinguishing installation and to extinguish in the initial stage of the fire.

1 cl, 2 dwg

Description

The invention relates to fire extinguishing devices, namely to robotic fire extinguishing installations.

Known robotic fire extinguishing installations, for example, a device.with. 2122874. The disadvantage of the known devices is the lack of the ability to determine the coordinates of ignition in a 3-dimensional coordinate system.

The closest in technical essence is the "Robotic fire complex" patent RU 2319530 C2, containing fire robots, including a fire monitor with drives for vertical and horizontal guidance, nozzles with a drive for changing the angle of spray of a jet, a portable control panel, a butterfly valve with a drive and a sensor pressure connected to the switching unit, and an optical device mounted on the barrel with a TV camera and an IR sensor, connected through a device for identifying and determining the coordinates of the ignition source with a control device with a video monitor, connected to the switching unit.

The disadvantages of this device is its high inertia associated with a significant time to search for a fire source and determine its coordinates by mechanical scanning over the entire protected area, which allows the fire source to develop to a significant size, leading to increased damage from fire.

The invention is based on the task of creating a device with simultaneous monitoring of the ignition source in fixed zones of the entire protected object and with accelerated guidance of the optical device to the ignition source along the shortest path determined by the monitoring program.

This goal is achieved by the fact that a blitz-monitoring unit for fixed zones is additionally introduced into the device, connected to the device for identifying and determining the coordinates of the fire source and with a control device with a video monitor, and the optical device is equipped with its own drives for horizontal and vertical guidance connected to the switching unit.

The proposed technical solution makes it possible to significantly reduce the time for determining the coordinates and pointing the barrel at the fire site and to extinguish in the initial stage of the fire.

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 functional diagram of a robotic fire extinguishing system with a blitz monitoring system (RUP), Fig. 2 is a general view of a fire robot.

RUP includes fire robots (PR) 1 installed on the fire-fighting pipeline 2. PR 1 includes a fire monitor 3 with drives for vertical and horizontal guidance 4, 5, nozzles with a drive for changing the spray angle of the jet 6, a portable control panel 7 installed on inlet, a butterfly valve with a drive 8 and a pressure sensor 9 installed at the barrel outlet, connected to the switching unit 10, and an optical device installed on the barrel with a TV camera and an IR sensor 11. The RUP also includes a control unit 12 with a video monitor connected to a switching unit 10 via communication channel 13, for example, via RS-485 via a network controller 14, as well as with a receiving and control device 15 with fire detectors 16, and with a digital signal processing device in the IR range 17, connected by two-channel communication 18 (video channel and IR channel) with an optical device with a TV camera and IR sensor 11 and a blitz-monitoring unit for fixed zones 19. Optical device with a TV camera and The IR sensor 11 is mounted in a separate housing, see FIG. 2, and is equipped with horizontal and vertical guidance drives 20, 21 connected to the switching unit 10.

The device works as follows. PR 1, in accordance with regulatory requirements, are located so that each point is within the reach of two jets and in the observation area of two optical devices. Based on these conditions, the project draws up maps of protected areas: irrigated by jets and controlled by optical devices. Considering that the optical device 11 uses an IR matrix sensor with a viewing angle of 90 degrees, covering the quadrant, this quadrant fixes the protected area of the object, for example, to the left in front of PR 1. Optical device 11 is oriented along the bisector of the quadrant, and the barrel 3 is located with the aiming axis on edge of the quadrant, outside the field of angular view of the optical device 11.

