DE102006023130A1 - Wind generator for transporting medium, has housing, where current generating mechanism is provided with rotating wheel and fixing plate laterally attached to impeller - Google Patents

Abstract

The generator has a housing (1), and a current generating mechanism is provided with a rotating wheel and a fixing plate laterally attached to the impeller (3). Multiple current generating coils are arranged at the fixing plate at a distance from the central axis. A through-hole, fitted to the wave, is provided in the center of the fixing plate to enable rotary joint with the impeller. A tangential movement arises between the field elements, on the rotating wheel, and the current generating coils, on the fixing plate of the current generating mechanism causes the change of the magnetic flow.

Description

The The invention relates to a wind generator for a conveyance, in particular a wind generator attached to an outer surface of the conveyance is where the power is generated without the motion conversion via a transmission mechanism in the form of a crank and connecting rod to use.

State of technology

The The principle of wind-powered power generation is that the wing of the impeller the energy of the air flow record if a means of transport drives and then generates a wind speed. So the wind resistance can partially be converted into electrical energy that charges one on the means of transport located battery or directly other electrical Facilities available stands. This increases the travel distance of the means of transport.

In In practice, it is recommended that a wind generator be in one with an internal combustion engine equipped means of transport is installed. With The development of electronic technology is the trend in the case of vehicles equipped with an internal combustion engine for electronization. The electronic devices such as e.g. the electronic Positioning system, the audio-video system, the computerized control system, etc. consume all electrical energy. Therefore, the performance needs of the generator to be increased by the internal combustion engine to more electric Generate energy and meet the requirements of electrical energy correspond to. This results in the increase of the load of the internal combustion engine, which leads to more fuel consumption. is a wind generator on one equipped with an internal combustion engine means of transport appropriate to partially fulfill the task of power generation, then can a combustion engine with a lower power is used come to put the generator into operation. So can the Load of the internal combustion engine and fuel consumption reduced become. Furthermore it comes to less exhaust gas.

As in 1 As shown, the linear generator C4 is provided inside the housing C11 of the wind generator C1 of the conveying means. The housing C11 has at a position corresponding to the air inlet opening C13 a streamlined plate C12 with which the wind resistance at the wind side of the wind generator C1 can be reduced. This contributes to attaching the wind generator C1 to the outer surface C14.

In 2 It is shown that the linear generator C4 is provided in the housing C11 with a connecting bar C41 of the linear generator C4 fixed to the end of the connecting rod C30. When the transmission mechanism C3 is operated, a reciprocating movement is made by the connection bar C41, thereby changing the magnetic flux for power generation. The connecting strip C41 of the linear generator C4 is provided at one end inside the linear generator C4 with coils or magnets not shown in detail. The amount of power generation depends on the mass (m) of the coils or magnets.

At the Turning the wind vane wheel C2 becomes the torque on the connecting rod C30 of the transmission mechanism Transfer C3 and the connection strip C41. This results the increase and decrease in the speed of transmission elements, to allow a reciprocating linear motion.

The Size of the linear generator C4 is limited. This means, that the reciprocating linear motion to a certain Distance limited is. Become these transmission elements accelerated to such a speed that increased power generation efficiency is reached, then a slowdown takes place immediately, so that the transmission elements like Connection bar C41, etc. a speed of zero at both Reach ends of the movement.

To Note that the torque generated by the wind turbine C2 for slowing transmission elements not in useful electrical energy can be converted. It means that the windwheel C2 recorded partial wind power is uselessly lost. hereby There is a significant reduction in power generation efficiency the power generation mechanism.

Furthermore occurs vibration of the wind generator C1 frequently in the direction of the back and linear motion when the transmission elements of the and reciprocating linear motion are subjected.

Of Furthermore, the linear generator C4 takes only a very small part of the accommodating portion C15, since the transfer mechanism C3 in FIG the shape of the crank and connecting rod in the interior of the receiving portion C15 is housed. This results in a limited, and approaching movement.

From the 3 and 4 it is evident that a conventional rotating generator D4 is mounted in the housing D11 of a wind generator D1 of a conveying means. The housing D11 has at a location corresponding to the air inlet D13 via a streamlined plate D12, with which the wind resistance on the wind side of the wind generator D1 can be reduced. This contributes to attaching the wind generator D1 to the outer surface.

The design of the in the 3 and 4 illustrated configuration is characterized in that a side plate D21 of the Windflügelrads D2 is used as part of the transmission mechanism D3. In addition, the rotating generator D4 is located below the streamlined plate D12.

