SU1095140A1 - Governor of flow in pools of water-development works - Google Patents

Abstract

FLOW CONTROLLER IN HYDROTECHNICAL CONSTRUCTION DAMAGE CONTAINER, containing a shutter made in the form of tanks, communicated with a pressure source and including installed 7 11 10 1Z 812 1 12 е 1 У8В ee, at one end on the horizontal axis of rotation pressure faces, the other ends of which are rigidly connected to flexible shells characterized in that, in order to expand the functionality of the controller, it contains a stationary horizontally fixed in the pool and a platform placed on the horizontal axis of rotation, below and above which are located o- kovye Suitable drainage channels and which are connected with the flexible membrane, wherein the container are arranged symmetrically relative to the vertical and horizontal axes in Rev. tikalnoy plane passing through € horizontal axis of rotation. (L with: / I / II / with sd figure 1

Description

The invention relates to land-reclamation hydraulic structures, namely to regulators arranged on artificial and natural watercourses.

A shutter-regulator of the combined type is known, which includes a rigid overflow shield and an elastic panel that is hinged to the base and provides only the maintenance of a given level lj.

The closest technical solution to the present invention is a regulator, which includes a regulating tank, formed by an elastic shell and a shield attached to the flybet and supplied on the downstream side with an additional resistance element 21 rotating on the axis.

The disadvantage of the known regulator is its limited functional capabilities while simultaneously failing to pass the sediment, providing stratified water intake, and controlling redistribution of the diverting flow.

The aim of the invention is to extend the functionality of the controller.

The goal is achieved by the fact that in the flow controller in the pools of hydraulic structures, containing a shutter made in the form of tanks communicated with a pressure source and including pressure faces installed at the ends on the horizontal axis of rotation, the other ends of which are rigidly connected to flexible shells are fixed horizontally installed in the pool and located on the horizontal axis of rotation of the platform, under and above which the side drainage channels are located and with which the flexible shells are connected hibernation, wherein the container are arranged symmetrically relative to the vertical and horizontal axes, located in a vertical plane passing through the horizontal axis of rotation.

FIG. 1 shows the regulator, a general view; in fig. 2 - some technological capabilities of the regulator; in fig. 3 - regulator, plan view; in fig. 4 - the same, axonometrics.

Water from the upper pool 1 flows through the gate 2 into the lower pool 3 and side drainage channels. One of the channels 4 has a triangular cross section, and the other channel 5 has a trapezoidal section. The shutter 2 is made in the form of containers 6, including pressure faces 7, installed by ends on a horizontal axis of rotation 8, the ends of which are connected to flexible shells 9. The flexible shells are mounted with a platform 10 fixed in the pool fixedly and horizontally and on a horizontal axis 8 rotation Lateral drainage channels 4 and 5 are located below and above the platform. The tanks 6 are provided with separating inserts 11 and placed on a horizontal platform -10 symmetrically with respect to the vertical and horizontal axes arranged in a vertical plane passing the horizontal axis of rotation. . The increase or decrease in pressure inside the tanks, i.e. The raising or lowering of pressure faces is regulated by force or automation through water pipes 12 located inside the site 10 by supplying or discharging a liquid.

The technological capabilities of the controller are presented in figure 2. If it is necessary to pass the transit water flow, the pressure in the autonomously adjustable hermetic containers decreases, as a result of which the pressure faces are pressed to the platform and the working section of the flow is released (see Fig. 2a). The possibility of creating a backwater both in front of and behind the shutter, the need for which is caused by dramatically changing water consumption regimes (Fig. 2S and), provides for a two-way action of the flow regulator with simultaneous sediment delay before construction. A flow regulator can be simultaneously supported to form a side drainage channel above the platform between the pressure faces (Fig. 21). Drainage into the oppositely directed channel can be carried out from under the site with simultaneous overflowing over the pressure edge or without such overflow. this is shown in FIG. 2, the Redistribution of the stream coming from the upstream 1 is possible according to the principle shown in Figure 2e. In the side channel 5 of trapezoidal section, the water enters through a hole in the side walls of the pool, located under the platform. Water enters the side channel 4 of a triangular section through an opening in the side walls of the pool above the platform.

The use of the regulator allows you to expand the functionality of hydraulic structures of this type, namely, to ensure the passage of sediment through layer-by-pass flow, the metered redistribution of the flow of drainage channels without the device of separate additional regulatory structures, has the ability to double-sided action, which expands its possibilities. .

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Claims (1)

CONSUMER CONSUMPTION IN THE DRAINAGE OF HYDROTECHNICAL STRUCTURES, containing a shutter made in the form of tanks connected to a pressure source and including installed ones. at one end on the horizontal axis of rotation, pressure faces, the other ends of which are rigidly connected to flexible shells, include the fact that, in order to expand the functional capabilities of the regulator, it contains a platform motionless horizontally installed in the pool and located on the horizontal axis of rotation ' , under and above which there are lateral drainage channels and with which flexible shells are connected, the containers being placed symmetrically with respect to the vertical and horizontal axes located in the vertical a plane passing through the horizontal axis of rotation. 10951Ί0