RU2753624C1 - Hydro-wind power plant - Google Patents

Abstract

FIELD: power mechanisms.

SUBSTANCE: invention relates to the field of power mechanisms, namely to a hydro-wind power plant. In the hydro-wind power plant, the blades are made up of central and side sections, working like a fan and opening during the working phase and closing during the non-working phase due to the levers with rollers located on the disk (10), mounted on bearings on the shaft. A pipe (17) is located on the disk (10), in which the rod (16) is mounted with the possibility of reciprocating movement, abutting against the lever. At the end of the pipe (17), a fork is fixed, in the lugs of which an axle is rigidly mounted, in the middle of which the central section is rigidly mounted. The side sections are installed freely, and the end sections (26 and 27) are connected by levers with rollers, on which pushers (22 and 23) abut, rigidly sitting on the axis with the possibility of driving the end sections (26 and 27) into oscillatory motion and turning the following sections to form a blade.

EFFECT: invention is aimed at creating a powerful and easy-to-use plant.

9 cl, 14 dwg

Description

An installation designed to convert the energy of a stream of water or wind and containing a base, a plate, a bearing housing rigidly mounted on a plate, a shaft mounted in a bearing housing with the possibility of rotation around its axis, a main cam with protrusions and depressions, blades mounted with the possibility of change its position in relation to the flow, levers with rollers installed with the possibility of rolling along the protrusions and valleys of the main cam, a disk, a spring, a loading device, to which the torque created by the blades is transmitted through the sprocket and the chain transmission, characterized in that the blades are made of the central and side sections, working like a fan - opening during the working phase and gathering during the non-working phase due to levers with rollers located on a disk mounted on bearings on the shaft, while the disk has a pipe in which it is installed with the possibility of reciprocating motion stem, abutting into the lever, a fork is fixed at the end of the pipe, in the eyes of which the axle is rigidly installed, in the middle of which the central section is rigidly installed, while the side sections are installed freely, and the end sections are connected by levers with rollers, on which the pushers rest rigidly on the axle with the possibility of a drive in the oscillatory movement of the outer sections and turning the following sections with the formation of a blade, to facilitate the return of the rod during the inoperative phase, a spring is installed in the pipe, abutting against the bushing, rigidly sitting on the rod, while the sprocket is installed on the flywheel attached to an additional pipe mounted on the disk.

The torque created by the blades is transmitted through a pipe mounted on a disk, inside which a stator is installed, and on the strut an armature for generating electrical energy, at the end of which a flywheel is installed, to reduce pulsation, resting on a thrust bearing mounted on the bearing housing, on the flywheel a sprocket is installed for transmission through a chain transmission to a load device, for example, a generator for generating electrical energy.

A weather vane is installed on the stand rigidly, with the possibility of adjustment, which sets the blades perpendicularly during the working phase, to work in part of the trajectory like a sail, creating a maximum torque.

On the rack, a guide is rigidly, with the possibility of adjustment, a guide for directing the wind or water flow by blades is installed, to support the casing, a rim is installed on the pipe - a track of the C-shaped profile, inside which there are bearings mounted on the axes of rigidly fixed brackets of the casing.

Inside the rack, a cable is passed, which is fixed from the bottom on a finger perpendicular to the bushing with a collar located on the axis, freely located with a gap in a glass rigidly fixed to a plate, in the upper part of the cable there is a thimble for the possibility of transporting the unit by air and for quick installation on a pre-prepared place on land , for this, containers are provided, filling them with a counterweight for stability, or at a predetermined place on the water - this is especially important in emergency cases.

When using flexible elements, for example, fabric materials for the blades, the design of the installation is simplified; with a weak tension, the blades will work like a sail, creating large torques in the working phase and providing minimal resistance in the non-working phase.

