RU2580123C1 - Drain manifold head - Google Patents

Abstract

FIELD: reclamation.

SUBSTANCE: invention can be used for automatic control and stabilization of ground waters, primarily for drainage systems. Drain manifold head 2 comprises shut-off element 25 with float and rod 22 arranged on cap of drain, located in drainage manhole 12, lever-hinged drive. In well 12 includes receiving chamber 13 with drain hole 16 accommodating valve 14, oriented coaxially cavity discharge pipe 9 and fixed to lever 18 with float. Receiving chamber 13 is connected with discharge branch pipe 9. Discharge pipe 9 is connected to curved feed pipe with bottom bend 3, straight section 4 and upper elbow 5 equipped with vacuum chamber 6 at beginning of first knee, and water collection chamber 7, which is adjacent to convex wall of second elbow. Chambers 6 and 7 are interconnected by tube 8. When feeding water from collector 2 to holes 10 in chamber 6 negative pressure is formed, which is transmitted via tube 8 into chamber 7. As a result, sucked off boundary layer in convex wall elbow 5 and water is supplied to convex wall bend 3. Straight section of pipe 4 is connected with water intake chamber 13 via discharge pipe 9. Reliable operation in transient modes depending on content of water in manifold is provided due to simplification of design and reduced material consumption, consisting of one water intake chamber, one float, and shortening of stems, which affects operation of locking valve in water intake chamber.

EFFECT: technical result consists in design simplification and reduction of material consumption.

2 cl, 1 dwg

Description

The invention relates to the field of land reclamation and can be used for automatic regulation and stabilization of groundwater, mainly for drainage systems.

A device for controlling the level of groundwater, including a drainage well with a drain head located therein, equipped with a locking body with a float actuator, is installed in the chamber, while the float actuator chamber is in communication with the drain cavity through a pipeline with a well — by means of a movable spillway mounted in its wall (Copyright certificate SU No. 1013560, class ЕВВ 11/00 of 04/23/1983).

The disadvantage of this device is the unreliability in operation due to the friction of the slider with the rod associated with the lever, while the rod with the float placed in the float chamber additionally encounters resistance when moving in the guides, which contributes to a decrease in accuracy to maintain the estimated flow rate in the drainage collector. The next disadvantage is cumbersome and, as a consequence, a large metal consumption. In addition, the presence of a float chamber with a movable spillway and a shut-off element in the form of a shutter with a lever in it make the device unreliable during slow filling of water, and the need for accurate mutual alignment of the float actuator with the shut-off element and other elements determines the stringent requirements for the design of the float chamber. Another disadvantage is the manual control of the spillway, the mark of which is changed using a movable shield and is directly connected to the cavity of the outlet collector by means of a tube connecting the float chamber to the drainage collector. All this in general also reduces the reliability of operation.

The closest in technical essence to the proposed one is the mouth of the drainage collector, which includes a locking body with a float actuator and a rod mounted on the head of the drain located in the drainage well, it is equipped with a hydraulic relay in the form of two sealed chambers with two inlets and two outlets, and at the bottom of the first chamber, a water outlet is made, which is blocked by a valve that is connected to the float by an articulated lever actuator placed in a water-filled container with a caliber a water outlet having a limiter for displacing the float, and the second chamber contains an inlet pipe equipped with a valve installed at its end and connected through the stem to the valve of the first chamber with the possibility of vertical movement relative to each other, and the second chamber is in communication with the drain through the check valve, and the valve - with a drain pipe (patent RU No. 2538811, CL ЕВВ 11/00 dated 12/23/2014).

The disadvantage of this device is cumbersome and, as a result, a large metal consumption.

The technical result from the use of the claimed invention is to simplify the design and reduce material consumption.

The technical result is achieved by the fact that for the mouth of the drainage of the collector, including a locking body with a float actuator and a rod mounted on the head of the drain located in the drainage well, a lever-articulated drive, a water inlet chamber with a drain hole is introduced into the well, inside of which a valve oriented coaxially with the cavity of the outlet pipe and fixed to the lever with a float actuator, while the intake chamber is connected to the outlet pipe.

In addition, the outlet pipe is connected to a curved inlet pipe provided with a discharge chamber at the beginning of the first elbow, and the intake chamber is adjacent to the convex wall of the second elbow.

The proposed mouth of the drainage collector is aimed at eliminating these shortcomings by simplifying the design and simplifying the intake chambers and reducing the number of valves with rods, as well as to reduce material consumption.

The practical operability of the proposed device mouth is obvious and it fits into the design technology for drainage systems.

The drawing shows a schematic diagram of the mouth of the drainage collector.

