KR20120110072A - Hydro power unit spaced apart from the axis of rotation - Google Patents

Abstract

The present invention relates to a hydroelectric power generation device that generates electricity using the weight of water, and in particular, the action of inducing water at a low position and inducing water into the bucket and rotating the rotating shaft with the force of potential energy using the weight of the water filled in the bucket. In the same way as using the principle of the lever, the chain belt is used to rotate the rotating shaft, especially for the power generation system which is generally used in the low water drop area. It is characterized by producing

Description

Hydroelectric device spaced apart from the axis of rotation {omitted}

The present invention relates to a hydroelectric power generation device that generates electricity while applying the weight and water pressure of water to the principle of the lever and rotating the rotating shaft, and relates to a hydroelectric power generation device that effectively uses the potential energy of water in a low drop zone.

In general, hydroelectric power generation generally used dams, basin change type, and small hydro power generation facilities, and there were other methods of generating watersheds to overcome the low efficiency against investment cost. It was a disappointing result to improve even more.

The present invention was devised in view of the above-described problems of the development of the low drop zone and prevents the formation of the submerged zone without installing a dam that blocks the low drop basin. The potential energy of the water discharged from the induction water pipe to the top of the bucket of the power generation device forms the weight of the water and the water pressure in the bucket, and rotates the rotating shaft more strongly by applying the principle of low dropping potential energy by the weight of the water in the bucket. It is an object to provide a hydroelectric power generation device that converts into potential energy.

In order to achieve the above object, the installation of a water barrier in a low drop zone according to the present invention, a water pipe installed to guide water into a water tank, which is a power generation device, and a rotating shaft and a chain which are a base bottom and a rotation device of a lowland where a water tank and a rotating device are installed. It is characterized in that the support for the belt is installed, and the wing plate operating in the bucket

The hydroelectric generator can maximize the power generation efficiency by the distance distance between the water tank and the rotating shaft, and can maximize the rotational force while using the potential energy of water more efficiently in the low drop basin that produces electricity.

As described above, when the present invention installs the hydroelectric generator and installs a large number of hydroelectric generators in a low drop basin, economic and eco-friendly hydroelectric power generation is carried out in preparation for the flow rates of rivers and rivers. It is possible to overcome the low composition of power generation efficiency in the low drop basin and convert the potential energy of water into more useful and effective energy.

1 is a side view of the hydroelectric generator according to the present invention and is an explanatory view showing a power generation process.
Figure 2 is a perspective view showing a part of the wing plate to be put into the hydro-power generating device bucket of the present invention
3 is a perspective view and a partial detailed explanatory view showing a bucket of the hydroelectric generator;
Figure 4 is a perspective view showing the wing plate fixing chain cut in minutes
Figure 5 is a partial explanatory view showing the chain belt is installed wing plate chain is rotated rotational shaft
6 is a partial explanatory diagram showing a rotating shaft and a gear;
DESCRIPTION OF THE REFERENCE NUMERALS
Auxiliary belt: P Belt support A Wing plate: F
Drive belt: N Power chain belt: U Swivel S
Water pipe: C pivot support: B1 pivot: g
Contraction (22) Contraction (20)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 6, the hydroelectric generator of the present invention is installed on the base shaft (K4) and the support base (B1) on which the rotary shaft support (B1), the rotary shaft support (B1) and the water tank (W) are erected and installed. The wheel (E) installed on the rotating shaft (g) and the chain gear (Q) installed on the rotating shaft and the power chain belt (U) equipped with the drive belt chain hanger 100 and acts as a potential energy of the water in the water tank (W) It consists of a drive belt (N) equipped with a wing plate (F) and an auxiliary belt (P) supporting the wing plate (F) in the bucket (W) and a pedestal (c).

In order to implement the present invention in the river 55 to form a water barrier (57) as (37) to install the water pipe (C) for inducing water in the water barrier (57), the water (J) guided to the pipe A water pipe (C) for supplying the water tank (W) is installed above the water tank (W), such as 501.

