SK288244B6 - Floating water wheel especially a multifunction power generator - Google Patents

Abstract

The floating water wheel especially as multifunction power generator consists of a hollow water wheel (1) with the anchoring (2) and machinery (3). The water wheel (1) is formed from cylindrical housing (4) with lids (5). The outer ring is equipped with a set of blades (6), the inner ring is fitted with an internal ring gear (13). The axis passes through the central shaft (7) mounted on a pair of bearings (8). On hinges (10) is fulcrumed shaft (11) with pinion (12) meshing with the ring gear (13), from which the torque is transmitted to the generator (15) and energy in it generated (16) is assigned to the machinery (3) equipped with the control mechanism (30), security mechanism (31) , a communication mechanism (32) and the gauge of produced energy (33). The anchoring (2) of the water wheel (1) can be fixed to the hanging bridge (23), bank link (24), marine hinge (28), pontoon (27) or the float (26). The device uses the energy of water flow not only to drive electric generators only, but also to drive the hydraulic and pneumatic equipment.

Description

Technical field

The invention is in the field of power engineering, power generation, heat production, propulsion of hydraulic and pneumatic machines and equipment. It concerns the use of flowing water in larger streams, rivers and outflows to power not only electric generators but also hydraulic and pneumatic equipment.

BACKGROUND OF THE INVENTION

Today, water energy is one of the most commonly used energy sources. These are mostly large hydroelectric power stations, but they are bound to larger water reservoirs. In most cases, these are fixed buildings that are located in suitable locations using natural conditions, or equipment with an artificial gradient - pumped-storage power plants. Their construction often requires rapid interventions in the surrounding country, while its character changes, which may be environmentally unsatisfactory.

In the aforementioned hydroelectric power plants, in most cases a water turbine is used as a driving unit for driving the electric current generator. Currently, four basic types of Bánki, Pelton, Francis and Kaplanov water turbines are used, or their innovative and improved design solutions (spiral and box solutions, direct current) are used.

Small hydropower plants are also known whose environmental consequences are minimal and there are a number of sites where small hydropower plants can be built. Several inventions and utility models have been developed for small hydropower plants with various screw rotors mounted in gutters, chambers and pipes. In the Czech Republic it is utility model number CZ 17561 U1, in Germany DE 41 39 134, DE 195 07149, DE 103 48 533 and in the US number US 2004027020. Also published patent application CZ 1990-4806 relates to a floating hydroelectric power plant with a rotor, Another floating power plant, which at some points resembles the present invention, is the Czech utility model CZ 16778 U1, which uses two rollers on floats between which the blades mounted on a conveyor circulate. Movement of the conveyor is transmitted to the electric generator. The author of this utility model considers a relatively large device with dimensions of 50 x 8 m with a height and a float width of 3 m as a functional model. However, the performance of the device is not stated.

The utility model CZ 9723 U1 proposes the use of a paddle wheel which is immersed only by its blades in a watercourse which must be adapted to the desired trough, whereby the energy is transmitted by the blades support shaft to the gearbox and the electric current generator.

All of the above solutions require less or greater flow adjustment or sufficient slope. Neither of these solutions comprises a hollow water wheel utilizing the internal space to accommodate the drive and generator drive.

SUMMARY OF THE INVENTION

The aforementioned drawbacks of the prior art are eliminated by a floating water wheel, in particular as a multi-fat energy generator consisting of a hollow water wheel with anchoring and an engine room, which consists in that the water wheel is formed by a cylindrical casing with lids; at least one inner ring gear is mounted on the inner circumference. The water wheel rotates on a central shaft mounted on a pair of bearings rigidly connected through the arms or by means of an anchor frame. At least two hinges are mounted on the central shaft in which the shaft with at least one toothed pinion engages in its internal gear ring from which the torque is transmitted mechanically directly or via a gearbox to at least one generator and the energy produced is dissipated to the engine room equipped with a control device, a safety device, a communication device and a measure of the energy produced.

The generator may be one of three basic types, namely an electric generator, a hydrogen generator or a pneumatic generator.

Any non-electrical power produced to the engine room, by passing through the medium distributor, is used directly and / or converted to electrical power by driving a motor whose mechanical energy drives the electric current generator. To control the immersion depth of the water wheel, an oil tank may be located inside the water wheel.

