SU1041395A2 - Vessel fire-fighting water system - Google Patents

Abstract

SHIP'S FIRE-PREVENTION WATER SYSTEM according to ed. St. No. 870238, characterized in that, in order to increase reliability of operation, it is equipped with sensors of the middle and lower levels of water in a supporting tank, two OR elements, each of which has two inputs and an output, an AND element with two inputs and an output, two inverters , a three-position key element with three contacts, a signal lamp of the lower level of water in the holding tank, a by-pass pipeline, indicating a holding tank with a fire main, while on the bypass pipeline installed to tapan with a signaling device and a hydraulically operated two-winding manipulator, one winding of the electrohydraulic manipulator electrically connected to the output of the first OR element and through the first inverter to one of the inputs of the And element, the output of which is electrically connected to the second winding of the electrohydraulic manipulator, and the other input of the element I is electrically connected with the output of the second element OR, one input of which is electrically connected with the sensor of the lower water level in the supporting tank and through the second inverter with the signal lamp of the lower level out of water in the storage tank, and & its other input is electrically connected to one contact of a three-position key (L element, the other contact of which is electrically connected to one input of the first OR element, the other input of which is electrically connected to a sensor of average water level in a supporting tank.

Description

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The invention relates to the legal process, in particular shipboard fire fighting; water systems.

According to the main author. St. LI 870238 known ship fire water to a system containing a pump with a vacuum device consisting of a water jet ejector with a drain pipe connected to the outboard medium, and a receiving pipeline with a retaining capacity concentrically located in it, and a stop valve with a drive installed on the pressure the pump nozzle, while the ejector with the drain nozzle, the pump and the supporting tank are located above the design waterline of the vessel, and the internal cavities of the supporting tank and the receiving pipeline are communicated by means of bypass windows made around the circumference in the upper part of the walls of the receiving pipeline and placed in the retaining tank, the pump discharge pipe connected to the inlet of the ejector nozzle, and the pipe is equipped with a water sensor mounted above the upper edges of the bypass windows a shut-off valve actuator, and the ejector is located above the mentioned windows 1.

A disadvantage of the known ship fire water system is that the pump may be disrupted when it is started up, since the residual water level in the retaining tank may be small to ensure the operation of the ejector and create the necessary vacuum to lift the water column in the receiving pipe for the bypass windows. The purpose of the invention is to increase the reliability of the ship's fire water system.

The goal is achieved by the fact that the ship’s fire-fighting water system is equipped with middle and lower water level sensors in a retaining tank, two OR elements, each of which has two inputs and an output, an AND element with two inputs and an output, two inverters, are three-position keys. m element with three contacts, a signal lamp of the lower level of water in the retaining tank, a bypass pipe connecting the retaining tank to the fire main, while a valve with an alarm device and electro A two-winding manipulator with one electrohydraulic manipulator winding electrically connected to the output of the first OR element and through the first inverter to one of the elements of the element And, the output of which is electrically connected to the second winding of the electrohydraulic manipulator and the other the input of the element is AND electrically connected with the output of the second element OR, one input of which is electrically connected with the sensor of the lower level

WATER in the holding tank and through the second inverter - with a signal lamp of the bottom water ypoBFSH in the holding tank, and the other one in: - one is electrically connected to one contact of a three-position key element, the other contact of which is electrically connected to one input of the first element OR, the other input of which is electrically connected to the average water level sensor in the holding tank.

The drawing shows schematically the ship fire-fighting waters on the system.

The system contains a receiving pipe 1 with a grill 2 at the inlet and a pipe 3 at the outlet, a pump 4 with a valve, a valve 5 and an ejector 6 connected by pipelines T - 10. Pipeline 1 passes through tank P, holds the window 12, indicating:; discharging cavity А 1 of pipe line 1 and ь ;; к) С; ъ B of retaining tank 13 and made in walls 14 of pipeline 1, Sensor 15 is installed in pipe i availability of water, filtered with valve 5, which is not shown in the drawing. The ejector is drained through the intake port 16. Retaining capacity 1-3 is connected by a bypass pipe 17 to the fire main. A valve 18 is installed on line 17 with its position indicator 19 and an electro-hydraulic manipulator 20 with two windings 20.1 and 20.2 of the electromagnet. Om (1 st 20.2 of the electromagnet of the manipulator 20 is electrically connected to the output of the element 21 OR, and four. Without inverter 22 - with the input of the element. 23 ii, the output of which is electrically connected to the winding 20.1 of the electro. of the magnet. manipulator 20, another input of the terminal 1 and 23 is electrically connected to the output of the second OR 24 element, the input of which is electrically connected with the sensor 25 of the lower water level in the supporting cell 13 and through the second inverter 26 with the signal the lamp 27 of the lower level of the EUROPE is in the holding tank, and the other input of the element 24 OR is electrically connected to the contact 28.1 of three position key element 28, the contact 28.2 of which is electrically connected to the input of the element 21 OR, the other input of which is electrically connected to the sensor 29 of the average water level in the retaining capacitance. Sensor 29 electrically connected to the signal lamp 30. The outputs a and B, the end position indicator detector 19 is electrically connected to the signal lamps 31 and 32.

Sistema.ma works following. Obrazou.

When translating the three-position key element 28 into the AVT position, sensors 25 i are activated; 29. If the level. No water is reached in sensor 29, there is no signal from it, lamp 30 is off, pump 4 cannot be released. Sensor 25 gives a signal; to the input element 24 OR

Claims (1)

SHIP FIREWATER WATER SYSTEM by ed. St. No. 870238, characterized in that, in order to increase the reliability of operation, it is equipped with middle and lower water level sensors in a retaining tank, two OR elements, each of which has two inputs and an output, an AND element with two inputs and an output, two inverters, a three-position key element with three contacts, a warning lamp of the lower water level in the retaining tank, a bypass pipe communicating the retaining tank with a fire main, while a valve with an alarm and an electrog is installed on the bypass pipeline a hydraulic manipulator with two windings, and one winding of the electro-hydraulic manipulator is electrically connected to the output of the first OR element and through the first inverter to one of the inputs of the And element, the output of which is electrically connected to the second winding of the electro-hydraulic manipulator, and the other input of the And element is electrically connected to the output of the second OR element, one input of which is electrically connected to the sensor of the lower water level in the retaining tank and through the second inverter to the signal lamp of the lower water level in PORN container and its other input electrically connected to one terminal of three-position key element, the other terminal of which is electrically connected to one input of the first OR gate, another input of which is electrically connected to the sensor medium water level in the retaining tank. SU, „. 1041395