In the above, the water tank (C) is supplied with water (313), and the water tank (W) filled with water (313) is fixed to the concrete (4K), such as (500) to the base bottom (K4) ( W) When the left side (SB) and the right side (BS) of the water bottle (W) and the side (bar) of the fixing support (A8) are arrowed (d), the wing plate (F) is below the water bottle (W). As shown in), the water (F0) filled in the bucket (W) held down the holder (F) while being separated as in the holder (F) and the dotted circle mark (P0) is discharged under the bucket (W), as in (FF). As shown by the dotted line arrow, it is installed so as to move to the upper rotary shaft Y1 depending on the drive belt N without being caught by the bottom K4 while rotating the lower rotary shaft Q3.

The drive belt (N) is raised on the upper power chain belt as shown in (B9) so that the base groove (UP) of the belt (N) hangs on the base (PP) of the power chain belt (U) to raise the power chain belt (U). The wheel (E), as shown in (S1), is installed on the upper wheel (E) and the rolling plate (S1) inclined from the top to the middle between the upper rotary shaft (Q1) and the middle rotary shaft (Q2). Installed to roll and roll the power chain belt (U)

When the wheel (E) of the power chain belt (U) is wound around the top and the interrupted chain gear in the above, the lower wheel that the wheel (E) is rolled to prevent the sag down when the chain belt (U) is positioned to the bottom Cloud plate (S) is installed as (S)

The drive belt (N) is wound on the lower chain gear (Q3) rotated by the claw groove (UP) while being raised as if over the upper power chain belt (S1) while raising the upper rotary shaft (Q1) and the intermediate rotary shaft (Q2). It is installed to turn by using the power chain belt (U).

The drive belt (N) is installed to function directly to the potential energy of the water in the water tank to the wing plate (F).

In the above, the drive belt (N) is moved in a straight line with the back of the bucket (W) fixed to the support (A8) while hanging over the power chain belt (U) wound around the rotating shaft gear (Q2) and the lower rotary shaft gear (Q3) It is installed to move around the upper rotating shaft gear while the rotating belt (Q2) and the lower rotating shaft gear (Q3) drive belt (N) through the drive belt moving path installed on the back plate of the water bottle (W) ( X5) is inserted into the drive belt (left) and right installed on the back plate of the water tank between the intermediate rotary shaft (Q2) and the lower rotary shaft (Q3) and installed in a straight line, wherein the drive belt (N) and the lower gear (Q3) and The drive belt movement path is always installed between the stop gears Q2.

The wing plate (F) is installed on the wing belt (M) of the drive belt to move along the drive belt (N) installed in the drive belt movement path in the above while the wing is suspended gear ( Q2) is a device that allows the wing to enter into the water tank as shown in (ㅋ), and installs the top of the back of the water bottle (D) so that the top wheel rolling plate (S1) bends as if it is bent, and as shown in FIG. The drive belt (N) is installed by cutting the top (d) so that the wing holder (M) enters the water tank and moves as in (g).

The drive belt (N) is attached to the wing hook (M) to the wing (F) and the drive belt (N) as shown in (B6) is installed so that the wing plate (F) enters the water tank to receive the potential energy of the water.

The wing belt (M) of the drive belt (N) is installed so as to protrude the inner surface 33 of the water tank back plate (22) in the drive belt moving path (A) and the wing plate (F) in the (22) It is installed to be mounted on the wing hanger (M) protruding into the water tank as shown in the above) and the wing plate (F) is installed on the wing plate shaft (H) in the above, the bottom plate of the wing during the action of shaking as shown by the arrow (아래) up and down (S4) is attached to the inside of the back of the bucket in close contact with a narrow gap, it is preferable that the bottom plate (S4) is installed to operate by sliding the inner plate 33 and the sliding sliding device.

And when the drive belt (N) is moved from the drive belt movement path to the water tank (W) to the bottom of the water tank when the movement path is spaced apart from the front surface of the drive belt pedestal (c) and the movement path ( A) The driving belt N acting on the moving path is engaged with the moving path (X5) without shaking by the driving belt guide plate (H) installed by preventing water from leaking from the water tank installed on the back side. It is desirable to install it and to install it so that the sliding movement is smooth.

In addition, the present invention, the hydroelectric power generation device is a wing plate (F) receiving the potential energy of the water in the bucket (W) as a device to obtain a strong potential energy of the wing lean (PF) perpendicular to the plate (F) on the back of the wing 90 The plate and the plate are installed in such a way that the plate (F) touches the wing plate (PF) installed on the lower plate when the plate rotates around the rotary shaft and enters into the bucket (W).