On this way can the area content the wind side of the wind generator D1 are reduced, causing the reduction the wind resistance of the wind generator D1 causes. In addition, can the number of components to be used can be reduced. In order to It will avoid the loss of energy during the reciprocating Movement occurs, as is usually the case with the linear generator was.

Suppose that the air inlet D13 facing side is defined as the wind side of the wind generator. The wind side consists of an air inlet section A formed by the air inlet opening D13 of the housing D11 and a streamlined section B formed by the streamlined plate D12. A side gear D41 of the transmission mechanism D3 cooperates with the side plate D21 of the wind turbine wheel D2. Therefore, the transmission mechanism D3 may be provided together with the rotating generator D4 inside the air inlet portion A or the streamlined portion B. Compared to the construction according to 1 and 2 is the wind generator according to 3 and 4 improved to a considerable extent.

At the Wind generator D1 are the components such as the rotating generator D4 and the transmission mechanism D3 close to the air inlet D13 arranged. It is therefore difficult to isolate contaminants to enable. So can the Components are easily contaminated. In particular, the wind generator D1 on the outer surface of the means of transport attached so that he is the external influences like rain, dust can be exposed. Without good shielding against Impurities can the components are very easily prone to failure.

According to Faraday's law, the voltage generated by the generator can be represented as follows: E = -dF B / dt where t = time and F _B = magnetic flux.

Accepted, that the number and number of turns of the power generation coil are predetermined, being the strength the magnetic field is fixed. According to the Faraday Laws is the voltage generated by the generator the greater, ever bigger is the Tangential velocity between the coil and the magnetic field. A high power generation efficiency is only ensured when the generator is rotating at high speed.

task

Of the Invention is based on the object, a wind generator for a means of transport to create, by simple measures, the above Disadvantages avoids.

These The object is achieved by one for a means of transport provided wind generator having the features specified in claims 1 and 7 having. Further advantageous developments of the invention go from the dependent claims out.

According to the invention are a Rotary knob and a mounting plate cooperate and to a power generation mechanism are zusammenfügbar. When moving the vehicle creates a wind power, with the impeller in rotation can be set is, whereby the rotary wheel of the power generation mechanism rotatable is. This results in a tangential movement between Field elements on the rotary wheel and power generation coils on the Mounting plate of the power generation mechanism. So finds a change the magnetic flux instead of what the power generation ensures.

The wind generator according to the invention comprises a housing which is attached to the outer surface of the conveying means, wherein the housing has an air inlet opening and an air outlet opening. The housing has at a location corresponding to the air inlet opening via a streamlined plate with which the wind resistance on the wind side can be reduced, while the wind can be guided to the air inlet opening. An impeller is perpendicular to the axis. The impeller has a shaft and several wings. On both sides of the impeller, a side plate is mounted in each case, with which the impeller between the air inlet opening and the air outlet opening can be installed. At least one rotary wheel is narrow and has a certain thickness, wherein a through hole adapted to the shaft is located in the center of the rotary wheel to hold the shaft of the impeller in position. On the rotary wheel a plurality of field magnets are arranged, which are all equally spaced from the central axis. At least one mounting plate is narrow and has a certain thickness. Disposed on the mounting plate are a plurality of power-generating coils all equidistantly spaced from the central axis, with a through-bore adapted to the shaft being in the center of the mounting plate to permit pivotal connection with the impeller, the mounting plate being adjacent the rotary wheel. A foot section extends from the lower peripheral surface and provides a support in the housing.

Of the Power generation mechanism according to the invention can be connected directly to the impeller be. Alternatively, however, it may be indirectly via a transmission mechanism with the impeller be connected. The principle of the generator according to the invention is that several reciprocating linear generators along a rotation axis are arranged such that the linear generators all of the Rotary axis evenly spaced are.

At a rotary wheel are a plurality of field elements of the power generation mechanism attached. The field magnets or the magnetic fields are of Current flows through, causing field coils. On the other hand Power generating coils attached to the mounting plate. The wheel is driven directly when moving the vehicle resulting wind power the impeller rotated. This causes the power generation coil to intersect and the field magnet (or field coil) what the change causes the passing through the power generation coil magnetic flux, to enable power generation.

