DE4122667A1 - Cyclone wind power plant with outer fixed tower e.g. for water-pump in hydroelectric application - has number of fixed guide vanes at periphery, number of air passages at its base near to ground, and air inlet in centre of outer tower - Google Patents

Abstract

An iron ring (3) is provided at the base (6) of the outer tower (1), and an odd number of fixed armature windings (10) surround the iron ring. An inner rotatable tower is arranged in the middle of the base of the fixed outer tower and has a number of blades at the periphery, which are arranged on iron rings with some holes. A rotary table is provided, the rotation of which is synchronised with the rotation of the iner tower. The table has a number of turbine blades, permanent magnets, and stationary armature windings to generate power. Guide plates (5) are fixed at an angle on the outer tower to direct the incoming wind. USE/ADVANTAGE - To provide power for lighthouse, ship propeller backup, vehicle when mounted thereon. Provides unlimited non-polluting energy, utilises wind from any direction, greater power obtained.

Description

The invention relates to a wind power plant, in particular a Cyclone wind power plant for generating electrical power using natural wind.

As a natural phenomenon and a natural source of energy, wind can only be used as energy if its direction is controlled. Conventionally, a tough windmill as shown in Fig. 6 has a windmill X on top of a tower. The wind 10 not only rotates the wind wheel X, but also changes the position of the wind wheel X for optimal operation. A shaft 3 is connected to the wind turbine in order to drive a pump 7 for pumping water. The water is pumped up and led to a tank 2 . With the principle of the water column, the water flowing out of the tank 2 can drive a generator 6 in order to generate electrical power.

Since the wind wheel X has a horizontal shaft, it occurs Metal fatigue and deformation. Hence the convention nelle windmill for generating power with great Capacity not suitable. In addition, that is Blade of the windmill in a vertical position, however exposed to horizontal air pressure. In other words, the bearing behind the wind turbine experiences great resistance.  

The heavier the sheet, the heavier the resistance and the slower the rotation speed. About that furthermore, a limited water column does not allow performance high capacity generation.

Recently, a wind power plant from Column type built in North Carolina that has the greatest wind power is the work of the world. With a height of 42.7 m the wind can power station the electricity required for 300 to 500 Make it available to families. However, the cost was about $ 600 million, which is $ 1.2 million means for every family.

The principle that is used in this type of pillar-type wind power plant will be explained in connection with FIG. 7. When the wind 1 enters the tower through a side opening or wing 2 , it is rotated and rises along the inner wall to become an artificial low pressure cyclone. As soon as it reaches a certain speed, it moves quickly upwards as a natural cyclone, so that the air pressure in the center of the column is very low and air in the lower part of the tower is therefore sucked in and quickly moved upwards to a turbine 4 and as a result of driving a power generator 5 in the lower part of the tower.

Since the wind power plant has a vertical shaft, the turbine 4 has a construction with transverse blades. Although the blades and generator 5 are subjected to gravity, the rising wind can reduce the resistance to the blades and generator 5 . However, the tower body does not rotate so that the air that is supposed to fill the low pressure space does not come completely from the bottom of the tower. Rather, part of it can come from the gyrating wind. The efficiency of the power plant is therefore limited.

The object of the invention is to eliminate the above disadvantages mentioned. In particular, the efficiency of the Wind power plant can be increased by the invention. Invention according to it is provided that the cyclone wind power plant in the The main thing is a fixed outer tower and a rotating one inner tower that is assembled in a way are so that in the outer tower by a variety fixed guide plates, wind flow directed the inner tower rotating, whereby by the rotation in the inner tower Negative pressure is generated, which in turn creates air from the floor is sucked in to the rotary motion for optimal utilization to accelerate the wind.

A cyclone wind power plant is created by the invention, which takes advantage of wind flow to turn the inner tower move, turning the inner tower to a Can cause centrifugal force, which prevents air from the Middle of the inner tower flows, so that the entire wind flows to the outer tower through the fixed guide plates and up between the outer tower and the inner tower rises to form an artificial cyclone, the inner Can bring the tower into a weightless state, the in exclude the negative pressure formed in the middle of the inner tower is filled up with air that is sucked from the floor. The negative pressure also causes the inner tower to open driving force so that the inner tower under almost weightless Condition for the highest possible efficiency rotates.

The invention is based on advantageous Embodiments with reference to the accompanying drawings for example. Show it

Figure 1 shows the main components of an embodiment of the invention.