In the above wing PF is preferably installed to help the folding and unfolding of the plate is smooth and to act to support the plate and the plate as shown in (66) in the bucket.

The function and structure of the auxiliary belt (P) as a device supporting the wing plate (F) is as follows.

The auxiliary belt (P) is installed so that the upper rotary shaft gear (Q1) and the lower rotary shaft gear (Q3) through the support (X7) to the upper surface (car) and the lower surface (other) of the bucket (W) as shown in (35).

In the above, the upper and lower gears are provided with a chain belt (P) equipped with a support (C).

In the chain chain (P) is a chain belt without wing plate (F) as shown in Figure 4, the base (C) is protruded long and the chain belt movement path installed in the front of the bucket (MS) (a) The drive belt N is installed in the same manner as the device installed in the drive belt moving path.

In the above, the auxiliary belt (P) is installed in the bucket (W) as (wave), but when the wing plate (F) passing through the stop rotation shaft (Q) as shown in (5X) falls into the bucket, the support (C) is the upper rotary shaft It is installed in such a way that it can be supported as falling wing plate (F) (2) falling while turning

The wing plate (F) that receives the potential energy of the water in the water tank in the above is installed so as to receive over the pedestal (c)

In the above, as the wing plate (F) falls in the bucket as a device that is strongly received by the potential energy to fall on the back plate (90) to the support (K) in the bucket as shown in (7) the support belt (K) in the auxiliary belt (P) It is desirable to install so that

When the auxiliary belt (P) is weak in the supporting force of the wing plate (F) in the water container, the auxiliary belt (P) is to contact the belt (P), so that the auxiliary belt (P) acts to press the belt (P) It is preferable to be installed to hold the F) strongly and to be idling.

Then, the drive belt (N) rotates the lower rotary shaft gear (Q3) as shown by the arrow (ㅂ) and moves to the position of the upper rotary shaft gear (Q1). As a device to prevent the shaking and rocking phenomenon of the Laura (X1) equipped with the Laura mounting bracket (X2) is fixed to the support 600, but the Laura (X1) is installed to bend outward as shown in the diagram 500 The driving belt (N) is bent and rolled using a roller (X1), pushing the driving belt (N) while the driving belt (N) is bent in a gentle curve to the outside (TU) by the roller (X1). It is preferable that the belt (N) is smoothly installed so as not to slump.

In FIG. 3, reference numeral 11 denotes an auxiliary belt moving path a and reference numeral 77 denotes a driving belt moving path 77.

In the above, the present invention is a hydroelectric power generation apparatus characterized in that it is a power generation system that generates a high-efficiency rotational force in low drop by the potential energy of water in the bucket by putting a large amount of water into one integrated bucket. It is a device

Claims (1)

In the hydropower generator spaced apart from the driving belt equipped with an integrated top and bottom of the bucket and the wing plate, the upper rotary shaft gear, the middle rotary shaft gear, the lower rotary shaft gear and the rotary shaft operated by the power chain belt.
The power chain belt and the chain belt (U) installed on the upper rotary shaft gear (Q1) and the middle rotary shaft gear (Q2) are installed gently lying about the middle rotary shaft gear (Q2), and the upper rotary shaft gear (Q1) is installed high. In the above, the lower chain gear (Q3) is installed as long as the length of the bucket beneath the intermediate rotary shaft gear (Q) and the position of the rotary shaft gear is installed by gently bending the drive belt (N) to the center of the intermediate rotary gear (Q2) Drive belt which is installed by rotating the upper rotary shaft gear and the middle rotary shaft gear and the lower rotary shaft gear, is engaged with the power chain belt (U), is obtained and installed above, and the wing plate (F) device is installed:
The wing plate (F) of the drive belt (N) is installed as high as the distance between the single rotation shaft gear (Q2) and the lower rotation shaft gear (Q3) to be installed higher than the position of the stop rotation shaft gear (Q2) of the drive belt (N) The driving belt moving path (A) installed so that the wing plate (F) is inserted into the inside, and the water tank in which the auxiliary belt moving path (A) (3) is installed so that the wing plate (F) device is supported on the pedestal (C). W) and the hydroelectric generator spaced apart from the rotating shaft, characterized in that the hydroelectric power generation by adjusting the force that the Laura mounting table (X2) is installed is equipped with the Laura X1 to guide the movement of the drive belt (N)

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