RU2084586C1 - Shipping lock - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: navigation lock has chamber with upper and lower heads located at side of upstream water and downstream water, also feed system and water duct which additionally connects chamber with downstream water. Water duct is directed laterally or longitudinally and is connected to chamber directly at upper head. It accommodates inlet gate and injector-ejector unit located at its straightline section and having two jet-type multiple-nozzle pumps. One of pumps is located in upstream half-block and is made in the form of injector which delivers water to lock chamber, and other pump located in downstream half-block is made in the form of ejector and is used for withdrawing water from chamber. Injector is made in the form of one group of nozzles, and ejector is made of another group of nozzles which are directed along water duct at acute angle α to its axis. Nozzles of one group are directed towards chamber, and nozzles of other group - towards downstream water. Nozzles of both groups are arranged over perimeter of water duct cross section and are provided with pressure chambers which are located around water duct and connected with upstream water by pipelines with shut-off devices. EFFECT: high efficiency. 2 cl, 4 dwg

Description

 The invention relates to hydraulic engineering and for the construction of shipping locks on waterways.

A navigable lock is known, including a lock chamber with heads located on the side of the upper and lower downstream, a camera feed system and a water conduit, additionally communicating with a lower downstream chamber and containing a shutter and an ejector, the nozzle of which is directed along the water conduit towards the lower downstream, with the inlet opening water conduit is located in the chamber directly at the head of the horse [1]
A disadvantage of the known shipping lock is the reduced performance due to insufficient supply of water into the lock chamber to the stern of the displayed vessel.

 The technical result from the implementation of the invention is to improve performance by increasing the supply of water into the chamber of the airlock to the stern of the output vessel.

 This technical result is achieved by the fact that the navigable lock includes a lock chamber with heads located on the side of the upper and lower heads, a chamber power supply system and a water conduit: additionally communicating a chamber with a lower concave and containing a shutter and an ejector, the nozzle of which is directed along the water conduit towards the downstream moreover, the inlet to the conduit is located in the chamber directly at the head, the conduit is equipped with an injector, the nozzle of which is directed along the conduit towards the chamber.

 In addition, the injector and / or ejector is each made in the form of a group of nozzles located along the perimeter of the cross section of the conduit at an acute angle to its axis and equipped with a common pressure chamber located around the conduit.

 In addition, the shutter is located directly at the entrance to the conduit.

 In FIG. 1 shows a navigable single-chamber lock with a drain (supply) of water from the chamber from the upper head to the downstream along the transverse conduit, plan; in FIG. 2, section AA in FIG. one; in FIG. 3 the same as in FIG. 1, but with water drainage along a longitudinal water conduit; in FIG. 4 a section BB in FIG. 3.

 The shipping lock contains a lock chamber 1 with the heads of the upper 2 and lower 3, located on the side of the upper and lower pools respectively from the dam 4 adjacent to the upper head 2, a camera power supply system and a water conduit 5, additionally communicating the camera 1 with the lower pool. The heads 2 and 3 are provided with gates, respectively, upper 6 and lower 7. The power supply system of chamber 1 contains two longitudinal galleries 8, each of which is located in the bottom 9 of chamber 1, communicated by an inlet section 10 with a reservoir 11, outlets 12 dispersed with chamber 1, and a discharge section 13 with a riverbed 14 in the downstream and equipped with working gates upper 15 and lower 16 located within the heads of the inlet 17 and outlet 18, respectively. The water conduit 5 has a lateral (lateral) direction in relation to chamber 1, communicated from the chambers oh 1 through the transverse gallery 19 with the outlets 20 (Fig. 2) located in the bottom 9 of the chamber 1 directly at the upper head 2 above the galleries 8, and with the lower pool through the discharge head 21. The water conduit 5 contains a shutter 22 at the entrance, and at its a straight section of the injector-ejector unit 23, which includes two multi-nozzle jet pumps, one of which is made in the form of an injector 24 (upper half block), forcing water into the chamber 1, and the other in the form of an ejector 25 (lower half block), which performs suction water from cameras 1.