Figure 2-1 is a top plan view of the rotating inner tower of the invention;

Figure 2-2 shows the construction of the rotating inner tower of the invention;

Fig. 3-1 is a top plan view of the stationary outer tower of the invention;

Figure 3-2 shows the construction of the fixed outer tower of the invention;

Fig. 4-1 is a plan view showing the arrangement of the permanent magnets and the stationary armature windings for the invention;

Fig. 4-2 an embodiment of the armature windings of Fig. 4-1;

Fig. 5-1 another embodiment of the armature windings of the invention;

Fig. 5-2 is a perspective view of the armature turn of Fig. 5-1;

Figure 6 shows the construction of a conventional tough windmill.

Fig. 7 shows the construction of a conventional pillar-type wind power plant; and

Figs. 8 to 20 different photographs of the above-mentioned parts.

As shown in Figs. 1, 2 and 3, the cyclone wind power plant of the invention mainly has a fixed outer tower and an inner cyclone tower 2 . An iron ring 3 is arranged below the center of the base 6 of the fixed outer tower 1 corresponding to the location of a permanent magnet 4 which is movably arranged on the inner cyclone tower 2 . By attraction between the iron ring 3 and the permanent magnet 4 , the inner cyclone tower 2 is subjected to an upward attraction and can therefore perform its rotation under the condition of weightlessness Ge, since gravity is compensated by the upward attraction.

A plurality of fixed guide plates 5 with a certain inclination angle are arranged to surround the periphery of the fixed outer tower 1 to deflect incoming wind to the right. A stiffening cross plate 51 is provided at a certain height between two adjacent fixed guide plates 5 . There are a plurality of air openings 61 on the circumference of the base 6 of the outer fixed tower 1 . A power generator is installed in the fixed outer tower 1 . In the invention, an asyn chron generator is used. It has an odd number of fixed armature windings 10 at its central bore 62 and an even number of rotating permanent magnets or excited windings 4 . The number of armature windings 10 is only one less than the number of excited windings 4 . Regardless of the number of poles, there is resistance for only one pole. The larger the number of poles, the greater the capacity of the generator. As shown in the figures in the embodiment of the invention, each magnet 4 has an attractive force on the left side, which is compensated by another magnet 4 by a different attractive force from the right side. Therefore there is only the resistance for one pole. The permanent magnets 4 are arranged on the circumference of a turntable 42 . The turntable 42 is connected to the inner cyclone tower 2 and has a plurality of inclined turbine blades 41 in order to create an additional cyclone effect in the inner tower 2 . When the air sucked in by the vacuum formed by the rotation of the inner tower 2 flows upward to pass through these turbine blades 41 , the rotation of the inner tower 2 is accelerated.

The fixed guide plates 5 on the fixed outer tower 1 are connected to the base 6 on which a fixed frame 9 is installed to hold the inner tower 2 in place. The inner cyclone tower 2 has a plurality of inclined wings 7 on its circumference. Driven by the wind guided by the fixed guide plates 5 , the inner tower 2 rotates counterclockwise and tends to rotate at a high speed when the wind 11 circles between the outer tower 1 and the inner tower 2 . Therefore, the pressure in the center of the inner tower 2 becomes lower than the outside pressure, and a negative pressure is generated to suck air from the air passage 61 in the base 6 through the turntable 42 and the iron ring 21 . The wings 7 are hen with stiffening cross plates 71 at a suitable height verse. The blades 7 are arranged on the iron ring 21 which is arranged on the base 6 in order to prevent the wind from flowing between the outer tower 1 and the inner tower 2 to the base 6 . The inner tower 2 and the turntable 42 rotate synchronously. In the device of the invention, three bearings are used: an upper bearing 8 on the outer tower 1 and the fixed frame 9 to stabilize the rotation of the inner tower 2 , a middle thrust bearing 81 for stabilizing the weight of the inner tower 2 and a lower bearing 82 on the ground to assist the rotation of the inner tower 2 . The cyclone wind power plant of the invention is driven by the wind 11 which is passed through the outer tower 1 from all directions. When the wind 11 occurs through the fixed guide plates 5 , it is guided through fixed guide plates 5 to flow to the right and drive the inner tower 2 in rotation. At the same time, the centrifugal effect resulting from the rotation of the inner tower 2 prevents the wind from entering through the blades 7 , and the inclined angle of the fixed guide plates 5 also prevents the wind 11 from flowing out through the fixed guide plates 5 , causing the wind 11 circles and rises between the outer tower 1 and the inner tower 2 . The rising wind 11 creates a buoyancy effect to reduce the weight of the inner tower 2 and eventually becomes a cyclone at the top. If a centrifugal effect occurs in the inner tower 2 , the pressure in the center of the inner tower 2 is less than the external pressure, which forms a negative pressure to air from the base 6 through the air passage 61 , the turbine blades 41 on the turntable 42 and the iron ring 21 to suck in the inner tower 2 . This sucking of air accelerates the rotation and, as a result, accelerates the rotation of the turntable 42 and the permanent magnets 4 to increase the generation of electrical energy.

