SU1638553A2 - Device for flow rate measurement in canal - Google Patents

Abstract

The invention relates to a device for measuring the flow rate of water over a water level difference. The aim of the invention is to improve the accuracy of flow measurement. The water flow in the upstream of channel 1 at the approach to the device enters the tank 4, where the water level Ho is set, close to the water level H of the upstream, taking into account the velocity head at the approach. The passage through the compressed section 7, the flow creates a pressure at the opening 6, and the water level h in the tank 3 will be less (H0) for the tank 4 by the value ZB, the value of which is proportional to the water flow. 1 hp ff, 1 ill.

Description

The invention relates to a device for measuring water flow by the difference in levels (pressures) of water, can be used for water accounting during the operation of hydraulic structures in the channel.

The aim of the invention is to improve the accuracy of flow measurement.

The drawing shows the proposed product, a longitudinal section.

In channel 1, a compressive water flow is installed on top of a curvilinear element 2 with tanks 3 and 4 separated by a partition 5. Curvilinear element 2 is made with a radius of curvature (R _B ) in the zone of location of the pressure sampling hole 6 connecting the tank 3 with the compressed section 7. Tank 4 communicated with the upper head of channel 1. The side walls of the device are not shown. The rear part 8 of the curved element 2 is made smoothly rising in the direction of the downstream channel 1.

In the bottom 9 of channel 1, in the area in the zone of the compressed section 7 (shown by the dashed line), a conveniently grooved recess 10 is made with a radius of curvature R _d with a center 11 located in the same plane as the compressed section 7, hole 6 and center 12 of the radius of curvature R _{B of the} curvilinear element 2, the Recess 10 is made with a concave surface directed to the convex surface of the curved element 2, and with smooth transitional transition sections 13 of the interface with the sections 14 of the bottom of the channel 1, located outside the location of the recess 10 in the channel 1. Relations g geometric dimensions between the radii of curvature R _B, Q _d, and the distance beige between the upper curved part 2 and the recess 10 in the zone compressed section 7 of the conditions optimal for irrigation practices quantities of water measuring differences Z _B, bandwidth and losses hydrants netocrystalline energy flow to be measured, taken , for example, within bezh ⁼ (0.7 - 1.5) R _B ;

R _fl = (5-10) R _B.

The device operates as follows.

The water flow in the upper pool of channel 1 at the approach to the device enters the tank 4, where the water level (Ho) is set close to the water level (H) of the upper pool, taking into account the pressure head on the approach. Passing through the compressed section 7, the flow creates a pressure opening 6 and, accordingly, the water level used in vessel 3 _to less than 15, but for the container 4 on the value Z _B. With equal sizes of the areas of the compressed sections 7 according to the proposed solution and the prototype, the components of the water gauge differential Z _C k, formed by increasing the speed in the compressed section 20 relatively suitable, are almost equal. The centrifugal component Z _y 6 according to the proposed solution with the given ratios R _B , R _A and beige due to the replacement of a straight bottom by 25 curvilinear with finite radii of curvature for streams at the bottom instead of endless ones will increase, thereby causing a general increase in the water-drop.

Claims (2)

30 Formula ^la inventions 1. A device for measuring water flow in a channel according to ed. St. No. 685755, characterized in that, in order to improve the accuracy of flow measurement, in the compressed 35th section, the bottom part is made concave with a streamlined curved surface. 2. The device pop. 1, distinguished by the fact that the bottom part in the compressed zone 40 sections made with a radius of curvature R _A = (5 - 10) R _B , and the minimum height of the compressed section hcM = (0.7-1.5) R _B , where R _B is the radius of curvature of the upper curvilinear element45.