RU2576964C1 - Drain manifold head - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to complex melioration of humidity zone agricultural landscapes using closed drainage. Head of the collector ditch comprises open channel 1 and connected to header 2 wellhead pipe 3 with a device for water discharge in shape of additional pipe 7 with waterproof walls. End of wellhead pipe 3 is equipped with gate valve 6 and curvilinear deflector 4, directed towards the place of location of grid 5 having a dome shape. Additional pipe 7 is installed in the same vertical plane with wellhead pipe 3. At its beginning, additional pipe 7 is connected to wellhead pipe 3 in its lower part on the boundary with the pipe of closed collector ditch 2. At its end, additional pipe 7 is bent up and has detachable nozzle 8, arranged inside well 9 and directed towards the inner surface of dome-shaped grid 5 one end of which is connected to well wall 9 with the help of hinge 11. Well 9 is incut into the bottom of open channel 1, while its side walls have outlet holes 10. Free end of grid 5 is equipped with bent plate 12 attached to which is drive 13 for drum 14 installed on channel 1 bank.

EFFECT: invention considerable increases reliability of the device operation and reduces operational costs related to purification of the well and grid.

3 cl, 1 dwg

Description

The invention relates to a comprehensive reclamation of agrolandscapes of the humid zone and can be applied in the design, construction, reconstruction and repair of closed drainage, operation of drainage systems and agricultural use of lands drained by closed drainage.

It is known that during the operation of the drainage system the water flows through the collector into the open channel, the water stagnates in it, and active growth of weed vegetation forms around the head of the pipe located in the depth of the water. All this clogs its exit from the pipe into the open channel, a backwater forms in the pipe, which reduces its throughput as a whole. In addition, the destruction of the dense layer of deposits at the place of discharge of water from the pipe into the channel, i.e. the relatively low quality of the cleaning zone of the accumulation of both sediments and floating debris and the occurrence of overgrowth around weeds. As a result, closed drainage in the winter periods of work stops the removal of soil and groundwater. This must not be allowed.

A known drainage system, including a channel, a drainage collector, a well with holes, a filter column and a wellhead pipe, which is passed through the well and communicated with it through a hole in its upper part, made with side holes (Copyright certificate SU No. 1427034, class ЕВВ 11 / 00 from 09/30/1988).

The disadvantage of this device is the complexity of the design and the complexity of the maintenance of the drainage network, which requires significant capital and current costs. Another disadvantage is that through the holes in the well, water enters directly through the filter layer into the open channel, the throughput decreases sharply, and deposits accumulate in the well and the holes are practically clogged with soil particles, then overfilling of the drainage water occurs, backwater forms in the drainage collector, t .e. stops the removal of soil and groundwater in the winter.

Known drainage mouth according to copyright certificates SU: No. 393397, class. ЕВВ 11/00 from 08/10/1973; No. 887711, class ЕВВ 11/00 dated 12/07/1981; No. 1335638, class Е02В from 09/07/1987; No. 1366595, cl. ЕВВ 11/00 from 01/15/1888; No. 1523633, class ЕВВ 11/00 dated 11/23/1989; No. 1427033, cl. ЕВВ 11/00 from 09/30/1988.

However, known devices are also complex and time-consuming to maintain. In addition, they do not take into account the difficulties of washing sediment deposits, which disrupt the drainage system, and there are difficulties in washing them off.

The closest in technical essence to the proposed one is the mouth of the drainage collector, including an open channel and a wellhead pipe connected to the collector with a water discharge device, which is made in the form of an additional pipe with watertight walls installed in the same vertical plane with the wellhead pipe, with one end an additional pipe is connected to the wellhead pipe in its lower part at the border with the pipe of the closed drainage of the collector, and the other is placed at the bottom of the channel, the diameter of the additional the pipe is less than the diameter of the wellhead pipe, the length of which is not less than two meters, and the mesh (patent RU No. 2389848, class ЕВВ 11/00 of December 29, 2008).

A disadvantage of the known device is that it does not ensure the destruction and flushing of floating debris and sediment at the end of the additional pipe, blocked from above by a constantly rigid mesh, and flushing from above is not always possible with water leaving the wellhead, depending on the pressure of the water in the wellhead, the drop-off curve of water will have different distances along the length with respect to the location of the constant end of the additional pipe with a grid, the dimensions of which are structurally limited, as a result of this, flushing is not ensured ayuschego waste and destruction of soil deposits, showering the channel slope. All this leads to a deterioration in the operation of the drainage system, i.e. the operation of the elements of the device in constant contact with water occurs with a restriction on the discharge of water, in particular in winter. A stagnation zone is observed at the drainage water discharge site, which clogs the flow coming out of the pipe connected to the collector.

