RU2580134C1 - Device with hollow insert for construction of channel with flexible watertight screen - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to waterworks and can be used when building channels irrigation systems by antifiltering screens without stopping watering of crops. Device includes flexible pipeline 9, wound on drum 10 and installed in the upper reach of the water intake facility. Free end of flexible pipeline 9 runs through the pipe of water intake facility 11 along the axis canal within filled with water pioneer ditch 12 and in turned position is fixed on the pipe end 11 of water intake facility. Inside flexible pipeline 9 is toroidal shell with helically twisted inner walls. In the cavity of toroidal shell there is an insert heavier than water, which is made of rigid material and has toroidal shape with a central hole along the axis with diameter exceeding total hose diameter in the flexible pipe and inner walls of the toroidal shell. Whole surface of the insert is coated with antifriction lubricant. Insert has inlet closed hole in the upper part, through which the cavity of the insert is partially or completely filled with heavy loose ballast, for example lead shots.

EFFECT: proposed device allows not lose in tire puncture or damages of toroidal shell and enables to obtain the specified constant cross-section channel along the whole laid route, besides, performance of hollow insert with heavy loose ballast makes it possible to adjust pressure in a wide spectrum of the device on the ground bed channel, which increases reliability and quality of the device.

1 cl, 4 dwg

Description

The invention relates to hydraulic engineering and can be used in the construction of channels of irrigation systems with an anti-filter screen without stopping the irrigation of crops.

A technical solution is known, constructed by a method of constructing a canal with a flexible anti-filter screen, including laying a flexible pipe along the channel axis and a device in the last anti-filter screen, which is carried out by turning the flexible pipe under excess water pressure. At the same time, a drum with a flexible pipe wound around it is installed in the upper pool of the water intake structure, the free end of the flexible pipe is pulled through the pipe of the water intake structure along the channel axis within the pioneer trench filled with water and in the turned position it is fixed at the end of the pipe of the water intake structure, and inside the flexible pipe it is installed toroidal shell, the inner cavity of which is filled with a heavier liquid than water (AS USSR No. 1458480, 12/10/1986).

A device is known for constructing a canal with a flexible antifiltration screen, including a flexible conduit made in the form of a sleeve wound on a drum installed in the upper head of a water intake structure, while the free end of the flexible pipeline is extended through the pipe of the water intake structure along the channel axis within the pioneer trench filled with water and in the inverted position it is fixed at the end of the pipe of the water intake structure, and inside the flexible pipe there is a toroidal shell with a screw-like structure internal walls relative to the axis of the flexible pipe, and the cavity of the toroidal shell is filled with a liquid heavier than water (AS USSR No. 1687723, 04/27/1989 - prototype.).

The disadvantages of this device is its lack of reliability, because in case of damage to the toroidal shell, the device fails due to leakage of a fluid filler of the shell from its cavity, the fluidity of the filler does not guarantee the formation of a constant predetermined section of the channel along the length of its path, water can pass through the hole formed by the inner walls of the toroidal shell, in addition, it is very low the ability to control the pressure of the device on the ground, because the weight of the aggregate heavier than water is achieved by dissolving salts in water, i.e. the aggregate is an aqueous salt solution, the increase in the specific gravity of which is limited.

The technical result of the invention is to increase the reliability of the device, achieving the formation of a constant predetermined section of the channel along the length of its path, as well as achieving the ability to control the pressure of the device on the ground of the formed channel bed.

The technical result is achieved in that in the device for the construction of the canal with a flexible anti-filter screen, including a flexible pipe wound on a drum and installed in the upper pool of the water intake structure, while the free end of the flexible pipe is extended through the pipe of the water intake structure along the channel axis within the pioneer trenches and in the inverted position are fixed at the end of the pipe of the water intake structure, and a toroidal shell with a rotor is installed inside the flexible pipe with the angularly twisted inner walls relative to the axis of the flexible pipe, according to the invention, an insert heavier than water is inserted into the cavity of the toroidal shell, made of rigid material and having a toroidal cylindrical shape with a central hole along the axis with a diameter greater than the total diameter of the sleeve of the flexible pipe and the inner walls of the toroidal shell, the entire surface of the liner is coated with antifriction grease, and the liner itself is made hollow with an inlet lockable hole in the upper part, through which the cavity of the liner is partially or completely filled with heavy loose ballast, for example lead shot.

The novelty of the invention lies in the fact that the presence in the toroidal shell of a toroidal cylindrical liner made of rigid material with a central hole along the axis increases the resistance of the device to punctures and ruptures of the shell, because at the same time, the device acquires a new property, namely, that the filler cannot flow out of the shell cavity, and the excess of the diameter of the inner liner hole over the total diameter of the flexible pipe and the inner walls of the shell allows the latter to freely move through the hole of the rigid liner, in addition, the presence of lubricant over the entire liner surface allows you to save ability to roll toroidal shell. A strict section of the liner allows you to form a channel of a given section. The implementation of the liner hollow with the possibility of partial or full filling with heavy loose ballast allows you to achieve regulation of the pressure of the device on the ground in a much wider range of values.

