KR100944239B1 - Device for tidal current power system maintenance - Google Patents

Abstract

In an algae power generation system using a helical blade, a maintenance apparatus of an algae power generation system for easily and safely installing or maintaining a helical blade which is coupled to a rotating shaft and rotates according to the movement of the algae is provided.

The maintenance apparatus of the tidal current power generation system, the lower end is installed on the underwater ground and the upper end is a rotatable rotating shaft formed in the form protruding onto the water surface, the helical blade fixed by the blade support member in the longitudinal direction of the rotating shaft, the upper end of the rotating shaft And a vertical cylinder having a cylinder window connected to the generator to generate electricity by rotation and surrounding the rotating shaft and the helical blade and into which the fluid is incident.

Description

Maintenance device for tidal power system {DEVICE FOR TIDAL CURRENT POWER SYSTEM MAINTENANCE}

The present invention relates to a maintenance apparatus of an algae power generation system, which is installed at a high velocity of the ocean to produce electrical energy. It relates to a vertical cylinder that controls the flow to prevent the blades from rotating and to safely separate the blades from the power generation system.

In general, the helical blade tidal power generation system that generates power using the flow rate of the ocean is composed of a blade attached to the rotating shaft by the blade support member disposed radially with the rotating shaft. In this power generation system, the blade rotates according to the movement of the tidal current, and the rotation transmitted from the blade is transferred to the generator located at the top of the rotating shaft along the rotating shaft to finally produce electrical energy.

Reflecting these characteristics, helical blades are generally designed to be changed even with small movements of birds, and the technology related to helical blades and blade support members used for power generation is disclosed in Korean Patent Publication No. 2006-0014267. No., Korean Patent Publication No. 2008-0097026, etc. have already been described in detail and are included herein.

The algae power generation system has a possibility of failure caused by algae or other causes due to the nature of the installed site, and therefore, maintenance, management, and maintenance of each component is always required. In particular, the helical blade is inevitably stuck with various foreign matters as the blade rotates, and according to the structural characteristics of vibration and irregular rotation, it is inevitable to repair the blade by periodic cleaning or damage. However, as long as there is an incident fluid, the blades continue to rotate, and a special device for suppressing the rotation of the blades may occur because a very dangerous situation may occur when the connection to another device is disconnected for repair or the like in the rotated state. Additionally required.

On the other hand, as a prior art, Korean Patent Publication No. 2006-0069388 discloses an invention named "tidal conversion power generation device", the natural algae moving horizontally along the coast by using a hydrological control and power generation turbine It is about technology to produce.

However, the above-described prior art is provided with a technique for a hydrological gate that can rotate to use a tidal flow according to the situation, but there is a difficulty in installing, maintaining, and repairing a blade because it is difficult to control the fluid incident on the blade.

An object of the present invention is to surround the rotating shaft and the helical blade, through the provision of a vertical cylinder having a cylinder window for controlling the fluid incident on the blade, it is possible to install and maintain a safer and easier helical blade It's about doing it.

As a technical means for achieving the above-described technical problem, the present invention is a maintenance mechanism of the tidal current generating apparatus using a helical blade, the lower end is installed on the underwater ground and the upper end is a rotatable rotary shaft formed in a shape protruding onto the water surface, Helical blades fixed in the water in the longitudinal direction of the rotary shaft by a blade support member, a generator connected to the upper end of the rotary shaft to produce electrical energy by rotation, and wrap around the rotary shaft and the helical blade and enter the helical blade Provided is a maintenance mechanism for a tidal current power generation device comprising a vertical cylinder having a cylinder window for controlling a fluid to be produced.

The vertical cylinder is connected to the upper end of the vertical cylinder to provide a maintenance mechanism of the tidal current generating device including a cylinder gear for rotating the vertical cylinder and a motor for rotating the cylinder gear.

In addition, the helical blade, two or more blades are configured in a multi-layer in order to increase the power generation capacity, the cylinder window of the vertical cylinder to correspond to the, in a multi-layered structure in the same position in the horizontal plane with the helical blade It may also be composed of a maintenance mechanism of the tidal current generator is formed according to the number of blades.

In addition, the maintenance mechanism of the tidal current generation device further includes a base structure is installed on the underwater ground so that at least one or more flow paths are partitioned, the rotating shaft and the vertical cylinder is installed through the interior of the base structure, the heli It may be provided in the form of a maintenance mechanism of the tidal current generating device such that the knife blade and the cylinder window are exposed to the flow path of the foundation structure.

According to one of the problem solving means of the present invention described above, it is possible to prevent unnecessary rotation of the blade by preventing the flow of the naturally occurring fluid incident on the blade through the rotation of the cylinder window direction in which the fluid is incident. By preventing the rotation of the blade it is possible to safely perform the installation or maintenance of the blade.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted for simplicity of explanation, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 to 3, the maintenance mechanism of the tidal current generator according to an embodiment of the present invention will be described.

