RU2030520C1 - Device for cleaning water reservoirs and sapropel excavation - Google Patents

Abstract

FIELD: cleaning of water reservoirs. SUBSTANCE: intake member is made in form of tube with piston. Piston is made in form of tube with piston. Piston is made in form of cylindrical ring and connected by means of flexible link to reversing drive. Tube has intake and discharge holes with valves. Piston rod may be passed through cylindrical ring and connected by means of flexible link with drive. Rod may be made hollow with intake hole and valve. EFFECT: higher efficiency. 5 cl, 5 dwg

Description

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

 It is known that when silting a reservoir, its original functions are violated (if it is artificially constructed), the life of aquatic inhabitants slows down, and sometimes it disappears. Most of the known devices for cleaning ponds, due to cutting tools, remove mud formations together with the bottom layer, which violates the structure of the pond coating and contributes to faster siltation due to coating erosion. It seems more appropriate in natural reservoirs to remove only the mud layer while maintaining the bottom cover of the reservoir intact. In this case, the recovered mud layer (sapropel) as a cleaning product can be further used in agriculture as a valuable fertilizer.

 A device for cleaning ponds containing a dredger with a suction pipe, its lifting mechanism, the mechanism of suction and feed the pulp, as well as a cultivator with L-shaped grippers-cutters [1]. Disadvantages: large dimensions, the need for a craft with devices for anchoring, poor maneuverability of the device.

 Also known is a device for cleaning water bodies, including a dredger with a suction pipe equipped with a scraper type cultivator and serving simultaneously to divert the cleaning product into the dredger, drive and torus source [2]. The disadvantages of the prototype: large dimensions in the presence of a craft as a means of moving the intake working body when changing places of development and in this regard, poor maneuverability; the need for pumping equipment for suction and removal of the cleaning product.

 The purpose of the invention is the reduction of dimensions, ensuring high maneuverability, reducing pumping equipment necessary for the collection and removal of the cleaning product.

 This is achieved by the fact that the device contains a suction-type intake working body, a means of moving it to the place of development and an organ for removing the cleaning product (sapropel) to the receiver associated with the drive. The intake working member is made in the form of a pipe with a piston made in the form of a torus and connected by a flexible rod with a reversible drive, while the pipe is made with intake and outlet openings equipped with non-return valves. A piston, i.e., a torus, can be made with a rod passed through it and connected by a flexible rod with a reversible drive. The stem can be equipped with a flange. It can be hollow with a suction hole equipped with a check valve, as well as with a discharge hole.

 Signs regarding the installation of a torus in an intake pipe connected by a rod (cable or ribbons) with a reversibly rotating drive drum provide alternate vacuum generation in the pipe cavity on both sides of the torus, which ensures suction of the sapropel. The reverse movement of the torus displaces the sapropel through the outlet pipe. The supply system of the working agent provides the movement of the intake working body to the place of development, as well as the movement of the torus along the intake pipe. A cable or tapes wound around the drive drum, passed through the torus and enveloping it, allow the torus to be pulled to the sealed chamber. The supply of suction openings, a discharge pipe and the working end of the intake pipe with non-return valves ensures the creation of vacuum, eliminates the unwanted displacement of sapropel in the working process.

 In Fig.1,2 schematically shows a General view of the device in cross section with a torus-piston with options for intake and removal and with a means of movement; figure 3 - the same pipe with a perforated end; figure 4 is the same, a torus with a rod having a stop; figure 5 is the same torus with a rod having a flange.

 PRI me R 1 (figure 1). A device for cleaning water bodies and producing sapropel contains an airtight chamber 1 in communication with the working agent supply system 2. A drive drum 3 is mounted in the sealed chamber 1, on which a cable 4 is wound. In the same chamber 1, a sleeve 5 is fixed at one end, and an intake working element is fixed at its other end, made in the form of a pipe 6 having one or more suction holes in the wall 7 with valves. The outlet of the pipe 6 is provided with a valve 8, and its opposite end is plugged. A torus 9 is installed inside the pipe 6, through which a cable 4 is passed, covering the torus 9 and secured with a free end to the inner wall of the pipe 6. The discharge pipe 10 leaves the sealed chamber 1.

