TWM578737U - Composite dual hydraulic/wind power generating device - Google Patents

Abstract

The creation system includes a base, a rotatable device, a power generating device and a power storage device. One end of the rotatable device is pivoted on the base, the other end is connected to the power generating device, and is movable to the first position and the second position, and the power generating device is connected to the power storage device. Thereby, when the rotatable device is moved to the first position, the power generating device is used to be rotated by the flowing air to generate electricity. And when the rotatable device moves to the second position, the power generating device is used to be rotated by the flowing water to generate electricity. Therefore, this case has the advantages of being self-selectable and user-friendly, and the single-unit equipment can switch wind power generation to save equipment costs.

Description

Compound hydraulic and wind power generation device

This creation relates to a hybrid hydroelectric and wind power generation unit, especially a humanized unit that can be automated or intelligently multi-staged; and a single unit that can switch wind power generation to save equipment costs. Power plant for water and wind power.

Conventional wind power plants basically have to have a certain height in order to generate electricity by being blown by the wind.  Traditional hydropower is just the opposite. It is necessary to reduce the contact flow position in order to be driven by water flow to generate electricity.  That is to say, wind power and hydroelectric generators cannot be used interchangeably in principle. However, many places can actually generate electricity from wind power or hydropower, but they may not be able to generate electricity for a long time. It is possible that sometimes the water flow is small, but wind power can be generated; sometimes, when the wind is small, hydropower can be generated. For hydropower and wind power generation, equipment must be set up separately, which is a waste of cost.  In view of this, it is necessary to develop a technique that can solve the above disadvantages.  

The purpose of the present invention is to provide a combined power generation device for both water and wind power, which has the advantages of being self-selectable and user-friendly, and the single-group device can switch wind power generation, which can save equipment cost. In particular, the problem that this creation is to solve is that traditional wind power generation equipment and hydropower generation equipment cannot be used interchangeably in principle, and many places can actually generate electricity from wind power or hydropower, but it is not always possible to carry out the same kind of time for a long time. Type power generation. Sometimes the water flow is small, but the wind is enough to generate electricity; sometimes the wind is small, but the water is enough to generate electricity. However, the equipment must require two groups, which causes considerable waste of cost and benefit of the power generation device.  The technical means for solving the above problems is to provide a combined power generation device for hydro and wind power, which comprises:  a base having a base portion and a pivot portion, the base portion being fixed to the base;  a rotatable device having a pivoting end portion and a working end portion, wherein the pivoting end portion is configured to pivot the pivoting device to the pivoting portion, thereby moving the working end portion to at least a first Position and a second position;  A power generating device has a power generating portion, a rotating shaft portion, and a plurality of blade portions; the power generating portion is disposed at the working end portion, and the rotating shaft portion is coaxially pivoted to the power generating portion, and the plurality of blade portions are Radially extending from the rotating shaft portion, the plurality of blade portions for driving the rotating portion to rotate relative to the power generating portion to generate electricity;  A power storage device has a power transmission unit and a power storage unit; the power transmission unit is coupled to the power generation unit and the power storage unit;  Thereby, when the working end portion moves to the first position, the plurality of blade portions are used to be rotated by the flowing air, and the power generating portion generates electricity;  And when the working end moves to the second position, the plurality of blade portions are rotated by the flowing water to cause the power generating portion to generate electricity.  The above objects and advantages of the present invention will be readily understood from the following detailed description of the embodiments and the accompanying drawings.  The following examples are used in conjunction with the drawings to illustrate the creation in detail:  

