RU2072441C1 - Disk hydraulic wheel - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: disk wheel is mounted on the horizontal axle in a free flow and made up as a disk whereto concave- convex blades are secured. The blades stretches up to the edge and the center of the disk. To balance the blades on the disk a massive bushing should be mounted behind the disk or the disk should be more massive than the blades. The hydraulic wheel is mounted perpendicular to the direction of the flow. Impacting the disk the flow is kicked out to the blades which set the disk together with the axle in rotation. In so doing the axle transmits energy to a consumer, e.g. to an electric generator. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to hydraulic engineering, uses free-flow energy, and can be used mainly in individual farms and small enterprises to produce mechanical or electrical energy.

 The device can also be used as a working body in a wind turbine, anemometer, hydrometer turntable, etc.

A water wheel is known containing radial guides and shaped buckets, which are affected by the flow. When turning 180 ^{o the} buckets are shifted to the center, creating a minimum resistance to rotation (ed. St. N 1312237, CL F 03 7/00, 1988).

 Known disk hydro-wheel mounted on a horizontal axis with concave-convex blades (Shapov N.M. Turbine equipment of hydroelectric stations. M.-L. Gosenergoizdat, 1961).

 This wheel is a prototype of the invention.

 However, this device has the disadvantage that only part of it (about half) does the work, while the other part provides resistance to rotation, which reduces its effectiveness.

 The objective of the invention is to eliminate the noted drawback in order to increase the effectiveness of the hydro-wheel.

 The problem is achieved by the fact that it offers a hydro-wheel, which is a disk on which concave-convex blades are located, reaching the center and edge of the disk. A horizontal axis passes through the center of the disk. To balance the blades on the disk, a massive sleeve is installed behind it, rigidly connected to the axis and disk. The same can be achieved in another way, for example, to make the disk more massive, and the blades lighter. In this case, the latter method is applied.

 In FIG. 1 is a front wheel view of a hydro wheel; figure 2 is the same side view; figure 3 blade.

 The hydraulic wheel has a disk 1, five blades 2, an axis 3.

 The device operates as follows.

 The water flow hits the disk, throws it onto the blades 2, leading the disk together with the axis 3 into rotation, which is transmitted through the transmission mechanism to an energy receiver, for example, an electric generator.

 Due to the fact that the disk delays the flow due to the rational curvature of the blades, almost all of its energy is converted into useful work, so the efficiency of the hydro-wheel will be higher compared to the prototype.

Claims (2)

 1. Hydro-wheel with blades on the horizontal axis, acting in a free flow, characterized in that the concave-convex blades are located on the disk, while they reach the center and edge of the disk.  2. Hydro wheel according to claim 1, characterized in that the disk is more massive than the blades.

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