RU2691578C1 - Device for flood protection and method of its erection - Google Patents

Abstract

FIELD: construction.SUBSTANCE: group of inventions relates to hydraulic engineering and hydroelectric construction and environmental safety of construction of urban buildings and can be used in construction of flood control systems and at the same time to accumulate water resources for provision of technical, water consumption and hydropower needs of population in emergency situations. Invention objective is safety of settlements from a natural disaster and at the same time providing them with the necessary water and energy resources. Essence of invention consists in location on both sides of water-filled pool of ponds with soil-filled shells-anchors of composite nanomaterial having shape memory, filling them with soil with placement of seeds for germination of root system, in upper part of each sump there is a rigid frame, in lower part of which there are flexible links, and in its upper part storage pocket, attachment unit and soil-filled coating for reinforcement of channel, made of composite nanomaterial, having shape memory. In the center of the fastening assembly there is a support structure made of composite nanomaterial possessing shape memory consisting of one and/or more sliding elements of longitudinal and transverse elements, on which automatic gates are located. To the upper part of the water-resistant structure the radial thrusts are installed, which are extended. Automatic gates are connected by flexible conduits with water storage reservoirs. In order to monitor the operation of the device and transmit information to the control panel, control sensors are arranged on the anti-flood protection elements.EFFECT: efficient flood protection with possibility of accumulation of water resources.4 cl, 1 dwg

Description

The invention relates to hydraulic engineering and hydropower construction and environmental safety of the construction of urban buildings. It can be used in the construction of flood control systems and at the same time to carry out the accumulation of water resources to meet the technical, water and hydropower needs of the population in emergency situations. A device is known for supporting and regulating a hydropower facility, described in the invention “Method for constructing a supporting and regulating hydropower facility”, Patent RU No. 2250950, publ., April 27, 2005, IPC Е02В 7/02, Е02В 9/00, which consists of a flexible apron and ponoura (flexible flyutbeta) to which rigid outlets are attached with a water outlet device with a hydraulic unit installed in it, and on it is fixed a water retaining shell with a cable-stayed system that is fixed on the shore anchor supports, the finished structure is installed are in the mainstream.

The disadvantage of the invention is to create it only for the energy potential.

A device is a protective flood barrier, described in Patent GB No. 2426026, publ. 15.11.2006, IPC Е02В 3/10, Е02В 7/20, Е02В 7/40, taken as a prototype containing an impermeable membrane enclosed in a trench (we have a pit with an earth-filled anchor), rigid covers (we have a water-supporting structure), holding device.

The disadvantage is the small range of use.

There is a method of constructing a retaining-regulating hydropower facility described in the invention “Method of constructing a retaining-regulating hydropower facility” Patent RU No. 2250950, publ., April 27, 2005, IPC Е02В 7/02, Е02В 9/00, including an assembly in the main flow of a flexible stream of the flutbet and flexible reamers and poura, which are fixed to the bottom of the watercourse, with a water outlet device attached to them with a hydraulic unit installed inside, and then a water retaining shell together with the cable-stayed system is fixed on the water outlet device reinforced to shore anchors. The disadvantage is to achieve only through hydropower.

There is a method of construction of a retaining aeration regulatory structures, taken as a prototype, described in Patent RU No. 2141552 ,, publ. 11.20.1999, IPC Е02В 7/02, which includes the assembly of a flybet consisting of a flexible duel and a flexible apron, preparing a trench, assembling the elements of the structure and installing the finished structure into the channel, at the beginning of the flexible duura arrange a flexible tooth with a fastener that is laid into the previously prepared the trench and tamped, and when mounting the elements of the structure to the rigid mount, mount the central weir, side openers and the retaining plate and place the aerator.

The disadvantage is the small range of use.

The objective of the invention is the safety of populated areas from natural disasters and at the same time providing them with the necessary water and energy resources.

The technical result of the invention is the use of flow hydraulics using composite nanomaterials.

The technical result is achieved in terms of the device due to the fact that the flood protection device contains a supporting structure with an attachment unit, a holding device, on both sides of the water-filled pool there are sumps with ground-filled shells with anchors of a composite nanomaterial with shape memory, and the sumps and each ground-filled shell are the anchor is filled with primer with seed placement for germination of the root system in the upper part of each pit there is a hard core in the lower parts of which contain flexible connections, and in its upper part a storage pocket, attachment point and primer-filled coating for strengthening the channel, made of a composite nanomaterial with shape memory, in the center of the attachment point there is a supporting structure made in the form of a water supporting sheet made of composite nanomaterial having a memory a form consisting of one and / or more sliding elements of the longitudinal and transverse, on which the gates - automatic, to the top of the water supporting structure to holding devices, in the form of radially directed abutments, are made sliding, which are attached to the rigid frame with the lower part, automatic gates are connected by flexible conduits to water storage tanks, to the exit surface and the lid, allowing to service containers made of composite nanomaterial, having a shape memory, the internal cavity of which is divided into sections, with nanomembranes with sorption properties and equipped with cleaning cartridges, water storage tanks c, laid in trenches, on the elements of anti-flood protection placed control sensors installed with the ability to monitor the operation of the device and transfer information to the control panel. The storage pocket is made with the possibility of laying a supporting structure and radially oriented abutments into it.