Of Furthermore, the power generation coil can be fixed to a rotary wheel be. The field element is designed as a magnet or field coil. The field element is attached to a mounting plate. Likewise, you can the power-generating coil and the field magnet (or the field coil) cut what the change causes the passing through the power generation coil magnetic flux, to enable power generation.

embodiment

in the Following are objects, features and operation of the invention based on the preferred embodiments and the accompanying drawings explained in more detail. It demonstrate:

1 a perspective view of a conventional wind generator;

2 a section along the line 2-2 1 ;

3 a sectional view of another wind generator according to the prior art;

4 a sectional view of another wind generator according to the prior art;

5 in perspective view an embodiment of a wind generator according to the invention;

6 a perspective view of an embodiment of the internal configuration of a wind generator according to the invention in the assembled state;

7 in an exploded perspective view of the embodiment of the internal configuration of a wind generator according to the invention in the assembled state;

8th a section along the line 8-8 5 ;

9 a section along the line 9-9 5 ;

10 a schematic end view of the embodiment of a wind generator according to the invention;

11 a schematic end view of another embodiment of a wind generator according to the invention; and

12 a section along the line 12-12 5 ,

In the 5 to 10 A preferred embodiment of a wind generator according to the invention is shown, which is externally attached to a conveyor, so that the wind generator can be driven by the wind power generated when moving the conveyor.

As can be seen from the figures, the wind generator according to the invention has a housing 1 on that to the outside surface 1A of the means of transport is mounted, wherein the housing 1 an air inlet opening 11 and an air outlet 12 having. The housing 1 has at one of the air inlet opening 11 corresponding point over a streamlined plate 2 , with which the wind resistance on the wind side can be reduced, while the wind to the air inlet opening 11 can be performed. At the air inlet opening 11 and the air outlet 12 is each a filter screen 10 arranged to prevent the entry of foreign bodies.

From the 6 and 7 it can be seen that an impeller 3 is perpendicular to the axis. The impeller 3 owns a wave 31 and several wings 33 , On both sides of the impeller 3 is each a side plate 32 attached, with which the impeller 3 between the air inlet opening 11 and the air outlet 12 install.

In addition, the power generation mechanism has a rotary wheel 4 and a mounting plate 6 on, both sides of the impeller 3 are attached. The wheel 4 is narrow and has a certain thickness, with one to the shaft 31 adapted through-hole 41 in the middle of the wheel 4 located to the shaft 31 of the impeller 3 able to hold. At the wheel 4 are several field magnets 5 arranged, which are all equally spaced from the central axis. At least one mounting plate 6 is narrow and has a certain thickness. On the mounting plate 6 are several power generation coils 7 arranged, all of which are equally spaced from the central axis, with one to the shaft 31 adapted through-hole 61 in the middle of the mounting plate 6 located to a rotary connection with the impeller 3 to allow, with the mounting plate 6 to the wheel 4 borders. A foot section 62 extends from the lower peripheral surface and provides a support in the housing 1 ,

In 8th it is shown that the wind generator according to the invention a housing 1 which is attached to the outer surface 1A attached to the means of transport, wherein the impeller 3 between the air inlet opening 11 and the air outlet 12 is provided. As the vehicle advances, there is a wind flow coming from the air inlet 11 in the case 1 enters, then the wings 33 in rotation and finally through the air outlet 12 out of the case 1 exit.

In 9 it is shown that the wind generator according to the invention a housing 1 which is attached to the outer surface 1A the transport means is mounted, wherein the power generating mechanism within the housing 1 immediately with the impeller 3 connected is. The principle for designing the power generation mechanism is that a plurality of reciprocating linear generators are arranged along a rotation axis such that the linear generators are all equidistant from the rotation axis. This results in a power generation mechanism with the advantages of the reciprocating linear generator and the conventional rotating generator. In addition, it is avoided that the energy loss occurs during the increase and decrease of the speed. In addition, the narrow contour is maintained, which causes the reduction of the total surface area of the wind side and thus reduces the wind resistance.

But it can also be a current regulator 8th provided, which is electrically connected to the power generation mechanism. With the current regulator 8th The current energy generated by the power generating mechanism can first be converted into desired voltage and current, which is then immediately available to the means of transport or the charge is used.

The following will be on 9 and 10 Referenced. In the power generation mechanism according to the invention, the motion conversion via a transmission mechanism [crank and connecting rod] is unnecessary. The power generation coils 7 are arranged along the axis of rotation, which allows to design a power generation mechanism with a larger diameter and thereby exploit the occupied by the crank and connecting rod space. Assuming that the impeller rotates at a steady velocity, the greater the tangential velocity of the power generation coils may be 7 and the field magnet 5 in the power generation mechanism, the larger the diameter of the power generation mechanism. According to the Faraday laws, a higher voltage can then be obtained.