Referring to Figures 1, 2 and 3, the creation is a hybrid hydroelectric and wind power plant comprising:  A base 10 has a base portion 11 and a pivot portion 12 for fixing the base 10.  A pivoting device 20 has a pivoting end portion 21 and a working end portion 22, and the pivoting end portion 21 is configured to pivot the rotatable device 20 to the pivoting portion 12, thereby causing the working end portion 22 to be At least it can be moved to a first position P1 and a second position P2.  A power generating device 30 has a power generating portion 31, a rotating shaft portion 32, and a plurality of blade portions 33. The power generating unit 31 is disposed at the working end portion 22, and the rotating shaft portion 32 is coaxially pivoted to the power generating portion 31. The plurality of blade portions 33 extend radially from the rotating shaft portion 32. The plurality of blades are radially extended. The portion 33 is for driving the rotating portion 32 to rotate relative to the power generating portion 31 to generate electricity.  The power storage device 40 has a power transmission unit 41 and a power storage unit 42. The power transmission unit 41 connects the power generation unit 31 and the power storage unit 42.  Thereby, when the working end portion 22 is moved to the first position P1 (as shown in FIGS. 1 and A), the plurality of blade portions 33 are rotated by the flowing air 91 to cause the power generation. Part 31 generates electricity.  And when the working end portion 22 moves to the second position P2 (as shown in the second, third and fourth figures), the plurality of blade portions 33 are rotated by the flowing water 92 to cause the power generation Part 31 generates electricity.  In practice, the pivoting portion 12 and the pivoting end portion 21 may be one of a manual rotating structure and an automatic rotating structure.  When it is an automatic rotating structure, it can also be one of the non-angular positioning rotating structure and the automatic angular positioning rotating structure (the device can refer to the screw-driven traffic safety electric fence lifter of the Republic of China No. M483286).  The correspondence between the power generating portion 31 and the rotating shaft portion 32 may be a stator and a rotor of a known generator.  The rotatable device 20 can be a rod structure.  The base 10 can further have an auxiliary bracket portion 13 for assisting the support of the rotatable device 20 that moves to the second position P2.  The present invention may further include a switching control device 50 having a wind sensing portion 51, a hydraulic sensing portion 52, a control portion 53, and a power portion 54. The wind-sensing portion 51 (refer to the device for adjusting the yaw of the wind turbine of the Republic of China Patent Publication No. 201402940) for sensing the flow of the air 91 and generating a wind signal, and transmitting to the control portion 53; The hydraulic sensing unit 52 is configured to sense the flow of the water 92 and generate a hydraulic signal, and transmit the hydraulic signal to the control unit 53 for analyzing the wind signal and the hydraulic signal if the wind signal is strong (high And if it continues for a predetermined period of time, the working end portion 22 is rotated to the first position P1 through the power portion 54 to perform wind power generation. Further, if the hydraulic signal is strong (high) and continues for the predetermined time, the working end portion 22 is rotated to the second position P2 through the power portion 54 to perform wind power generation.  Further, this creation can be further equipped with a solar device (this is a fairly common device, the drawing is not shown, and the first is Chen Ming). In addition to connecting the power storage device 40 for power generation and energy storage, it is also possible to supply the relevant device immediately. electric power.  This creation can have the following three usage modes:  [a] Manual mode: The working end 22 is rotated to the first position P1 or the second position P2 according to the demand for wind power generation or hydropower generation, respectively.  [b] Automatic mode: The working end portion 22 is automatically rotated to the first position P1 or the second position P2 through the power unit 54, and is used for wind power generation or hydroelectric power generation, respectively. One of the benefits of this mode is that you don't have to turn it.  [c] Wisdom mode: The wind sensor and the water sensor are installed to generate the wind signal and the hydraulic signal respectively, and transmit them to the control unit. The control unit controls the wind according to the strength of the signal and the duration of the signal. Power generation or hydropower.  Of course, regardless of which mode is selected, as long as the rotatable device 20 is rotatable, the working end portion 22 can actually stop the power generation demand at a certain point as long as it can be positioned.  For example, the second position P2 shown in the second (or third) figure can be adjusted again according to the level of the water flow (such as the third position P3 shown in Fig. 4 or Fig. 5). At this time, the auxiliary bracket portion 13 can be removed or designed to be adjustable in height (the bracket or the telescopic adjustment of the rod member is a relatively common device, and will not be described).  The advantages and functions of this creation are as follows:  [1] The self-selectable mode is quite user-friendly. This creation can choose manual mode, automatic mode or smart mode according to the needs (or equipment cost). Therefore, the mode of self-selection is quite user-friendly.  [2] Single-unit equipment can switch wind power generation to save equipment costs. In this creation, as long as a single set of equipment is provided, it is possible to switch between wind power generation or hydraulic power according to actual power generation conditions. Rather than setting up a group for wind power and hydropower, the group of power plants that are not generating electricity will be idle. Therefore, a single set of equipment can switch wind power generation to save equipment costs.  The above is only a detailed description of the present invention by way of a preferred embodiment, and any modifications and variations of the embodiments are possible without departing from the spirit and scope of the present invention.  