Achieved technical result in part of the method, due to the fact that the method of erecting a flood protection device including, assembling and installing a retaining structure and fixing it to the mount, and on each side of the water-filled pool tear off the pit, along the perimeter of which the composite nanomaterial having a shape memory and fill with soil, with the placement of seeds in it for germination of the root system, with the formation of soil-filled shell-anker, on which is placed a rigid skeleton with flexible using their connections and a pocket, they mount a fastening unit and a primer-filled coating to strengthen the channel on a rigid skeleton, made of a composite nanomaterial with shape memory, in the center of the attachment unit have a supporting structure made in the form of a water-supporting sheet made of composite nanomaterial having a shape memory consisting of one and / or more sliding elements of the longitudinal and transverse, and at the retaining structure are placed automatic valves and to the upper part of the radial directional mustache OI, which perform sliding and fasten its lower part to a rigid skeleton, simultaneously open a trench and put water storage tanks into it, with a throat of exit to the surface and a lid, water storage tanks are made of a composite nanomaterial with shape memory and they are connected by flexible conduits with automatic valves; internal cavities of water storage tanks are divided into sections by nanomembranes with sorption properties and supplied with purifying cartridges , on all elements of anti-flood protection place control sensors, with the possibility of monitoring the operation of the device and transmitting information to the control panel. Pocket storage, perform with the possibility of laying in it of a supporting structure and radially directed abutments.

FIG. 1 - anti-flood protection device is presented

The flood protection device contains:

1 - water-filled pool;

2 - pit;

3 - ground-filled anchor;

4 - hard wreck;

5 - flexible connections;

6 - mount;

7 - supporting structure;

8 - radially directed abutments;

9 - automatic shutters;

10 - water storage capacity;

11 - flexible conduits;

12 - nanomembranes;

13 - sections;

14 - cartridge cleaners;

15 - control sensors;

16 - neck of the exit to the surface;

17 - cover;

18 - storage pocket;

19 - ground coat;

20 - trenches;

21 - control panel.

The anti-flood protection device contains a supporting structure 7 with a fastening assembly 6, and also additionally includes located on both sides of the water-filled basin 1, pitholes 2 with ground-filled shells — anchors 3 of composite nanomaterial with shape memory, sumps 2 and each soil-filled shell-anchor 3 are filled ground with the placement of seeds for germination of the root system, ensuring its reliability and stability, in the upper part of each pit 2 there is a hard core 4, in the lower part of which There are flexible connections 5 located in the upper part, and a storage pocket 18, a fastening assembly 6 and a primer-reinforced coating 19 for reinforcing the channel, made of composite nanomaterial with shape memory, in the center of the fastening assembly 6 are located a supporting structure 7, made in the form of a water supporting sheet composite nanomaterial with shape memory, consisting of one and / or more sliding elements of longitudinal and transverse, on which the gates are automatic 9 to save water resources in tanks 10 at emergency situations and their use for water supply, technical needs, to the upper part of the water supporting structure 7 are attached radially directed abutments 8, made sliding, which by its lower part are attached to the rigid skeleton 4, automatic valves 9 are connected by flexible conduits 11 to water storage tanks 10 , with a throat of exit to the surface 16 and a lid 17 allowing servicing the containers 10 made of composite nanomaterial with shape memory, the internal cavity of which is divided into sections 13, n 12 nomembranami sorption properties and provided kartridzhami- cleaners 14, which change with time, providing the corresponding water quality. The storage tanks of water resources 10 are laid in trenches 20, control sensors 15 are installed on all elements of the flood protection installed with the ability to monitor the operation of the device and transfer information to the control panel 21. The storage pocket is configured to install a supporting structure 7 and radially abutments eight.

The work of the flood protection system is as follows. When water rises in the water-filled pool 1, the monitoring sensors 15 through the control panel 21 give the command to raise the supporting structure 7 made of composite material that has shape memory and is held by radial-guided abutments 8. With a significant rise in the water level in the water-filled pool 1 in the supporting structure 7, the shutter opens machine 9 and water from the water-filled basin 1 through flexible pipe 11 enters the tank for storing water resources 10 laid in trenches 20. Inside the tank for storing water resources 10, Installed cleaning cartridges 14 improve water quality. The control panel 21 through the sensors 15 receives a signal about filling the storage tank of water resources 10 to supply water to the surface for its use.

