PL6494B1 - Hydraulic storage device for flammable liquids. - Google Patents

Description

For a long time, people have been looking for ways to safely store flammable liquids. Since these fluids are very volatile and their vapors form explosive mixtures with the air, the main consideration in selecting the method of storage must be to prevent the formation of similar vapors in the storage tanks. Apart from these activities, when using the system should be so simple and safe that unqualified forces could be used for the service, * None of the systems operating with the help of pumps, inert gas or compressed air, these tasks should be fully met can't. Pumps that contaminate the fluid are also dangerous because, in the absence of proper supervision, they cause the fluid to heat up, which may ignite it. Apart from these, the pumping systems do not prevent the formation of vapors in the reservoir, which form an explosive mixture with the air. The same disadvantages also apply to all gas or air systems. Only the hydraulic system ensures absolute safety against explosion, because no vapors can form in the storage tank. The hydraulic system, as can be seen from the na ¬ It is based on the application of water force for pressing the stored liquid to the cutting points, which is lighter than water and does not mix with it. For flammable liquids that can be stored by means of a hydraulic system: gasoline, gasoline, benzol, kerosene, paraffin, turpentine etc. The figure shows a diagram of the hydraulic system for storage (flammable liquids, lighter than water and immiscible with it. In the underground reservoir 1, the water is located at the bottom, while the liquid is stored as lighter at the top. Water flow through the conduit 2 to the reservoir 3, located at a certain height. Above the reservoir 1, from a water supply or other source, it is regulated by a float valve 4. Water from reservoir 3 by conduit 5, through a three-way valve 6, pipe 7 and automatic ball valve 8, the operation of which is based on the difference between the specific weights of water and the liquid, flows into the tank 1 and creates a pressure in it. Under this pressure, the liquid, which is above the water, is forced out of the upper opening in the tank into the riser 10, where it rises due to the difference in specific weights to high bones greater than the water level in the tank 3 and, accumulating in the widened chamber 11, from the latter it will overflow into the riser 12, from where, under the pressure of the pole in the pipe 12, the fluid flows into the pipelines through which it is fed to any number of collection points provided with filter 14, face 15, grinder or capacitive, flexible hose 16, terminated with an automatic trigger valve 17. As soon as the liquid is drained in tank 1, the water in it will be under pressure , will rise in the pipe 10, but only to the level of water in the tank 3 m-n, thus preventing water from entering the pipe 12. Pressing the liquid storage tank takes place in the following way: cutting off the flow of water to the tank 1 with a three-valve road 6, the pipe 7 is simultaneously connected to the drainage pipe 9 leading to the existing sewage system. As soon as the liquid fills the entire tank 1, discharging the water from it, the ball of the valve 8, sinking in liquid, will fall on the valve saddle, preventing the fluid from being pumped out to the sewage system. As can be seen from the above, all manipulations in starting the system and its The operation is extremely simple and therefore the maintenance costs are kept to a minimum.Besides the area, as can be seen from the description, the tank is constantly filled with liquid and water in changing ratios, which excludes the formation of flammable liquid vapors and rust on the internal walls tank due to the lack of free oxygen. Foreign bodies and water, which always accompany the liquid, settle to the bottom of the tank and cannot reach the collection point, because the liquid is pressed through the upper opening, equipped with a measuring cup 22 at the bottom, regulating the uniform outflow of the liquid from the tank to pipes 10. PL PL

Claims (5)

1. Patent claims. 1. A hydraulic device for the storage of flammable liquids, lighter than water and immiscible with water, by pressing the liquid directly through the upper opening of the tank (1) by means of flowing water, characterized by the fact that it automatically prevents the liquid from reaching water to the pipeline (12), carrying the fluid to the collection points, is achieved by using siphon pipes (10, 12), the articulation of which is located between the water level (m-n) in the tank (3) and the liquid level in the pipe (13) connecting the chamber with the atmosphere. 2. Hydraulic device according to claim A gauge according to claim 1, characterized in that the upper opening through which the fluid is drawn out is provided with a gauge (22) regulating the uniform flow of fluid through the opening (W) of the reservoir (1) into the pipe (10). 3. Hydraulic device according to claim 1 and 2, the familiar way that when the tank f) is completely filled with the stored liquid, the ball of the automatic valve (8) sinks in a liquid that is lighter than water, falls on the saddle and closes the hole in the valve, which prevents the liquid from escaping into sewer pipes, 4. Hydraulic device according to claim 1 - 3, characterized by the fact that at the end of the pipe (10) there is a widened chamber (11), used to supply the receiving pipe (12) with liquid uniformly. 5. Hydraulic device according to claim A method according to any one of claims 1-4, characterized in that, in order to prevent the formation of a vapor of the liquid and the rusting of the walls of the tank under the action of free oxygen, the tank is constantly filled completely with liquid and water in varying proportions. Darol By wa ter. Deputy: Inz. S. Pawlikowski, patent attorney Druk L. Boguslawski, Warsaw. t PL PL