The above signs and properties are new, because are absent in the known technical solutions and allow the proposed technical solution to achieve the effects of increasing the reliability of the work, achieving the formation of a constant predetermined section of the channel along the length of its path and achieving the ability to control the pressure of the device on the ground of the formed channel bed.

The above allows us to argue that the proposed technical solution meets the criteria of the invention of "novelty" and "inventive step".

The essence of the claimed invention is illustrated by drawings.

In FIG. 1 shows a water intake structure and a lock-regulator, a longitudinal section; in FIG. 2 shows a device for constructing a channel, a longitudinal section; in FIG. 3 shows a liner of a device, a longitudinal section; in FIG. 4 section AA.

The device 1 (Fig. 1, 2) is made in the form of a toroidal shell 2, the inner walls 3 of which are helically twisted. A rigid insert 4 (Fig. 2, 3, 4) of a toroidal shape with a central hole 5 along the axis, the surface of which is coated with antifriction grease, is installed in the cavity of the shell 2. Inside the liner 4 there is a cavity 6 with an inlet lockable hole 7, which is partially or completely filled with heavy loose ballast 8. The device 1 is located inside the flexible pipe 9 (Fig. 1), which is wound on a drum 10 installed in the upper pool of the intake structure. The free end of the flexible pipe 9 is pulled through the pipe 11 of the water intake structure, turned out and fixed at the end of the pipe 11. The device 1 allows you to turn and unwind the pipe 9, while compacting the soil in a pre-soaked pioneer trench 12.

The device 1 (Fig. 1, 2) is made of a tubular impermeable flexible material of constant diameter by turning one end out. A rigid liner 4 of toroidal cylindrical shape, made, for example, of metal or plastic, with an inlet lockable hole 7 (Fig. 2, 3, 4), through which the cavity 6 is pre-filled with the necessary amount of loose ballast 8, for example, lead shot, is installed in the cavity obtained which is determined experimentally. The surface of the liner 4 is coated with anti-friction lubricant, for example, technical oil. The inner walls 3 are pulled through the central hole 5 of the liner 4 until they exit from its opposite end and twist them to the required number of revolutions, after which the ends of the tubular flexible material are connected to each other, thereby forming a toroidal shell 2 with twisted walls 3 and with a rigid toroidal cylindrical 4 insert in its cavity.

The device operates as follows.

Under the action of excess pressure from the upstream side, the device 1 with the liner 4 begins to move, rolling along the previously soaked pioneer trench 12 and forming the channel bed by compaction of water-saturated soil, while the flexible pipe 9 is turned out, which is partially emptied at the end of the channel. Then the pipeline 9 is cut in the upper part, and the edges are laid on the channel dams. Device 1 is removed.

When rolling the device 1, the outer walls of the shell 2, turning into the inner 3, are twisted helically, and on the other side of the device 1, the inner walls, turning into the outer ones, are untwisted and straightened.

The presence of a toroidal cylindrical rigid insert 4 in the cavity of the toroidal shell 2 does not interfere with the rolling of the latter, because the entire surface of the liner 4 is coated with anti-friction lubricant, which eliminates excessive friction between the surface of the liner 4 and the inner surface of the toroidal shell 2. The inner walls 3 of the shell 2 together with the flexible pipe 9 when rolling the shell 2 freely pass through the central hole 5 of the liner 4, because its diameter exceeds the total diameter of the flexible pipe 9 and the inner walls 3 of the shell 2. Filling the cavity 6 of the liner 4 with loose ballast 8 allows you to maintain the symmetry of the pressure of the device on the ground when using solid ballast 8.

The use of the proposed device, in comparison with the known devices of a similar purpose, allows you to not lose performance during a puncture or damage to the toroidal shell, because a rigid liner is not able to leak from the cavity of the shell, and contributes to obtaining a predetermined constant cross-section of the channel along the entire track, in addition, the implementation of the liner hollow with heavy loose ballast allows a wide range of control the pressure of the device on the ground of the channel bed, which improves reliability and quality of work devices.

Claims (1)

A device with a hollow liner for the construction of a canal with a flexible antifiltration screen, including a flexible pipe wound on a drum and installed in the upper pool of the water intake structure, while the free end of the flexible pipe is drawn through the water pipe of the water intake structure along the channel axis within the pioneer trench filled in and turned out fixed at the end of the pipe of the water intake structure, and inside the flexible pipe there is a toroidal shell with screw-twisted inner walls relative to the axis of the flexible pipeline, characterized in that an insert heavier than water is inserted into the cavity of the toroidal shell, made of rigid material and having a toroidal cylindrical shape with a central hole along an axis with a diameter greater than the total diameter of the flexible pipeline and the inner walls of the toroidal shell the surface of the liner is coated with antifriction grease, and the liner itself is hollow with an inlet lockable hole in the upper part through which the liner cavity is partially or completely filled with particulate heavy ballast, such lead shot.

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