The stabilization of the at least one floating water wheel against the drifting watercourse is ensured by connecting its arms to an anchorage which is attached to a bridge or shore hinge or a sea-hanger or a pontoon. Stabilization of the floating water wheel against the entrainment watercourse can also be ensured by connecting a pair of bearings of at least one water wheel with anchoring, which are fixed to the frame with at least one float.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail with reference to the drawings in which: Figure 1 a floating water wheel as a power generator in a mechanical design in a front view; water wheel as multifunctional power generator - power generator and hydraulic pump in hydraulic design in front view, Figure 4 floating water wheel as multifunctional power generator - power generator and hydraulic pump in hydraulic design in side view, in figure 5 floating water wheel as multifunctional power generator - electric power generator and pneumatic air generator in front view, Figure 6 floating water wheel as multifunctional power generator - electric generator and generator 7, a floating water wheel as a multifunctional power generator with a bridge or shore anchorage in the side view, in Figure 8 a floating water wheel as a multifunctional power generator with a bridge anchor in the front view, in figure 9 a floating water wheel as multifunctional energy generator with side anchoring in front view, in figure 10 floating water wheel as multifunctional energy generator mounted on floats in side view, in figure 11 floating water wheel as multifunctional energy generator mounted on floats in top view, in figure 12 floating a water wheel as a multifunctional energy generator mounted on a pontoon in a side view, in Figure 13 a floating water wheel as a multifunctional energy generator mounted on a pontoon in a top view, in figure 14 a floating water wheel as a multifunctional generator Figure 15 shows a floating waterwheel as a multifunctional generator with anchorage on the seashore in a top view.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

FLOATING WATER WHEEL AS A GENERATOR OF ELECTRIC ENERGY IN MECHANICAL DESIGN

The floating water wheel as a power generator with direct drive of the power generator in a water wheel in a mechanical embodiment, shown in Figure 1, consists of a hollow water wheel 1 and a machine room 3. The hollow water wheel 1 is formed by a cylindrical casing 4 , on the outer circumference with a shoulder blade assembly 6.

Through the axis of the hollow water wheel I passes a hollow central shaft 7 mounted at the ends on bearings 8 connected to the arms 9. Inside the water wheel 1, a pair of hinges 10 are rotatably mounted on the central shaft 7, through which a shaft 11 passes. to the inner gear rims 13 fixed to the cylindrical housing 4. The center of the shaft 11 passes through the inlet of the spur gear 14, the outputs of which are connected via couplings (not shown in the drawing) to a pair of electric generators 15. The power produced is sent to the electrical switchboard 29 of the machine room 3. The machine room 3 is equipped with a control device 30, a security device 31, a communication device 32 (GSM gateway), a power meter 33 and outputs 34 of the medium distributor. The water wheel I may be connected to the engine room 3 by means of anchoring (not shown in Figures 1 and 2) or the engine room 3 is located on a structure (for example a pontoon) carrying the water wheel L directly

The watercourse rotates the anchored floating water wheel 1, the structure of which resists all possible floating obstacles (floating stoves, ice, etc.). The rotating water wheel 1 with blades 6 transmits the power of the water by means of an internal ring gear 13, a pinion 12 and a shaft 11 to a gearbox 14 that drives the electric current generator Γ5. The energy produced is by conductors 16 - the electrical energy is discharged through the hollow central shaft 7 and inside the arm 9 into the electrical switchboard 29 of the engine room 3 located on the shore or on a pontoon.

Example 2

FLOATING WATER WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR - ELECTRIC ENERGY GENERATOR AND HYDROGENERATOR IN HYDRAULIC DRAFT

A floating water wheel as a multifunctional generator - a power generator and a hydraulic generator in a hydraulic design, where the hydraulic generator is located in the water wheel and the hydraulic motor driving the electric generator are located in the engine room, is shown in Figure 3 and Figure 4.

It consists of a hollow water wheel I and a machine room 3. The hollow water wheel 1 is formed by a cylindrical casing 4 closed on the fronts with lids 5, having an outer set of blades 6 mounted on its outer periphery. 8 connected to the arms 9. Inside the water wheel 1, a pair of hinges 10 are rotatably mounted on the central shaft 7, through which the shaft 11 passes, at the ends of which the toothed pinions 12 engage in the inner gear rims 13 fixed to the cylindrical housing 4. engage a pair of hydraulic power generators 15-generators in the toothing of the input. Alternatively, prior to entering the generators, there may be a downstream gearbox 14 similar to Example 1. Generators 15 supply the generated power through the conduit 16 to the machine room 3. Here, the power supplied in the medium distributor 34 is divided for direct consumption and for driving the 18-rotary hydraulic motor. which drives the electric current generator 19.