The technical result from the use of the claimed invention is to increase operational reliability by eliminating the influence of clogging of the elements of the mouth of the drainage collector, which is in constant contact with the discharge of water.

The technical result is achieved by the fact that the mouth of the drainage collector, including an open channel and a wellhead pipe connected to the collector with a water discharge device, an additional pipe with waterproof walls installed in the same vertical plane with the wellhead pipe, while one end of the additional pipe is connected to the wellhead pipe in its lower part at the border with the pipe of the closed manifold, and the other is placed in the channel, and the diameter of the additional pipe is less than the diameter of the wellhead pipe, the length of which is not less two meters, according to the invention, the free end of the additional pipe is made upward with a removable nozzle and placed in a well, blocked from above by a protective coating having a dome-shaped grating, which is pivotally fixed at one end to the wall of the well, while the free end of the wellhead pipe is in the upper its parts are equipped with a curved visor directed towards the lattice, made dome-shaped, and its end is additionally equipped with a valve.

In addition, a removable nozzle of the bent knee is directed to the inner surface of the lattice, made dome-shaped.

In addition, the walls of the well from the side of the open channel are made with outlet openings.

Signs that distinguish the claimed technical solution from the prototype are not identified in other technical solutions when studying this and related technical field and, therefore, provide the claimed solution with the criterion of "significant differences".

Placing the free end of the additional tube with the bent knee up with a removable nozzle in the well outside the freezing zone ensures uninterrupted operation of the drainage system in the winter, as well as the simultaneous washing of the lattice surface of the sheet from its inside, the domed shape of which is easily washed off from fine sediment fractions. This, in turn, leads to the absence of clogging of the grate from the inside, and the throughput of the additional pipe, respectively, increases.

In the period of positive atmospheric air temperatures, for example, in the summer period, to protect the well from siltation by the option of removing small fractions of sediment and floating debris of the grate itself, it is brought into a vertical position by a rotating drum through a flexible connection and fixed. In this case, the lattice, which acquires a dome-shaped shape with a convex surface, provides a flush and collapse of sediment directly into the open channel, the flow of which carries downstream. At the end of cleaning, lower the grate to its original position, and the well is protected from falling into it as floating debris and sediment and possible collapse of the soil from the slope of the channel. In this case, the operation of the nozzle with a constant flow of water under pressure through an additional pipe forms a counter-pressure of water in the well, forming an active movement of water inside the well, since the volume of water in the summer and winter periods in the well acquires rotational-translational motion.

Wave phenomena are formed in the well, which are especially necessary at low temperatures, and this also prevents water from freezing around the well. Siltation of the well with suspended particles of soil in this case does not occur, since the flow is constantly in motion. In addition, with a decrease in the groundwater level in the collector, the water flow is reduced to a minimum, and in order to ensure by directing the passage of this flow under pressure in the additional pipe, the end of the wellhead pipe is equipped with an adjustable valve.

The invention is illustrated in the drawing, which shows the mouth of the drainage collector, General view.

The mouth of the drainage collector includes an open channel 1 and a wellhead pipe 3 connected to the collector 2 with a length of at least two meters and a water discharge device, which at the end of the pipe 3 is equipped with a curved visor 4 (inclined) arranged in the upper part of the pipe 3 and directed towards the grid 5, made dome-shaped, and a valve 6 at the end of the wellhead pipe 3, brought into the open channel 1.

The additional pipe 7 with watertight walls is installed in the same plane with the wellhead pipe 3. One end of the additional pipe 7 is connected to the wellhead pipe 3 at the bottom at the boundary with the pipe of the closed manifold 2, and the other end is made upward bent with a removable nozzle 8 and placed in well 9. The well 9 is cut into the bottom of the open channel 1 with outlet openings 10 located above the bottom of the open channel 1. Above the well 9 above the nozzle 8, a protective device is installed in the form of a domed lattice 5 fixed to the wall well 9 with a hinge 11 in the form of a horizontal axis, and the free end of the grate 5 has a bent end of the plate 12 with a drive 13 on the drum 14 mounted on the shore of the open channel 1, which serves to hold the grate 5 in a vertical position.

Well pipe closed collector works as follows.

During the period of positive atmospheric air temperatures, the main water flows come from the closed collector 2 to the blind wellhead 3, i.e. at high levels of groundwater are discharged into the open channel 1 as wellhead pipe 3, and an additional pipe 7.

To direct the water flow directly from above to the grate 5 and to protect it from silting with floating debris and collapsed soil from the slope of channel 1 and washing them off from the grate 5, the main water flow is directed downward due to the fixed obliquely curved visor 4 from above the wellhead pipe 3, i.e. provides the sliding of soil and floating debris and other algae and flushing from the lattice 5 directly to the side with the flow of water.

