RU2028429C1 - Device for cleaning water reservoirs and sapropel excavation - Google Patents

Abstract

FIELD: cleaning of water reservoirs. SUBSTANCE: hose of intake working member and means for its motion are secured with their end to rope. Rope is wound on two driving drums. The other end of hose is fastened to branch pipe. Secured to branch pipe is link connected with locks by means of rope. Locks are installed on rope on both sides of hose. EFFECT: higher efficiency. 2 cl, 1 dwg

Description

 The invention relates to the operation and maintenance of water bodies and can be used for cleaning water bodies of humoid formations, including sapropel.

 A device for cleaning channels containing a support mechanism, a frame with a working body mounted on it with the ability to move vertically, knives and a screw located in the casing, a cleaning product removal mechanism and a drive [1].

 Disadvantages: the intake working body is equipped with knives that destroy the bottom cover of the reservoir, which leads to disruption of the functions of the reservoir and its more rapid siltation.

 As a prototype, a channel cleaner was chosen, containing a frame, an arrow, a working body mounted on it, moving in a vertical plane and containing curved knives and a screw located in the casing [2]. Knives are installed across the channel according to its profile, while moving, they cut soil from the walls and bottom of the channel, the auger transfers it to the conveyor belt and further to the receiver.

 The disadvantages of the prototype: knives destroy the bottom cover of the reservoir, which affects the flora and fauna of the latter. In addition, the design of the scrubber is very energy intensive; boom drive of the working body, auger, side knives, conveyor belt.

 The purpose of the invention is the reduction of energy consumption directly when cleaning the reservoir.

 This is achieved by the fact that the intake working body, moved to the place of development, for example, using a sleeve filled with compressed gas, is made in the form of a screw placed in a tubular casing, in the wall of which a sampling window is made in the center. The auger core on both sides is connected to the discharge pipes passed through twisted tori, also installed on both sides of the auger. The discharge pipes are connected by cables with reversible rotating drive drums. In the walls of the outlet pipes, outlet holes are made adjacent to the screw. Behind the tubular casing, on either side of it, on the outlet pipes additional twisted tori are installed, installed in pipes concentrically mounted on the ends of the tubular casing.

 It is known that the torus is a segment of the sleeve, the edges of which are inverted and connected (glued) to each other. When the symmetrical points are displaced at the edges of the sleeve around the circumference and their subsequent fastening, a twisted torus is obtained. When translating the pipe, on which the twisted torus is mounted, the latter will rotate the pipe, and with it the screw. Alternate reciprocating movement of both outlet pipes (with reverse rotation of the drive drums) creates an alternate rotation of the screw turns in one direction or another. By gravity, the sapropel coming through the intake window by turns of the screw is alternately pushed to one or the other outlet holes made in the walls of the outlet pipes adjacent to the screw.

 The drawing schematically shows a General view of the proposed device.

 It contains an intake working body, a means of moving it and an organ for removing the cleaning product (sapropel), while the intake working body is made in the form of a screw 1 enclosed in a tubular casing 2 with a sampling window 3 made in the central part of the casing 2. The core of the screw 1 is connected their ends with outlet pipes 4 and 5, on which respectively twisted tori 6 and 7 are installed on both sides of the screw 1. Pipes 4 and 5 are respectively connected by cables 8 and 9 with reversibly rotating drive drums 10 and 11. In the walls of pipes 4 and 5 are made abducing e holes 12 and 13 adjacent to the screw 1 on both sides. Behind the tubular casing 2, additional twisted tori 14 and 15, enclosed in pipes 16, 17, respectively, are installed on the pipes 4, 5.

 The device operates as follows. The device is transported to the place of development. Drives with drive drums 10 and 11 are installed on opposite sides of the reservoir. A device for cleaning ponds and sapropel production is lowered into the pond to the bottom. Sapropel by gravity through the intake window 3 enters the tubular casing 2. Reversally rotating, the drive drums 10 and 11 alternately pull and release the cables 8 and 9, and with them the pipes 4 and 5. When the pipes 4 and 5 are moved in turn, the installed ones move with them they have twisted tori 6 and 7 and additional twisted tori 14 and 15. Due to the torsion of the tori 6 and 7, 14 and 15, the pipes 4 and 5 and the screw 1 rigidly connected to them rotate when moving, while the screw 1 picks up the incoming sapropel and takes it to the abduction one by one at the hole 12, or with the opposite rotation of the turns to the hole 13, and then to the receivers. Twisted tori 6, 7 and 14, 15 serve not only to rotate the screw (there and back), but also to center the outlet pipes moving inside the tubular casing 2 and pipes 16, 17.

 The proposed device is simple in design, it reduces energy consumption for the intake and removal of sapropel, and also eliminates the destruction of the bottom cover of a swampy reservoir.

Claims (2)

 1. A DEVICE FOR CLEANING RESERVOIRS AND SAPROPEL MINING, containing an intake working member with a screw located in a tubular casing, means for moving the intake working member and a cleaning product removal body with a drive, characterized in that, in order to reduce energy consumption, the screw core is on both sides connected to the discharge pipes passed through twisted tori and connected by cables with reversibly rotating drive drums, while in the tubular casing an intake window is made, and in the discharge pipes the exhaust opening tions adjacent to the auger.  2. The device according to claim 1, characterized in that for centering the outlet pipes, additional twisted tori are installed on them behind the casing, enclosed in pipes concentrically attached to the ends of the tubular casing.

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