RU2028427C1 - Device for cleaning water reservoirs and excavation of muddy grounds - Google Patents

Abstract

FIELD: cleaning of water reservoirs. SUBSTANCE: device has intake working member with working chambers, flexible hose 10, system 15 supplying working medium and tore 9 of flexible material. Control chamber 8 is made in device body. Tore 9 is located in control chamber 8 and installed on hose 10 for longitudinal motion together with hose. Control chamber 8 is communicated with system 15 supplying working medium. Cross-section of control chamber 8 is less than that of each working chamber. Hose 10 alternately squeezes sapropel from working chamber at respective motion of tore 9. EFFECT: higher efficiency. 2 cl, 1 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 known devices for cleaning ponds, due to cutting working bodies, provide for the removal of silt formations together with the bottom layer, which violates the structure of the pond coating and contributes to a more rapid siltation due to coating erosion. It seems more appropriate 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, a mechanism for lifting it, a suction and pulp feeding mechanism, 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.

 As a prototype, a 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, and a system for supplying a working agent and water with young fish [2] were selected.

 Disadvantages: high energy consumption for moving the sleeve.

 The purpose of the invention is to increase work efficiency by reducing energy consumption for moving the sleeve.

 This is achieved by the fact that in a device comprising an intake working body comprising 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, and the working agent supply system, according to the invention, is a working intake the organ is equipped with a torus made of elastic material, and in the housing there is a control chamber located between the working chambers and communicated with them, while the torus is placed in the control chamber and mounted on the sleeve with the possibility of food movement along with the sleeve, and the control chamber is in communication with the supply system of the working agent, and the cross section of the control chamber is less than the cross section of each of the working chambers. The means for moving the intake working member is made of a sealed chamber, from a drive drum located in it, from a sleeve wound at one end on the drive drum, and from tapes mounted on the sleeve and connected to the housing by means of rollers, while the other end of the sleeve is turned out and fixed on the housing of the sealed chamber, the latter being in communication with the supply system of the working agent.

 Signs relating to the implementation of the chamber of the intake working body U-shaped with suction and discharge holes provide alternate suction and removal of sapropel from two sides and thereby provide the necessary level of productivity of the device.

 The signs regarding the installation of the torus in the control chamber with the sleeve passed through it, fixed on both sides of the torus with the formation of cavities reversibly filled with gas, provide reciprocal displacement of the sleeve with the corresponding movement of the torus as a sealant, creating a vacuum in the released part of the chamber for suction of sapropel through the suction port, and accordingly the extrusion of sapropel through the outlet with the valve in the opposite part of the U-shaped chamber.

 Signs relating to the implementation of the means of movement in the form of a sleeve wound on a drive drum, the other end of which is turned out and fixed in a sealed chamber, with tapes fixed on it for mounting on the sleeve of the intake working body using rollers, ensure the movement of the working working body by filling the sleeve gas, deploying it in length.

 Signs relating to the implementation of the fastening elements of the intake working body to the sleeve in the form of tapes and rollers are auxiliary.

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

 It contains a sealed chamber 1, communicating with the working agent (gas) supply system 2, while a drive drum 3 is installed in the chamber 1, on which the sleeve 4 is wound, twisted and fixed at the other end in the sealed chamber 1. Tapes 5 are fixed on the sleeve 4, passed through the rollers 6, mounted on the intake working body. The intake working body is made in the form of a U-shaped chamber 7 having a control chamber 8 in which a torus 9 is installed. A sleeve 10 is passed through the torus 9, the ends of which are turned out and attached to the inner walls of the chamber 7 with the formation of cavities 11 and 12 communicated with hoses 13 and 14 with a system 15 for supplying a working agent to the chamber 7. In the wall of the chamber 7 on both sides of the narrowing points 8, suction holes 16 and 17 are made. For the removal of sapropel (cleaning product), the outlet holes at the ends of the U-shaped chamber 7 are equipped with check valves 18 and 19.

 The device operates as follows. System 2 through an airtight chamber 1 in the sleeve 4 serves the agent (gas). The sleeve 4 is then wound from the drum 3 and, straightening, in length, takes the intake working body to the place of development. Gas is supplied through the hose 13 from the system 15 through the hollow shaft of the drive drum 3 to the cavity 11. As a result, under the influence of gas, the sleeve 10 is displaced, at the same time the torus 9 is displaced, occupying an extreme position (closer to the outlet hole). Interacting the torus 9 and the sleeve 10 are two times larger than the torus 9. The torus 9 reaches the stop and stops, the displacement of the sleeve 10 in this direction stops. At this time, the hole 17 is released, through which the sapropel is sucked into the cavity of the chamber 7. Then, with a hose 14, the working agent is fed into the cavity 12, while the sleeve 10 is displaced in the opposite direction until the torus 9 together with it is displaced to the stop. the sapropel is squeezed out through the opening with the valve 19. At this time, through the released hole 16, the sapropel is sucked into the cavity of the chamber 7 (into its corresponding part). At the next displacement of the sleeve 10 with the torus 9, the sapropel is squeezed out through the outlet opening with the valve 19. Further, the suction and exhaust sapropel cycles are reversed.

 Using the proposed device can reduce its weight by 15-20 times, reduce the dimensions by 10-15 times, increases maneuverability when changing the place of development. Moving the device is possible on the surface of the water and under water.

Claims (2)

 1. A DEVICE FOR CLEANING RESERVOIRS AND MINING OF SULFUR SOILS, including an intake working body comprising a U-shaped body with working chambers, a sleeve of elastic material, the ends of which are turned and fixed on the inner walls of the working chambers, and a working agent supply system, characterized in that, in order to increase efficiency in work by reducing energy costs, the intake working body is equipped with a torus made of elastic material, and in the housing there is a control chamber located between the working chambers and communicated with them, while the torus is placed in the control chamber and mounted on the sleeve with the possibility of longitudinal movement together with the sleeve, the control chamber being in communication with the supply system of the working agent, and the cross section of the control chamber is smaller than the cross section of each of the working chambers.  2. The device according to claim 1, characterized in that it is equipped with a means of moving the intake working member made of a sealed chamber located in it of the drive drum, a sleeve wound at one end on the drive drum, and tapes mounted on the sleeve and connected to the housing by means of rollers, while the other end of the sleeve is turned out and fixed on the housing of the sealed chamber, the latter being in communication with the feed system of the working agent.