RU2782482C1 - Manoeuvring river unit for generating electricity - Google Patents

Abstract

FIELD: power generation.

SUBSTANCE: invention relates to manoeuvring river units for generating electricity. Unit comprises a generator 12; blade blocks, coupled with each other in series for the combined transfer of force to the generator 12, with propeller-type blade wheels rigidly fixed on the axles 2 secured in support bearings 4; support blocks 1, and cardan splined semi-axles 7. The unit is equipped with stands 5, splined washers 8, and gearboxes 10 and 11 for the transfer of force to the generator 12. Centring hydrodynamic rings 6 are rigidly fixed on the blocks 1. The blade wheels are located in the periphery of the radius of the rings 6. The bearings 4 are rigidly fixed on the stands 5 rigidly fixed in the blocks 1. The axles 7 are linked with the semi-axles 7 connected by the washers 8 for connecting the blade blocks. During installation of the unit, the semi-axles 7 are centred and coupled using a washer 8. The semi-axle 7 is located at the horizontal level below the second contact semi-axle 7 and acts as a longitudinal support for the washer 8.

EFFECT: efficient generation of electricity by means of the non-utilised energy potential of rivers.

2 cl, 5 dwg

Description

Technical field

The invention relates to energy, namely to renewable sources of electrical energy and can be used as a source of electrical energy.

State of the art

Known shunting river installation for generating electricity, located along the bottom of the riverbed, containing support blocks, paddle blocks with paddle wheels rigidly mounted on axles fixed in support bearings, a generator, cardan splined semi-axes, through which the paddle blocks are sequentially paired with each other for the total transfer of force to the generator during derivation.

The disadvantage of this invention is the complexity of the installation of such a mechanism, in view of the fact that one paddle unit with a paddle wheel is directly connected to an integral cardan splined axle shaft with another paddle unit with a paddle wheel. Source: CN 204003249 U, 12/10/2014, F03B13/10.

Known wind turbine for generating electricity.

Patent №2725125

abstract

The invention relates to energy, namely to renewable sources of electrical energy. Wind turbine for generating electricity, consists of axes for fastening the blades, blades, support legs, devices for removing air flow from the blades, operating in a closed position for wind attack, and fixed on the support legs, connecting splined axles, profiled wheels with teeth, chain transmission , gearbox, generator. The technical result is to ensure operation at low wind speeds. Source: www.fips.ru patent №2725125

Essence

The invention relates to energy, namely to renewable sources of electrical energy and can be used as a source of electrical energy.

The technical result solved by the invention is provided by the unused energy potential of the rivers, by analogy with the invention - patent No. 2697593, source: www.fips.ru.

To solve this technical problem, a shunting river installation for generating electricity is proposed, containing a generator, paddle blocks with paddle wheels rigidly fixed on axles fixed in support bearings, support blocks and cardan splined semi-axes, connected in series with each other for the total transfer of force to the generator, according to of the invention, the installation is equipped with racks, splined washers, an intermediate gearbox and a gearbox, centering hydrodynamic rings are rigidly fixed on the support blocks, performing the function of a confuser, propeller-type impellers are placed in the periphery of the radius of the centering hydrodynamic rings, thrust bearings are rigidly fixed on the racks designed to hold them and rigidly fixed in the support blocks, the axes of the impellers are connected with cardan splined semi-axes connected by spline washers for connecting the impeller blocks, the power is transmitted to the generator through an intermediate gear torus and gearbox, while during installation of the installation, the cardan splined semi-axes are centered and mated with a splined washer, and the cardan splined semi-axle is located in a horizontal level below the second contact cardan splined semi-axle and acts as a longitudinal support for the splined washer. For efficient consumption of the pressure of the head of the water flow, the interaxial displacement of the blade blocks relative to each other, in height, width, and also the angles of conjugation, is provided.

The convenience and simplicity of the mechanism that converts the total energy of derivation into mechanical energy is provided by series-connected paddle blocks, by means of cardan splined semi-axes, splined washers.

Cardan splined semi-axes assume a provision for their length when calculating the distance between the blade blocks, and are connected by splined washers, which satisfies the need for ease of installation and maintenance.

The interaxial displacement of the blade blocks relative to each other in height, width, as well as the angles of conjugation suggests the convenience of designing the installation, taking into account the bottom topography and the riverbed.

The main technical features and advantages of the proposed technical solution are described in the presented preferred embodiment. The scope of the invention is not limited to the described example, but includes various embodiments in accordance with the general concept. In particular, the use of cardan splined semi-axes, splined washers in order to efficiently generate electricity.

Brief description of the drawings

The essence of the invention is illustrated by drawings. On FIG. 1-3 show a general view and the device of a shunting river installation for generating electricity, and in Fig. 4-5 mechanism for splined pairing of blade blocks with each other.

The figure 1 shows a top view and marked: support blocks 1, axes of the impellers 2, support bearings 4, support bearings 5, centering hydrodynamic rings 6, cardan splined semi-axes 7, splined washers 8, connection of the axes of the impellers and cardan splined semi-axes 9 , intermediate gearbox 10, gearbox 11, generator 12.