Other quadrants around this PR 1 are fixed by optical devices 11 of neighboring PR 1. With such an arrangement of optical devices 11, the entire protected object is monitored by PR 1. During commissioning, the coordinates of the position of the barrel 3 and optical devices 11 in fixed zones are entered into the blitz-monitoring unit of fixed zones 19 ... On the video monitor of the control device 12, in the general view of the protected object, all fixable zones are highlighted with frames. The fixed zones in the program of the blitz-monitoring unit 19 have the function of a working zone for a given PR 1, which extinguishes this zone when a fire occurs there. The program also includes a reserve PR 1 for this zone. In standby mode, the protected object is under constant control of fire detectors 16, and the optical devices 11 are oriented to fixed zones throughout the protected object. When an ignition source occurs, fire detectors 16 are triggered and the receiving and control device 15 issues an "Alarm" signal to the control device 12, which turns on all PR 1 into operation. In the block of blitz-monitoring of fixed zones 19, the given coordinates of the fixed zones are compared with the current ones. The signal for confirming their compliance is sent to the control device 12 and the digital signal processing device in the IR range 17. From the optical devices 11, video and IR signals about the status in the fixed zones are sent via two-channel communication 18 to the digital signal processing device in the IR range 17 After the software processing of the received information, the device 17 identifies the ignition and, together with the blitz-monitoring unit of the fixed zones 19, determines the ignition zone, the working and standby PR 1 related to this zone, and the location of the ignition source in this zone. This information is transmitted to the control device 12, which then generates control signals via the communication channel 13 to the corresponding switching units 10 of the PR 1 protecting this zone. Drives of vertical and horizontal guidance 4,5 barrels 3 are guided to the source of ignition along the shortest path to the location of the source of ignition. For accelerated guidance of the optical device 11, their own drives of horizontal and vertical guidance 20, 21 are switched on. After aiming at the source of ignition of the optical devices 11, video and IR signals are received via two-channel television communication 18 to the digital signal processing device 17. According to the results of the program processing of the received information, the device 17 identifies the ignition, determines its coordinates and the size of the combustion area and transmits it to the control device 12. The device 12 generates control signals via the communication channel 13 about the ignition coordinates to the corresponding switching units 10 RUE 1. Drives of vertical and horizontal guidance 4,5 the trunks 3 are guided to the source of ignition, after which the control device 12 gives the command "start" and sends technological commands to turn on the pumping station, to open the butterfly valves 8, to work out the fire extinguishing programs. Fire extinguishing of large areas is carried out with line jets with step-by-step movement of lines and with repetition of cycles. For short distances and for small areas it is sufficient to use an extended jet. The aiming of the barrels on the ignition source is controlled by the ballistic data of the jet, depending on the barrel elevation angle and the pressure in the network. Information about the lighting on the object is transmitted to the operator on duty at the round-the-clock duty point. On the screen of the video monitor of the control device 12, video information via the communication channel 18 from the optical device 11, after digital processing, the ignition source in the devices 17, 19 appears in the form of an image of the ignition source, highlighted in the frame. The duty officer, receiving operational video information, can take over control by switching to remote mode.

The proposed robotic fire extinguishing installation is an effective automatic and remotely controlled means of fighting fires, which allows directing a powerful stream of extinguishing agent directly to the ignition source, detected at an early stage, as well as freeing a person from life-threatening emergency zones.

In contrast to the known, the proposed robotic fire extinguishing installation includes additional devices that make it possible to accelerate the monitoring of the protected object to identify the sources of ignition and determine its coordinates.

These distinctive features of the device make it possible to significantly reduce the time from the start of fire to the start of the fire extinguishing installation and to extinguish in the initial stage of the fire.

Claims (1)

A robotic fire extinguishing system with a blitz monitoring system, which includes fire robots with a fire monitor with vertical and horizontal guidance drives, a nozzle with a drive for changing the spray angle, a portable control panel, a butterfly valve with a drive and a pressure sensor connected to a switching unit, with an optical device installed on the barrel with a TV camera and an IR sensor, as well as a device for identifying and determining the coordinates of the fire source, connected to a control device with a video monitor, connected to a switching unit, characterized in that the device additionally includes a blitz monitoring unit for fixed zones, connected to the device for identifying and determining the coordinates of the source of ignition and with a control device with a video monitor, and the optical device is equipped with its own drives for horizontal and vertical guidance connected to the switching unit.

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