RU2516339C1 - Method to wash over earth works - Google Patents

Abstract

FIELD: construction.SUBSTANCE: method to wash over earth works in the form of narrow-profiled dams consists in supply of pulp from the end of the main pulp line and dispersed release of pulp taken from the lower part of the main pulp line, from distributing pulp lines. The narrow-profiled dam is washed over with the help of a distributing device, making it possible to fractionate and wash over side prisms from sorted fractions, and the nucleus of the dam may be washed over from the remaining mass of the solid phase of the pulp. The distributing device is the end section of the main pulp line, to which via a socket rigidly fixed in its lower part there are two distributing pulp lines connected, being arranged in parallel to the main pulp line, with varied distance between them. In front of the inlet hole into the socket there is a guide element fixed rigidly with crescent shape, inclined at the angle of 25?30° towards the protective grate. The guide element is made of sheet wear-resistant steel with thickness of 8?10 mm, height of 50?70 mm, length equal to width of the inlet hole of the socket. The distributing device has four vertical stands with height of 1500?2000 mm and support elements rigidly fixed to them in the form of bent bars with size of 150 mm with horizontal sections with length of 800?1200 mm. From horizontal sections of bars in the front part along the travel of the distributing device there are diverting inclined section with an angle of inclination to the longitudinal axis 45?55°, fixed on distributing pulp lines, which provides for self-tipping out of the distributing device during movement from the washed over section.EFFECT: lower clogging of a protective grate of a socket and higher mobility of a distributing device during relocation.6 dwg

Description

The invention relates to the field of land reclamation and water management.

The known two-way method of washing structures, including dispersed pulp supply on both sides along the dam of the primary and subsequent (tiered) debris with the formation of a settling pond in the middle of the erected structure (Melomut DL, Hydromechanization in land reclamation and water construction. - M.: Stroyizdat . - 1981. - S. 43-44; 303 p.).

Also known is the method of washing narrow-profile dams, which consists in the dispersed supply of pulp from the central slurry pipeline to a narrow platform contoured on both sides by bunding (Melomut D.L. Hydromechanization in land reclamation and water management construction. - M.: Stroyizdat. - 1981. - P.207 -209; 303 p.).

The closest method is the method of washing the soil into the structure, including the simultaneous supply of pulp by concentrated release from the end of the main slurry pipeline and dispersed pulp discharge perpendicular to the main slurry pipeline, with the pulp being fed to the deboning dam placed on the slope side of the structure for washing the soil prism, which prevents the main stream from entering pulps along the alluvial surface to the embankment dam (AS No. 1344851, 10.15.87, bull. No. 38).

However, the application of the above methods is not possible for the washing of narrow-profile dams with an anti-filter core and stable lateral slopes, the material of which is used bottom sediments.

The purpose of the invention is the construction of narrow-profile dams in an alluvial way to protect territories from flooding with the possibility of using as a building material bottom sediments and sediments extracted from the channel part of the water source by dredger shells during dredging operations that increase the channel capacity.

The essence of the invention lies in the fact that the method of washing the earthworks in the form of narrow-profile dams, including feeding from the end of the main slurry pipeline and dispersed discharge of pulp taken from the lower part of the main slurry pipeline, from the distribution slurry pipelines, while the washing of the narrow-profile dam is carried out using a distribution device that allows carry out fractionation and wash the side prisms from the sorted fractions, and wash the core of the dam from the remaining mass of the solid phase of the pulp, m distribution device is an end section of the main slurry pipeline, to which two distribution slurry pipelines are located parallel to the main slurry pipeline, with a variable distance between them, and a crescent-shaped guide element is rigidly fixed in front of the inlet to the socket through a bell, rigidly fixed in its lower part forms inclined at an angle of 25 ... 30 ° towards the protective grill, made of wear-resistant steel sheet with a thickness of 8 ... 10 mm, a height of 50 ... 70 mm, a length, equal to the width of the inlet of the socket, the switchgear has four vertical posts with a height of 1500 ... 2000 mm and support elements rigidly fixed to them in the form of curved channels with a size of 150 mm with horizontal sections 800 ... 1200 mm long, which in the front part along the movement of the switchgear have inclined sections with an angle of inclination to the longitudinal axis of 45 ... 55 °, fixed on distribution slurry pipelines, providing self-deepening of the distribution device when moving from the reclaimed TKA.

The method of reclamation of earthworks is illustrated by drawings.

Figure 1 is a General plan of the work flow.

Figure 2 is a General view of the distribution device.

Figure 3 - section aa, the transverse profile of the constructed dam.

Figure 4 - section GG, the design of the elements of the switchgear, providing fractionation of the soil.

Figure 5 - section BB, design of the guide element of the switchgear.

6 is a section bb, structural design of the elements of the switchgear.