According to the present Invention are still several embodiments available that slightly are modified.

It will then open 9 and 11 Referenced. The power generation mechanism according to the invention is formed in three layers. That is, one layer of the power generation coils 7 between both layers of the field magnets 5 is inserted. This results in an increase in the strength of the by the power generation coils 7 passing magnetic field.

With reference to 12 together with the 5 another embodiment will be explained. The power generation mechanism according to the invention is indirectly connected to the impeller via a transmission mechanism 3 connected. The transmission mechanism is called transmission 9 executed, with which the speed can be changed. This results in the increase of the rotational speed of the rotary wheel 4 the power generation mechanism, which improves the efficiency in terms of power generation. The gear 9 allows the axis of rotation of the power generation mechanism after the shaft of the impeller 3 align. In this way, the space in the area of the impeller 3 be fully exploited.

Furthermore, the thickness of the transmission 9 not big. Therefore, the width of the space for the transmission mechanism is not increased significantly. Furthermore, the configuration of the power generation mechanism may be changed. For example, the arrangement of the multi-layer power generation coils 7 and the field magnet 5 be changed, the power generating coils 7 at the wheel 4 are fixed while the field magnets 5 stay stationary. But it can also be used carbon brush of the electric pole. The field magnets 5 can be replaced by current-carrying coils to produce the required magnetic fields. The transmission mechanism may also be designed as a pulley or gearshift. Thus, the power generation of the power generation mechanism, when the pulley or the gearshift when turning the impeller 3 is turned. Thus, the above effects can also be achieved.

In addition to the aforementioned embodiments, the partial components can be modified differently. For example, the wings of the impeller 3 flat, convex or similar be educated. The streamlined plate can be modified from the flat plate to the arcuate configuration. The inner wall of the housing can be adapted to the impeller 3 be formed circular arc.

Even though the invention has been described with reference to the above examples, which currently considered as the most practical and preferred embodiments, it should be understood that the invention is not limited to the disclosed embodiments. On the contrary, various modifications and the like Arrangements are covered, which are within the scope of the appended claims, which agree with the broadest interpretation to all such Modifications and similar To include arrangement.

C1

wind generator

C11

casing

C12

streamlined plate

C13

Air inlet opening

C14

outer surface

C15

receiving portion

C2

Windflügelrad

C3

transmission mechanism

C30

connecting rod

C4

linear generator

C41

connecting strip

D1

wind generator

D11

casing

D12

streamlined plate

D13

Air inlet opening

D2

Windflügelrad

D21

side plate

D3

transmission mechanism

D4

generator

D41

side gear

A

Air inlet section

B

streamlined section B

1

casing

10

filter screen

11

Air inlet opening

12

Air outlet opening

2

streamlined plate

3

impeller

31

wave

32

side plate

33

wing

4

rotating wheel

41

Through Hole

5

magnetic field

6

mounting plate

61

Through Hole

62

foot section

7

power generating coil

8th

current regulator

9

transmission

1A

outer surface

Claims (10)

