RU117520U1 - DRIVE TURBINE WHEEL - Google Patents

Abstract

A garland turbine impeller containing a supporting frame with uniformly installed blades and fastening devices for fixing it on a power connecting cable, characterized in that the supporting frame is made in the form of a float formed by two hollow cones connected by bases, the blades are made of a propeller type and fixed on the side surface of the float, and inside the float between the tops of the cones, a tubular element is installed, at the ends of which there are fasteners.

Description

The utility model relates to hydropower and can be used in daisy-chain hydropower plants to select part of the energy of the current medium and convert it into mechanical energy of rotation, and then into electrical energy.

It is known the impeller of a daisy-chain turbine containing a supporting frame with blades and fixing devices for fixing it on a power connecting cable, the supporting frame made in the form of a tubular rotary casing, the blades in the form of half-cylinders are located inside the rotary casing and are inclined in opposite directions relative to its longitudinal axis, the power cable is passed through a tubular rotary casing and fixed with clamps in its bases (see the description of the invention to the patent of the Russian Federation No. 2049929, application form. 30.06.1992, publ. 10.12.1995, CL F03B 17/00, F03B 17/06).

This impeller has a significant metal consumption and low rotation speed, since it does not provide the possibility of placing it in the upper layers of the watercourse, which has a higher speed.

The closest set of essential features to the claimed (prototype) is the impeller of a daisy-chain turbine containing a supporting frame with blades evenly mounted on it and fasteners fixed to the bases of the supporting frame, the bases of the supporting frame being in the form of hoops with transverse stiffeners, the blades are made in in the form of flexible polymer tapes twisted in a spiral and rigidly connected with hoops, and the connecting elements are cardan joints (see description of Leznov model to RF patent №74082 appl. 12.02.2007, publ. 20.06.2008, on cells. B02B 7/02).

The disadvantage of this impeller of a daisy-chain turbine is that the execution of the blades in the form of flexible polymer tapes twisted in a spiral does not provide the creation of high speeds of rotation of the impeller when installing a daisy-chain turbine along the stream. The flow velocity is also significantly reduced by the transverse stiffeners located in the bases. In addition, to place the impeller in the upper layers of the watercourse having a higher speed, it is necessary to attach it to an additional device, in particular, to the float.

The problem to which the present utility model is directed is to provide the possibility of creating high speeds of rotation of the impeller by placing it in the upper layers of the watercourse having a higher speed.

The problem is solved in that in the impeller of a daisy-chain turbine containing a supporting frame, with uniformly mounted blades and fastening devices for fixing it on a power connecting cable, according to a utility model, the supporting frame is made in the form of a float formed by two hollow cones interconnected bases, the blades are made of a propeller type and fixed on the side surface of the float, and inside the float between the tops of the cones, a tubular element is installed, at the ends of which there is a wife fasteners.

The implementation of the supporting frame in the form of a float formed by two hollow cones, interconnected by bases, the presence of propeller-type blades and fixing them on the side surface of the float, as well as placement inside the float between the tops of the cones, a tubular element with fastening devices at the ends makes it possible to place the impeller in the upper layers of the watercourse, having a higher speed, which allows you to create the highest speed of rotation of the impeller.

The essence of the utility model is illustrated in the drawing.

The impeller of a daisy-chain turbine contains a supporting frame made in the form of a float formed by two hollow cones 1 and 2, interconnected by bases 3. Blades 4 of a propeller type are uniformly fixed on the side surface of the float. Inside the float, between the vertices of the cones 1, 2, a tubular element 5 is installed, in which a power connecting cable 6 is passed. To fix the impeller on the power connecting cable 6, fasteners 7 are located at the ends of the tubular element 5.

The device operates as follows.

Depending on the power, the required number of impellers is installed on the power connecting cable 6 using fastening devices 7. The garland turbine assembly is positioned along the flow of the flowing medium. The implementation of each supporting frame in the form of a float formed by cones 1, 2, interconnected by bases 3 and the presence of propeller-type blades on the float makes it possible to place the entire garland turbine in the upper layers of the watercourse, which has a higher speed, which creates the highest rotation speed of each the impeller and, accordingly, the entire daisy turbine.

The inventive utility model in comparison with the prototype can significantly increase the speed of rotation of the impeller due to the implementation of its frame in the form of a float and the presence of the propeller type blades on the float.

Claims (1)

An impeller of a daisy-chain turbine containing a supporting frame with uniformly mounted blades and fixing devices for fixing it on a power connecting cable, characterized in that the supporting frame is made in the form of a float formed by two hollow cones connected by bases, the blades are made of a propeller type and fixed on the side surface of the float, and inside the float between the tops of the cones, a tubular element is installed, at the ends of which are fasteners.