SU1179278A1 - Device for measuring flow rates of drainage effluent - Google Patents

Abstract

A DRAINAGE FLOW MEASURING DEVICE, containing a two-chamber tank with drain channels, floats installed in the chambers, a beam distribution mechanism and a drain tray mounted on the supply pipe, characterized in that, in order to simplify the design while increasing reliability, ensuring the possibility of measuring the drainage the drain at small level differences, the drain channels of the chambers are made in the form of flexible hoses, the free ends of which are located above the water level in the outlet network, The output distribution mechanism is installed on a spring-loaded axis and is connected via rods of adjustable length with floats, the drain tray is connected to the beam distribution mechanism by means of a hinge-lever mechanism, and each of the free ends of the flexible hoses of one of the chambers is connected to the shoulder of the beam distribution mechanism located above the other chamber of the two-chamber capacity . W and x tc 00

Description

The invention relates to the field of agriculture and relates, in particular, to devices for measuring drainage flow rates.

The purpose of the invention is to simplify the design while improving reliability while ensuring the possibility of measuring drainage outflow at small level differences.

The drawing shows a device for measuring drainage flow rates, a slit.

The device contains a two-chamber tank 1 with chambers 2 and 3, provided in the lower part with drain channels made in the form of flexible hoses 4 and 5, the free ends of which are located above the water level in the outlet network. The rocker distribution mechanism 6 is mounted on a spring-loaded axle 7 and is connected by means of rods 8 and 9 of adjustable length with floats 10 and 11. The drain tray 12 is connected to the beam-bearing distribution mechanism 6 by means of a hinged lever mechanism 13, and each of the free ends of flexible hoses 4 and 5 one of the chambers 2 and 3 is connected to the arm of the rocker arm of the beam distribution mechanism b, located above the other chamber of the two-chamber tank 1. The device is installed directly under the drain head 14.

A device for measuring drainage flow rates works as follows.

Water flowing from the mouth of the drain 14 through the drain tray 12 flows into one or the other of the chambers 2 or 3 of the two-chamber tank 1, towards which the rocker of the beam-distributing

mechanism b (for example, in chamber 2, as shown in the drawing).

Following the rising water level in chamber 2, the float 10 by means of the rod 8 acts on the corresponding arm of the rocker arm until the rocker on the spring-loaded axis 7, passes the neutral position, does not jump to the opposite fixed position, after which the drain tray 12 will begin to drain into the chamber 3, and the chamber 2 is emptied through the lowered end of the flexible hose 4, and the float 10 freely lowers after the water level in the chamber 2. Then, after filling the chamber 3, the float 11 by means of the rod 9 will raise the corresponding the return arm of the rocker arm returns to its original position, with the result that the drain pan 12 drains water into the chamber 2 and the chamber 3 is emptied through the lowered end of the flexible hose 5, the cycle ends.

The recording of the number of rocking cycles (water flow) over time is carried out by one of the known methods.

The absence of valves and other parts blocking the flow allows, while simplifying the design, to increase the reliability of the device when there are suspended particles in the flow.

A device for measuring drainage flow costs provides for observing runoff on virtually all drainage systems with small differences in levels, improves the accuracy of determining the calculated hydrological characteristics, which determines the required mode of implementation and allows to achieve the planned yield of agricultural crops on reclaimed land.

Claims (1)

DEVICE FOR MEASURING DRAINAGE FLOW COSTS, containing a two-chamber container with drain channels, floats installed in the chambers, a beam distributing mechanism and a drain tray mounted on the inlet pipe, characterized in that, in order to simplify the design while increasing reliability with the possibility of measurement drainage flow at small level differences, the drainage channels of the chambers are made in the form of flexible hoses, the free ends of which are located above the water level in the discharge network, yokes The th distribution mechanism is mounted on a spring-loaded axis and connected via adjustable length rods to floats, the drain tray is connected to the beam distribution mechanism by an articulated mechanism, and each of the free ends of the flexible hoses of one of the cameras is connected to the shoulder of the beam distribution mechanism located above the other chamber of the two-chamber tank .