RU202321U1 - DEVICE FOR CLEANING WATER BODIES AND PRODUCTION OF SILY SOIL - Google Patents

Abstract

The utility model relates to the technique of cleaning water bodies from humoid formations and mining of silty soils. The device for cleaning reservoirs and extraction of silty soils includes a U-shaped intake working body containing a housing with working chambers, suction and discharge openings with valves and a transport mechanism. The body is made in the form of a pipe of a smaller diameter with a torus installed in it, and the working chambers are made of pipes of a larger diameter, with tori installed in each of them, connected to the body at the ends. The transporting mechanism is made of a cable connected to the drive drums and passed through the inner walls of the tori, installed in the body and working chambers with the possibility of joint movement. Suction openings are made in the side walls of the working chambers, and the outlet openings are made in the end walls of the working chambers. The inner walls of all tori are helically twisted relative to the central axes of the tori, and the degree of twisting of the inner walls of the tori must be such that the formation of dense linear bundles covering the cable is achieved. The technical result is to increase the service life and reliability of the device.

Description

The utility model relates to the technique of cleaning water bodies from humoid formations and mining of silty soils.

Known fish-lifting device containing a U-shaped body with working chambers, a sleeve of elastic material, the ends of which are turned out and fixed on the inner walls of the working chambers, the supply and removal of the working agent and fish fry [and.with. USSR for invention No. 1521815, IPC Ε02B 8/08, 1987 - analogue].

The disadvantages of this device are low performance with significant energy consumption.

Of the known technical solutions, the closest to the claimed technical solution (prototype) is a device for cleaning reservoirs and extracting silty pounds, including a U-shaped intake working body containing a housing with working chambers, suction and discharge openings with valves and a transport mechanism. The body is made in the form of a pipe of a smaller diameter with a torus installed in it, and the working chambers are made of pipes of a larger diameter, with tori installed in each of them, connected to the body at the ends. The transporting mechanism is made of a cable connected to the drive drums and passed through the inner branches of the tori, installed in the body and working chambers with the possibility of joint movement. Suction openings are made in the side walls of the working chambers, and the outlet openings are made in the end walls of the working chambers [RF patent for invention No. 2030519, IPC # 02F 5/28, 1995, example 2, Fig. 2 - prototype].

The disadvantages of the prototype device are a relatively shorter service life due to uneven crushing of the torus walls, the possibility of the cable slipping through the inner walls of the tori and the possibility of fluid overflow through the inner walls of the tori.

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

Solution of a technical problem

To solve the set problem, in a device for cleaning water bodies and extracting muddy pounds, including a U-shaped intake working body containing a body with working chambers, suction and discharge openings with valves and a transport mechanism, the body is made in the form of a pipe of a smaller diameter with a torus installed in it , and the working chambers are made of pipes of a larger diameter, with tori installed in each of them, attached to the body at the ends, the transporting mechanism is made of a cable connected to the drive drums and passed through the inner walls of the tori installed in the body and working chambers with the possibility of joint movement , the suction holes are made in the side walls of the working chambers, and the outlet holes are made in the end walls of the working chambers, the inner walls of all tori are helically twisted relative to the central axes of the tori, and the degree of twisting of the inner walls of each of the tori should be such that the formation of e of dense linear bundles covering the cable.

The essence of the utility model lies in the fact that the inner walls of all tori are helically twisted relative to the central axes of the tori, and the degree of twisting of the inner walls of each of the tori should be such that the formation of dense linear bundles covering the cable is achieved.

The first new feature, which consists in the helical twisting of the inner walls of the tori, allows the claimed technical solution to achieve new properties, which consist in achieving uniform crushing of the flexible walls of the tori, achieving a more tenacious grip of the cable by the inner walls of the tori, and preventing the fluid from flowing through the inner walls of the tori. The second new feature, which is that the degree of twisting of the inner walls of the tori should be such that the formation of dense linear bundles 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 each torus, which allows to cover the cable and not reach overstress and the exit of the inner walls of each 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".

