SU1131982A1 - Internal sewerage system for buildings - Google Patents

Abstract

The internal sewage system of the buildings, consisting of one hundred and one with exhaust part, made of polymeric materials, and sanitary devices with hydraulic gates, connected with the drainage pipe by means of branch pipelines, in order to provide fire protection of buildings, it is equipped with one with the drain part of the tank with a supply and drain pipes equipped with valves, and the hundred is equipped with temperature sensors installed uniformly in height, connected by means of an electric drive with a cell apan installed on the drain pipe. (L SAE

Description

The invention relates to sanitary engineering equipment of buildings and can be used in water disposal systems, which are subject to requirements for ensuring fire safety of pipelines. Advantageously, the invention can be used in the design, installation and operation of domestic household and industrial sewage systems made of plastic pipes in residential, public and industrial buildings. In addition, the invention can be used for systems of internal drainage from plastic pipes, which discharge storm and melt water from the roofs of buildings, as well as for other systems from plastic pipes, constantly or temporarily operating in free-flow mode. A domestic sewage system is known, including sanitary devices with hydraulic closures, branch pipes from them, one hundred of fireproof materials with exhaust part and one outlet. Such a system is mounted using traditional pipes, iron pipes, and has a high metal consumption. The closest to the proposed system are domestic sewage systems in which the drains with exhaust parts, as well as the drainage pipes from sanitary appliances, are made of plastic pipes of high and low density polyethylene, unplasticized polyvinyl chloride, etc. 2. The disadvantage of these systems is A fire risk is high due to the fact that the materials used are classified as combustible (polyethylene) and difficult to burn (polyvinyl chloride). This danger is associated not only with flammability or insufficient fire resistance of the pipe material, but also with the fact that after a pipe burns out on a given floor it is possible to transfer the flame through the openings in the floor slabs through which the sewage pipes pass to the upper floors . Spread of fire contributes to the fact that at the time of occurrence of the fire at the plastic pipelines the flow of wastewater may be absent (for example, at night) or very insignificant (for example, at minimum water consumption). For internal gutter systems, the usability of a sufficient discharge of storm water or thawed water during a fire is generally very low. The purpose of the invention is to provide fire protection of the building when using sewer pipelines made of polymeric and other flammable materials. This goal is achieved by the fact that the internal sewage system of buildings, containing a drainage part made of polymeric materials, and sanitary appliances with hydraulic closures connected to the drain by means of branch pipelines, is equipped with a dischargeable part of the tank. with feed and drain pipes equipped with valves, and one hundred is equipped with temperature sensors installed uniformly in height, connected by means of an electric drive with a valve mounted on the drain pipe ke. FIG. 1 shows the internal sewage system of the buildings; in fig. 2 - tank for supplying water to a hundred to during a fire. The system contains sanitary devices 1 with hydraulic locks 2, installed separately under the devices or embedded in their design. Sanitary devices are connected with drain horizontal floor-by-floor pipelines 3 to sewage 4, which in the lower part passes to the sewage outlet from building 5, which is connected to the viewing ring 6. At the top (above the highest located sanitary appliance), the sewage service station ends with exhaust part 7, which is located above the roof of the building. In the warm attic of the building (and for beskretnachnyh buildings in one of the rooms on the top floor), a container 8 is installed for supplying water to the standpile during a fire, having a supply nozzle 9, into which water is supplied from the drinking water or fire fighting water supply network. A shut-off valve (gate valve) 10 is installed in front of the tank 8 on the supply nozzle. to a shaped part with a side branch (tee, crosspiece, two-plane crosspiece) 13, installed on the exhaust part 7 of the stand 4. Yes, the water that must be supplied to the sewage disposal plant in order to put out the flame at the place where the pipeline ignited and stopped. to spread the fire A float valve 14 with a lever 15 and a float 16 is installed at the entrance to the tank 8 at the inlet of tank 8. The presence of the float valve allows maintaining the specified water level

containers, which is very important for the device in question, since, in connection with occasional servicing of the device, water evaporation processes can play a significant role in lowering the water level in tank 8-.

In some designs of the float valves 14, there is a shut-off valve which allows the tank 8 to be disconnected during repair and also to regulate the water pressure in it. When using such valves, the check valve 10 on the inlet 9 can be omitted. The drain pipe 12 is provided with a drain valve 17 connected to a pull 18, driven by an electric actuator 19. The drain valve 17 can also be suspended from a lever that rotates around an axis mounted on the body of the container 8.

To ensure the initial salvo discharge of water into the tank to the drain pipe 12, it is equipped with a siphon 20. The electric drive 19 is connected to temperature sensors 21 located in the upper part of the rooms in which one hundred to four are installed.

In normal operation, the operation of the proposed sewage system does not differ from the operation of known systems.

In case of fire, occurring on one or several floors, pipes made of polymeric or other combustible or easily destructive materials in the fire zone can open fire and combustible gases into the sewage station to 4. When the temperature of the exhaust gases rises to a level that during normal system operation does not happen, the sensor 21, tuned to this level, melts and gives a pulse to the electric drive 19

which, moving 18, raises the drain valve 17. Through the opening in the drain nozzle 12, water enters the discharge pipe 11 and further into one hundred and seventh. At this, one-volt flow of salvo water flows (2.0-2.5 l / s) that, in the absence or low consumption of wastewater in stand 4, it can significantly weaken the flame in the hot pipeline and reduce the rate of propagation of fire. When emptying the tank 8, the float 16 is lowered, the valve 14 opens and water from the water supply system enters the tank 8, and from there the water goes to a hundred to 7. A steady flow of water (approximately 0.2-0.7 l / s) leads to the cessation of the spread of fire on the stowage 7. Water supply to the storac lasts for the entire duration of the fire in the building and stops only after turning off the electric drive 19 and returning the drain valve 17 to its original position. The drive is disconnected by the building management service and the fire protection authorities. The system is turned on again by installing a new sensor 21.

In case of improper commissioning of the flooding 16 or any other emergency reasons, the float valve 14 can pass into the tank 8 some water flow, which goes into the sewage system through the siphon 20.

Since the internal drainage system can operate in the pressure mode (with blockages, heavy showers, etc.), in order to prevent the backflow of water into the tank 8 from the side 4, a return hydraulic valve must be installed on the discharge pipe 11.

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Claims (1)

SYSTEM OF INTERNAL DRAINAGE OF BUILDINGS, containing a riser with an exhaust part made of polymer materials and sanitary devices with hydraulic locks connected to the riser by means of branch pipelines, characterized in that, in order to ensure fire protection of buildings, it is equipped with a part of the riser connected to the exhaust a tank with a supply and drain pipes equipped with valves, and the riser is equipped with temperature sensors installed uniformly in height, connected by an electric actuator to the valve, mounted on the drain pipe.