KR101352181B1 - Breakage protection structure of tidal current power generation system - Google Patents

Abstract

The present invention includes: a water wheel which is combined with multiple wings and is formed to be rotated by a tidal current; a generation unit which is connected to the water wheel and generates electricity from the rotary motion energy of the water wheel; and an ultrasonic sensor which is connected to one side of the generator in order to be installed in the front side of the water wheel and is formed to sense an obstacle approaching the water wheel. The present invention has an effect which is able to prevent the breakage of the wings included in the water wheel by sensing an obstacle approaching the tidal current power generator through the ultrasonic sensor. The present invention also has an effect of easily blocking the rotation of the water wheel when sensing an obstacle through the ultrasonic sensor by including a separate brake for blocking power in the tidal current power generator.

Description

Breakage protection structure of tidal current power generation system

The present invention relates to a breakage prevention structure of a tidal current power generation device, and more particularly to a breakage prevention structure of a tidal current power generation device for detecting an obstacle using an ultrasonic sensor.

Generally, an algae generator is installed on the seabed to generate as much power as possible in a given tidal state.

In addition, the tidal current generator is equipped with aberration to generate a lot of power through a large torque (Torque).

Here, the rotational force generated in the aberration having a constant tidal force and a constant size shows a large difference depending on the cross-sectional shape of the blade formed in the aberration, the number of wings and the arrangement of the wings.

However, since the wing formed in the aberration does not receive any protection against obstacles floating on the seabed, there is always a risk of breakage.

Prior art related to the present invention is Republic of Korea Patent Publication No. 10-2004-0033160 (published: 2004.04.21), the prior art describes a technique for a tidal current power generation apparatus using impeller aberration.

It is an object of the present invention to provide a breakage prevention structure of a tidal current power generation device that can prevent the breakage of the wing provided in the aberration by detecting an obstacle approaching the tidal current power generation device through an ultrasonic sensor.

The breakage preventing structure of the tidal current power generation device according to the present invention is coupled to the aberration and the aberration formed to rotate by a plurality of wings, and the aberration, the generator and the aberration to generate the rotational kinetic energy of the aberration with electricity Is connected to one side of the generator to be provided in front of, characterized in that it comprises an ultrasonic sensor formed to detect the obstacle approaching the aberration.

Here, the aberration is possible to change the angle of each wing individually through the rotation axis in the state where the plurality of wings are coupled.

The aberration may include a brake configured to stop driving when an obstacle is detected by the ultrasonic sensor.

In addition, the breakage prevention structure of the tidal current power generation device is further provided between the aberration and the generator, and further includes a speed increaser for providing power when adjusting and driving the plurality of blades.

The present invention, by detecting an obstacle approaching the tidal current power generation apparatus through the ultrasonic sensor, has the effect of preventing the damage of the blades provided in the aberration.

In addition, the present invention is provided with a separate brake for power off in the tidal current power generation device, when the obstacle is detected by the ultrasonic sensor, it has the effect of blocking the rotation of the aberration.

Figure 1 shows a cross-sectional view of the side of the breakage prevention structure of the tidal current power generation apparatus according to the present invention.
Figure 2 shows a cross-sectional view before changing the wing angle of the breakage prevention structure of the tidal current generator according to the present invention.
Figure 3 shows a cross-sectional view after changing the wing angle of the breakage prevention structure of the tidal current generator according to the present invention.
Figure 4 shows an operating state diagram for changing the wing position of the breakage prevention structure of the tidal current power generation apparatus according to the present invention.

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

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving it will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings.

It should be understood, however, that the present invention is not limited to the embodiments disclosed herein but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Figure 1 shows a cross-sectional view of the side of the breakage prevention structure of the tidal current power generation apparatus according to the present invention.

As shown in FIG. 1, the breakage preventing structure of the tidal current power generation device includes an aberration 100, a generator 200, and an ultrasonic sensor 300.

First, the aberration 100 is a plurality of wings 120 are coupled to the hub 110, is formed to rotate by a bird.

In addition, the aberration 100 includes a support bar 130 having a rotation axis (not shown) to enable the angle change in a state in which the blade 120 is coupled to the hub 110.

Here, the support bar 130 is provided with a brake 130a which is formed so that the driving of the aberration 100 can be stopped by the ultrasonic sensor 300 to be described later.

That is, the brake 130a is provided at a position adjacent to the blade 120 to stop driving of the aberration 100, and when an obstacle is detected by the ultrasonic sensor 300 to be described later, the signal is aberration. Transfer to a control unit (not shown) provided on the 100 automatically stops the operation of the aberration (100).

Therefore, the breakage prevention structure of the tidal current power generation device is to prevent the breakage of the tidal current power generation device by automatically stopping the operation of the aberration 100 when the obstacle approaches the tidal current power generation device by the ultrasonic sensor 300. can do.

On the other hand, the generator 200 is connected to the aberration 100 in order to generate the rotational kinetic energy of the aberration 100 into electricity.

In more detail, the generator 200 is connected to one end of the vertical frame 500 that is vertically coupled to one end of the support bar 130.

In addition, the generator 200 is fixed to the bottom surface of the relatively shallow depth and strong flow rate, and is connected to the ultrasonic sensor 300 to be described later.

The ultrasonic sensor 300 is connected to one side of the generator 200 to be provided in front of the aberration 100, and is formed to detect an obstacle approaching the aberration 100.

That is, the ultrasonic sensor 300 is connected to one side of the generator 200 to face the front of the aberration 100 and have a predetermined length in order to detect an obstacle approaching toward the aberration 100.

