RU2023805C1 - Fish protecting apparatus of water intaking structure - Google Patents

Abstract

FIELD: hydraulic technology. SUBSTANCE: water, using feeding canal goes to water receiving chambers, made of net type sheets, set as V-shape in plan, and net type flaps, that form filtering bottom of water receiving chambers. Garbage and fish fry are delayed at net type sheets and filtering net type bottom and pure water is going into water intake to consumer. To clean net type sheets water spraying flute-like pipes, mounted so as to be capable to move along net type sheets. Washed out fish fry and garbage are transported by water in direction to garbage and fish leadaway. To clean net type flaps perforated water pipes are used, sprays of which wash out drifts and garbage in direction of garbage withdrawing passage, by which garbage and drifts are fed into garbage and fish leadaway. EFFECT: fish protecting apparatus of water intaking structures is used in hydraulic technology. 2 cl, 7 dwg

Description

 The invention relates to hydraulic engineering, in particular to fish protection devices designed to protect juvenile fish from getting into water intake structures.

 In FIG. 1 shows the proposed device, a cross section; in FIG. 2- the same device, a fragment of the plan; in FIG. 3 shows the assembly I in FIG. 1; in FIG. 4 shows a system of ejector devices; in FIG. 5 - water intake chamber in isometry; in FIG. 6 shows the device in plan; in FIG. 7 - device of a waterproof screen, fragment.

 The fish protection device of the water intake structure includes V-shaped water reception chambers 2 installed in the supply channel 1 in plan, consisting of mesh cloths 3 connected to pontoons 4 located in the upper part of the mesh cloth 3 from the side of the water intake chambers 2, washing devices in the form of water-jet flutes 5, installed with the possibility of moving along the mesh cloths 3 from the intake 6, a waterproof elastic screen 7 attached to the bottom of the inlet channel 1 by the lower part, and to the bottom of the water receiving chambers 2, a trash guard 8 installed in front of the mesh sheets 3, a waste path 9 located along the mesh sheets 3 and connected to the garbage collector 10, ejector water-jet devices 11. The device is equipped with mesh flaps 12 having upper and lower water ducts 13 with holes and connecting the lower edges of two adjacent mesh paintings 3, forming a water intake chamber 2, while the mesh flaps 12 are made sectional with the location of the upper sections above the plane of the lower sections and set with a bias towards the garbage path 9, made in the form of a tubular collector located between the mesh flaps 12 and having longitudinal slotted holes 14, discretely located above the upper surface of the flaps 12, and ejector water-jet devices 11 are coaxially arranged inside the collector, path 9, moreover conduits 13 are located in the upper part of each section of the flaps 12, the openings of the conduits 13 are directed along the upper surface of the mesh flaps 12 towards the longitudinal slotted openings 14 of the collector, and an elastic screen 7 is located across the feed channel 1.

 The holes of the upper and lower water conduits 13 can be offset in plan relative to each other by an amount equal to half the pitch of the location of the holes.

 Fish protection device of the intake works as follows.

 The water flow entering the inlet channel 1, enters the water intake chambers 2, formed by mesh webs 3, installed V-shaped in plan, and mesh flaps 12, forming the filtering bottom of the water reception chambers 2. The flow of water, cleaned of debris, sediment and juvenile fish , enters the intake 6 and further to the consumer.

 To clean the mesh cloths 3, washing devices in the form of water-jet flutes 5 are used, placed behind them and installed with the possibility of longitudinal movement along the mesh cloths 3. To clean the mesh flaps 12, water conduits 13 are used, having perforation holes directed along the surface of the mesh flaps 12. Washed sediments and garbage are transported by hydraulic jets in the direction of the garbage collection path 9, made in the form of a tubular collector having longitudinal slotted holes 14 located in above the plane of the lower sections of the mesh flaps 12. Inside the tubular manifold placed ejector water-jet devices 11, powered from the pressure line of the pump (not shown). Due to the operation of the devices 11, debris and sediments are ejected through the longitudinal slit openings 14 and then transported along the waste path 9 to the garbage collector 10.

 Coarse litter is preliminarily delayed by a trash-holding grill 8 installed in front of the intake chambers 2. To ensure normal operation of the device in the event of a change in the water level in the supply channel 1, it is provided in the upper part with pontoons 4 connected to the mesh webs 3. In turn, the lower end edge of the mesh flaps 12 from the side of the feed channel 1 is connected to a waterproof elastic corrugated screen 7, the lower part of which is fixed to the bottom of the feed channel 1.

 Garbage and juvenile fish washed away from the mesh cloths 3 by washing devices 5 are transported in a transit stream towards the heads of the garbage collection 10, made in the form of vertical slots.

 The invention improves the efficiency of the device by a more rational use of structural elements and their layout. Due to this, with the same geometric dimensions, a higher flow rate is taken into the intake with lower filtration rates on the mesh web.

Claims (2)

 1. FISH-PROTECTING DEVICE FOR WATER INTAKE FACILITIES, including water intake chambers installed in the inlet channel, V-shaped in plan, consisting of mesh cloths connected to pontoons located in the upper part of the mesh cloths from the water intake chambers, washing devices in the form of water-jet flutes installed from the ability to move along the mesh cloths from the intake side, a waterproof elastic screen, attached with the bottom to the bottom of the inlet channel, and the top to the bottom of the intake chambers er, the heads of the garbage disposal, having a vertical water intake gap adjacent to the end parts of the water intake chambers, a trash guard installed in front of the mesh webs, a garbage path located along the mesh cloths and connected to the garbage disposal, ejecting a water-jet device, and it is provided with a water intake mesh flaps having upper and lower water conduits with openings and connecting the lower edges of two adjacent mesh cloths forming a water intake chamber ru, while the mesh flaps are made sectional with the upper sections above the plane of the lower sections and are installed with a slope towards the garbage path, made in the form of a tubular collector located between the mesh flaps and having longitudinal slotted holes discretely located above the upper surface of the flaps, and inside collector coaxially placed with it ejecting water-jet devices, with water conduits located in the upper part of each section of the flaps, openings of water conduits directed They are along the upper surface of the mesh flaps toward the longitudinal slotted openings of the collector, and the elastic screen is located across the feed channel.  2. The device according to claim 1, characterized in that the holes of the upper and lower water conduits are offset in plan relative to each other by an amount equal to half the pitch of the location of the holes.

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