PL112366B1 - Method of dewatering a terrain by draining and system for implementing this method - Google Patents

Description

The subject of the invention is a method of intensive drainage of land by creating a negative pressure, and an installation for the application of this method. For example, to a river, lake or sewerage system. Surface, suitably deep drainage ditches are also used. Land drainage on smaller surfaces is also carried out by various types of wells, from which the water is drained. - important. by lowering the water table in the ground and creating the so-called pressure curve. A major disadvantage of the above-mentioned methods of dewatering is the inability to influence the intensity of the drainage process. The purpose of the invention is to remove this water and work on the sipoisobu. drainage of the land, which will enable the deliberate increase in intensity and this drainage. (The above object has been achieved by the use of the present invention. The essence of the method according to the invention, in which the drainage of the land is carried out by drawing water by means of a system of drainage lines and inspection wells, consists in that the extraction is carried out in a forced manner by creating a negative pressure in the vicinity of the settling tank. which draws water from the surface through the drainage lines. The installation necessary for the application of this method is equipped with hermetically-closed inspection chambers, a settling tank and pumping stations equipped with pumps generating a vacuum in the drainage lines. An essential feature and advantage of the method according to the invention is the possibility of quick and even immediate removing water from the surface and from the ground. The use of vacuum drainage is particularly suitable for drainage of squares and sports fields, construction sites and also in agricultural drainage. The subject of the invention is schematically illustrated in an exemplary embodiment in the drawing, in which Fig. 1 shows a general drainage scheme Fig. 2 - longitudinal vertical section of the pumping station and settling tank, Fig. 3 - horizontal section of the pumping station and settling tank, Fig. 4 - horizontal projection of the manhole arrangement, and Fig. 5 - vertical section of the manhole seating. As shown in the drawing, the installation leading water to the receiver 1, through the pipeline 2, consists of a pumping station 3, situated in front of the settling tank 4, to which there are drainage lines! 5 through the inspection chambers 6, water flows from the ground, for example from the surface of a sports field. The sediment 4 and the inspection chambers 6 are hermetically closed so as to obtain the maximum degree of negative pressure caused by pamps in the whole system. 3. The hermetic properties of the above-mentioned manholes and ponds are obtained by making them of appropriately tight materials, for example reinforced concrete, and concreting to a special construction of manholes. The particular seating of such a manhole in the plate covering the manhole and the settling tank is shown in Fig. 4 and Fig. 5. The hermetic cover 8 is screwed onto the body embedded in concrete. 8. The sealing is obtained by filling the contact surface between the body and the cover. gasket 2, for example, made of a suitable type of rubber, impregnated and graphitized technical cardboard, flexible plastic, etc. external loads. ^ The manhole may be set up flush with the ground surface or with a small layer of earth covered, for example, a guillotine would be an obstacle for some reason. In such cases, it is also possible to multiply the wells by making drainage lines with dead ends, locating them appropriately by referring to fixed points. Typical solutions (according to Construction Catalog 8-13.7 / 1) were adopted as the sealing of the pipe passages from the settling tank to the water plant. When the vacuum pumps are started in the pumping station 3, negative pressure will be created in the drainage lines, causing suction and intensive drainage of the water contained in the ground. The water 2366 4 is conveyed through the settling tank 4 to the drainage pipe 2 and then discharged to the receiver 1. The operation of vacuum drainage 5 is provided, for example, during heavy rainfall, large soil moistening or the need for rapid drainage of the area. In normal operation, the drain will work like a normal gravity drain. The transition from one operating condition to the other will be made automatically by the use of appropriate solenoid valves mounted on the main lines, connected to the vacuum pumps mounted on the axis and the valve trains. The applied vacuum pumps and all fittings are commonly available and their characteristics are given in the relevant catalogs, information sheets or factory brochures. in that the extraction of water is carried out by creating a negative pressure within the settling tank and drainage lines which suck in water from the ground surface and the ground. 2. Installation for drainage drainage of the area by drawing water, consisting of drainage lines, inspection wells and a sedimentation basin, characterized in that the inspection chambers (6) and the settling tank (4) constitute hermetically sealed chambers, what the settler (4). is equipped with pumping stations (3) generating a vacuum in the drainage lines (5). 112 366 FIG. 1 '/ AWtAKW / WAKS / Ar fig. from IZ r WM / AWMW / .W,, - (»- (•; - in FIG. 3 JZ- 3 JZ n —-) {<«-, 112 366 FIG. 5 FIG. 4 DN-3, order 506/81 Price PLN 45 PL

Claims (2)

PATENT CLAIMS 1. A method of drainage of land 25 by drawing water from the drainage systems of lines and inspection wells and directing it to the receiver through a settling tank, characterized in that the extraction of water is carried out by creating a negative pressure in the area of the settling tank and drainage system. 30 strings that suck in water from the surface and the ground. 2. Installation for drainage drainage of the area by drawing water consisting of drainage lines, inspection wells and a sedimentation tank, characterized in that the inspection chambers (6) and the settling tank (4) constitute hermetically sealed chambers, what the settler (4). is equipped with pumping stations (3) generating a vacuum in the drainage lines (5). 112 366 FIG. 1 '/ AWtAKW / WAKS / Ar fig. from IZ r WM / AWMW / .W,, - (»- (•; - in FIG. 3 JZ- 3 JZ n —-) {<«-, 112 366 FIG. 5 FIG. 4 DN-3, order 506/81 Price PLN 45 PL