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

The device for cleaning water bodies and mining of silty soils (sapropel) contains a U-shaped working body, the body of which is made in the form of a pipe 1 of a smaller diameter with a torus 2 installed in it and pipes 3 and 4 of a larger diameter attached to it at the ends, with installed in them toruses 5 and 6. Through tori 2, 5 and 6, a cable 7 is passed, wound with opposite ends on two drive drums 8 and 9. Suction holes 10 and 11 with valves are made in the walls of pipes 3 and 4, and outlet holes are made at the ends of these pipes 12 and 13 with valves. The inner walls 14, 15 and 16 of tori 2, 5 and 6 are helically twisted. Device operation

A device for cleaning reservoirs and extraction of silty soils (sapropel) works as follows. The rope 7 is reeled off the drum 8, and the rope 7 is reeled up onto the drum 9. Together with it, torus 2, 5 and 6 move (roll). When the torus 5 is displaced, a vacuum is created in the pipe 3, causing sapropel to enter it through the open valve of the hole 10 until the pressure is equalized ... The orifice valve 10 is closed. With the reverse movement of the cable 7 from the drum 9 to the drum 8, the torus 5 is displaced (rolled) to the end of the pipe 3, while the valve of the opening 12 opens and the torus 5 squeezes out the sapropel through it, for example, into a receiver or a discharge pipe. At this time, the torus 6, moving (rolling) to the pipe 1, creates a vacuum in the pipe 4, due to which the sapropel enters the pipe 4 through the open valve of the hole 11 until the pressure is equalized and the valve of the hole 11 is closed. The next time the cable 7 moves, the torus 5 is displaced (rolling) to pipe 1, creates a vacuum in pipe 3, and sapropel enters it again, and torus 6, moving (rolling) to the end of pipe 4, squeezes out the sapropel through the opened valve of hole 13 into the receiver or outlet pipe. Then the cycle is repeated. Tor 2 performs an auxiliary function: it centers the position of the cable in the U-shaped tube 1.

Tori 2, 5 and 6 in different stages of the device operation by pulling them with the cable 7 towards the drum 8 or the drum 9 are rolled as follows. If drum 9 pulls cable 7, then the latter rolls tori 2, 5 and 6 through pipes 1, 3 and 4 towards drum 9. In this case, at tori 2, 5 and 6, on the sides opposite to the direction of movement, their outer walls begin to twist and pass into the twisted inner walls 14, 15 and 16 tightly capture the cable 7 moving towards the drum 9. On the other sides (from the sides coinciding with the direction of movement) tori 2, 5 and 6, their inner walls 14, 15 and 16 begin to unwind and move away from of the moving cable 7 and pass into the outer walls of tori 2, 5 and 6. When moving (rolling) tori 2, 5 and 6 in the opposite direction, all its actions occur in the reverse order.

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 the uniform crushing and wear of the torus walls, as well as to increase the reliability of the device in operation due to a more tenacious coverage of the twisted inner walls of the cable tori, as well as to prevent overflow of the fluid medium through the inner walls of tori 5 and 6.

Claims (1)

A device for the purification of reservoirs and the extraction of silty soils, including a U-shaped intake working body, containing a body with working chambers, suction and discharge openings with valves and a transport mechanism, the body is made in the form of a pipe of a smaller diameter with a torus installed in it, and the working chambers are made from pipes of a larger diameter, with tori installed in each of them, attached to the body at the ends, the transporting mechanism is made of a cable connected to the drive drums and passed through the inner walls of the tori installed in the body and working chambers with the possibility of joint movement, the suction holes are made in the side walls of the working chambers, and the outlet holes are made in the end walls of the working chambers, characterized in that the inner walls of all tori are helically twisted relative to the central axes of the tori, and the degree of twisting of the inner walls of each of the tori should be such that the formation of dense l frost harnesses covering the cable.

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