RU2495193C1 - Drainage system on experimental production site - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: drainage system comprises k experimental drainage systems - versions of R replication with n number of experimental drains, connected with a closed header k-R, made of pipes with water impermeable walls without joints and water receiving holes and entering an inspection drop hydrometric manhole. M number of parallel pipes of closed headers enter the inspection drop hydrometric manhole at the same time and are made with a section with entering drains and an idle part. As the experimental drainage system version is moved away from the inspection drop hydrometric manhole, the idle part of the closed header of the previous experimental drainage system-version is shorter than the idle part of the closed header of each subsequent experimental drainage system version. Pipes of closed headers entering the inspection drop hydrometric manhole are equipped with a cantilever water outlet and are laid in one trench in tiers in different parallel vertical planes.

EFFECT: invention makes it possible to improve conditions for mechanisation of field works, to perform reconstruction and repair of each header and its drains, without interfering with other headers, to reduce number of weed seed pilots.

4 dwg

Description

The invention relates to agriculture and integrated land reclamation of agrolandscape and can be used in the design, construction, reconstruction and repair of drainage systems in pilot production sites, their operation and use of drained soils.

It is known that in order to conduct high-quality year-round observations of drainage flow at the experimental production site, a large number of viewing differential hydrometric wells is necessary (see, for example, the work of Ts.N. Shinkis. “Hydrological Effects of Drainage.” - L .: Gidrometeoizdat, 1981 . - C.13, Fig. 1). These wells interfere with the cultivation of the soil, are a hotbed of weeds, to maintain in good condition require significant operating costs.

Known drainage system at the pilot production site, including the k-th pilot drainage systems-options of the R-th repetition with the n-th number of pilot drains connected to a closed collector kR made of pipes with waterproof walls without joints and water inlets and flowing into viewing differential hydrometric well designed for monitoring drainage flow (Patent RU No. 2351709, class ЕВВ 11/00, 2009; prototype).

A disadvantage of the known drainage system at the experimental production site also lies in the large number of viewing differential hydrometric wells that interfere with the tillage, which are a nursery seedlings and require significant maintenance costs to maintain in good condition.

The problem solved by this invention is to reduce the number of hydrometric wells in the drainage system of the pilot production site while maintaining the number of observation points for the drainage flow.

The technical result from the solution of the task is to reduce the cost of building hydrometric wells, to improve the conditions for mechanization of field work, increase its level and reduce costs, reduce the number of seedlings of weeds and the cost of timely mowing, reduce the cost of maintaining the wells.

The object of the invention is solved by the fact that in the drainage system at the pilot production site, including the k-th experimental drainage systems-options of the Rth repetition with the n-th number of experimental drains connected to a closed collector kR made of pipes with waterproof walls without joints and water inlets, flowing into the manhole differential hydrometric well, into which simultaneously the mth number of parallel pipes of closed collectors flows, made with a section with flowing drains and a blank part, at the volume as the pilot drainage system-variant is removed from the viewing differential overflow well, the idle part of the closed collector of the previous experimental drainage system-variant is shorter than the blank part of the closed collector of each subsequent experimental drainage system-variant, and the pipes of the closed collectors flowing into the viewing differential pressure gauge well are provided cantilever outlet and laid in one trench in tiers in different parallel vertical planes.

The number of wells is reduced by lengthening the idle portion of the closed reservoirs and by draining several reservoirs into one well, leaving the number of observation points for the drainage flow unchanged. At the same time, in order to eliminate the additional volume of earthwork, several parallel threads of closed reservoirs, the number of which increases towards the well, are laid in one trench at different depths in it, placing them in different vertical planes, which allows reconstruction and repair of each collector and its drain, without disturbing the actions of other collectors.

The invention is illustrated by drawings. Figure 1 shows a fragment of the plan of the experimental drainage system of the prototype: a - experimental drains; 1-1 - a closed collector of the 1st option of the 1st repetition, 2-1 - the same, 2nd option of the 1st repetition, 3-1 - the same, 3rd option of the 1st repetition; b and c - transit closed collectors; 6, 7 and 8 — viewing differential hydrometric wells designed for monitoring drainage flow.

Figure 2 on the example of the prototype (figure 1) presents a fragment of the plan of the claimed drainage system at the experimental production site, figure 3 is a section along aa indicated in figure 2; figure 4 is a section along BB, also indicated in figure 2.

A fragment of the claimed drainage system at the pilot production site includes the 1st repetition (R = 1) of 3 experimental variants (k = 3). The number of options k and the number of repetitions R are assigned depending on the objectives of the research. Each experimental drainage system-variant includes n experimental drains, connected respectively to closed collectors 1-1,2-1 and 3-1, made of pipes with waterproof walls without joints and water inlets and flowing into the viewing differential pressure gauge 8. Closed collectors 1-1,2-1 and 3-1 are made with a section with flowing drains a and a single part (part without flowing drains). With the removal of the experimental drainage system-variant from the viewing differential overflow well 8, the idle part of the closed collector of the previous experimental drainage system-variant is shorter than the blank part of the closed collector of each subsequent experimental drainage system-variant, and the pipes of the closed collectors 1-1, 2-1 and 1 -1 laid in one trench in tiers in different parallel vertical planes and equipped with a cantilever outlet.

The claimed drainage system at the pilot production site operates as follows. Gravity water from the drained soil enters only into experimental drains a, and from them, respectively, into closed collectors 1-1, 2-1, and 3-1, made of pipes with waterproof walls without joints and water inlets, which divert water to the viewing pressure gauge well 8, in which, using cantilevered outlets, the drainage flow from the collectors 1-1, 2-1 and 3-1 is measured.

In the considered example, the claimed drainage system at the pilot production site allowed three times to reduce the number of viewing impaired hydrometric wells, which, in turn, reduced the cost of constructing hydrometric wells, improved the conditions for mechanizing field work, increased its level and reduced costs, and reduced the number of seedlings of weeds and the cost of timely mowing, reduced the cost of well care. At the same time, the number of observation points for drainage flow remained the same.

Claims (1)

The drainage system at the pilot production site, including the k-th experimental drainage systems - options for the R-th repetition with the n-th number of experimental drains connected to a closed collector kR made of pipes with watertight walls without joints and water inlets flowing into the viewing differential hydrometric well, characterized in that the mth number of parallel pipes of closed collectors made with a section with flowing drains and idle simultaneously flows into the viewing differential hydrometric well at the same time, as the pilot drainage system-variant is removed from the viewing differential overflow well, the idle part of the closed collector of the previous experimental drainage system-variant is shorter than the blank part of the closed collector of each subsequent experimental drainage system-variant, and the pipes of the closed manifolds flowing into the viewing differential pressure gauge well, equipped with a cantilever outlet and laid in one trench in tiers in different parallel vertical planes.

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