After passing through the flood, the monitoring sensors 15 supply information to the control panel 21, from where the command is received to lower the radially directed abutments 8 and the supporting structure 7 and place them in storage pockets 18.

The method of erecting a flood control device including, assembling and installing a retaining structure 7 and fixing it to attachment unit 6. On both sides of the water-filled basin 1, a pit 2 is torn off, along the perimeter of which a composite nanomaterial with shape memory is laid out and filled with soil, with seed placement in it sprouting of the root system, with the formation of a primer-filled shell of an anchor 3, on which a rigid skeleton 4 is laid with flexible ties 5 and a storage pocket 18, a node is mounted on a rigid skeleton 4 Replenishment 6 and soil-filled coating 19 for strengthening the channel, made of composite nanomaterial with shape memory, in the center of attachment 6 have a supporting structure 7, made in the form of a water supporting sheet of composite nanomaterial having shape memory consisting of one and / or more sliding elements longitudinal and transverse, and on the supporting structure 7 place the automatic shutters 9 and to the upper part of it fix radially-directed foundations 8, which perform sliding and fix their At the same time, the trench 20 is opened and the water storage tanks 10 are placed into it with the neck of the exit to the surface 16 and the lid 17. The water storage tanks 10 are made of composite nanomaterial with shape memory and connected with flexible conduits 11 with automatic valves 9, the internal cavities of water resources storage tanks are divided into sections 13 by nanomembranes 12, which have sorption properties and are supplied with purifying cartridges 14, against all elements kovoy protection control sensors 15 are placed, with the possibility of monitoring the operation of the device and transmitting information on the control panel 21.

Claims (4)

1. The anti-flood protection device contains a retaining structure with a fastening unit, a pit with a ground-filled anchor shell, characterized in that on both sides of the water-filled basin there are pit with a ground-filled shell anchors of a composite nanomaterial with shape memory, each pit and each ground-filled shell the anchor is filled with primer with seed placement for germination of the root system, in the upper part of each pit there is a hard core, in the lower part of which is located Flexible connections, and in its upper part a storage pocket, a fastener and a primer-filled coating for strengthening the channel, made of composite nanomaterial with shape memory, in the center of the attachment point is a supporting structure made in the form of a water-supporting sheet of composite nanomaterial with shape memory consisting of one and / or more sliding elements of the longitudinal and transverse, on which the automatic valves are located, to the upper part of the water supporting structure are attached radially Sliding foundations, which are attached to the rigid frame with their lower part, automatic valves are connected by flexible conduits to water storage tanks, with an outlet opening and a lid, allowing servicing of containers made of composite nanomaterial with shape memory, internal cavity which are divided into sections by nanomembranes with sorption properties and equipped with purification cartridges, water storage tanks are laid in trenches, on flood protection elements Protecting has control sensors arranged to monitor operation of the device and transmission of information to the control room. 2. The flood protection device according to claim 2, characterized in that the storage pocket is made with the possibility of laying in it a retaining structure and radially directed abutments. 3. A method of erecting a flood control device, including assembling and installing a retaining structure and fixing it to the attachment point, characterized in that both sides of the water-filled pool are torn off, a composite nanomaterial with shape memory is laid out along the perimeter and filled with soil, placed in seeds for germination of the root system, with the formation of a primer-filled anchor shell, on which a rigid frame with flexible connections and a storage pocket are placed, are mounted on a rigid frame in green mount and primer-filled coating to strengthen the channel, made of composite nanomaterial with shape memory, in the center of the mount contains a retaining structure in the form of a water-supporting panel of composite nanomaterial with shape memory, consisting of one and / or more sliding elements of the longitudinal and transverse, moreover, the locks are placed on the supporting structure - automatic machines and to its upper part they fix radially directed abutments, which perform sliding and fasten with their lower part at the same time, the trench is opened and the water storage tanks are placed into it, with the outlet opening and the lid, the water storage tanks are made of composite nanomaterial with shape memory and connected by flexible conduits with automatic gates. cavities of water storage tanks are divided into sections by nano-membranes with sorption properties, and supplied with cartridges - cleaners; sensors are placed on all flood protection elements control, with the ability to monitor the operation of the device and transfer information to the control panel. 4. The method of erecting flood protection according to claim 1, characterized in that the storage pocket is made with the possibility of laying a retaining structure and radially oriented abutments into it.

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