RU2039859C1 - Drainage device - Google Patents

Abstract

FIELD: land reclamation. SUBSTANCE: device has flexible hollow toruses connected to each other and provided with slot on inner surface over entire perimeter. Sides of adjacent toruses are connected to form a clearance. Water-passing members are made in form of natural ground filter. Toruses are made of waste automotive tyres. EFFECT: enlarged operating capabilities. 2 cl, 1 tbl, 5 dwg

Description

 The invention relates to land reclamation, in particular to the construction of closed drainage.

 Known drain pipe according to autosvid. USSR N 290990, Е 02 В 11/00, 1969, made with an inwardly facing pipe and a protrusion located along its length, at the top of which openings for water transmission are formed, which ensures the creation of a natural soil filter.

 The disadvantage of this device is that the siltation of the pipe alignment begins immediately after laying the drainage in the ground, and the sludge that has got into the pipe after filtration settles directly in the pipe alignment, which leads to its rapid siltation. In addition, this design of the pipe provides only one-sided possibility of water entering the pipe, and also there is a great possibility of clogging of holes for water passage, which reduces the efficiency of the drainage.

 Also known drainage pipe ed. testimonial. USSR N 393400, Е 02 В 11/00, 1973, made with a V-shaped protrusion turned inward and located along its length, near the top of which along one of its branches, holes for water passage are made, which ensures the creation of a natural soil filter. To increase the strength of the pipe, corrugations are formed on its outer surface.

 The disadvantages of this pipe are similar to the disadvantages of the drainage pipe indicated above. In addition, the disadvantage of this pipe is that the corrugations along the outer surface of the pipe perform only a load protection function and do not affect the siltation of the pipe in any way, and the implementation of such corrugations is an additional technological operation, which complicates the manufacturing technology of the pipe.

 A drain pipe according to autosvid was adopted as a prototype. USSR N 1154405, E 02 B 11/00, 1985, consisting of links whose ends are connected by means of elastic inserts.

 The disadvantages of this pipe include its rapid siltation caused by the influx and accumulation of sludge directly in the pipe alignment. In addition, the disadvantage of this pipe is a sharp decrease in its rigidity with increasing diameter, which increases the likelihood of its destruction (crushing).

 The purpose of the invention is the increase in the time of siltation of the pipe, as well as the simplicity and cheapness of its manufacture.

 This goal is achieved by the fact that in the drainage pipe, consisting of interconnected links, each link is made in the form of a torus having a gap on the inner surface along the entire perimeter and sidewalls inclined to the center of the torus. The sides of adjacent tori are interconnected to form a gap. The size of the gap is not more than the minimum particle size of 70-90% of all particles of differently dispersed soil (in which the drainage is laid), which are the largest. The link can be performed, for example, from used tires.

 The installation of tori with a gap relative to each other allows you to get a natural soil filter along the entire diameter of the pipe. The choice of the gap in the above interval ensures the optimal functioning of the filter, which consists in passing water and fine particles and retaining larger ones.

 The sequence of pockets formed when connecting the links serves to collect and settle the sludge outside the pipe alignment, which leads to a significant increase in the siltation time of the pipe alignment.

 The implementation of the links of the proposed form allows the sidewalls, in addition to the function of pockets for collecting sludge, to also perform the functions of corrugations (stiffeners), which increases the possible depth of the laying of drainage, as well as the possibility of increasing the diameter (alignment) of the pipe, i.e. bandwidth.

 From the existing level of technology it is known to use old tires as a drainage filter (ed. Certificate No. 1587130, E 02 B 11/00, 1987). In this device, after putting on tires on the pipe, they are filled through pre-cuts with filter material (sand), and the distance between the tires is equal to their width.

 In this design, the form of a tire (its pocket) is not used to collect sludge that has fallen into the pipe.

 In addition, additional filter formation is required. In the proposed device, the filter is formed naturally when laying drainage in the ground.

 The invention is illustrated by the following graphic materials: in FIG. 1 shows a longitudinal section of a drainage pipe; in FIG. 2 cross section of a drainage pipe; in FIG. 3 diagram of the siltation of the pipe (cross section) with the overlap of the gauge on half of its bore; in FIG. 4 scheme of pipe siltation (cross section) when filling a pocket without overlapping the pipe alignment; in FIG. 5 drainage pipe in a perspective view.

 The drainage pipe consists of interconnected links 1. Each link is made in the form of a torus having a slit 2 on the inner surface (Fig. 5) along the entire perimeter and sidewalls inclined towards the center of the torus 3. The sidewalls 3 of the adjacent tori are connected, for example, with 4 clips the formation of a gap 5. The size of the gap is not more than the minimum particle size of 70-90% of all particles of differently dispersed soil (in which the drainage is laid), which are the largest. The torus can be made from used tires.

 In the lower part of the pipe when connecting the links 1, a sequence of pockets 6 for collecting sludge is formed. The sidewalls of 3 links 1 form stiffeners. When laying the drainage pipe around the junction, a natural filter 7 is formed.

 When laying drainage in waterlogged soil, perforation on the surface of tori is possible.

The device operates as follows. Through the gaps 5 between the links 1, the sludge together with water enters the pipe and gradually fills the lower part of the pocket 6 (Fig. 2). Further filling is under way to the lower edge of the bore of the pipe S ₁ of FIG. 4, after which the lateral volumes of section S ₂ and the passage volume of the pipe, section S ₃ (Fig. 4) are simultaneously filled to the upper edge of the passage section of the pipe.

, который показывает, во сколько раз объем V= S˙l заполняется дольше объема V₁ S' ˙l где S половина площади сечения предложенной трубы из звеньев с радиусом проходного сечения r и наружным радиусом R (фиг. 3);
S'

S₃ половина площади сечения обычной гладкостенной трубы (прототип) с радиусом проходного сечения r;
l длина трубы;
j

=

В таблице приведены результаты расчетов коэффициента j, характеризующего время заиливания трубы, выполненной из отслуживших свой срок автопокрышек из номенклатуры, выпускаемой в стране.As an indicator characterizing the time of siltation of the drainage pipe to reduce the passage area by 2 times, we can take the coefficient j

, which shows how many times the volume V = S˙l is filled longer than the volume V ₁ S '˙l where S is half the cross-sectional area of the proposed pipe from links with a bore radius r and an outer radius R (Fig. 3);
S '

S ₃ half the cross-sectional area of a conventional smooth-walled pipe (prototype) with a radius r of the bore;
l pipe length;
j

=

The table shows the results of calculating the coefficient j characterizing the time of siltation of a pipe made from used tires from a range of products manufactured in the country.

 The design of the proposed pipe in comparison with the prototype (with equal diameters of the bore) increases the siltation time by about 3-7 times.

 Technical and economic efficiency consists in: the use of tires as a tire that has expired, the disposal of which is itself a problem; the possibility of obtaining cheap drainage pipes of large diameters; increasing drainage time by 3-7 times.

Claims (2)

 1. DRAINAGE DEVICE, comprising a housing made of vertically mounted and fastened together elastic hollow tori, for example from used tires not open on the inner surface, and having culverts located between the sides of the tori, characterized in that, in order to increase the efficiency of the device by increasing the siltation time and lowering the cost, the elastic hollow tori are fastened together with a gap for the formation of a natural soil filter between their sides.  2. The device according to claim 1, characterized in that the gap is not more than the minimum particle size of the soil from 70 to 90% of all particles of differently dispersed soil, which are the largest.

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