Name of positions in the figures:

1 - dredging projectile; 2 - alluvium map; 3 - primary embankment dams; 4 - body of the dam; 5 - the core of the dam; 6 - side prisms; 7 - the main slurry pipeline; 8 - bell; 9 - distribution slurry pipeline; 10 - outlet openings of the distribution slurry pipeline; 11 - damper; 12 - a protective lattice; 13 - a directing element; 14 - supporting elements; 15 - gate valves.

The method is as follows: dredging shells 1 (Fig. 1) develop bottom sediments, which are fed through a slurry piping system to the litter 2 maps contoured by primary dams 3, where the body of the dam 4 is formed from the middle part, which is anti-filtration the core of the dam 5, consisting of small fractions and individual inclusions, called screenings, and the simultaneous washing up of side prisms 6, consisting of large sorted fractions. The washing of a narrow-profile dam with such a combined profile is achieved by a distribution device (Fig. 2), in which the solid phase of the pulp is divided into fractions with a diameter of less than 0.75 of the diameter of the outlet openings 10 of the distribution slurry pipelines 9, fractions with a diameter of more than 0.75 of the diameter of the outlet openings 10 distribution slurry pipelines 9 and suspended particles.

The washing of the structures is carried out simultaneously from the main and two distribution slurry pipelines located on both sides of the main and parallel to it.

In this case, the alluvial sections of the distribution slurry pipelines 9, i.e. sections of the slurry pipelines having outlet openings 10 for dispersed alluvium are arranged in such a way that the cone of the washed soil formed during the alluvial process from the end of the main slurry pipeline 7 is formed by squeezing it from two sides with side prisms 6, which are washed from the distribution slurry pipelines 9. Pulp stream exiting from the end of the main slurry pipeline 7, when passing through the damper 11, it is dispersed, which allows to reduce the removal of soil beyond the zone of washout of the side prisms 6.

The inlet of the socket is protected by an internal grill made in the form of longitudinal rods of smooth reinforcing steel with a diameter of 10-16 mm, rigidly fixed only on the pressure side, the distance between which is 0.75 d _in , in order to reduce the clogging of the protective grill 12 of the socket with vegetable and stony inclusions, as well as a more efficient transfer of small particles through the inlet to the socket, in front of the protective grill, a guiding element 13 of a crescent shape, located at an angle of 25 ... 30 ° to the sides, is rigidly fixed protective screen made of a wear-resistant steel sheet thickness of 8 ... 10 mm and a height of 50-70 mm, and a width equal to the width of the inlet funnel.

To control the washing process, the switchgear is equipped with a valve system 15. The thickness of the soil layer to be washed is limited by the height of the supporting elements 14, which are four vertical posts with a height of 1500 ... 2000 mm and rigid supports fixed to them in the form of curved channels with a size of 150 mm with horizontal sections 800 ... 1200 mm, which in the front part, along the movement, have inclined sections with an angle of inclination to the longitudinal axis of 45 ... 55 °, fixed on distribution slurry pipelines 9, which provide glublenie switchgear when moving from reclaimed portion.

All sizes and parameters of the elements of the switchgear are obtained by calculation and experimentally applied to the inner diameter of the main slurry piping equal to 300 mm and the inner diameter of the distribution slurry pipelines equal to 150 mm.

The proposed method allows to increase the productivity of the dredging projectile with a switchgear when cleaning water objects from bottom sediments while washing protective dams from them by reducing the clogging of the protective grate of the socket and increasing the mobility of the switchgear during relocation.

Claims (1)

A method for washing earthworks in the form of narrow-profile dams, including feeding from the end of the main slurry pipeline and dispersed discharge of pulp taken from the lower part of the main slurry pipeline, from distribution slurry pipelines, characterized in that the washing of the narrow-profile dam is carried out using a distribution device that allows fractionation and washing the side prisms from sorted fractions, and the dam core to be washed from the remaining mass of the pulp solid phase, and the distribution devices o represents the end section of the main slurry pipeline, to which two distribution slurry pipelines are located parallel to the main slurry pipeline, with a variable distance between them, and a crescent-shaped guide element is rigidly fixed in front of the inlet to the bell through a bell, rigidly fixed in its lower part, inclined at an angle of 25 ... 30 ° towards the protective grill, made of wear-resistant steel sheet with a thickness of 8 ... 10 mm, a height of 50 ... 70 mm, a length equal to the width of the inlet opening Socket, the switchgear has four vertical racks with a height of 1500 ... 2000 mm and support elements rigidly fixed to them in the form of curved channels with a size of 150 mm with horizontal sections 800 ... 1200 mm long, which in the front part along the movement of the switchgear have inclined sections with angle of inclination to the longitudinal axis of 45 ... 55 °, mounted on distribution slurry pipelines, providing self-deepening of the switchgear when moving from the reclaimed area.

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