In the case when the blades are located on the periphery, on the blade platform, consisting of a central sleeve rigidly sitting on the shaft, a rim rigidly connected by the sleeve with spokes, a fork thickened on one side to accommodate the axis on which the blade sections are installed - the central one is rigidly in the middle , and the rest on both sides - freely on bearings, the extreme sections are equipped with roller levers and rollers, rolling directly on the cams, located on the cam platform, set in oscillatory motion, turning open the sections like a fan in the working phase and are collected in the non-working, in places section contact, flexible spacers are installed, the cam platform consists of a bushing freely sitting on the shaft housing, a rim rigidly connected to the bushing by spokes, a ring mounted on the rim, external and internal cams and additional cams for forced assembly of the blade section during inoperative phase, axes with bearing to maintain the stability of platforms, weather vane, connected with the cam platform.

The hydraulic wind power plant is designed to operate on horizontal and vertical planes, and with the location of blades and cams at both ends (see Fig. 8) and the possibility of rotation of the stator and armature in different directions, increasing the effect of using the flow and can only rotate the armature, rotating in one direction, and with the displaced location of the blades, the rotation will be smooth.

The hydro-wind power plant is made with the possibility of placing on one rack one above the other 2 or more hydroelectric power stations in the water or 2 or more APUs on the surface, operating on a vertical plane, and 2 or more hydroelectric power stations and APUs operating on a horizontal plane, creating high power in one place ...

The hydro-wind power plant can be installed permanently, i.e. one GSU or APU installation, 2 or more pcs. on the same platform of the GSU or APU, 2 or more coupled at the bottom of the APU in the water at the top of the APU on the same platform - the combinations may be different.

The installation is designed to be used instead of hydroelectric turbines, since allows you to use the water column more fully, namely, to place the power take-off shaft closer to the lower water level, because in the transition zone with working in non-working and reverse strokes, the resistances are minimal; instead of turbines, HSSs can be used, operating both on a vertical plane and on a horizontal one.

The hydraulic wind power plant, the loading device can be located outside the installation, and on the side, for example, of the hydroelectric power station in water or under water, under the ice, and the loading device on the shore, and the movement is transmitted, for example, by a flexible shaft.

Hydro-wind power plants can be installed both stationary and on moving vehicles that move at low speed, for example, on excavators when loading ore or digging a trench, agricultural machines, on means on the water: on barges, on rafts, on platforms at mining, on ships, on ships for propeller drive or for power generation, pump drive, on aircraft, for example, airships, balloons. APU can be installed on buildings and structures and on houses, where there is a possibility for strength characteristics and roof structure.

Hydro-wind power installations can be collapsible and portable for tourists, geologists, fishermen, since the installation, with its small dimensions, creates large capacities.

Can be installed at polar stations.

GSU is designed for use on small rivers with shallow depths and will find wide application.

The hydro-wind power plant can be made in a toy version.

Description of the structure of the hydro-wind power plant

A plate 2 is installed on the base 1, on which the bearing housing 3 is rigidly seated, in which a stand 4 is installed, installed in the bearing housing, bushings 5 and 6 sitting on it. Bushing 6 is made with a shoulder and rests on a ring 7 in the housing 3, on the upper part of the rack 4, a bushing is installed on which a bushing 9 is installed on the bearings, on which the disk 10 is rigidly mounted, an axle 12 is installed on the disk, and a lever with a plate 13 is installed on the axle on the bearings, a main roller 14 is installed on the lever, which falls on the protrusions and the hollows of the main cam 15 rigidly, with the possibility of adjustment, sitting on the rack 4 and drives the reciprocating movement of the rod 16 located in the pipe 17, mounted on the supports 18 rigidly mounted on the disk 10, at the other end of the rod through a technical hole in the pipe is rigidly fixed axle 19, at the end of which bearings 20 are installed, rolling in the grooves of the rod 16, fixed by bushing 21, pushers 2 are rigidly mounted beyond the bearings 2 and 23, which with the help of levers with rollers 24 and 25, rigidly fixed, with the possibility of adjustment, to the extreme sections of the blades 26 and 27 freely sitting on the axis 28, rigidly sitting in the eyes of the fork 29 rigidly fixed to the pipe 16, in the middle of the axis 28, the central section of the blades 30 is rigidly installed; to facilitate the return of the rod 15, at the same time, for the oscillatory movement of the blade section, like a fan, a spring 31 is provided, installed in the rod 16, abutting against the sleeve 32 rigidly sitting on the rod 16.