An additional pipe 7 under pressure works both during flood periods and low-flow rates of water coming from a closed collector 2. From an additional pipe 7, water enters a nozzle 8, where the water velocity at the outlet increases sharply and the jet is directed to the inner surface of the grate 5. When this, under the influence of the internal pressure of water from the nozzle 8, the mesh web of the grate 5 is simultaneously washed both from the inside and outside with the fine sediment fractions (suspended) contained therein.

The movement of water in the collector 2 with the wellhead pipe has a pressure character when the valve 6 at the source is closed and the additional pipe 7 is in pressure mode, as a result, the rate of water exit from the nozzle 8 is significantly increased, which provides the necessary washing of the inner surface of the domed grill 5, and an increased rotational-translational movement of water in the well 9 and flushing of the well itself through the lateral outlet openings 10 are also created. The domed shape of the grate 5 ensures self-collapse of sediment and debris and then flushing into the open channel 1. Thus, an increased discharge of water through an additional pipe 7 with a nozzle 8 under the water level in the well 9 and the flow rate of the water stream leads to a given flushing of the entire device. The speed of water flow through the grate 5 and the outlet openings 10 increases, which also prevents suspended sediments from settling to the bottom of the well 9. In turn, when the additional pipe 7 is operated in both winter and early spring, the conditions of wave motion of the water surface above the well are created , which eliminates stagnant zones around it; accordingly, there is no freezing of water above the well 9 and blocking of the outlet openings 10. Thus, the effluent from the nozzle 8 into the well 9 is freed from the formation of freezing water and freely drains the drain water entering the well from the collector under pressure.

If necessary, during a period of positive temperatures of atmospheric air, a movable dome-shaped lattice 5 is brought into a vertical position by a rotating drum 14 through a flexible connection 12 and is fixed. At the same time, the valve 6 is opened completely, water enters the grate 5 due to the direction of the curved visor 4 towards the convex surface of the grate 5 and ensures its complete cleaning from floating debris and sediment from all sides. In addition, for inspection and repair of the elements of the device, the valve 6 is in the closed position, and the grill 5 is also brought into a vertical position by the rotating drum 14 through the flexible connection 13 and fix it.

The use of the well device, in which the bent end of the additional pipe with a removable nozzle is located, thereby increases the speed of the jet from the nozzle under pressure, which can significantly increase the reliability of the well with a movable grating, made dome-shaped, provides drainage water with suspended sediment.

The washing efficiency in the proposed mouth of the drainage collector is high, since it is provided by increased speeds of water transportation, which arise due to increased costs in the additional pipe in conjunction with a direct slope with the device of the wellhead pipe and its elements in relation to the open channel with the well. The pressure in the pipes can be adjusted by changing the ratio of the closing of the mouth of the wellhead pipe with a valve, which provides not only the pressure, but also the flow rate in the pipes from the collector to the well and the open channel with elements of the nodes.

The claimed invention is industrially feasible. During floods and in the early spring, large flows of water are diverted through the wellhead pipe and are directed to the side of the grate, as a result, there is no washout funnel around the well and washout of its base, since there is a drop in the flow velocity upon its impact with the grating rods, the flow spreads over its surface evenly and enters the channel. In this case, the removable nozzle of the curved end of the additional pipe is protected from damage, which is inherent in the well-known mouths of drainage devices, and thereby leads to a reduction in operating costs associated with cleaning the well and grate. In the combined device, it becomes possible to carry out sequential washing of the well and the grate in the presence of fine sediment and floating debris in the collector in the well insertion zone at the bottom of the open channel, as well as increasing the reliability of the collector.

Claims (3)

1. The mouth of the drainage collector, including an open channel and a wellhead pipe connected to the collector with a water discharge device, an additional pipe with watertight walls installed in the same vertical plane with the wellhead pipe, while one end of the additional pipe is connected to the wellhead pipe in its lower part on the border with the pipe of the closed manifold, and the other is placed in the channel, and the diameter of the additional pipe is less than the diameter of the wellhead pipe, the length of which is not less than two meters, characterized in that it is free the second end of the additional pipe is made upwardly curved with a removable nozzle and placed in the well, which is covered from above by a protective coating having a dome-shaped grating, which is pivotally fixed at one end to the wall of the well, while the free end of the wellhead in its upper part is provided with a curved visor, directed towards the lattice, made dome-shaped, and its end is additionally equipped with a valve. 2. The mouth of the drainage collector according to claim 1, characterized in that the removable nozzle of the curved end is directed to the inner surface of the lattice, made dome-shaped. 3. The mouth of the drainage collector according to claim 1, characterized in that the wall of the well from the side of the open channel is made with outlet openings.