WO2017206218A1

WO2017206218A1 - Environmentally-friendly and high-efficiency power generation device utilizing flowing water without dam

Info

Publication number: WO2017206218A1
Application number: PCT/CN2016/086795
Authority: WO
Inventors: 吴世明; 谢志勤; 魏明尚
Original assignee: 吴世明; 谢志勤; 魏明尚
Priority date: 2016-05-28
Filing date: 2016-06-22
Publication date: 2017-12-07
Also published as: CN107091190A; WO2018209718A1

Abstract

An environmentally-friendly and high-efficiency power generation device utilizing flowing water without a dam, comprising a power transmission shaft (1) which can connect to a mounting mechanism, a generator or a transmission mechanism. Connection mechanisms (3) are provided at intervals on the power transmission shaft (1) in a circumferential direction. Rotatable flaps (2) are provided on end portions of the connection mechanisms (3). The power generation device realizes, using natural water flow, power generation without a dam, and can make full use of natural water flow to obtain cheap, clean, environmentally-friendly and sustainable energy at high efficiency without the need of damming for water conservation, ground building, and destroying the natural ecological environment. The power generation device can realize decentralization in situ under special circumstances, such as with regard to rivers, oceans or field engineering operations, utilizing the various widespread natural hydro-energy sources in a simple and highly-efficient manner, and avoiding long-distance transmission at a high cost.

Description

Flowing water and dam-free environmental protection and high efficiency power generation device

Technical field

[0001] The present invention relates to a hydroelectric power generation device (water energy device), and in particular to a water-flowing dam-free environmentally-friendly and high-efficiency power generation device.

Background technique

[0002] Energy is the foundation of the national economy. Seeking cheap, clean, pollution-free, sustainable energy has always been a major issue in the energy sector.

[0003] The use of water energy can result in clean, pollution-free, sustainable energy. However, the existing water energy utilization technology and equipment are insufficient in that they occupy a lot of space, have a great impact on the natural environment, have high cost, and have low utilization efficiency. For example, existing hydro turbine-like installations require the construction of dam water storage installations, which are harsh in construction conditions, high in requirements, expensive in cost, and have a great impact on the natural environment. Most existing water tank-like installations need to be installed above or above the water surface. In addition, it requires a large space, is not easy to use, and has a high cost. It is difficult to obtain sufficient water. In particular, existing water energy utilization technologies and devices are difficult to achieve full, efficient, and easy use of various natural water flows. Realize local decentralized use, avoiding long-distance and high-cost transportation costs, and this utilization is especially important for energy acquisition under special conditions (such as rivers, oceans, field engineering operations, etc.).

[0004] At present, there have been no reports, products, and the like that better overcome the above deficiencies.

technical problem

[0005] The object of the present invention is to provide a water-flow dam-free environmentally-friendly and high-efficiency power generation device for the above-mentioned deficiencies, which can easily and flexibly utilize natural conditions without dam construction, no need for ground construction, and no damage to the natural ecological environment. The water flow, access to clean, environmentally friendly, sustainable, cheap and efficient energy, especially under special conditions such as rivers, oceans, and field engineering operations, can be easily and efficiently used in various local natural water cultures, and can avoid long-distance and high-priced transportation.

Problem solution

Technical solution

[0006] In order to achieve the above object, the technical solution of the present invention is that the water-flow dam-free environment-efficient high-efficiency power generation device includes an energy transmission shaft connectable to a mounting mechanism, a generator or a transmission mechanism, and is disposed at an interval of the energy transmission shaft. Even a connecting mechanism, wherein the connecting mechanism is provided with a rotatable flap, and the flap is rotatably connected with the connecting mechanism, and the flap is deflected by the water flow to be overlapped with the connecting mechanism (the water flow completely faces the large surface of the flap vertically) Parallel, at an angle to each other, and recurring.

One end or one side of the connecting mechanism is connected to the energy transmission shaft, and the other end or one side of the connecting mechanism is rotatably connected to the flap.

[0008] The connection between the flap and the connecting mechanism has a rotating shaft.

[0009] A rib is provided at the interval of the connecting mechanism.

[0010] The ribs are curved.

[0011] The rib has a curved surface or a rib.

[0012] The interval from the installation of the flap to the energy transmission axis is greater than or equal to the width or length of the flap.

[0013] In the installed state of use, the flap is in a flow of water that is perpendicular to the surface below the flow surface.

[0014] In the state of use, the flap is impacted by the water flow to be overlapped with the connecting mechanism (the water flow is completely perpendicular to the large surface of the flap), parallel, at an angle to each other, and repeated. a connecting mechanism is disposed on the peripheral surface of the energy transmission shaft along an axial direction and a radial interval thereof, and the flaps are respectively rotatably connected to the outer end sides of the connecting mechanism in the same plane of the axial direction of the energy transmission shaft, and the living The plane formed by the leaves is parallel to the energy transmission axis or its axial spacing.

Advantageous effects of the invention

Beneficial effect

[0015] The invention is used for realizing dam-free low-cost environmentally-friendly and high-efficiency power generation by utilizing natural water flow, and can easily and flexibly make full use of natural water flow and obtain cleanness without dam dam storage, no need for ground construction, and no damage to natural ecological environment. Environmentally sustainable, low-cost and high-efficiency energy, especially in special conditions such as rivers, oceans, and field engineering operations, it is easy to use and distribute a wide range of natural water energy, and it can avoid long-distance and high-priced transportation.

Brief description of the drawing

DRAWINGS

1 is a plan view of a state of the installation and use state of the present invention (the generator shaft or the transmission mechanism connected thereto and the mounting and fixing mechanism connected thereto are cut off, and the arrow indicates the direction of water flow; 2 is a front elevational view of a plane perpendicular to the direction of water flow of the present invention (only a plane consisting of an energy transmission shaft, a flap, and a connecting mechanism is shown in the middle of a completely vertical cut water flow.