The power produced is diverted to the electrical switchboard 29. The machine room 3 is equipped with a control device 30, a security device 31, a communication device 32 (GSM gate), a meter 33 of the energy produced. In the engine room 3 there is also a medium tank 35 - hydraulic tank and filter 36. Inside the water wheel I there is a tank 17 with hydraulic oil for regulating the water wheel draft.

1. The water wheel 1 may be connected to the engine room 3 by means of anchoring (not shown in Figures 3 and 4) or the engine room 3 is mounted on a structure (for example a pontoon) carrying the water wheel I directly.

The watercourse rotates the anchored floating water wheel I, while its construction resists all possible floating obstacles (floating stoves, ice, etc.). The rotating water wheel 1 with blades 6 transmits the power of the water by means of an internal ring gear 13 and a pinion 12 to the shaft 11 which drives the generator 15 - the hydro-generator. The energy produced - the pressurized hydraulic medium 16 is discharged through the hollow central shaft 7 and inside the arm 9 into the machine room 3 located on the shore or on the pontoon. In the engine room 3, all or part of the energy is used to drive the motor 18 which drives the generator 19. In the case of partial use of energy, the remainder branched through the medium distributor 34 is used for offtake directly to drive various machines and equipment with a hydraulic motor (cable car, sawmill, mill, excavator and others).

When the multifunction generator according to this example is started, the medium distributor 34 is in the overflow position, ensuring that the working medium is returned to the hydraulic fluid reservoir 35. Upon reaching the necessary speeds at the input of the generator 15, the media distributor 34 switches to the work position and the pair of generators 15 begins to push the working medium to the motor 18, which is connected to the power generator 19 or to another connected device.

The power control can be performed on the hydraulic circuit, in the transmission 14 (if it is connected before entering the generator 15), or in the generator 19 itself. In the hydraulic circuit, the control is carried out by a medium distributor 34 - a regulating and bypass valve which, by means of a microprocessor, regulates the maintenance of the necessary constant pressure on the hydraulic motor that drives the connected device. electricity from generator.

To ensure safe operation of the oil in the watercourse, the pressurized oil is routed back to the oil tank in a double pipeline with the escaped oil outlet, and this leak is monitored electronically by a central alarm system.

The service life of the device is prolonged by the airtight design of the water wheel, whereby the air inside the water wheel is replaced by a gas which does not cause corrosion of the device due to the elimination of moisture.

Example 3

FLOATING WATER WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR - ELECTRIC ENERGY GENERATOR AND COMPRESSED AIR GENERATOR IN PNEUMATIC PREPARATION

A floating water wheel as a multifunction generator - a power generator and a compressed air generator - a compressor in a pneumatic embodiment, wherein the compressor is located in the water wheel 1 and the turbine driving the power generator is located in the engine room shown in Figure 5 and Figure 6. The hollow water wheel 1 is formed by a cylindrical casing 4 closed on the fronts of the lids 5. Along its outer periphery it has a set of vanes 6. The hollow water wheel 1 passes through the hollow center shaft 7 mounted on the ends on bearings 8 connected to the arms. 9. Inside the water wheel 1, a pair of hinges 10 are rotatably mounted on the central shaft 7, through which the shaft Γ1 passes, at the ends of which the toothed pinions 12 engaging the inner gear rims 13 fastened to the cylindrical housing 4 are engaged.Pneumatic energy generators 15 - compressors. Alternatively, prior to entering the generators, there may be a upstream transmission 14 similar to Example 1. The generators 15 supply the generated energy - compressed air via a duct 16 to the machine room 3. Here, the energy supplied 16 in the medium distributor 34 is divided into direct offtake and drive. a turbine engine 18 that drives the electric current generator 19. The power produced is diverted to the electrical switchboard 29. The machine room 3 is equipped with a control device 30, a security device 31, a communication device 32 (GSM gate), a meter 33 of the energy produced. In the engine room 3 there are other parts of the pneumatic manifold, namely the medium tank 35 - air tank, filter 36 - dirt separator and air cleaner, intake 38 and safety valve 39.

Inside the water wheel 1 a reservoir 17 with hydraulic oil can be placed to regulate the immersion of the water wheel L The water wheel 1 can be connected to the engine room 3 by anchoring (not shown in Figures 5 and 6) or the engine room 3 is mounted on a structure (eg pontoon) water wheel I.

The watercourse rotates the anchored floating water wheel 1, the structure of which resists all possible floating obstacles (floating stoves, ice, etc.).