The wings 7 on the inner tower 2 are inclined to the right, and the fixed guide plates 5 are also inclined to the right to cause a counterclockwise rotation. The turbine blades 41 of the turntable 42 are opened on the left-hand side, and there can then be an inflow of wind as a result of suction of air from the base 6 by vacuum into the inner tower 2 with pressure directed to the right, which results in an additional force rotating driving of the inner tower 2 means. In addition, there is an attractive force between the iron ring 3 and the permanent magnet 4 to create a buoyancy force for the inner tower 2 and to reduce the attraction of the inner tower 2 by gravity, as a result of which the friction during rotation is reduced . The construction of the three bearings of the invention also reduces the friction when the inner tower 2 rotates at high speed.

As shown in FIG. 4, the armature windings 10 on the base 6 are connected in series to a full wave rectifier 12 and a capacitor 13 for generating direct current at high voltage. As shown in Fig. 5, the armature windings 10 are connected in parallel to a plurality of whole-wave rectifiers 12 of the bridge type and to a capacitor 13 for generating a large direct current at a low voltage.

The cyclone wind power plant of the invention differs from the conventional pillar type wind power plant shown in Fig. 7. The device of the invention has a fixed outer tower 1 and an inner rotatable tower 2 , while the conventional pillar type wind power plant is in the form of a fixed tower. In the device of the inven tion, an asynchronous generator is connected to the rotatable inner tower and the rotary table with turbo blades to generate electrical power with low friction. In the conventional pillar-type wind turbine, a synchronous generator is connected to a turbine to generate electric power with high friction.

It is now a test with an embodiment of the device tion of the invention with reference to the accompanying Figures are described.

As shown in Figs. 8, 9 and 10, the stationary inner tower has cm, a height of 100, an outer diameter of 80 cm and above, an inner diameter of 53 cm, below a diameter of 120 cm and is 24 fixed guide plates 5 and 24 stiffening cross plates 51 , wherein a number of air passages 61 is arranged around the base 6 .

As shown in FIGS. 11 and 12, the rotatable inner tower 2 has a height of 82 cm and a diameter of 41 cm through. It has an iron ring 21 of 52 cm diameter at the bottom and is provided with 24 wings 7 and 24 stiffening cross plates 71 . The gross weight of the inner tower assembly is approximately 5.87 kg.

As shown in Fig. 13, each armature winding 10 is a winding with 120 turns of painted wire (diameter 0.06 cm) around 10 iron sheets measuring 5.5 x 3.2 x 0.95 cm (length x width) · Height), with 19 anchor windings 10 connected by a wire in series with each other.

As shown in Fig. 14, the turntable 42 has a number of turbine blades 41 and 20 permanent magnets 4 with dimensions of 4 x 2.5 x 1 cm (length x width x height). The gross weight of the turntable 42 is 2.86 kg.

As shown in Fig. 15, the generator used is a 6-pole synchronous generator, as is normally used in a Bridgestone 110 motorcycle.

As shown in Fig. 16, a 16 '' (about 40.6 cm) electric fan, which works at the highest speed, is placed about 60 cm from the cyclone wind turbine. Under these conditions, the inner tower 2 rotates at 246 rpm without load. When a synchronous generator, as shown in the lower right corner of the picture, is driven, the inner tower 2 rotates at 98 rpm, the generator running at 196 rpm and generating an alternating current of 1.4 V. becomes. A 2.5 V lamp flickers. However, the voltage drops to 0.5 V when the lamp is connected. By connecting AC to a full wave rectifier of the wave type, a DC current of 0.9 V is obtained. The 2.5 V lamp is not lit, but the DC voltage drops to 0.1 V when the lamp is connected to the power.