In addition, the ultrasonic sensor 300 is a sensor for generating the ultrasonic wave to detect the distance, thickness and movement, etc., may be installed on one side of the generator 200 to extend the detection range.

Therefore, the breakage prevention structure of the tidal current power generation device by detecting the obstacle approaching the tidal current power generation device through the ultrasonic sensor 300, thereby preventing the damage of the wing 120 provided in the aberration 100. Have

On the other hand, the breakage prevention structure of the tidal current power generation device further includes an increaser 400.

The speed increaser 400 may be provided between the aberration 100 and the generator 200, and may provide power during position adjustment and driving of the plurality of blades 120.

In more detail, when the obstacle 400 is detected through the ultrasonic sensor 300, the speed increaser 400 transmits an obstacle detection signal to a controller (not shown) so that the brake 130a automatically operates the aberration 100. At this time, the control unit (not shown) to finely adjust the position of the wing 120 to facilitate avoiding obstacles coming toward the wing 120.

In addition, the gearbox 400 provides power to the aberration 100 when the aberration is restarted after the operation of the aberration 100 is stopped through the brake 130a to bring the speed of the aberration 100 to a previous speed. Can be returned in a short time.

2 is a cross-sectional view of the vane angle before the change of the vane angle of the tidal current generation device according to the present invention, Figure 3 is a cross-sectional view after the change of the wing angle of the breakage prevention structure of the tidal current generation device according to the present invention Shows.

As shown in Figures 2 and 3, the aberration 100 is formed so that a plurality of wings 120 are coupled, and rotated by a bird.

In this case, three wings 120 may be provided on the circumference of the hub 110 of the aberration 100, and the number thereof may be reduced or increased.

In addition, the wing 120 is possible to change the angle at a predetermined angle in the state coupled to the hub (110).

That is, the vanes 120 may be individually changed at an angle of about 90 degrees through the rotation shaft 110a provided on the circumference of the hub 110.

In addition, when the obstacle 120 is detected by the ultrasonic sensor 300 and the obstacle approaches the blade 120, the angle of the blade 120 automatically through the rotation axis 110a. You can easily avoid obstacles by changing.

Therefore, when the obstacle is detected by the ultrasonic sensor 300, the breakage prevention structure of the tidal current power generation device, respectively, through the rotation shaft 110a in a state in which the operation of the aberration 100 is stopped through the brake 130a. Since the angle of the wing 120 may be changed, when an obstacle approaches toward the front of the tidal current power generation device, the obstacle may flow between the wings 120.

On the other hand, the wing 120 may be connected to the end of each wing 120 in order to prevent the reverse flow or vortex to improve the rotational force of the aberration (100).

4 shows an operational state diagram for changing the position of the blade of the breakage prevention structure of the tidal current power generation apparatus according to the present invention.

As shown in FIG. 4, the breakage preventing structure of the tidal current power generation device is capable of fine adjustment of the wing 120 coupled to the aberration 100.

That is, the tidal current power generation device is provided between the aberration 100 and the generator 200, the fine adjustment of the blade 120 automatically by the gearbox 400 for providing power to the blade 120 This is possible.

Referring to the operation of the tidal current power generation device using the speed increaser 400 as follows.

First, the ultrasonic sensor 300 to determine whether there is an obstacle in front of the tidal current power generation device.

If an obstacle is observed through the ultrasonic sensor 300, a controller (not shown) stops the operation of the aberration 100 by operating the brake 130a.

That is, when the obstacle is observed, the ultrasonic sensor 300 transmits a signal to the controller (not shown) of the aberration detection signal and manipulates the brake 130a provided on the support bar 130. As a result, the operation of the aberration 100 can be controlled.

Next, when the speed increaser 400 detects that the obstacle faces the front of the tidal current power generation apparatus through the ultrasonic sensor 300, the speed increaser 400 is driven by the blade 120 in a state where the operation of the aberration 100 is stopped. By transmitting the, to enable fine positioning of the wing 120.

Therefore, the breakage prevention structure of the tidal current power generation device to enable the fine position adjustment of the wing 100 in the state in which the operation of the aberration 100 is stopped through the brake 130a, the obstacle through the ultrasonic sensor 300 At the time of detection, the obstacles can be effectively avoided to prevent breakage of the tidal current generator.

As a result, the present invention detects the obstacle approaching the tidal current power generation apparatus through the ultrasonic sensor, has the effect of preventing the breakage of the wing provided in the aberration.

In addition, the present invention is provided with a separate brake for power off in the tidal current power generation device, when the obstacle is detected by the ultrasonic sensor, it has the effect of blocking the rotation of the aberration.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many modifications may be made thereto, It will be understood that all or some of the elements (s) may be optionally constructed in combination. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: aberration 110: hub
110a: axis of rotation 120: wing
130: support bar 130a: brake
200: generator 300: ultrasonic sensor
400: Gearbox 500: Vertical Frame

Claims (4)

Aberration coupled to a plurality of wings on the hub and formed to rotate by a bird;
A generator connected to the aberration and generating electric power to rotate the kinetic energy of the aberration;
An ultrasonic sensor connected to one side of the generator to be provided in front of the aberration, and configured to detect an obstacle approaching the aberration; And
A speed increaser provided between the aberration and the generator and configured to provide power during position adjustment and driving of the plurality of blades;
The aberration is,
Breakage prevention structure of the tidal current power generation device, characterized in that the angle of each wing is individually changed through the rotation axis in the state where the plurality of wings are coupled.
delete The method of claim 1,
The aberration is,
When the obstacle is detected by the ultrasonic sensor, the breakage prevention structure of the tidal current power generation device characterized in that it comprises a brake that is formed so that the drive can be stopped.
delete

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