RU2087616C1 - Device for hydraulic storing of grainy wastes - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: device for storing earth has reservoir 1 created by barrier dike 2, spillway well which is made inclined in the form of two spillway tubes 3 located on head slope of dike 2 and ridge, and water-branching collector. Water spillway tubes 3 are made of metal and connected with collector by means of pipe unions with possibility of turning tubes 3 in cross-sectional plane of dike 2 and they are attached to concrete anchor slabs 8. At side of reservoir 1, water spillway tubes have water-intake holes 8 which can be closed by closing members 9 as vessel is being filled with wastes. EFFECT: high efficiency. 3 cl, 4 dwg

Description

 The invention relates to hydraulic engineering, and in particular to devices for hydraulic storage of granular waste.

A device is known for hydraulic storage of granular waste, including a tank formed by a boundary dam and a vertical spillway connected to a drainage collector at the base of the upper slope of the dam and containing water intake openings made in the side wall so that they can be closed with overlapping elements as the container is filled with waste [1]
A disadvantage of the known device is the difficulty of its operation due to the difficult access to a vertical spillway well, surrounded on all sides by the water of a sludge pond, which is necessary to inspect the spillway, increase its height and / or close its water inlet openings with overlapping elements.

 The technical result of the invention is to simplify the operation of the device by providing access to a spillway well.

 The specified technical result is achieved due to the fact that in the device for the hydraulic storage of granular waste, including a tank formed by the enclosing dam, and a spillway connected to the drainage collector at the bottom of the upper slope of the dam and containing water inlets made in the side wall with the possibility of their closure by overlapping elements as the container is filled with waste, according to the invention, the spillway is made in the form of one or more spillway t loss located on the upper slope of the boundary dam and connected to the drainage collector with the possibility of rotation in the plane of the cross section of the fence by means of a pair of nozzles, one of which is located on the drainage manifold, and the other on the spillway, while one nozzle of the pair enters the other axis pairs of nozzles are parallel to the enclosing dam, and water intake openings are made in the side wall of the pipe facing the tank.

Additionally:
water-receiving holes along the length of the drainpipes are made with an offset relative to each other;
a spillway pipe is made of metal and is equipped with anchor supports attached to it along its length;
the overlapping element is made in the form of a part of the wall mounted with the possibility of its fastening on the spillway.

 The essence of the technical solution lies in the fact that the spillway is located along the length of the upper slope of the enclosing dam between its sole and crest.

 In FIG. 1 shows a device at the initial moment of waste storage, plan; in FIG. 2, section 1-1 in FIG. one; in FIG. 3, section 2-2 in FIG. one; in FIG. 4, section 3-3 in FIG. 3.

 The device includes a tank 1, formed by the enclosing dam 2, a spillway well, inclined in the form of two spillways 3, parallel to each other on the upper slope of the dam 2 between its sole and crest, and a drainage collector 4. Each spillway 3 of the soles of the upper slope the boundary dam is connected to the drainage collector 4 with the possibility of rotation in the plane of the cross section of the boundary dam 2 by means of a pair of nozzles 5 and 6, the axis of which is parallel to the boundary dam 2. When this nozzles 5 are located on the drain pipes 3 and are included in the nozzles 6, which are located on the drain manifold 4 and give it a T-shape, forming the console of its shelves. The spillway pipes 3 are made of metal, and along the length of the lower side wall are connected with the upper slope of the dam 2 by means of anchor supports made in the form of concrete slabs 7 and attached to them. In the side walls of the spillway pipes 3 from the side of the tank 1 there are water intake openings 8 closed by the overlapping elements 9 as the tank is filled with waste 10.

 The pipe 5 is connected directly to the spillway 3 / Fig. 2 / or through a transitional elbow / not shown /. Each overlapping element 9 is made of part 11 / Fig. 3 and 4 / of the wall cut from the spillway pipe 3 when a water inlet hole 8 is made in it, which is carried out after fixing the stiffening ribs longitudinal 12 and transverse 13 to the spillway 3 and longitudinal 14 and transverse 15 on the cut out part 11. In this case, the longitudinal stiffeners 12 made continuous along the length of the discharge pipe 3 and together with the stiffeners 13, 14 and 15 form on the wall of the spillway 3 closed in the plan trays 16 with longitudinal slots 17 in their bottoms. Each overlapping element 9 is supported by stops 18, secured by a pin 19, and the slots 17 are blocked by a seal 20, over which there is a plate in the form of a saddle-shaped frame 21.

 All water inlet openings 8 and all elements 9 that overlap them are made simultaneously with the production of spillway 3 prior to their installation on the slope of the boundary dam 2. In this case, one of the saddle-shaped frames 21 is used as a template when installing stiffeners 12, 13, 14 and 15, and therefore, for marking the location of the water intake holes 8, which along the length of the pipes 3 are offset relative to each other.

 The water inlet openings 8 of the boom 22 are protected from the ingress of floating objects and waste. The boundary dam 2 is protected from penetration of water through it by the shield 23, and from local erosion by coating 24.

 The device operates as follows.

 When feeding ash, for example, ash and slag pulp according to the “coast to dam” scheme, a settling pond 25 is formed at the upper slope of the enclosing dam 2, clarified water from which through the lower water inlet holes 8 first flows into the drainage pipes 3, and then into the drainage collector 4 and it is diverted to the secondary settling pond / not shown /. As the storage 1 is filled with waste 10, the working water intake openings 8 are closed by overlapping elements 9, which are supplied by a crane from the dam crest and are installed using a boom 22 and interchangeable platforms / not shown /. In this case, the installation of the seal 20 in the tray 16 is carried out together with the saddle-shaped frame 21, to which the seal 20 is attached, and the displacement of the water intake holes 8 relative to each other on the waste pipes 3 ensures the continuous flow of clarified water into the drainage collector 4.

 When the upper slope of the dam dam 2 is deformed, the drainage pipes 3 rotate around hinges formed by pairs of nozzles 5 and 6 with a seal (not shown), and from the ascent, the drainage pipes 3 are held by anchor plates 7. Therefore, the drainage pipes 3 do not significantly affect the drainage collector 4 and thereby do not violate the water resistance of the screen 23 in contact with the collector 4.

 With an increase in capacity 1, the protective dam 2, and then the spillway pipes 3, build up first.

 The use of the invention will simplify the operation of the waste storage by providing access to the spillway well directly from the crest of the enclosing dam.

Claims (4)

 1. A device for the hydraulic storage of granular waste, including a tank formed by the enclosing dam, and a spillway connected to the drainage collector at the base of the upper slope of the dam and containing water intake openings made in the side wall with the possibility of closing them with overlapping elements, characterized in that a spillway well is made in the form of one or more spillway pipes located on the upper slope of the enclosing dam and connected to a drainage collector with the possibility of rotation in the plane of the cross section of the dam by means of a pair of nozzles, one of which is located on the drainage manifold, and the other on the spillway, while one pair of nozzles enters the other, the axis of the pair of nozzles is parallel to the enclosing dam, and water inlets are made in the side wall of the pipe facing the tank.  2. The device according to claim 1, characterized in that the water inlet openings along the length of the spillway pipes are offset from each other.  3. The device according to claim 1, characterized in that the spillway pipe is made of metal and is provided with anchor supports attached to it along the length.  4. The device according to claims 1 and 3, characterized in that the overlapping element is made in the form of a part of the wall mounted with the possibility of its fastening on the spillway.

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