The device contains placed drains 1, a collector 2 with a lower elbow 3, a straight pipe section 4 with a subsequent upper elbow 5, a discharge chamber 6 and a water intake chamber 7 adjacent to the convex walls of the elbows 3 and 5 and the tube 8 connected by ends to chambers 6 and 7 , and a discharge pipe 9. Chambers 6 and 7 are connected using a manifold 2, holes 10 and 11 are made in the walls of the knees 3 and 5.

The openings 10 of the knee 3 are oriented towards the subsequent knee 5, and the holes 11 of the knee 3 are oriented toward the previous knee 3. The well 12 has a water intake chamber 13 installed in its inner cavity, made in the form of a truncated cone with a locking valve 14 in its center, coaxially located the outlet pipe 9, while the expanded part of the truncated cone of the chamber 13 has a bottom 15 with a drain hole 16. In addition, the valve 14 is fixed by a hinge 17 to the lever 18, fixed at one end to the hinge 19, and the other is connected by a hinge 20 to the float 21 m, the lower end of which is connected to a rod 22. The rod 22 is passed through the housing cover 23, 24 with a locking body 25. In this case, the well in the cavity 12 before the float actuator mounted cantilever vertical wall 26 (may be movable in grooves of the walls).

The mouth of the drainage collector works as follows.

When water flows from the collector 2 through a straight section 4 of the pipe, the outlet pipe 9, the locking valve 14 opens the cross section of the hole in the outlet pipe 9, since the float 21 is lowered down. Water from the water intake chamber 13 and its expanded part through the drain hole 16 gradually fills the well 12. After a certain level in the well 12, the float 21 comes into operation and raises the lever 20, and the valve 14 gradually closes the outlet in the pipe 9, respectively, the shut-off element 25 opens the outlet in the housing 24. As a result, the need for the construction of energy quenching devices disappears and significant cost savings are achieved.

When the well 12 is completely free of water, the shut-off element 25 closes, respectively, the shut-off valve 14 opens the outlet pipe 9, which, through the lever 18 with hinges 17, 19 and 20, is connected to the float 21 fixed to the stem 22 with the shut-off element 25. Cantilever vertical wall 26 provides reliability and stable operation of the float 21, i.e. There are no wave phenomena on the surface of the water.

When water is supplied through the straight section of the pipe 4, it enters the chamber 7 through the holes 11, where the pressure is reduced, water flows through the tube 8 into the chamber 6, and from it through the holes 10 it enters the lower elbow 3 at an acute angle to the axis of the manifold 2, which provides constant suction of the boundary layer at the minimum radius of the upper elbow 5 and thereby prevents flow separation at the entrance to the outlet pipe 9, and this also leads to a reduction in hydraulic losses in the upper elbow 5. In this case, the flow rates are equalized 3 and the knee bottom in a straight section of the pipe 4. As a result, the effluent through the outlet pipe 9 enters the water intake chamber 13, made in the form of a truncated cone with a shut-off valve 14, uniformly spreading over the entire cross section in its cavity, where it is partially extinguished by the bottom 15 of the chamber 13 and through the drain hole 16 enters the well 12 The float actuator in the well 12 is stable.

As a result of this, accurate and reliable maintenance of the level in the collector is ensured, as well as differentiated regulation of the set levels over the command area with drains is provided to obtain high and stable crop yields regardless of weather conditions.

The flow rate of the collector with a well is calculated to allow the maximum water flow q through the housing 24 to be blocked by the shut-off element 25. To do this, the volume of the float W is calculated using known hydraulics. For a given outlet in the outlet pipe 9, then the drain hole 16 in the bottom 15 of the chamber 13, accordingly, the dimensions of the chamber are linked to the length, width and height of the well 12, while the height of the well 12 may ultimately affect the operation of the float articulated lever drive.

Thus, this makes it possible to work in the automatic mode of the mouth of the drainage collector. The proposed device allows to simplify the design by eliminating one chamber, one valve, shorten the rods and reduce the number of other elements, thereby reducing material consumption.

Claims (2)

1. The mouth of the drainage manifold, including a locking body with a float actuator and a rod mounted on the head of the drain located in the drainage well, a lever-articulated drive, characterized in that a water inlet chamber with a drain hole is inserted into the well, inside of which a valve oriented coaxially oriented the cavity of the outlet pipe and fixed to the lever with a float actuator, while the intake chamber is connected to the outlet pipe. 2. The mouth according to claim 1, characterized in that the outlet pipe is connected to a curved inlet pipe provided with a discharge chamber at the beginning of the first elbow, and the intake chamber is adjacent to the convex wall of the second elbow.

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