RU199230U1 - DEVICE FOR WATER CLEANING AND SAPROPEL PRODUCTION - Google Patents

Abstract

The invention relates to a technique for cleaning reservoirs from humoid formations and the extraction of sapropel. The device for cleaning reservoirs and extraction of sapropel contains a sealed chamber in which a drive drum is installed with tapes wound on it, passed through an intake pipe connected to the sealed chamber and a torus installed in it, covering the latter and fixed at the perforated end of the branch pipe. The holes in the perforated end are equipped with valves. The opposite end of the branch pipe is plugged, and a suction opening equipped with a valve is made in the wall of the branch pipe. In this case, the sealed chamber is communicated with the intake pipe through a sleeve, one end of which is fixed on the chamber body, and the other end is fixed on the pipe at its perforated end. Moreover, the sealed chamber is in communication with the working agent supply system, which serves to expand the sleeve and move the intake pipe to the place of sapropel extraction and to displace the sapropel from the chamber through a discharge hole provided in it, equipped with a valve, into the discharge pipe. The inner walls of the 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 surrounding the ribbons is achieved. The technical result is to increase the service life and reliability of the device. 1 ill.

Description

The invention relates to a technique for cleaning water bodies from humoid formations and sapropel extraction.

Known device for cleaning reservoirs, including a dredger with a suction pipe equipped with a scraper-type ripper and serves simultaneously to drain the cleaning product into the dredger, drive and power source [and.with. USSR for invention No. 1078002, IPC E02F 5/28, 1984 - analog].

The disadvantages of the known device are large dimensions in the presence of a floating craft as a means of moving the intake working body when changing mining sites and, in connection with this, poor maneuverability, the need for pumping equipment that ensures the suction and removal of the cleaning product.

Of the known technical solutions, the closest to the claimed technical solution (prototype) is a device for cleaning water bodies and extracting sapropel, containing a sealed chamber in which a drive drum is installed with tapes wound on it, passed through an intake pipe connected to the sealed chamber and a torus installed in it covering the latter and fixed at the perforated end of the branch pipe. The holes of the perforated end of the branch pipe are equipped with valves. The opposite end of the branch pipe is plugged, and a suction opening equipped with a valve is made in the wall of the branch pipe. The sealed chamber is equipped with an intake pipe through a sleeve, one end of which is fixed on the chamber body, and the other end is fixed on the pipe at its perforated end. The sealed chamber is in communication with the working agent supply system, which serves to expand the sleeve and move the intake pipe to the place of sapropel extraction and to displace the sapropel from the chamber through a discharge opening provided in it, equipped with a valve, into the discharge pipe [RF patent for invention No. 2030520, IPC E02F 5/28, 1995, example 3, fig. 3 - prototype].

The disadvantages of the prototype device are a relatively shorter service life due to uneven crushing of the torus walls and the possibility of the working agent and fluid flowing through the inner walls of the torus.

The objective of the invention is to increase the service life and reliability of the device.

Solution of a technical problem

To solve the set task in a device for cleaning water bodies and extracting sapropel, containing a sealed chamber, in which a drive drum is installed with tapes wound on it, passed through an intake pipe connected to the sealed chamber and a torus installed in it, covering the latter and fixed at the perforated end of the pipe , the holes of the perforated end are equipped with valves, the opposite end of the nozzle is plugged, and a suction hole is made in the wall of the nozzle, equipped with a valve, while the sealed chamber is communicated with the intake nozzle through a sleeve, one end of which is fixed on the chamber body, and the other end is fixed to the nozzle at the perforated its end, and the sealed chamber is in communication with the working agent supply system, which serves to expand the sleeve and move the intake pipe to the place of sapropel extraction and to displace the sapropel from the chamber through a discharge opening provided in it, equipped with a valve, into the discharge pipe, external the morning walls of the 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 covering the ribbons is achieved.

The essence of the invention lies in the fact that the inner walls of the 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 as to achieve the formation of a dense linear bundle covering the ribbons.

The first new feature, consisting in the helical twisting of the inner walls of the torus, allows the claimed technical solution to achieve new properties, consisting in achieving uniform crushing of the flexible walls of the torus and preventing the overflow of the working agent and fluid through the inner walls of the 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 covering the ribbons 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 makes it possible to tightly cover the ribbons and not to reach overstrain 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 proposed technical solution to achieve the effects of increasing the service life and reliability of the device.