A pipe 33 is installed on the disk 10, inside which a stator 34 is installed, and on the rack 4 an anchor 35 for generating electricity.

A flywheel 36 is fixed at the end of the pipe, rigidly sitting on the sleeve 37, mounted on bearings on the sleeve 38, rigidly sitting on the rack 4, on which the ring 39 is rigidly and adjustable, to exclude the longitudinal movement of the flywheel 36, the sleeve 37 rests on the thrust bearing 40, mounted on a washer 41 rigidly sitting on the bearing housing 3, a sprocket 42 is rigidly mounted on the flywheel 36, which, through a chain transmission and sprockets sitting on a loading device, for example, on a generator, the torque created by the blades is transmitted to the generator 43 to generate electrical energy.

To support the casing-guide 44 mounted on the post 4, a rim-track 45 of a C-shaped profile is rigidly mounted on the pipe 33, inside of which there are bearings sitting on the axles 46, fixed on the bracket 47, rigidly fixed to the casing 44. For the possibility of transportation by air, inside the rack 4 there is a cable 48 fixed on the axis 49, a sleeve with a collar 50 freely with a gap, installed in a glass 51, rigidly sitting on a plate 2.

On the lower part of the rack 4, a ring 52 is rigidly seated to prevent the longitudinal movement of the rack, a stopper 53 is provided for stopping, flexible spacers 54 are provided at the contact points of the section when drawn in by the extreme sections of the subsequent ones.

In the upper part of the cable, the thimble 55 is fixed for the possibility of transportation by air.

For optimal operation of the blades, namely in the open position, they are located perpendicular to the wind, creating the maximum torque, on the upper part of the rack 4 rigidly, with the possibility of adjustment, a weather vane 56 is installed.

The blades work like a fan - during the working phase they open and set perpendicular to the wind or water flow, and in the non-working phase they are assembled, creating a minimum resistance during the return stroke; for forced assembly during the non-working phase, an additional roller 57 is provided, sitting on the axis of the main roller on bearings, and an additional cap 58, mounted on the rack 4 rigidly, with the possibility of adjustment.

In the embodiment, when the cams are mounted on the bearing housing 3, which is rigidly seated on the plate 2, the torque is transmitted by means of the shaft 59, which sits on the bearings in the housing, the sleeve 9 sits on the shaft, rigidly fixed by the pin 60.

To slow down the speed of rotation or stop, a brake 61 is provided. On the plate 2, pontoons 62 are rigidly, with the possibility of adjustment, and the location at the specified place is due to the anchor or piles, depending on the place and purpose, are not indicated in the drawing.

In the embodiment, when the cams are installed directly behind the vane platform (see Fig. 8), consisting of a sleeve 63 rigidly sitting on the shaft 59, spokes 64 rigidly connected to the rim 65, on which the forks 66 are rigidly mounted, widened at the bottom to install the axes 28, on which the levers with rollers 67 and 68 are installed.Moreover, the rollers can be rounded at the periphery, and the levers can be curved, behind the vane platform there is a cam platform, consisting of a bushing 69, freely sitting on the bearing housing, spokes 70, rim 71 rigidly connected to each other, a ring 72 is installed on the rim, on which the outer cams 73 and inner 74, and the cams for forced assembly 75 and 76 are fixed. On the cam platform there are axles with bearings 77, rolling along the ring 72 for stability.