If the same cyclone wind turbine is connected to a 20-pole asynchronous generator, the generator runs at a speed of 163 rpm and an alternating current of 8.8 V is generated when 19 armature windings 10 are connected in series. A 2.5V lamp flickers, but the voltage drops to 0.8V when the lamp is connected. By connecting with alternating current to a full-wave rectifier of the bridge type, a direct current of 16 V is obtained. The lamp of 2.5 V flickers, the voltage of the direct current falling to 0.7 V when the lamp is connected to the current (see also FIGS . 4, 17 and 18).

The armature windings 10 are arranged in eight groups of two armature windings 10 each and a group which contains three armature windings 10 . The alternating current obtained from the group having three armature windings 10 has a voltage of 2 V. After rectification by an all-wave rectifier of the bridge type, a direct current of 1.3 V is obtained. A 2.5V lamp does not light at all, but the voltage drops to 0.6V when the lamp is connected. By connecting the nine groups of armature windings 10 in parallel, a direct current of 1.5 V is obtained. The 2.5 V lamp lights up, but the DC voltage drops to 0.7 V when the lamp is connected to the current (see also Figures 5, 19 and 20).

With the above embodiment and with the experiments one comes to the following result:

The electrical power generated by the asynchronous generator is several times larger than that generated by the synchronous generator. The electrical power from the small cyclone wind turbine is available from an electric 16 '' fan (approximately 40.6 cm) is small. A big Cyclone wind power plant, which is exposed by natural wind outside driven, can generate a large electric current.

In addition, in addition to being electrical power is generated, the cyclone wind power plant of the invention on ver different areas, such as B.

• 1) There can be a water pump to recover water like  e.g. B. for a hydropower plant or for irrigation purposes get connected.
• 2) There can be a lighting device on top of the Cyclone wind power plant to be installed at night To act lighthouse.
• 3) It can be used as an auxiliary drive for the propeller if it is installed on board a ship.
• 4) It can be used as a power source for battery charging or as Power source for an electrically powered vehicle if it is installed on top of the vehicle.

The invention has the following merits:

• 1) It uses wind as an energy source, one everlasting natural energy without any order world pollution.
• 2) The cyclone wind power plant can take wind from all directions record, tape.
• 3) The surface area facing the wind on the outer tower is more than twice the size of the waiter area of the inner tower, which means that for the Available wind power doubles or even more is enlarged.
• 4) The inner tower is of vertical construction without any metal fatigue or deformation occurs ten.
• 5) The rising circling wind exerts a buoyancy force on the inner tower and thus accelerates the Rotation of the inner tower.  
• 6) The incoming wind flows in such a direction, that he through the fixed guide plates for optima le mode of operation is performed.
• 7) The inner tower and the generator generate electrical Energy in an almost weightless state.
• 8) The asynchronous generator has an odd number of fixed anchor windings and an even number of rotating permanent magnets that are smaller by one than the number of anchor windings, so that only the Resistance of a pole exists regardless of the number of poles. The more poles you have, the bigger the capacity for power generation.

Claims (3)

1. Cyclone wind power plant, which has an outer fixed tower with a plurality of fixed guide plates ( 5 ) on the circumference and a number of air passages at its base on the ground, characterized in that it
an air inlet in the middle of the outer tower ( 1 ), an iron ring ( 3 ) at the base ( 6 ) and an odd number of fixed armature windings ( 10 ) surrounding the iron ring ( 3 ),
an inner rotatable tower ( 2 ) located in the center of the base ( 6 ) of the fixed outer tower ( 1 ) and having a plurality of circumferential wings ( 7 ) arranged on iron rings ( 21 ) with a few holes; and
has a turntable ( 42 ), the rotation of which is synchronized with the rotation of the inner tower ( 2 ) and which has a multiplicity of turbine blades ( 41 ) and a multiplicity of permanent magnets ( 4 ) which with a number of stationary armature windings ( 10 ) Form a system of a power generator. 2. Cyclone wind power plant according to claim 1, characterized in that the fixed guide plates ( 5 ) on the fixed outer tower ( 1 ) are angeord net at an angle to guide the incoming wind in a predetermined direction. 3. Cyclone wind power plant according to claim 1 or 2, characterized in that the wings ( 7 ) in the rotatable inner tower ( 2 ) are arranged at a predetermined inclination angle corresponding to the wind direction, which is determined by the fixed guide plates ( 5 ), so that the inner tower ( 2 ) rotates in the direction of the inflow of wind into the outer tower ( 1 ).