TWM633286U - Wind power generating device combined with rotating sail structure - Google Patents

Abstract

A wind power generating device combined with a rotating sail structure mainly uses the supporting structure of the rotating sail as the support of the wind generating device, and the impeller of the wind generating device is arranged on the top of the rotating sail. In this way, the wind power generation device is supported at the high end by the rotating sail, which not only saves the support cost of the wind power generation device, but also makes the impeller of the wind power generation device have a better windward effect, and after the wind power generation device generates electricity, it can not only provide rotation In addition to the power of the sail power source, it can also be stored as backup power for ships or other mobile devices that rotate the sails.

Description

Wind power generation device combined with rotating sail structure

The invention relates to a wind power generating device combined with a rotating sail structure, especially the rotating sail as the support of the wind generating device, and the impeller of the wind generating device is arranged on the top of the rotating sail. In this way, the wind power generation device is supported at the high end by the rotating sail structure, which not only saves the support cost of the wind power generation device, but also makes the impeller of the wind power generation device have a better windward effect, and after the wind power generation device generates electricity, it can not only provide In addition to the electric power of the power source of the spinning sail, it can also be stored as the backup power of the mobile equipment provided by the boat or other spinning sails.

By the way, the Rotor Sail technology is mainly applied to ships. The upright Rotor Sail uses a power source to drive the rotation. When the wind blows from the side, it will generate forward wind through the Magnus effect. thrust to move the ship forward. Therefore, the ships equipped with rotating sails can reduce fuel and have environmental protection effects.

In view of the fact that the front rotating sail is mainly driven by the wind, the creator imagines that if a wind power generation device can be added to the existing rotating sail structure, not only can the rotating sail have the function of propulsion, but also have the effect of generating electricity. The electricity generated by the wind power generating device can not only provide electricity for the power source of the rotating sail, but also can be stored as backup electricity for ships. Therefore, it was designed and improved, and this creation came into being.

Yes, the main creation purpose of this creation is to provide a combination of wind power generation device and rotating sail structure, use the wind power generation device to drive the rotating sail to rotate, and the excess power can supply the wind power generation device combined with the rotating sail structure required by the ship.

The main feature of this creation is that the rotating sail structure is used as the support of the wind power generating device, and the impeller of the wind generating device is arranged on the top of the rotating sail. In this way, the wind power generation device is supported at the high end by the rotating sail structure, which not only saves the support cost of the wind power generation device, but also makes the impeller of the wind power generation device have a better windward effect, and after the wind power generation device generates electricity, it can not only provide In addition to the electric power of the power source of the spinning sail, it can also be stored as the backup power of the mobile equipment provided by the boat or other spinning sails.

Regarding the technical means and structure adopted in order to achieve the above-mentioned purpose and effect in this work, the following embodiments are given together with drawings, which are described as follows.

1: ship

10: Spin sail

11: base

2: Wind power generation device

20: Shaft

21: impeller

3: Ship

30: Spin Sail

31: Air inlet

4: Wind power generation device

40: Shaft

41a, 41b: impeller

42a: Upper vertical shaft blade

42b: Lower vertical shaft blade

43: induction stator

44a, 44b: Axial blades

5: Cage net farming platform

50: Spin Sail

50a, 50b: machines

51: Skeleton

52: box net

6: Wind power generation device

60: Shaft

61: impeller

Shown in Fig. 1 is the side view of the first embodiment of the present invention.

Shown in Fig. 2 is the side view of the second embodiment of the present invention.

Figure 3 is a partially enlarged view of Figure 2 .

FIG. 4 is a partial perspective view of FIG. 3 .

Figure 5 is a top view of the third embodiment of the present invention.

Please refer to Fig. 1, which is a side view of the first embodiment of the invention. It is an embodiment in which the present creation embodiment is applied to a ship 1 of a mobile implement, and the ship 1 is equipped with a rotating sail 10 . The rotating sail 10 is hollow and circular and is erected on the ship 1 . There is a base 11 at the bottom end, and the base 11 is pivotally connected with the rotating sail 10 by a bearing. The rotating sail 10 is driven by a power source and can rotate in situ. The main improvement of the first embodiment of the present creation is that a wind power generator 2 is fixed inside the top of the rotating sail 10, and one end of the rotating shaft 20 of the wind power generating device 2 is extended upwards and out of the top of the rotating sail 10. connected to an impeller 21. The impeller 21 is driven to rotate by the wind, so that the rotating shaft 20 rotates synchronously, so that the wind power generating device 2 generates electricity. After the wind power generating device 2 generates electricity, the electricity can be stored to provide the electricity of the power source and be used by other motors.

