SU1180850A1 - Device for automatic controlling of water levels - Google Patents

Abstract

A DEVICE FOR AUTOMATIC REGULATION OF WATER LEVELS, containing a water outlet, above which is placed a cylindrical shutter balanced by a counterbalance float, a float-type level indicator of a downstream fish, characterized in that, in order to extend the range of control and increase the efficiency, it will also be open. -. . . , operational reliability, it contains a headwater level sensor, made in the form of a tubular element, a balance capacitance installed between the gate and the float. a compact counterweight, a float gauge of the lower pool level is placed in a chamber divided by a partition into cavities interconnected, the lower of which is connected to the lower bundle, and the upper one is connected to the upper bundle through an orifice blocked by a double seat valve fixed on the rod connected with the float level sensor downstream and with the balance capacity through the return valve of the distribution chamber, communicated with the upper reach through the tubular element, the upstream water level sensor, and the gate Mr. equalizer with a housing capacity through trosoblochnuyu system. . -., -. "IVV 1 P.: ..: and -.- .it - and .. PN

Description

KG invention relates to hydro-melioratics construction and can be used to automatically adjust the water levels in open channels. Dry-humidification and irrigation systems. The aim of the invention is to expand the range of adjustable parameters and increase the operational reliability of the device. The device contains a water outlet 1, above which a cylindrical shutter 2 is installed, is installed inside the guide frame 3. The cylindrical shutter is balanced by a float balance 4 connected to a balancing capacitance 5 connected to a stopper 2 through a cable-block system 6. In chamber 7 there is: float sensor level 8 downstream. Chamber 7 is divided into two cavities by a partition 9. The lower cavity 10 communicates with the lower reach, and the upper cavity 11 communicates with the lower distribution chamber 12 through the return valve 13 and with the upper reach through a hole blocked by a double-seat valve 14 fixed on the rod connected with float sensor level 8 downstream. The distribution chamber 12 is in communication with the headwater through a tubular sensor 15 of the headwater level and with a balance tank 5. In FIG. 1 shows the device, general view, section; in fig. 2 shows section A-A in FIG. 1. The device operates as follows. Pre-fixed with locking bolts at a given level, the upstream, level and downstream level gauges. When the downstream level decreases, the downstream level 8 float sensor and the stem attached to the double-seat valve, which opens the message to the upper reach and simultaneously closes the message of the cavities of the chamber 7, will lower accordingly. At the same time, the upper cavity 11 is filled with water from the upper reach, which , through the water supply line enters the distribution chamber 12 and the balancing tank 5. The filled balancing tank 5, together with the counterbalance float 4, exceeds the mass of the gate 2 that has been displaced It is under the action of a transfer system up otkrsha water passage from the upstream to the bottom. When the counterbalance float 4 is submerged under the level of the lower pool, the system balancing capacity 5 - gate 2 is balanced, and the latter moves upwards. Further fluctuations in the downstream level change the direction of the forces in the cable block system and the movement of the bolt 2. As the downstream level rises to a predetermined elevation, the downstream 8 float sensor 8 stops flowing water from the upstream to balance weight 5. It is emptied through the water supply line through the calibration hole in the check valve 13, then through the cavities 11 and 10 to the lower pool. In this case, the equilibrium of the shutter 2 system is disturbed - the balancing tank 5, the shutter 2 moves down and closes the outlet of the water inlet 1. When a given upstream level is exceeded, water flows through the tubular telescopic sensor 15 upstream to the distributing chamber 12 and then into the balancer capacity 5, which is filled, disrupts the balance system of the gate balancing capacitance. Shutter 2 is moved upwards and excess water from the upstream is discharged to the lower one. When the level reaches the upper reach of the set point, the flow of water into the balance tank 5 stops, it is emptied through the calibration opening in the check valve 13 and through the cavities 11 and 10.

Claims (1)

DEVICE FOR AUTOMATIC REGULATION OF WATER LEVELS, containing a water outlet, over which there is a cylindrical shutter balanced by a counterweight float, a downstream float level sensor, characterized in that, in order to expand the regulation range and increase the operational reliability, it contains an upstream level sensor made in the form of a tubular element, a balancing tank installed between the shutter and the float. com counterbalance, the downstream level float sensor is located in a chamber divided by a partition into cavities interconnected, the lower of which is connected to the lower downstream, and the upper is connected to the upper downstream through an opening blocked by a two-seat valve mounted on a rod connected to the float the downstream level sensor and with the balancing capacity through the check valve of the distribution chamber, connected with the upper downstream via a tubular element, the upstream level sensor, and the shutter is connected to the body om the balancing capacity through trosoblochnuyu system. 1 1,180,850 2