The foregoing allows us to state 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 sapropel.

The device for cleaning water bodies and extracting sapropel contains a sealed chamber 1, in which a drive drum 2 is installed with tapes 3 wound on it, passed through an intake pipe 4 connected with a sealed chamber 1 and a torus 5 installed in it, covering the latter and fixed at the perforated end 6 branch pipe 4. Holes 7 of the perforated end 6 are equipped with valves. The opposite end 8 of the branch pipe 4 is plugged. A suction opening 9 is made in the wall of the branch pipe 4 and is equipped with a valve. The sealed chamber 1 is communicated with the intake pipe 4 through the sleeve 10, one end of which is fixed on the body 11 of the chamber 1, and the other end is fixed on the pipe 4 at its perforated end 6. The sealed chamber 1 is communicated with the system 12 for supplying the working agent that serves to straighten the sleeve 10 and moving the intake pipe 4 to the place of sapropel extraction and for displacing the sapropel from the chamber 1 through the outlet 13 provided in it, provided with a valve, into the outlet pipe 14. The inner walls 15 of the torus 5 are helically twisted.

Device operation

A device for cleaning reservoirs and sapropel extraction works as follows. It is moved to the site of development and buried in a reservoir. A working agent is fed into the chamber 1 by the system 12, which spreads the sleeve 10 and moves the intake pipe 4 to the sapropel extraction site. In the initial position, the torus 5 is at the plugged end 8 of the pipe 4. By rotating the drive drum 2 of the tape 3, the torus 5 is pulled to the perforated end 6 of the pipe 4. Under the action of the torus, air from the pipe 4 is forced out through the open valves of the holes 7 of the perforated end 6. The valves close. Then the drum 2 is stopped. The torus 5, released from the traction force of the tapes 3, under the action of the vacuum formed in the cavity between it and the plugged end 8 of the branch pipe 4, returns to its original position. In this case, a vacuum (vacuum) is formed between the torus 5 and the perforated end 6, due to which, through the opened valve of the suction opening 9, the sapropel enters the cavity of the intake pipe 4 until the pressure is equalized with the external environment. The hole valve 9 is closed. Again, by rotating the drive drum 2, the torus 5 is pulled to the perforated end 6, which displaces the collected sapropel through the open valves of the holes 7 into the sleeve 10. Then the cycle of the intake body is repeated. When the sleeve 10 is filled, it is pulled to the chamber 1 by additional rotation of the drum 2, as a result of which the sapropel is squeezed into it, and then by the working agent of the system 12 is pushed out of the chamber 1 through the open valve of the hole 13 into the outlet pipe 14.

The torus 5 in various stages of operation of the device when pulling the tapes 3 towards the drum 2 and under the action of the vacuum towards the end 8 of the branch pipe 4 rolls as follows. The torus 5 is moved (rolled) to the left side due to the thrust of the belts 3 (according to the diagram in Fig. 1). When the torus 5 rolls to the left side from the right side of the torus 5, its outer walls, passing into the inner walls 15, begin to twist and the already formed inner walls 15 cover the ribbons 3. On the left side of the torus 5, the inner walls 15 begin to unwind, move away from the ribbons 3 and go into outer walls of the torus 5. When the torus 5 moves (rolls) under the action of vacuum to the right side, all the actions of the torus 5 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 uniform crushing and wear of the torus walls, as well as to increase the reliability of the device in operation by preventing the overflow of the working agent and fluid through the inner walls of the torus.

Claims (1)

A device for cleaning water bodies and extracting sapropel, containing a sealed chamber in which a drive drum is installed with tapes wound on it, passed through an intake pipe connected with the sealed chamber and a torus installed in it, covering the latter and fixed at the perforated end of the pipe, the holes of the perforated end are provided valves, the opposite end of the branch pipe is plugged, and a suction opening is made in the wall of the branch pipe, equipped with a valve, while the sealed chamber is communicated with the intake branch pipe through a sleeve, one end of which is fixed to the chamber body, and the other end is fixed to the branch pipe at its perforated end, and the sealed the chamber is communicated with the supply system of the working agent, which serves to expand the sleeve and move the intake pipe to the place of sapropel extraction and for displacing the sapropel from the chamber through a discharge opening provided in it, equipped with a valve, into a discharge pipe, characterized in that the internal The torus strands 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 covering the ribbons is achieved.

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