The figure 2 shows a side view and marked: support blocks 1, axes of the impellers 2, support bearings 4, support bearings 5, centering hydrodynamic rings 6, cardan splined semi-axes 7, splined washers 8, connection of the axes of the impellers and cardan splined semi-axes 9, intermediate gearbox 10, gearbox 11, generator 12.

The figure 3 shows a longitudinal view and marked: support blocks 1, axes of the impellers 2, impellers 3, support bearings 4, support bearings 5, centering hydrodynamic rings 6, cardan splined axle shafts 7, splined washers 8, connection of the axes of the impellers and cardan splined axle shafts 9, intermediate gearbox 10, gearbox 11, generator 12.

The author demonstrates the interaxial displacement of the blade blocks, but due to the abundance of small elements, he does not indicate them, as this will make it difficult to read the drawing.

The figure 4 shows: axes of the impellers 2, cardan splined semi-axes 7, splined washer 8, connection of the axes of the impellers and cardan splined semi-axes 9.

Cardan splined semi-axes in open form.

The figure 5 shows: axes of the impellers 2, cardan spline shafts 7, spline washer 8, the connection of the axes of the impellers and cardan spline shafts 9. Cardan spline shafts are coupled with a spline washer.

Support blocks 1, made taking into account streamlining and resistance to hydrodynamic forces under derivation conditions. On the support block 1, a centering hydrodynamic ring 6 is rigidly fixed, which acts as a confuser. In the periphery of the radius of the centering hydrodynamic ring 6 there is a propeller-type paddle wheel 3, which is rigidly fixed on the axis 2, and the axis of the paddle wheel 2 is fixed on the support bearings 4, which in turn are rigidly fixed on the racks 5 designed to hold them, the support bearing rack 5 are rigidly fixed in the support block 1.

The axis of the impeller 2 through the connection 9 is connected to the cardan splined half-axle 7, and the cardan splined axles are connected by a splined washer 8. Thus, the paddle blocks are connected in series with each other. When installing the unit, the cardan splined semi-axes 7 are centered and mated with a splined washer 8. In this case, the cardan splined semi-axle 7, located at a horizontal level below the second contact cardan splined semi-axle 7, acts as a longitudinal support for the splined washer 8.

When deriving, the impellers 3, taking the hydrodynamic load, rotate, being connected in series, the total force of all the impellers is transmitted to the intermediate gearbox 10, the purpose of which is to transfer the torque, at the calculated angle, to the generator 12 through the gearbox 11. The gearbox 11 and the generator 12 are located on the banks of the river, on dry land. An uninterrupted static load is provided for the operation of the generator 12 in order to generate electricity.

Implementation of the invention

A shunting river installation for generating electricity operates in one mode.

The installation is located along the bottom of the river bed.

Support blocks 1, made taking into account streamlining and resistance to hydrodynamic forces under derivation conditions. On the support block 1, a centering hydrodynamic ring 6 is rigidly fixed, which acts as a confuser. In the periphery of the radius of the centering hydrodynamic ring 6 there is a propeller-type paddle wheel 3, which is rigidly fixed on the axis 2, and the axis of the paddle wheel 2 is fixed on the support bearings 4, which in turn are rigidly fixed on the racks 5 designed to hold them, the support bearing rack 5 are rigidly fixed in the support block 1.

The axis of the impeller 2 through the connection 9 is connected with the cardan splined half-axle 7, and the cardan splined axles are connected by a splined washer 8. Thus, the paddle blocks are connected in series with each other. When installing the unit, the cardan splined semi-axes 7 are centered and mated with a splined washer 8. In this case, the cardan splined semi-axle 7, located at a horizontal level below the second contact cardan splined semi-axle 7, acts as a longitudinal support for the splined washer 8.

When deriving, the paddle wheels 3, taking on a hydrodynamic load, rotate, being connected in series, the total force of all the paddle wheels is transmitted to the intermediate gearbox 10, the purpose of which is to transmit torque, at a calculated angle, to the generator 12 through the gearbox 11. The gearbox 11 and the generator 12 located on the banks of the river, on dry land. An uninterrupted static load is provided for the operation of the generator 12 in order to generate electricity.

Claims (2)

1. A shunting river installation for generating electricity, containing a generator, paddle blocks with paddle wheels rigidly fixed on axles fixed in support bearings, support blocks and cardan splined semi-axes, connected in series with each other for the total transfer of force to the generator, characterized in that the installation equipped with racks, splined washers, an intermediate gearbox and a gearbox, centering hydrodynamic rings are rigidly fixed on the support blocks, performing the function of a confuser, propeller-type impellers are placed in the periphery of the radius of the centering hydrodynamic rings, thrust bearings are rigidly fixed on the racks designed to hold them and are rigidly fixed in the support blocks, the axes of the impellers are connected to the cardan splined semi-axes, connected by splined washers for connecting the impeller blocks, the power is transmitted to the generator through an intermediate gearbox and a gearbox, while during installation of the installation the cardan splined semi-axes are centered and mated with a splined washer, and the cardan splined semi-axle is located in a horizontal level below the second contact cardan splined semi-axle and acts as a longitudinal support for the splined washer. 2. Installation according to claim. 1, characterized in that for effective consumption of the pressure of the head of the water flow, an interaxial displacement of the blade blocks relative to each other, in height, width, and also the mating angles, is provided.

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