A housing 79 is installed on the mast 78, in which the axis 80 is installed, rigidly connected by the housing of the installation 81. In which the stator 82 is mounted on the bearings and the armature 84 is mounted on the shaft 83, the rotation of the armature is transmitted from the blades by means of a sleeve 63 rigidly sitting on the shaft 83.

The axis 28, installed in the eyes of the fork 66, is locked with lock washers 85 and cotter pins 86. The central axis is fixed with a screw 87 and the outer sections of the blades are fixed, for example, with ball clamps, a spring 88 and a screw 89, the sections are separated by rings 90.

In the case of the rotation of the blades with a drive at the axle, pins with flexible spacers 91 are provided.

In the presence of a retainer, the rollers may not touch the cams in the working and non-working phases, if the cams are made in this way, namely, after lifting and fixing, the radius of the cams decreases slightly, and the lever is spring loaded with a torsion spring, pushing the roller away from the cam, in this case the friction decreases.

The installation is made with the ability to change the speed of rotation of the blades of the group, namely, at high wind speeds, the blades together with the tube assembly, due to centrifugal forces, have the opportunity to move to the periphery, thereby the contacts with the cam will be changed - reduced, as a result, the blades will open not completely, creating less torque, the speed will decrease, a spring 92 is provided to return the pipe back.

Tanks 93 are provided for the counterweight for on-site filling, this is especially true when transporting by air.

The blade sections can be biased with a torsion spring with fixation on the axle.

The sections of the blades can be made of soft material, for example, from fabric, with a weak tension they are like a sail, in the working phase they create large torques.

Claims (9)

1. An installation designed to convert the energy of a stream of water or wind and containing a base, a plate, a bearing housing rigidly mounted on the plate, a shaft mounted in the bearing housing with the possibility of rotation around its axis, a main cam with protrusions and depressions, blades mounted with the ability to change their position in relation to the flow, levers with rollers installed with the possibility of rolling along the protrusions and depressions of the main cam, a disk, a spring, a loading device, to which the torque created by the blades is transmitted through the sprocket and the chain transmission, characterized in that the blades are made consisting of the central and side sections, working like a fan - opening during the working phase and collecting during the non-working phase due to levers with rollers located on a disk mounted on bearings on the shaft, while a pipe is located on the disk, in which it is installed with the possibility of reciprocating translational movement of the rod, abutting in the lever, a fork is fixed at the end of the pipe, in the lugs of which the axle is rigidly mounted, in the middle of which the central section is rigidly installed, while the side sections are installed freely, and the end sections are connected by levers with rollers, on which the pushers rest firmly on the axle with the possibility drive into the oscillatory movement of the outer sections and turn the next sections to form a blade, to facilitate the return of the rod in the inoperative phase, a spring is installed in the pipe, abutting against the bushing rigidly sitting on the rod, while the sprocket is installed on the flywheel attached to an additional pipe mounted on the disk ... 2. Installation according to claim 1, characterized in that when the water energy flow is converted, the main cam is rigidly mounted on the shaft housing. 3. Installation according to claim. 1, characterized in that when converting the flow of wind energy, the installation is equipped with a weather vane for orientation in the direction of the wind, while the main cam is installed freely on the shaft housing, but rigidly connected to the weather vane. 4. Installation according to claim 1, characterized in that it is equipped with a guiding casing for directing the wind or water flow to the blades. 5. An installation according to claim 4, characterized in that it is equipped with additional rollers and an additional cam to prevent unassembled blade sections from getting into the guide casing in the idle phase. 6. Installation according to claim. 1, characterized in that the sections of the blades at the points of contact are provided with flexible spacers. 7. Installation according to claim. 1, characterized in that it is made with the possibility of transportation by air, for which a cable is installed inside the rack. 8. Installation according to claim. 1, characterized in that the blades are made of flexible material. 9. Installation according to claim 1, characterized in that it is collapsible.

Images