RU2010090C1 - Device for cleaning of water surface from petroleum products - Google Patents

Abstract

FIELD: cleaning of water surface from petroleum products. SUBSTANCE: in its central part the device has platforms 1, swirler 3 made in the form of spiral plates 4 decreasing in height towards the center, forming a space having the shape of a cone whose larger base faces downwards; receiving sleeve 5 is placed in the cone center for vertical movement. The device is provided with withdrawable V-shaped guides and a dropping flap. During rotation of swirler 3 the petroleum film is entrapped by spiral plates 4 and forced to the center through a converging corridor formed by spiral plate walls, is accumulated, rises and is delivered to the receiving sleeve. From the latter the petroleum film is discharged through branch pipe 6, exhaust pump and a branch pipe. The guides and flap used in current water basins. EFFECT: facilitated procedure. 3 cl, 4 dwg

Description

 The invention relates to techniques for cleaning the water surface from liquid contaminants, mainly from petroleum products.

 A device for collecting a film of insoluble liquid from the surface of the water, containing a floating conical body, a swirl with a drive, a bowl and a collection of removed film.

 A disadvantage of the known design is the low operational reliability. When the device is working through the collector, not only oil products, but also water are removed, which subsequently requires additional costs for their separation. In addition, the efficiency of the device decreases with increasing viscosity of contamination.

 It is also known a device for collecting oil products from the water surface, containing a platform with floats, a swirl made in the form of a vertically located oil receiving cup with receiving windows located on its side surfaces, to which lateral edges spiral plates are attached to the side edges of the cup. In the center of the glass, a pumping nozzle connected to a pump is located at its height. In the lower part of the platform around the spiral plates a guard grid is installed.

 The disadvantage of this device is the incomplete collection of petroleum products at the final stage of work. When the drive is turned off and the swirl is stopped, the oil products that remain in the corridor between the spiral plates and the glass spread, leaving an oil stain on the surface of the water. In addition, large energy inputs are required to overcome the resistance of the water inside the swirl during its rotation.

 The purpose of the invention is to increase the efficiency of the device, reducing energy consumption and improving the quality of cleaning.

 This is achieved by the fact that in the device for collecting oil products from the water surface, including a floating casing, a swirl made in the form of plates forming spiral channels converging to the center, a swirl rotator drive and an oil receiving cup mounted on the swirl axis with a pumping nozzle, the spiral plates are made decreasing in height toward the center with the formation in the center of the swirler cavity in the form of a cone, facing down with a large base, while the receiving glass is made tapering down and placed in a conical cavity of the swirler with the possibility of vertical movement.

 The input section of each of the spiral channels exceeds the channel section inside the swirl (a> b, see Fig. 4).

 In addition, in order to increase the cleaning area of the water surface, the floating body is equipped with retractable V-shaped guides, as well as a flap lowering behind the swirl.

 Comparative analysis with the prototype shows that the inventive device is characterized in that the spiral plates are made decreasing in height towards the center with the formation in the center of the swirler cavity in the form of a cone, facing down with a large base, while the receiving glass is made narrowing down and placed in a conical cavity swirler with the possibility of vertical movement. The input section of each of the spiral channels exceeds the section inside the swirler. In addition, the floating casing is equipped with V-shaped guides, as well as a flap lowering behind the swirl.

 The constructive implementation of the swirl spirals, tapering in height towards the center, with the formation in the center of the swirl swirl in the form of a cone in the form of a cone facing down with a large base, as well as a receiving cup, tapering from the bottom, and separated from the spirals, can significantly reduce energy consumption to overcome water resistance inside the swirl during its rotation. The ability of the receiving glass to fall below the level of contamination provides high-quality cleaning of the water surface. The implementation of the input sections of the spiral channels larger than inside the swirl enhances the effect of ejection - the attraction of petroleum products to the swirl. V-shaped guides allow you to increase the area of cleaning, and the falling flap to keep contamination in the swirl zone during operation on the flow.

 In FIG. 1 shows a device, a General view; in FIG. 2 - the same plan; in FIG. 3 - swirl, cut; in FIG. 4 is a section AA in FIG. 3.

 A device for collecting oil products consists of a platform 1 with floats 2, in the central part of the platform a swirl 3 is installed, made in the form of interconnected vertical spiral plates 4, decreasing in height towards the center, with the formation in the center of the cavity in the form of a cone facing large base down. In the center of the cone there is a receiving cup 5 tapering downward with a nozzle 6, the glass by means of rods 7 has the possibility of vertical movement. The swirler 3 is fixed to the platform 1 by a pivot node 8 and is connected to the drive 10 through the coupling 9. In one of the floats 2 there is a pump 11 with a discharge flexible pipe 12. A guard grid 13 is mounted around the swirl 3. The unit is equipped with retractable V-shaped guides 14 and flap down 15.

 The device operates as follows.

 The device is lowered into a reservoir, on the surface of which there is a collection product, for example oil, gasoline, oil, etc. The rods 7 adjust the position of the receiving cup 5 so that its upper edge is above the level of contamination. After turning on the drive 10 during rotation of the swirler 3, the oil film is captured by the spirals 4 and, forcing along the narrowing corridor formed by the walls of the spirals, is forced to the center, accumulates, rises and enters the receiving cup 5, from where it is removed through the pipe 6 through the pump 11 and the pipe 12. The guard grid 13 prevents the swirl 3 from clogging with floating debris. Retractable V-shaped guides 14 and flap 15 are used in bodies of water with the flow. The device is oriented against the flow, the guides 14 are advanced to the stain and the flap 15 is lowered. Next, the work is carried out in the described sequence.

 The proposed device can be used to protect the environment, in particular the aquatic environment from pollution arising from a vehicle accident. The operational efficiency of the device is ensured by the constructive design of the swirl with spirals forming a narrowing corridor, which allows forcing and capturing contamination of any viscosity without draining water into the oil recovery cup. Retractable V-shaped guides and flap provide a large area for the capture of contamination and its retention in the swirl zone. The ability of the receiving glass to fall below the level of pollution allows for high-quality cleaning of the water surface. (56) Copyright certificate of the USSR N 1671768, cl. E 02 B 15/04, 1989.

Claims (3)

 1. A DEVICE FOR COLLECTING OIL PRODUCTS FROM THE WATER SURFACE, including a floating housing with a lead swirl made in the form of plates forming spiral channels converging to its center, and an oil cup placed in the center of the swirl with a pumping plate having a pumping plate that in height from the periphery to the center of the swirl with the formation of a cavity in the form of a cone, turned with a large base down, in which the oil glass is placed with the possibility of vertical movement.  2. The device according to claim 1, characterized in that the spiral channels of the swirl are made tapering in the direction to its center.  3. The device according to p. 1, characterized in that the oil cup is made tapering downward.

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