When starting the multifunction generator according to this example, the medium distributor 34, which is the solenoid valve at the compressed air outlet, is in the circulation position, ensuring that the working medium air - returns to the air tank 35 of the medium. Upon reaching the required revolutions, the medium distributor 34 is brought into the working position and a pair of compressor generators 15 begin to push air into the medium tank 35 and then onto the blades of the engine 18 turbine that drives the generator 19. The operating mode can also be set so that part of the energy produced in the water wheel - compressed air is used through the medium distributor 34 to draw directly to drive various machines and equipment with a pneumatic motor (cable car, sawmill, mill, excavator and others).

Power control can be performed on the pneumatic circuit by the medium distributor 34, in the transmission 14 (if included in the water wheel 1) or in the power generator 19 itself.

The pneumatic circuit has the advantage of operating safety, when the air leak cannot cause an environmental accident.

Example 4

FLOATING WATER WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR WITH BRIDGE ANCHOR

A floating water wheel as a multi-function bridge anchor power generator is shown in Figure 7 and Figure 8. The water wheel 1 described in Example 1 or Example 2 or Example 3 is a pair of arms 9 fixed to the bridge (dam) by anchor 2. hinge 23.

Example 5

FLOATING WATER WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR WITH A SHORT ANCHOR

A floating water wheel as a multi-function dock anchor power generator is shown in Figure 7 and Figure 9. The water wheel I described in Example 1 or Example 2 or Example 3 is fixed by a pair of arms 9 to the shore (cantilever) hinge 24.

Example 6

FLOATING WHEEL WHAT A MULTIFUNCTIONAL ENERGY GENERATOR FITTED ON SWIMMING BOATS

The floating water wheel as a multifunctional energy generator mounted on the floats is shown in Figure 10 and Figure 11. The water wheel I described in Example 1 or Example 2 or Example 3 is a pair of bearings 8 fixed to a frame Φ with a pair of floats 26. The whole device is equipped with an ice break 25 at the front and is maintained on the watercourse by anchoring 2 fixed to the frame 9 \

Example 7

FLOATING WATER WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR FITTED ON A PONTONE

The floating water wheel as a multifunctional energy generator mounted on the pontoon is shown in Figures 12 and 13. The two water wheels 1 are mounted with their arms 9 on the pontoon 27 on which the anchor 2 is mounted. The machine room 3 can be mounted on the pontoon.

Example 8

FLOATING WHEEL AS A MULTIFUNCTIONAL ENERGY GENERATOR ANCHORED ON THE SEA

The floating water wheel as an offshore anchoring multifunctional energy generator, shown in Figures 14 and 15, consists of a trio of water wheels I with arms 9 which are fastened to the sea curtain 28 by means of anchor 2.

Industrial usability

The floating water wheel, in particular as a multifunctional energy generator according to the present invention, allows multiple industrial applications.

It is mainly used for environmentally-friendly low-cost electricity production intended for:

- mechanical single-purpose device - electric generator for outputs of up to 100 kW using for the production of electric current for the heating mat of the roadway as anti-freeze protection; producing electricity for bridge lighting as a security and information task; production of electricity for electrical appliances used in water and other economies, eg pumps, flood pumping, blowers, aeration of grounded sites; electric drives - opening and closing of sluice gates etc .; production of electricity for sale,

- hydraulic multifunctional device - electric power generator powered by a hydraulic motor for outputs ranging from 50 kW to 1 MW and used for the production of electric current for the roadway heating mat as an anti-freeze protection; producing electricity for bridge lighting as a security and information task; production of electricity for electrical appliances used in water and other economies, eg pumps for pumping water at floods, blowers for aeration of grounded sites, electric drives for opening and closing sluice gates, etc .; production of electricity for sale; as well as self-propelled hydraulic motors.

In the water management industry it is used for direct drive of pumps for permanent pumping of water for irrigation channels, pumping of water during floods, etc., for direct drive of blowers for aeration of grounded sites or for waste water treatment, for propulsion of specially modified bucket dredgers, excavators and drill bits. for cleaning and adjusting the river profile.

It is used in forestry to drive specially adapted cableways to move timber around watercourses, to drive specially adapted cableways to float wood to the processing site; propulsion of specially adapted handling handles for handling wood, for driving woodworking saws near the watercourse, for driving shredding machines producing wood chips as biomass for ecological heating, for driving blowers in the production of charcoal or metal processing.

