RU198478U1 - DEVICE FOR WATER CLEANING AND SAPROPEL PRODUCTION - Google Patents

Abstract

The utility model relates to the technique of cleaning reservoirs from humoid formations and sapropel extraction. The device for cleaning reservoirs and extraction of sapropel includes a suction-type intake working body, a means for moving it and a cleaning product removal device connected with the drive, and the intake body is made in the form of a conical pipe with a check valve fixed at the end of the moving sleeve. A conical torus is installed inside the pipe. , through which a cable is passed, one end of which is attached to the inner wall of the nozzle, and the other is wound on a drive drum installed in a sealed chamber. The moving sleeve, at the end of which an intake working body is fixed, is fixed at the other end in a sealed chamber communicating with the working agent supply system. The inner walls of the conical torus are helically twisted relative to the central axis of the torus, and the degree of twisting of the inner walls of the torus should be such that the formation of a dense linear bundle tenaciously enclosing the cable is achieved. The technical result is to increase the service life and reliability of the device. 1 ill.

Description

The utility model relates to the technique of cleaning water bodies from humoid formations and sapropel extraction.

A device for cleaning water bodies is known, containing a dredger with a suction pipe, a mechanism for lifting it, a mechanism for suction and supply of pulp, as well as a ripper with L-shaped grips - cutters [USSR inventor's certificate for invention No. 1078002, IPC E02F 5/28, 1982 - analog].

The disadvantages of this device are large dimensions, due to the need for a floating craft as a means of moving the intake working body and low maneuverability.

Of the known technical solutions, the closest to the claimed technical solution (prototype) is a device for cleaning water bodies and extracting sapropel, which includes an intake working body of the suction type, a means for moving it and a device for removing the cleaning product associated with the drive, and the intake body is made in the form of a conical pipe with a check valve attached to the end of the moving sleeve, a conical torus is installed inside the pipe, through which a cable is passed, one end of which is attached to the inner wall of the pipe, and the other is wound on a drive drum installed in a sealed chamber, and the moving sleeve, at the end of which is fixed an intake working body, the other end is fixed in a sealed chamber communicating with the working agent supply system [RF patent for invention No. 2028435, IPC E02F 5/28, 1995 - prototype].

The disadvantages of the device - the prototype are a relatively shorter service life due to uneven crushing of the walls of the conical torus during its rolling and the possibility of the cable slipping through the inner walls of the torus during operation.

The task of the utility model is to increase the service life and reliability of the device.

To solve the set problem in a device for cleaning water bodies and extracting sapropel, which includes a suction-type intake working body, a means for moving it and a cleaning product removal device connected with a drive, and the intake body is made in the form of a conical pipe with a check valve fixed at the end of the moving sleeve , a conical torus is installed inside the branch pipe, through which a cable is passed, one end of which is attached to the inner wall of the branch pipe, and the other is wound on a drive drum installed in a sealed chamber, and a moving sleeve, at the end of which an intake working body is fixed, is fixed at the other end in a sealed In the chamber communicating with the working agent supply system, the inner walls of the conical torus are helically twisted relative to the central axis of the torus, and the degree of twisting of the inner walls of the torus should be such that the formation of a dense linear bundle tenaciously enclosing the cable is achieved.

The essence of the utility model lies in the fact that the inner walls of the conical torus are helically twisted relative to the central axis of the torus, and the degree of twisting of the inner walls of the torus should be such that the formation of a dense linear bundle, tenaciously enclosing the cable, is achieved.

The first new feature, consisting in the helical twisting of the inner walls of the conical torus, allows the claimed technical solution to achieve new properties, consisting in achieving uniform crushing of the entire surface of the conical torus and achieving a more tenacious grip of the cable by the inner walls of the conical torus. The second new feature, which consists in the fact that the degree of twisting of the inner walls of the torus should be such that the formation of a dense linear bundle of tightly covering the cable is achieved, allows the claimed technical solution to achieve a new property, which consists in achieving the optimal mechanical structure of the inner walls of the torus, which allows sufficiently tenaciously to cover rope and not reach overstress and the exit of the inner walls of the torus beyond the limits of linear equilibrium. These new features and properties are absent in the known technical solutions and allow the claimed technical solution to achieve the effects of increasing the service life and reliability of the device.