 The injector 24 is made in the form of a group of nozzles 26, and the ejector 25 in the form of a group of nozzles 27, which are directed along the water conduit 5 at an acute angle α to its axis, with the nozzle 26 toward the chamber 1 and the nozzle 27 toward the downstream, and are located the perimeter of the transverse conduit 5 so that the outlet openings 28 of the nozzles 26 and the outlet 29 of the nozzles 27 are located in the conduit 5 without the formation of protrusions, the group of nozzles 27 being a common pressure chamber 31. The pressure chambers 30 and 31 are located around the conduit 5 and communicate with upstream through supply pipelines respectively Accordingly, 32 and 33, the inlet openings of which are located in the inlet head 17 of the power system and are equipped with locking devices 34 and 35, respectively.

 During the additional communication of the chamber 1 with the downstream with two water conduits 5 (Fig. 3), their inlet openings 36 (Fig. 4) are located in different side walls 37 of the chamber 1 without the transverse gallery 19, which, if necessary, is replaced by a shallow trench 38 (Fig. 3). 4). In this case, the water conduits 5 are located along the chamber 1, each is equipped with an injection-ejector unit 23 (Fig. 3) and is connected to the downstream via the discharge section 39 of the power system by connecting the water conduit 5 to the longitudinal gallery 8 in the region of the lower head 3.

 If necessary, two or more injector-ejector blocks 23 can be installed sequentially on the water conduit 5, and with the assumption that the water conduit 5 is activated in the non-pressure mode, the nozzles 26 and 27 are located mainly in the lower flooded part of the transverse water conduit 5, and the supply of high-pressure water to the block 23 can be carried out by a pump (not shown).

 If the shipping lock is made multi-chamber, each of its middle heads and gates and locks located within it with respect to the camera located on the side of the upper pool from this head will be lower, and with respect to the camera located on the side of the lower pool from this head , top. At the same time, the water in the adjacent chamber or in the approach channel will be the head of the chamber.

 The vessel is introduced into the empty chamber 1 from the downstream side and the vessel is withdrawn from the chamber 1 with the upper gates 6 and the upper working gates 15 closed and the lower gates 7 open, the lower working gates 16 and the shutter 22 at the entrance to the water conduit 5. Additionally, when entering the vessel into the chamber by opening the locking device 35, the ejector 25 is activated, as a result of which water is sucked out of the chamber 1 through the conduit 5 into the downstream, thereby preventing the formation of a lifting wave in front of the bow of the vessel. When the vessel is withdrawn from the chamber 1 by opening the shut-off device 34, the injector 24 is activated, as a result of which water is supplied to the chamber 1 due to the discharge of water from the upper pool through the injector 24 and due to the injection of water from the lower pool through the water conduit 5, what prevents the formation of a decay wave behind the stern of the vessel and creates a flow of water in the chamber from the upper head 2 to the lower head 3, which corresponds to the direction of movement of the vessel.

 The location of low-nozzle nozzles 26 and 27 along the perimeter of the cross-section of the water conduit 5 provides an efficient transfer of the kinetic energy of high-speed jets to the low-speed water flow in the water conduit in its short section due to the large total surface of the interaction of the jets with the flow, the efficiency is increased.

 The input and output of the vessel in the upper pool is made through head 2 in the usual manner, since the phenomenon of the piston effect in the filled chamber is weak.

 The water conduit 5 is used during the input (output) of medium and large vessels, and the injector-ejector unit is used mainly only for large vessels.

 A transverse water conduit 5 (Fig. 1) can be activated, with or without an ejector 25, by opening the shutter 22 at the final stage of emptying the chamber when emptying is carried out at low pressure. In the case of attaching a longitudinal water conduit 5 (Fig. 3) to the longitudinal gallery 8 of the power system from the upper side from the lower working shutter 16, the filling time of the chamber can also be reduced by additionally letting water from the upstream into the chamber at the final stage of filling through nozzles 26 and 27 injector-ejector unit 23 by opening the locking device 34 and / or 35 on the pipelines 32 and 33.

Claims (3)

 1. A shipping lock, including a lock chamber with heads located on the upper and lower downstream side, a camera feed system and a water conduit, additionally communicating with a lower downstream chamber and containing a shutter and an ejector, the nozzle of which is directed through the water conduit towards the lower downstream, and the inlet opening in the conduit is located in the chamber directly at the head, characterized in that the conduit is equipped with an injector, the nozzle of which is directed along the conduit towards the chamber.  2. The gateway according to claim 1, characterized in that the injector and / or ejector are each made in the form of a group of nozzles located along the perimeter of the cross section of the conduit at an acute angle to its axis and equipped with a common pressure chamber located around the conduit.  3. The gateway under item 1, characterized in that the shutter is located directly at the entrance to the conduit.

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