SU702102A1 - Control lock - Google Patents

Description

The invention relates to hydraulic engineering, and specifically to channel water-regulating structures. A gateway regulator is known, which includes a water throughput chamber with central and opposite each other, alongside side gates with shields 1. However, the gates of the known gateway regulator work asynchronously, which leads to an unacceptable current failure in the downstream of the gateway. The purpose of the invention is to synchronize the operation of the valves. This goal is achieved by the fact that the sluice regulator includes a culvert with central and opposite side gates with shields, with the gates shields mounted on the swing arm equipped with floats, the side gates of which are connected with alternating ropes between themselves, and P1) means an additional rope Pskrekiyugo through the block attached to KOpoMi.KVo shutter shutter is fitted, with a fixedly mounted winch. The invention is shown in the drawing. FIG. t depicts section A-A of FIG. 2; in fig. 2 is a cross section of FIG. I. The gateway regulator includes a dock-type water throughput concrete chamber formed by the bottom 1 and the walls 2, which are simultaneously supports of the span 3 of the bridge. At the entrance, the chamber is equipped with a central shutter, which is made of two vertically mounted flat sockets 4 and 5. The upper shield 4 is moved in height relative to the lower shield 5 by means of a twin-screw elevator in the grooves made in the chamber walls and has a culvert opening blocked by the rotary shield 6. The latter by means of korom1.1.ma 7 with a float 8 submerged under ypoFieni, vol1 in the upstream side. The lower shield 5 is made with a pier with an outlet opening, which is blocked by JHHIOM 9, which cat connects with the shield 4 of the Ptarii K); / lFIOI h 1 ,) 1 | Er: 1NIA Fta i-.ll

A mile in the shield 5. From the downstream, the chamber has two side openings, a watercourse in the direction of its slopes. In the walls of the chamber in the area between the central shutter and the lateral wing there are

located opposite each other side valves with rotary shields 11. connected through rocker arms 12 with floats submerged under the water level in the upstream side 13.

Each beam 12 has a horizontal axis of rotation 14.

In order to regulate the magnitude of the effect on the trunks 13 on the shields 11, the floats are fixed on the yokes by means of hinges connected with them.

A float with a handle can be rotated about a horizontal axis 15 by means of a rope 16 attached to the arm, the end of which is connected through block 17 to a winch 18

In order to ensure the synchronous operation of the side locks, the swivel shields 11 are connected to each other by means of intersecting ropes 19 and 20 attached to the yokes, which are guided by segments 21 and 22.

In order to ensure the joint operation of the central and lateral closures, the pivot shield 6 of the central closure is connected to the pivot shields 11 of the lateral gates by means of an additional cable 23 attached to the yoke 12, the other end of which is connected to the winch 24 fixed to the bridge structure 3. segment 22, blocks 25 and 26 fixed on console 27 of span 3, and block 28 mounted on rocker arm 7. Winch 24 allows separate operation of the central and lateral s creates at small angles of rotation of shield by adjusting the additional slack rope winch 23 and the possibility of vertical movement of the central shutter shield via twin-screw elevator.

The water level in the upstream, the automatic maintenance of which is provided by the gateway controller, is set by appropriately raising or lowering the upper shield 4 relative to the lower one using a twin-screw elevator. When the shield 4 is moved, the shield 9 pivotally connected with it rotates with the displacement of the latter along the threshold of the hole that it crosses, which ensures the preservation of the estimated opening capacity of the hole, crossed by the shield 6. At the same time, the shield 11 is adjusted to maintain the specified level by turning

both floats 13 relative to the axles 15 with the help of winches 18.

One of the possible positions of the float 13 after turning through a certain angle x with respect to the initial position is shown in the drawing by the dot-line.

If the specified water level is exceeded. the upper side, the shield 6 with the float 8 connected with it by the rocker 7 rotates towards the lower pool by a certain angle (3. At the same angle | 3, the block 28 fixed to the rocker arm rotates, which drives the additional rope 23 attached end to the yoke 12 of one of the side shields 11. If the flow of water through the pinhole is relatively small, then the turning of the shield 6 takes place at a small angle. If this is possible, due to the slack of the additional cable 23, set with the winch 24, it is necessary to prevent the transfer of 11 for turning boards.

As the water flow rate increases, the shield 6, and therefore the block 28, rotates through a larger angle 3 3, which pulls up the additional rope 23 and then turns the side shields 11 with the floats 13 through a certain angle Y. The simultaneous rotation and equality of the angles of the two side shields 11 provide two intersecting ropes 19 and 20 attached to the rocker arms 12.

The use of the design of a gateway regulator allows relatively simple means to ensure reliable synchronization of all valves and thereby prevent current flow in the downstream.

Claims (1)

1. USSR author's certificate number 386056, cl. E 02 B 8/02, 1970 (prototype).