RU2483164C2 - Plant for water surface cleaning - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: plant for water surface cleaning comprises a platform, an electric motor, a reducer, a rotary cylinder and pressing rollers, and also reservoirs for collection of oil or petroleum. Pressing rollers form chutes for collection of oil and petroleum. The rotary cylinder is partially submerged into water at a small angle. There is the possibility to adjust depth of rotary cylinder submersion. Pressing rollers are made of smaller diameter, compared to the hollow rotary cylinder and are pressed to it with a spring and an inner side. The plant is equipped with a wind turbine.

EFFECT: simplified design with increased quantity of collected oil per unit of time for a unit of spent power.

3 cl, 2 dwg

Description

The proposed installation for cleaning the surface of the water can be used to remove oil and oil films. Several methods are known for cleaning the surface of water from oil and oil films. Each of these methods - chemical, mechanical, physical - has its own advantages and disadvantages.

A mechanical installation is proposed for cleaning the surface of the water from a film, which is based on the effect of wetting an object taken out of the water, covered with a film, not water, but an oil film.

A device in the form of a rotating cone, immersed in water, covered with a film, its top. Under the action of centrifugal force, the oil film creeps upward along the cone to its wide part and there must be collected [1]. The disadvantage of this device is the small amount of oil collected per unit time per unit of energy expended. If this is a lot of cones, then the design of the device is significantly complicated. If you increase the speed of rotation, the oil film will be sprayed from a wide part of the cone.

It is proposed to replace the cone with a rotating hollow cylinder, the axis of which is located at a small angle to the surface of the water, and the cylinder is immersed in water to the optimum depth, which is regulated depending on the excitement, diameter and angular velocity of rotation of the cylinder. Oil is collected using coaxial pinch rollers of smaller diameter, pressed to the cylinder from the outside and inside.

The installation for cleaning the water surface (Fig. 1) from oil and oil films consists of a large cylinder and pinch rollers located on one supporting platform 1. A shaft 2 of a larger diameter cylinder 3 connected to the spokes rotates in sliding bearings 4 located on the rack 5, fixedly connected to the platform 1. The fixed hollow shaft 6 is mounted on the stand 7 and enters the hollow part of the rotating shaft 2 having a drive in the form of an electric motor 8 or a wind turbine 9 and a gearbox 10 located on the platform 1. Cylinder 3 is located married at an angle of 10-15 ° to the plane of the platform. The ends of the shafts of the pinch rollers 11 and 12 are placed in sliding bearings located on the spring-loaded bearings. The supports of the inner pressure roller 11 are located on the uprights 13, mounted on a fixed shaft 6, and the supports of the external pressure roller 12 are located on the uprights 14, mounted on the platform. The kinematic diagram of the connection of the main parts is shown in Fig. 2.

To collect oil from the trough formed by the cylinder 3 and the pressure roller 11, a funnel 15 is mounted on the lower rack 13 with an oil pipe 16 connected to the cavity of the fixed shaft 6. A similar funnel 15 is mounted under the trough formed by the cylinder 3 and the pressure roller 12. From the hollow shaft 6, the oil pipe 17 is connected, and the oil pipe 18 is coming from the funnel. Both oil pipes are connected to removable receiving tanks 19 and 20 installed under the platform 1. The installation is closed from above with a transparent protective cap 21.

Installation works as follows. The large hollow cylinder 3, immersed in the bottom with water with a film, is rotated by a battery-powered electric motor 8 with a gearbox 10 or a wind turbine 9. When cylinder 3 is rotated, an oil or oil film adhering to the outer and inner surfaces of cylinder 3 is transferred to the pressure rollers 11 and 12, pressed against the cylinder 3. The oil or oil through the grooves formed by the rollers contacting the cylinder 3 due to the inclination of the generators at an angle of 10-15 ° is drained through funnels 15 and oil lines 17 and 18 into removable receiving containers 19 and 20. For protection, their gutters and funnels from the water provides a transparent cap 21.

The sizes of the receiving containers 19 and 20 are shown conditionally. They can be made of arbitrarily large sizes, for example, from a plastic film. When filled with oil or oil, these tanks provide additional stability of the installation on the waves. Using a wind turbine provides autonomous operation of the installation. The rotation of the cylinder is carried out by a wind turbine or an electric motor that receives energy from a battery, which is recharged from a wind turbine that uses wind energy.

The windmill can generate through the electric motor used as a generator, the energy necessary, for example, for a signal lamp and recharging the battery.

The efficiency of the installation is increased if a sponge or fibrous coating is applied to the inner and outer surfaces of the cylinder 3, which increases the wetting area several times.

Information sources

1. Defiant formulas of creativity. In the series "Technique - Youth - Creativity". Comp. A.B.Selyutsky. Petrozavodsk: Karelia, 1987.

Claims (3)

1. Installation for cleaning the surface of the water, including a platform, an electric motor, a gearbox, a rotating cylinder and pinch rollers forming gutters for collecting oil or oil, as well as containers for collecting oil or oil, characterized in that it is equipped with a wind turbine, while the rotating cylinder is partially immersed in water at a small angle with the ability to adjust the depth of immersion, and rollers made of a smaller diameter than a hollow rotating cylinder are pressed to it from the outside and inside. 2. Installation according to claim 1, characterized in that the pressure roller inside the cylinder has spring-loaded bearings located on racks mounted on a fixed shaft. 3. Installation according to claim 1, characterized in that the inner and outer surfaces of the larger cylinder are covered with a sponge or fibrous coating.

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