Please refer to Figures 2-4, which are related diagrams of the second embodiment of this creation. It is also the embodiment in which the invention embodiment is applied to the ship 3 equipped with a rotating sail 30 . The main improvement of the second embodiment of the present invention is that a plurality of air inlets 31 are arranged on the top tube wall of the rotating sail 30; the inside of the rotating sail 30 corresponds to the position below the air inlets 31, and a wind power generating device is pivotally connected with a bearing 4. The rotating shaft 40 of this wind power generation device 4 is stretched out above the top outside of the rotating sail 30, and then connected with two groups of impellers 41a, 41b arranged up and down, so that when the two groups of impellers 41a, 41b are rotated by the wind, they can pass The rotating shaft 40 drives the wind power generator 4 to generate electricity. Corresponding to the inside of the rotary sail 30 at the position of the air inlet 31, the upper and lower vertical shaft blades 42a and the lower vertical shaft blades 42b are arranged, and the upper vertical shaft blades 42a and the lower vertical shaft blades 42b are respectively connected to the bearing and the rotating shaft 40. Pivoted (as shown in FIG. 3 ), when the wind enters the interior of the rotating sail 30 through the air inlet 31, it will drive the upper vertical axis blade 42a and the lower vertical axis blade 42b to rotate. Between the upper vertical shaft blade 42a and the lower vertical shaft blade 42b, an induction stator 43 is arranged, and the induction stator 43 is pivotally connected with the inner wall of the rotating sail 30 by a bearing. A metal plate and an excitation coil wound on the metal plate. The upper vertical shaft vane 42a and the lower vertical shaft vane 42b are respectively fixed at the end facing the induction stator 43 with an axial flow vane 44a, 44b rotating with the upper vertical shaft vane 42a and the lower vertical shaft vane 42b respectively. The axial blades 44a, 44b are magnetized to form a rotor magnetic field. The turning of the upper vertical shaft blade 42a and the lower vertical shaft blade 42b can be reversed through the shape and angle design of the blades. When the upper vertical shaft blade 42a and the lower vertical shaft blade 42b rotate, the magnetized upper vertical shaft blade 42a and the lower vertical shaft blade 42b respectively cut the magnetic force lines with the induction stator 43 to generate electricity, and the generated electric power can be compared with The electric power generated by the wind power generator 4 is also stored for utilization.

Please refer to Fig. 5 , which is a top view of the third embodiment of the present invention, which is a structural diagram of a rotary sail 50 applied to an offshore box net culture platform 5 . Rotating sail 50 can drive this box net culture platform 5 displacements or stop. This cage culture platform 5 has two machine platforms 50a, 50b separated left and right, and is connected with a skeleton 51 between the two machine platforms 50a, 50b. A box net 52 is arranged between the two machines 50a, 50b to cultivate fish. On the two machine platforms 50a, 50b, rotating sails 50 are respectively provided, and the inside of the top of each rotating sail 50 is provided with a wind power generator 6 as in the first embodiment, a rotating shaft 60 of the wind power generator 6, and a The impeller 61 above the top of the rotating sail 50 and fixedly connected to the rotating shaft 60 . The impeller 61 is blown and rotated by the wind, and the rotating shaft 60 is driven to rotate synchronously, so that the wind power generating device 6 generates electricity for the required electric power of the box net culture platform 5 .

It can be seen from the description of the above embodiments that the invention uses the rotating sail structure as the support for the rotating impeller of the wind power generating device, and the impeller of the wind generating device is arranged on the top of the rotating sail. In this way, the impeller of the wind power generation device is supported at the high end by the rotating sail. In addition to saving the support installation cost of the wind power generation device, the impeller of the wind power generation device can have a better windward effect, and after the wind power generation device generates electricity, Except the electric power that can provide rotating sail power source, also can be stored as the standby electric power of ship or cage culture platform 5.

To sum up, this creation is not only novel but also practical. It is really convenient to file a new patent application in accordance with the law, and I sincerely ask for the review and approval of the patent.

1: ship

10: Spin sail

11: Base

2: Wind power generation device

20: Shaft

21: impeller

Claims (7)

A wind power generating device combined with a rotating sail structure, which is mainly arranged on the rotating sail provided with a mobile machine; the wind generating device is arranged on the top of the rotating sail, supported by the rotating sail, has an impeller, the The impeller is blown by the wind and can rotate in situ, and the impeller can drive the wind power generating device to generate electricity after the rotation. The wind power generating device combined with the rotating sail structure as described in Claim 1, wherein the impeller system is arranged outside the top of the rotating sail, and the wind power generating device is arranged inside the top of the rotating sail. The wind power generation device combined with a rotating sail structure as described in claim 1, wherein the top pipe wall of the rotating sail is provided with a plurality of air inlets, and the impeller system is arranged in the pipe of the rotating sail and corresponds to the positions of the air inlets. The wind power generation device combined with the rotating sail structure as described in claim 3, wherein the impeller system is provided with upper and lower vertical axis blades and lower vertical axis blades, when the wind enters the interior of the rotating sail from the air inlet, it will Drive the upper vertical shaft blade and the lower vertical shaft blade to rotate; between the upper vertical shaft blade and the lower vertical shaft blade, a stationary induction stator is arranged, and the upper vertical shaft blade and the lower vertical shaft blade are on the surface To the end of the induction stator, an axial flow blade is respectively fixed with the upper vertical shaft blade and the lower vertical shaft blade, and the two axial flow blades are magnetized to form a rotor magnetic field; the upper vertical shaft blade, the The steering system of the lower vertical axis blades is designed to make the two turn in the opposite direction through the shape and angle design of the blades, and the two axial flow blades rotate with the induction stator to perform magnetic field line cutting to generate electricity. According to claim 4, the wind power generation device combined with a rotating sail structure, wherein the induction stator includes a grid-shaped metal plate and an excitation coil wound on the metal plate. The wind power generation device combined with a rotating sail structure according to any one of Claims 1 to 5, wherein the mobile device is a ship. The wind power generation device combined with a rotating sail structure according to any one of claims 1 to 5, wherein the mobile device is a cage farming platform.

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