In the milling industry for the use of mill drives and other grinding equipment.

In water transport, it can be used to propel specially equipped cableways for hauling ships upstream, to propel vessels that move from one shore to another as a compass, to propel specially adapted cableways to drive water attractions near the river (eg motorless, silent and ecological propulsion of ships on the Baťa Canal in Skalica - Strážnica, where the driving river for the generator is close to the Morava river), for propulsion of equipment for securing waterways such as lock chambers, hoists, canals, etc. is like a power tool for hydraulic tools.

Pneumatic multifunctional device as an electric generator driven by a pneumatic engine - turbine - for outputs ranging from 50 kW to 1 MW, using for power generation for bridge road heating mat as anti-frost protection, for power bridge lighting as safety and information task, production of electricity for electrical appliances used in water and other economies, eg pumps for pumping water at floods, for blowers for aerating grounded sites, for electric drives for opening and closing sluice gates, etc., for the production of electricity for sale.

A pneumatic multifunctional device such as a pneumatic engine - turbine - finds application in water management for direct drive of pumps for permanent pumping of water, for example to irrigation channels, pumping of water during floods, etc., for direct propulsion of blowers for aeration of grounded sites or wastewater treatment, for the propulsion of specially adapted bucket dredgers, excavators and drill bits for the cleaning and treatment of river profiles, for the propulsion of specially modified cranes for the construction of bridges and other construction activities near watercourses.

It is used in forestry to drive specially adapted cableways to move timber around watercourses, to drive specially adapted cableways to float wood to the processing site, to drive specially modified handling handles to handle timber, to drive woodworking saws near the waterway flow, to drive shredding machines producing wood chips as biomass for ecological heating, to drive blowers in the production of charcoal or metal processing.

It is used in the mill industry to drive mills and other grinding equipment. In water transport, the invention can be used to propel specially adapted cableways to haul a boat upstream, to drive vessels that move from one shore to another as a compass, to propel specially adapted cableways to drive water attractions near a river, e.g. . unpowered, silent and ecological propulsion of ships on the Baťa Canal in Skalica - Strážnica, where the Morava River is the driving river, for propulsion of facilities for securing waterways such as lock chambers, hoists, canals and the like; Further use is possible as a drive for pneumatic tools.

Claims (8)

PATENT CLAIMS A floating water wheel, in particular as a multifunctional energy generator, consisting of a hollow water wheel (1) consisting of a cylindrical casing (4), with lids (S) having an outer blade circumference (6) with anchoring (2) ) and engine room (3), characterized in that the water wheel (1) has at least one internal gear ring (13) mounted on its inner circumference, the wheel (1) being rotatably mounted on a central shaft (7) mounted on a pair of bearings ( 8) rigidly connected via arms (9) or by means of a frame (9 ') with anchoring (2), with at least two seals rotatable about a central shaft (7) by hinges (10) for rotatably supporting the shaft (11) with at least one toothed pinion (12) engaging its toothing in an internal ring gear (13) from which the torque is transmitted mechanically directly or via a transmission (14) to at least one generator (15) for generating energy which is the energy source (16) discharges to a machine room (3) equipped with a control device (30), a security device (31), a communication device (32) and a meter of energy produced (33). A floating water wheel, in particular as a multifunctional energy generator, according to claim 1, characterized in that any non-electric energy supplied by the energy carrier (16) to the distributor (34) located in the engine room (3) from where it is further the carrier (16). ) the energy transferred to the machines for direct use and / or to drive the motor (18) driving the electric current generator (19). Floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, characterized in that an oil tank (17) for regulating the immersion depth of the water wheel (1) is located inside the water wheel (1). Floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, or according to claim 3, characterized in that the arms (9) connected to the anchorage (2) of the at least one water wheel (1) are mounted on bridge suspension (23). Floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, or according to claim 3, characterized in that the arms (9) connected to the anchorage (2) of the at least one water wheel (1) are mounted on shore hinge (24). A floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, or according to claim 3, characterized in that the pair of bearings (8) of the at least one water wheel (1) is connected to the anchoring (2) of their fastening to a frame (9 ') with at least one float (26). Floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, or according to claim 3, characterized in that the arms (9) of the at least one water wheel (1) are connected to the anchoring (2) by their fastening for pontoon (27). Floating water wheel, in particular as a multifunctional energy generator, according to claim 1 or claim 2, or according to claim 3, characterized in that the arms (9) connected to the anchorage (2) of the at least one water wheel (1) are mounted on sea curtain (28).