The foregoing allows us to assert that the proposed technical solution meets the criteria of the invention "novelty" and "inventive step".

In FIG. 1 schematically shows a general view of the proposed device for the purification of reservoirs and the extraction of sapropel.

The device for cleaning water bodies and extracting sapropel contains a sealed chamber 1 communicating with the working agent supply system 2. In chamber 1, a drive drum 3 is installed, on which a cable is wound 4. In a sealed chamber 1, a sleeve 5 is fixed at one end, at the other end of which an intake working body is fixed, made in the form of a conical pipe 6 with a check valve 7, in which a conical torus is installed 8, through which a cable 4 is passed, attached to the wall of the branch pipe 6. The inner walls 9 of the torus 8 are twisted helically. A discharge pipe 10 with a valve leaves the sealed chamber 1.

Device operation

The proposed device for the treatment of reservoirs and the extraction of sapropel works as follows. The device is delivered to the site of development by road transport or floating vehicle. A compressor station or other source of compressed air is also delivered here. By the system 2 for supplying the working agent into the sealed chamber 1, the working agent is pumped, which unfolds the length of the sleeve 5, which moves the intake working body fixed at its free end. After the cone 6 comes out of the sleeve 5, the working agent is released. The drum 3 is set in reverse rotation, respectively, the cable 4 wound on it drives the torus 8 into reciprocating motion. The inner walls 9 of the torus 8 are helically twisted. Moreover, the degree of twisting of the inner walls 9 of the torus 8 should be such that the formation of a dense linear bundle that tightly encompasses the cable 4 is achieved, but at the same time excessive twisting of the inner walls 9 is not allowed, which leads to overstress and the exit of the inner walls 9 of the torus 8 beyond the linear equilibrium. The action of torus 8 is as follows. Pulling with the cable 4 towards the narrowed part of the branch pipe 6, it increases the pressure in the sleeve 5, returning due to the taper to its original place, forms a vacuum, due to which the sapropel flows through the valve 7 by the following movement of the torus 8 into the narrowed part of the branch pipe 6, the sapropel is pushed into the sleeve 5, when the torus 8 returns to its original position, the sapropel is sucked in again. Then the cycles are repeated.

When the cable 4 moves, it is tenaciously captured by the helical twisted inner walls 9 of the torus 8, and due to the friction between the moving cable 4 and the twisted inner walls 9 of the torus 8, the latter, rolling, moves. When the torus 8 rolls on one side, the outer walls of the latter, passing into the inner ones, begin to twist and capture the cable 4, on the other hand, the inner walls 9 of the torus 8, passing into the outer ones, begin to unwind and move away from the cable 4.

After filling the sleeve 5 with sapropel, the drum 3 is switched to a constant rotation mode. The cable 4 is wound on the drum 3, pulling the branch pipe 6 to the sealed chamber 1. At the same time, the sleeve 5 is turned out and squeezes the sapropel into the outlet pipe 10.

The use of the proposed technical solution, in comparison with the prototype device, makes it possible to increase the service life of the device due to uniform crushing and wear of the walls of the conical torus during operation, as well as to increase the reliability of the device in operation due to more reliable seizure of the cable by the twisted inner walls of the conical torus.

Claims (1)

A device for cleaning reservoirs and extraction of sapropel, including a suction-type intake working body, a means for moving it and a cleaning product removal device associated with the drive, and the intake body is made in the form of a conical pipe with a check valve fixed at the end of the moving sleeve, inside the pipe there is a conical torus through which a cable is passed, one end of which is attached to the inner wall of the branch pipe, and the other is wound on a drive drum installed in a sealed chamber, and a moving sleeve, at the end of which an intake working member is fixed, is fixed at the other end in a sealed chamber communicating with the system supply of a working agent, characterized in that the inner walls of the conical torus are helically twisted relative to the central axis of the torus, and the degree of twisting of the inner walls of the torus should be such that the formation of a dense linear bundle, tenaciously enclosing the cable, is achieved.

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