 The device operates as follows. System 2 through a sealed chamber 1 in the sleeve 5 pump the working agent (gas). Sleeve 5, filling, unfolds in length and moves the intake working body to the place of development. Under gas pressure, the intake working body leaves the sleeve 5. The torus 9 is in the pipe 6 in the initial position - at the muffled end of the pipe 6. Then, by reversing the rotation of the drum 3 with a cable 4, the torus 9 is pulled to the sleeve, forcing the working agent out of the intake pipe 6 through valve 8 Between the torus 9 and the plugged end of the pipe, a vacuum is formed under the action of which the torus 9 returns to its original position. In this case, the valve 8 closes the inlet of the pipe 6, and a vacuum is created between the valve 8 and the torus 9, under the influence of which sapropel is sucked into the pipe 6 through one or more openings 7 with the valves open. When restoring normal pressure, the valves of the holes 7 are closed. By rotating the drum 3, the cable 4 pulls the torus 9 to the outlet of the pipe 6, the valve 8 opens, and the sapropel is extruded into the sleeve 5 and then into the outlet pipe 10. Then the cycle repeats. If the gravity of the sapropel along the sleeve 5 is difficult, then the sleeve 5 is periodically with the intake pipe 6 pulled by a cable 4 to the sealed chamber 1 and thereby squeezes the sapropel into the outlet pipe 11.

 PRI me R 2 (figure 2). The device contains a sealed chamber 1, in communication with the supply system 2 of the working agent (gas), while in the chamber 1 there is a drive drum 3 with tapes 4 (cable) wound thereon. A labor intake 6 is connected to the sealed chamber 1, in the wall of which there are suction openings 7 with valves, and at its opposite end there is a discharge pipe 10. A torus 9 is installed in the intake pipe 6, through which the tapes (cable) 4 are passed, cover it and fixed free ends in a sealed chamber 1.

 The device operates as follows.

 System 2 through a sealed chamber 1, a working agent (gas) is fed into the pipe 6, which moves the torus 9 to the end of the pipe 6, and then by reversing the rotation of the drum 3 using the belts 4, the torus 9 is pulled to the sealed chamber 1. As a result, a vacuum is created in the pipe 6 , the valves of the holes 7 open, and the sapropel is sucked into the pipe 6. When filling it with a sapropel, the valves of the holes 7 are closed. By supplying a working agent from the system 2, the torus 9 moves along the pipe 6 and displaces the sapropel into the outlet pipe 10. Then, the torus 9 is again pulled to the chamber 1, creating a vacuum in the pipe 6 and the cycle repeats.

 PRI me R 3 (figure 3). A device for cleaning water bodies and producing sapropel contains a sealed chamber 1, in which a drive drum 2 is installed with tapes 3 wound thereon, passed through an intake pipe 4 connected to the sealed chamber 1 and a torus 5 installed therein, covering the latter and secured at the perforated end 6 pipe 4. The holes 7 of the perforated end 6 are provided with valves. The opposite end 8 of the pipe 4 is plugged. In the wall of the pipe 4 there is a suction hole 9 provided with a valve. The sealed chamber 1 is in communication with the intake pipe 4 through a sleeve 10, one end of which is fixed to the camera body 1, and the other end is fixed to the pipe 4 at its perforated end 6. The sealed chamber 1 is in communication with the working agent supply system 12 for straightening the sleeve 10 and moving the intake pipe 4 to the place of extraction of sapropel and for displacement from the chamber 1 of the sapropel through the discharge hole 13 provided therein, provided with a valve, into the discharge pipe 14.

 The device operates as follows.

 It is moved to the place of development and buried in a reservoir. The working agent is fed into the chamber 1 by the system 12, expanding the sleeve 10 and moving the intake pipe 4 to the place of extraction of sapropel. In the initial position, torus 5 is located at the muffled end 8 of nozzle 4. By rotating the drive drum 2, the tapes 3 pull the torus 5 to the perforated end 6 of the nozzle 4. Under the influence of the torus, air from the nozzle 4 is forced out through the open valves of the holes 7 of the perforated end 6. The valves are closed. Then the drum 2 is stopped. The torus 5 freed from the pulling force of the belts 3 under the influence of the vacuum formed in the cavity between it and the plugged end 8 of the pipe 4 is returned to its original position. In this case, a vacuum (vacuum) is formed between the torus 5 and the perforated end 6, due to which the sapropel enters the cavity of the intake pipe 4 through the opening valve of the suction port 9 until the pressure is equal to the external medium. The valve of the hole 9 is closed. Again, by rotating the drive drum 2, it pulls the torus 5 to the perforated end 6, which displaces the collected sapropel through the open valves of the openings 7 into the sleeve 10. Then the cycle of operation of the intake body is repeated. When filling the sleeve 10, it is pulled by the additional rotation of the drum 2 to the chamber 1, as a result of which the sapropel is squeezed out into it, and then the working agent of the system 12 is forced out of the chamber 1 through the open valve of the hole 13 into the outlet pipe 14.