10‧‧‧ Pedestal

11‧‧‧Base section  12‧‧‧ pivotal department

13‧‧‧Auxiliary bracket  20‧‧‧Rotary device

21‧‧‧ pivot end  22‧‧‧Working end

30‧‧‧Power generator  31‧‧‧Power Generation Department

32‧‧‧Rotary shaft  33‧‧‧ Blade Department

40‧‧‧Power storage device  41‧‧‧Power Transmission Department

42‧‧‧Power Storage Department  50‧‧‧Switching control device

51‧‧‧Wind sensing department  52‧‧‧Hydraulic sensing department

53‧‧‧Control Department  54‧‧‧Power Department

91‧‧‧ Air  92‧‧‧ water

P1‧‧‧ first position  P2‧‧‧ second position

P3‧‧‧ third position  

Figure 1 is a schematic diagram of the first application example of the present creation  Figure 2 is a schematic diagram of a second application example of the present creation  Figure 3 is a schematic view of other angles of Figure 2  Figure 4 is a schematic view of other heights of Figure 3.  Figure 5 is a schematic diagram of the revolving device of the present invention adjusted between different positions.  "annex"  Figure A is a photo of the entity of wind power generation  Figure B is a photo of the entity of hydropower generated by this creation.  

Claims (8)

A composite hydraulic and wind power generation device includes:  a base having a base portion and a pivot portion, the base portion being fixed to the base;  a rotatable device having a pivoting end portion and a working end portion, wherein the pivoting end portion is configured to pivot the pivoting device to the pivoting portion, thereby moving the working end portion to at least a first Position and a second position;  A power generating device has a power generating portion, a rotating shaft portion, and a plurality of blade portions; the power generating portion is disposed at the working end portion, and the rotating shaft portion is coaxially pivoted to the power generating portion, and the plurality of blade portions are Radially extending from the rotating shaft portion, the plurality of blade portions for driving the rotating portion to rotate relative to the power generating portion to generate electricity;  A power storage device has a power transmission unit and a power storage unit; the power transmission unit is coupled to the power generation unit and the power storage unit;  Thereby, when the working end portion moves to the first position, the plurality of blade portions are used to be rotated by the flowing air, and the power generating portion generates electricity;  And when the working end moves to the second position, the plurality of blade portions are rotated by the flowing water to cause the power generating portion to generate electricity.   The composite hydraulic and wind power generation device according to claim 1, wherein the corresponding structure of the pivoting portion and the pivoting end portion is one of a manual rotating structure and an automatic rotating structure. The composite hydraulic and wind power generation device according to claim 2, wherein the automatic rotating structure is one of an angleless positioning rotating structure and an automatic angular positioning rotating structure. The hybrid hydraulic and wind power generation device according to claim 1, wherein the corresponding structure of the power generating portion and the rotating shaft portion is a stator and a rotor of the generator. The utility model relates to a composite hydraulic and wind power generation device according to the first aspect of the invention, wherein the rotatable device is a rod structure. The composite hydraulic and wind power generation device according to claim 1, wherein the base has an auxiliary bracket portion for assisting support of the rotatable device that moves to the second position. The utility model as claimed in claim 1, further comprising a switching control device, comprising: a wind sensing portion, a hydraulic sensing portion, a control portion and a power portion; The wind sensing portion is configured to sense the flowing air and generate a wind signal, and transmit the wind signal to the control portion; the hydraulic sensing portion is configured to sense the flowing water and generate a hydraulic signal, and transmit the hydraulic signal to the control portion, the control portion For analyzing the wind signal and the hydraulic signal, if the wind signal is strong and lasts for a predetermined time, the working end is rotated to the first position through the power unit to perform wind power generation; If the hydraulic signal is strong and continues for the predetermined time, the working end is rotated to the second position through the power unit to perform wind power generation. The utility model as claimed in claim 1, wherein the composite water-power and wind power generation device further comprises a solar energy device, which is connected to the power storage device for power generation and energy storage, and is used for instantly supplying power required by the related device. .