[0018] In the figure, 1. The energy input shaft, 2. the living blade, 3. the connecting mechanism, 4. the rib beam.

BEST MODE FOR CARRYING OUT THE INVENTION

[0019] As shown in FIG. 1 and 2, the water-flow dam-free environmentally-friendly and high-efficiency power generation device of the present invention comprises an energy transmission shaft 1 connectable to a mounting mechanism, a generator or a transmission mechanism, and the energy transmission shaft 1 is spaced apart from each other. The mechanism 3 is provided with a rotatable flap 2, one end or one side of the connecting mechanism 3 is connected to the energy transmission shaft 1, and the other end or the other side of the connecting mechanism 3 is formed with the flap 2 Rotating connection, the connection of the flap 2 and the connecting mechanism 3 has a rotating shaft.

[0020] ribs 4 are provided at intervals of the connecting mechanism 3, the ribs 4 are curved, and the ribs 4 have curved surfaces.

[0021] The distance from the mounting portion (rotation shaft) of the flap 2 to the energy transmission shaft 1 is greater than or equal to the width or length of the flap 2.

[0022] In the installation and use state, the flaps 2 are in a flow of water below the surface of the flowing water, and the flaps 2 are overlapped with the connecting mechanism 3 in a rotation, parallel, and at an angle to each other, and are repeated.

[0023] A plurality of connecting mechanisms 3 are arranged along the axial direction of the circumferential surface of the energy transmission shaft 1, and the outer edge of the connecting mechanism 3 of the flap 2 and the same axial plane of the energy transmission shaft Or the outer side forms a rotatable connection, and the plane formed by the flap 2 is overlapped around the outer end or the outer side of the connecting mechanism 3 (the water flow completely faces the large surface of the flap vertically), parallel, and at an angle to each other , repeating again and again.

[0024] In the implementation, a plurality of connecting mechanisms are disposed on the circumferential surface of the energy transmission shaft, and the connecting mechanism may be a beam, an arm, a bracket, etc., and the living blade is connected to the same axial plane of the energy transmission shaft. The outer or outer side of the mechanism forms a rotatable connection. The connection between the connecting mechanism and the flap has a rotating shaft. The connection between the flap and the connecting mechanism can be rotated, and a similar connecting turning mechanism can be provided for rotating the flap to overlap with the connecting mechanism (the water flow completely perpendicularly hits the leaf surface of the flap), parallel and at an angle to each other.

[0025] ribs are disposed between the connecting mechanisms, so that the connecting mechanisms are integrally connected, the ribs are curved, and the ribs have curved surfaces.

[0026] The interval from the flap to the energy transmission axis is greater than or equal to the width or length of the flap, and the flap is rotated to the joint The connecting mechanism overlaps and the flap is spaced from the energy axis.

In the installed state of use, the flap is below the water surface of the flowing water and perpendicular to the water surface, the axial direction of the flap turning parallel is parallel to the axial direction of the energy transmission shaft, and the flap overlaps with the connecting mechanism in the turning Parallel, at a certain angle to each other, and recurring.

Claims

claims

[Claim 1] A flowing water dam-free, environmentally friendly and efficient power generation device, including an energy transmission shaft (1) that can be connected to an installation mechanism, a generator or a transmission mechanism, characterized in that, the energy transmission shaft (1) is spaced apart from each other. There is a connecting mechanism (3), and the connecting mechanism (3) is provided with a rotatable hinge (2).

[Claim 2] The flowing water dam-free environmentally friendly and efficient power generation device according to claim 1, characterized in that one end or one side of the connecting mechanism (3) is connected to the energy transmission shaft (1), and the connecting mechanism (3) ) The other end or one side is rotatably connected to the hinge (2).

[Claim 3] The flowing water dam-free environmentally friendly and efficient power generation device according to claim 2, characterized in that the connection between the movable blade (2) and the connecting mechanism (3) has a rotating shaft.

[Claim 4] The flowing water dam-free environmentally friendly and efficient power generation device according to claim 1, characterized in that ribs (4) are provided at intervals between the connecting mechanisms (3).

[Claim 5] The flowing water dam-less environmentally friendly and efficient power generation device according to claim 4, characterized in that the rib (4) is in an arc shape.

[Claim 6] The flowing water dam-free, environmentally friendly and efficient power generation device according to claim 4, characterized in that the reinforced beam (4) has a curved surface.

[Claim 7] The flowing water dam-free environmentally friendly and efficient power generation device according to any one of claims 1 to 6, characterized in that the distance from the installation point of the movable blade (2) to the energy transmission shaft (1) is greater than or Equal to the width or length of the movable leaf (2).

[Claim 8] The flowing water dam-free environmentally friendly and efficient power generation device according to any one of claims 1 to 6, characterized in that, when installed and used, the movable blade (2) is located perpendicular to the flowing water surface. in the current.

[Claim 9] The flowing water dam-free environmentally friendly and efficient power generation device according to any one of claims 1 to 6, characterized in that, in the use state, the movable leaf (2) overlaps and is parallel to the connecting mechanism (3). at an angle to each other.

[Claim 10] The flowing water dam-free environmentally friendly and efficient power generation device according to any one of claims 1 to 6, characterized in that, on the peripheral surface of the energy transmission shaft (1), there are spaced apart axial and radial directions. Has connection mechanism

(3), the movable leaves (2) are rotatably connected to the outer end edges of the connecting mechanism (3) located in the same axial plane as the energy transmission axis. The plane formed by the movable leaves (2) is connected to the energy transmission axis. axis :1) Or its axial intervals are parallel