 PRI me R 4 (figure 4). A device for cleaning water bodies and producing sapropel contains an airtight chamber 1 in communication with the working agent supply system 2. A drive drum 3 is mounted in the chamber 1, on which a cable 4 is wound. In a sealed chamber 1, a sleeve 5 is fixed at one end, at the other end of which an intake working member is fixed. It is made in the form of a suction pipe 6 with an emphasis 7 and a check valve 8 at the end, which is passed through a torus 9 installed in another (external) pipe 10. A free end of the cable 4, passed through the sleeve 5, is attached to the suction pipe 6 by means of slings 11 . A discharge pipe 12 exits the sealed chamber 1.

 The device operates as follows. System 2 in the sleeve 5 serves gas, which expands the sleeve 5 in length, while moving the intake working body to the place of development. After the last out of the sleeve 5, the gas supply is stopped. The drive drum 3 is driven in reverse rotation, as a result of the cable 4 moves the reciprocating pipe 6 and, together with it, the torus 9. When the torus 9 is withdrawn to the suction end of the pipe 6, a vacuum is created in the pipe 10 and sleeve 5, as a result of which the sapropel is drawn into the pipe 6 and into the cavity of the sleeve 5. When pulling the torus 9 with a cable 4 towards the sealed chamber 1, the sapropel is squeezed out into the sleeve 5 and then gravity is discharged through the pipe 12.

 PRI me R 5 (figure 5). A device for cleaning water bodies and producing sapropel contains a sealed chamber 1 with a driving drum 2 installed in it and a nozzle 4 fixed on its body, on which a sleeve 5 is fixed, the other end of which is fixed on the rod 6. The rod 6 is connected by a flexible rod 7, passed through the sleeve 5 and pipe 4, with a reversing drive drum 2. At the end of the rod 6 there is a flange 8, and it is installed using a torus 9 in the intake pipe 10, which is equipped with a suction 11 and 12 outlet holes equipped with valves. The sealed chamber 1 is filled with compressed gas.

 The device operates as follows. It is moved to the place of development and buried in a reservoir. Compressed gas supplied from the chamber 1, the sleeve 5 is straightened and moves the intake pipe 10 to the point of intake of the sapropel. In the initial position, the rod 6 is placed so that the flange 8 is pressed against the outlet 12. By rotating the drive drum 2, the cable (flexible rod) 7 pulls the rod 6 and moves the flange 8 to the opposite end of the intake pipe 10. As a result, a vacuum is created in the cavity formed, due to which the valve of the suction hole 11 opens, and the sapropel enters the cavity until the pressure in it is equalized with the environment. In this case, the valve of the hole 11 closes. By supplying compressed gas, the rod 6 with the help of a torus 9 is returned to its original position, while using the flange 8 it displaces the incoming sapropel through the open valve of the outlet hole 12 into the outlet pipe to the receiver. Next, the cycle of work is repeated.

 The use of this mixer reduces energy consumption for the intake and removal of sapropel, improves reliability, simplifies the design of the pump.

Claims (5)

 1. A DEVICE FOR CLEANING RESERVOIRS AND SAPROPEL MINING, containing a suction-type intake working body, a means for moving it and a cleaning product removal body associated with a drive, characterized in that in order to reduce the dimensions and increase maneuverability, the intake working body is made in the form of a pipe with a piston made in the form of a torus and connected by a flexible rod with a reversible drive, while the pipe is made with intake and outlet holes equipped with non-return valves.  2. The device according to claim 1, characterized in that the piston is made with a rod passed through a torus and connected by a flexible rod with a reversible drive.  3. The device according to claim 2, characterized in that the rod is hollow and is equipped with a suction hole with a check valve.  4. The device according to claim 2, characterized in that the rod is equipped with a flange.  5. The device according to claims 1 and 2, characterized in that the rod is equipped with outlet holes.

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