SU844668A1 - Water inlet of multilevel tunnel-type water-passing structure - Google Patents

Description

The invention relates to the field of construction of reservoirs on rivers transporting a large number of suspended and entrained sediments, g it can mainly be used in the construction of reservoirs with a measured water level, for example, a celery storage facility.

Known onshore water intake multi-level tunnel culverts with several water inlets at different heights m

The disadvantage of this water intake ¹³ is the need to build several independent water intake openings on different tiers. This is associated with high costs for the construction of roads in difficult mountain conditions, as well as with the excessive consumption of concrete for the implementation of water receivers. In addition, the disadvantage of this water intake is the complexity and lack of reliability of regulation of water passes in the entire range of water levels in the reservoir.

The purpose of the invention is the provision of regulation of water passes in the entire range of water levels in the reservoir-30 leaf with a minimum volume of concrete ^; ny works.

This is achieved by the fact that the water intake is made stepwise, while the lifting mechanisms of the gates of the lower and intermediate students are located respectively on the overlying steps, while the additional steps are made on the lower stage and the main water receiving openings on the upper steps from the side faces.

In FIG. 1 shows a longitudinal section of a water intake; in FIG. 2 a section A-A of FIG. 1.

The water intake includes a tower 1, made in the form, for example, of a three-stage concrete structure supported on a coastal slope 2.

In the lower stage 3 of the water intake there are two tiers of water inlets: the lower tier, consisting of one hole 4, located on the frontal face 5, and the upper tier, consisting of two additional holes 6, located in the upper part of the side faces 7. Lower (frontal) hole 4 is connected to the tunnel 8 of the lower tier of the discharge path. The upper (side) 3 holes 6 are combined into one conduit 9, which is connected to the tunnel 10 of the second tier of the discharge path and is blocked by a shutter 11. At the top of the lower stage there is a lifting mechanism 12 of the shutter 13 of the frontal aperture 4. 5

In the second (middle) 14 and third

I (upper) 15 steps there are only the main side holes 6, which are combined into a single water conduit 9, blocked by a shutter 11 connected to the tunnels 16 and 17 of the discharge path. At the top of the middle stage 14 are the lifting mechanisms of the shutter of the water conduit 9 (lower) stage 3, at the top of the upper stage are the lifting mechanisms of the shutters 15 of the shutters on the water conduit 9 of the middle 14 and upper 15 stages,

They build a water intake and works * as follows.

First of all, the lower 20 tunnel 8 and the lower stage 3 of the water intake are being built. After that, the flow rate of the river is switched into a tunnel., And a first stage dam is erected in the riverbed (up to the mark of the top of the lower stage 3) 25

By the time the sediment approaches the lower water inlet 4, a tunnel 10 and the middle stage of the water inlet are constructed. Water releases through the tunnel 10. ep. By the time of entering the reservoir to the mark of the upper level of the lower stage, tunnels of the middle stage 14 are being built and the upper stage of the 15th water releases through the tunnel 16. And by the time of entering the reservoir to the top of the middle stage 14, the tunnel 17 is being built and the water pipe 9 of the upper stage 15 is equipped with a shutter 11. After of this, water releases from the reservoir through the lateral openings of the upper stage 15 and the tunnel

17.

Thus, due to the steppedness of the tower and the described location of the water intake openings in the steps of the tower, it is possible to control the water releases in the entire range of water levels in the reservoir, as well as to reduce the volume of concrete work and the possibility of phased commissioning of the structure, i.e. more effective investment in construction.

Claims (2)

The invention relates to the field of construction of reservoirs on rivers transporting a large amount of suspended and drawn sediments, it can preferably be used in the construction of reservoirs with a measured water level, for example, a reservoir. The coastal water intake of a multi-tunneling water-passage structure is known, having several water intakes at different heights l. The disadvantage of this water intake is the need to build several independent water intakes on different rus. This is associated with high costs for the construction of roads in difficult mountain conditions, as well as with the extra consumption of concrete for receiving water. In addition, the disadvantage of this water intake is the complexity and insufficient reliability of controlling water passes throughout the water level in the reservoir. The purpose of the invention is to provide for the regulation of water passes in the entire range of water levels in a reservoir with minimal amounts of concrete work. This is achieved by the fact that the water intake is made stepwise, while the lifting mechanisms of the lower and intermediate geese shutters are located respectively on the overlying steps, while additional steps are made on the lower steps, and the main inlets on the side faces are on the lower steps. FIG. 1 shows a longitudinal section of the water intake; in fig. 2, section A-A of FIG. 1. The water intake includes a tower 1, made in the form of, for example, a three-stage concrete structure supported on the coastal slope 2. In the lower stage 3 of the water intake there are two rivers of water intake holes: the bottom Russian, consisting of one hole 4, located on the front face 5, and the upper shaft, consisting of two additional holes 6, located in the upper part of the lateral faces 7. The lower (frontal) hole 4 is connected to the tunnel 8 of the lower floor of the outgoing tract. The upper (side) openings 6 are combined into one conduit 9, which is connected to a tunnel 10 in the second route of the outgoing tract and is blocked by a shutter 11. At the top of the lower stage there is a lifting mechanism 12 of the shutter 13 of the frontal opening 4. In the second (middle) 14 and third 1 (upper) 15 steps, there are only main side openings 6, which are combined into a single conduit 9 blocked by a shutter 11 connected to the tunnels 16 and 17 of the tapping path. At the top of the middle step 14 are located the lifting mechanisms of the terminal 9 (bottom) steps 3, to the top the upper stage - the lifting mechanisms of the valves on the conduit 9 of the middle 14 and the upper 15 stages. The water intake is raised and it works as follows. First of all, the lower tunnel 8 and the lower stage 3 of the water intake are built. After that, the river flow is switched to the tunnel, and a dam of the first stage is erected (up to the top level of the lower stage 3). By the time sedimentation approaches the lower water intake 4, a tunnel 10 and an average water intake stage are constructed. Water is emitted through a tunnel 10.. At the time of entering the reservoir to the top of the lower stage, tunnels of the middle stage 14 and upper stage 15 are being built and water outflows are made through the tunnel 16. And by the time the reservoir is brought to the top of the middle stage 14, a tunnel 17 is being constructed and the water supply channel 9 is equipped with the upper stage 15 with gate 11 By this, water is released from the reservoir through the side openings of the upper stage 15 and the tunnel 17. Thus, thanks to the tower’s altitude and the described arrangement of the water intake holes in the tower’s steps, regulation of water outflows in the whole range of water levels in the reservoir, as well as reduction in the volume of concrete work and the possibility of phased commissioning of the structure, i.e. more efficient investment in construction. Claim 1. Intake receiver of a multi-tunnel tunnel culvert having several water inlets covered with valves with lifting mechanisms at different heights, characterized in that in order to control water outflows throughout the whole range of water levels in the reservoir with minimum volumes of concrete work, the intake water made step-by-step, with the lifting mechanisms of the locks. The lower and intermediate steps are located respectively on the overlying steps. 2. The water receiver according to claim 1, is different from the fact that additional steps were made on the lower stage, and the main water intake holes on the side faces of the “Sources of information taken into account during the examination” on the bottom steps 1. Grishin M.M. . Hydrotechnical structures. M., 1962, p. 418, Figure 1717. rr q./ / 7 piff.2