Wind generator for a means of transport, comprising: a housing ( 1 ) on an outer surface ( 1A ) of the means of transport, the housing ( 1 ) with an air inlet opening ( 11 ) and an air outlet opening ( 12 ), and wherein a streamlined plate ( 2 ) at one of the air inlet opening ( 11 ) of the housing ( 1 ) corresponding body; an impeller ( 3 ), which is perpendicular to the axis, wherein the impeller ( 3 ) a wave ( 31 ) and several wings ( 33 ), and wherein on both sides of the impeller ( 3 ) each have a side plate ( 32 ) is attached, with which the impeller ( 3 ) between the air inlet opening ( 11 ) and the air outlet ( 12 ) can be installed; and a power generation mechanism having a rotary wheel ( 4 ) and a mounting plate ( 6 ), both sides of the impeller ( 3 ) are mounted, wherein the rotary wheel ( 4 ) is narrow and has a certain thickness, while one to the shaft ( 31 ) adapted through hole ( 41 ) in the middle of the wheel ( 4 ) to the shaft ( 31 ) of the impeller ( 3 ) to be able to hold, and being at the wheel ( 4 ) several field elements ( 5 ) are arranged, which are all equally spaced from the central axis, and wherein at least one fastener extension plate ( 6 ) is narrow and has a certain thickness, and wherein on the mounting plate ( 6 ) several power-generating coils ( 7 ) are arranged, which are all equally spaced from the central axis, and wherein one of the shaft ( 31 ) adapted through hole ( 61 ) in the middle of the mounting plate ( 6 ) to a rotary connection with the impeller ( 3 ) while the mounting plate ( 6 ) to the wheel ( 4 ) and wherein a foot section ( 62 ) extends from the lower peripheral surface and a holder in the housing ( 1 ), whereby a tangential movement between the field elements on the rotary wheel ( 4 ) and the power generation coils ( 7 ) on the mounting plate ( 6 ) of the power generation mechanism, which causes the change of the magnetic flux to ensure a high power generation efficiency. Wind generator according to claim 1, characterized in that the field elements ( 5 ) in the interior of the power generating mechanism as a coil or magnet and on the rotary wheel ( 4 ) are mounted. Wind generator according to claim 1, characterized in that the power-generating mechanism is formed in such a three-layered manner that a layer of the power-generating coils ( 7 ) between both layers of field magnets ( 5 ), which increases the strength of the power generating coils ( 7 ) caused by passing magnetic field. Wind generator according to claim 1, characterized in that the power-generating coil ( 7 ) of the power generating mechanism has a round or rectangular contour. Wind generator according to claim 2, characterized in that the power-generating mechanism via a transmission mechanism indirectly with the impeller ( 3 ), the transmission mechanism being a transmission ( 9 ) or gearshift may be carried out such that the power generation is effected by the power generation mechanism is set by the transmission mechanism in operation when the impeller ( 3 ) turns. Wind generator according to claim 1, characterized in that at the air inlet opening ( 11 ) and the air outlet ( 12 ) each have a filter screen ( 10 ) is arranged. Wind generator for a means of transport, comprising: a housing ( 1 ) on an outer surface ( 1A ) of the means of transport, the housing ( 1 ) with an air inlet opening ( 11 ) and an air outlet opening ( 12 ), and wherein a streamlined plate ( 2 ) at one of the air inlet opening ( 11 ) of the housing ( 1 ) corresponding body; an impeller ( 3 ), which is perpendicular to the axis, wherein the impeller ( 3 ) a wave ( 31 ) and several wings ( 33 ), and wherein on both sides of the impeller ( 3 ) each have a side plate ( 32 ) is attached, with which the impeller ( 3 ) between the air inlet opening ( 11 ) and the air outlet ( 12 ) can be installed; and a power generation mechanism having a rotary wheel ( 4 ) and a mounting plate ( 6 ), both sides of the impeller ( 3 ) are mounted, wherein the rotary wheel ( 4 ) is narrow and has a certain thickness, while one to the shaft ( 31 ) adapted through hole ( 41 ) in the middle of the wheel ( 4 ) to the shaft ( 31 ) of the impeller ( 3 ) to be able to hold, and being at the wheel ( 4 ) several power-generating coils ( 7 ) are arranged, which are all equally spaced from the central axis, and wherein at least one mounting plate ( 6 ) is narrow and has a certain thickness, and wherein on the mounting plate ( 6 ) several field elements ( 5 ) are arranged, which are all equally spaced from the central axis, and wherein one of the shaft ( 31 ) adapted through hole ( 61 ) in the middle of the mounting plate ( 6 ) to a rotary connection with the impeller ( 3 ) while the mounting plate ( 6 ) to the wheel ( 4 ) and wherein a foot section ( 62 ) extends from the lower peripheral surface and a holder in the housing ( 1 ), whereby a tangential movement between the field elements on the mounting plate ( 6 ) of the power generation mechanism and the power generation coils ( 7 ) on the wheel ( 4 ) gives what causes the change of the magnetic flux to ensure a high power generation efficiency. Wind generator according to claim 7, characterized in that the field elements ( 5 ) in the interior of the power generation mechanism as a coil or magnet and on the mounting plate ( 6 ) are mounted. Wind generator according to claim 7, characterized in that the power generation coil ( 7 ) of the power generating mechanism has a round or rectangular contour. Wind generator according to claim 7, characterized in that the power generation mechanism via a transmission mechanism indirectly with the impeller ( 3 ), the transmission mechanism being a transmission ( 9 ) or gearshift can be designed such that the Power is generated by the power generation mechanism is set by the transmission mechanism in operation when the impeller ( 3 ) turns.