1 and 2 are a front view and a plan view of the maintenance mechanism of the tidal current generator according to the embodiment of the present invention.

1 and 2, the maintenance apparatus 100 of the tidal current power system according to an embodiment of the present invention includes a rotating shaft 110, a helical blade 130 and a generator 150, the cylinder window It further comprises a vertical cylinder 170 having a 171, a cylinder gear 173 and a motor 175.

The rotating shaft 110 is a rotatable shaft having a lower end installed on the underwater ground and an upper end protruding onto the water surface. The rotating shaft 110 is coupled to the helical blade 130 by the blade support member 131 which will be described later, and has a coupling structure in which the rotation of the helical blade 130 can be transmitted to the rotating shaft 110. . The rotating shaft 110 may be configured to additionally have a jacket pile attached to the underwater ground in a vertical form vertically lowered from the water surface to the water. Such rotatable jacket piles are well known and used by those skilled in the art. However, the rotation of the helical blade 130 attached according to the characteristics and structure of the algae power generation system may have a variety of forms and configurations, such as a U-shape, which can be transmitted to the generator 150 to be described later.

The helical blade 130 is rotatably coupled to the rotation shaft 110 by the blade support member 131, and rotates in a predetermined direction by receiving a resistance of the fluid passing therethrough. The rotation of the helical blade 130 is transmitted to the rotary shaft 110 rotatably coupled with the blade support member 131, through which the rotary shaft 110 also rotates. Rotation of the helical blade 130 may change in the flow of the fluid, and the combined rotation shaft 110 also rotates in the same direction according to the changing rotation. In addition, the helical blade 130 has two or more helical blades 130 may be attached to one rotary shaft 110 in a multi-layered structure in order to increase the amount of electrical energy generated by the increase in the rotational acceleration of the rotary shaft 110. There is also.

Generator 150 is coupled to the upper end of the rotary shaft 110 protruding above the water surface, and is to generate power to produce electrical energy by using the rotation of the rotary shaft, the electromotive force generated by the rotation of the helical blade 130 It can also play a role in sensing. Such development principles are well known to those skilled in the art as disclosed in Korean Patent Publication No. 2005-17964 “Algae Generating Device”, which is included and described herein. In addition, the generator 150 may be indirectly connected to the rotating shaft 110 by the shaft 151 to receive the rotation of the rotating shaft 110 and use it for generation of electrical energy.

Vertical cylinder 170 is a hollow cylindrical member, the support that can wrap the outside of the helical blade 130 is fixed to the rotating shaft 110 and the rotating shaft 110 through the blade support member 131. It is absent. The vertical cylinder 170 has a length to wrap the rotating shaft 110 installed in the underwater ground and a width to wrap the helical blade 130. However, depending on the structure of the tidal current power generation system, the vertical cylinder 170 may have a variety of elevations such as a c-shape, not a vertically formed straight line, and the overall length is not a length that can cover the entire rotating shaft 110. The helical blade 130 of 110 may be configured to surround only a portion including a specific region to which it is attached. The vertical cylinder 170 may attach a rotatable jacket pile for attaching the lower end thereof to the underwater ground, thereby enabling additional support of the rotating shaft 110. Such rotatable jacket piles are well known and used by those skilled in the art. In addition, the upper end of the vertical cylinder 170 is fixed to the algae power generation system to be rotatable. The vertical cylinder 170 is made of a material having strength and resistance to withstand the resistance of the fluid, and has a cylinder window 171 through which a portion of the fluid flowing around the vertical cylinder 170 can be introduced.

FIG. 3 is a partially enlarged view of the vertical cylinder 170 and the cylinder window 171, which will be described below with reference to FIG. 3.

As shown in FIG. 3, the cylinder window 171 refers to an opening formed uniformly in the vertical cylinder 170, and is in the same horizontal plane as the helical blade 130 in the hollow vertical cylinder 170. Although the rectangular cylinder window 171 located in the can be generally applied to the present invention, in addition to the combination of the vertical cylinder 170 having a variety of cross-sectional shape and the cylinder window 171, such as a circular shape may be used. In addition, when two or more helical blades 130 are attached to the rotating shaft 110, two or more cylinder windows 171 set to be positioned on the same horizontal plane with each helical blade 130 are vertically corresponding thereto. It may be formed on the cylinder 170 and used.

The cylinder gear 173 is rotatably coupled to the upper end of the vertical cylinder 170 to support the vertical cylinder 170, and includes a coupling configuration in the form of tooth engagement so that the vertical cylinder 170 can rotate. The cylinder gear 173 rotates the vertical cylinder 170 by transmitting a rotating force to the vertical cylinder 170 according to the rotation of the motor 175 which will be described later, thereby keeping the position of the cylinder window 171 horizontal. The rotation will change. However, the coupling of the vertical cylinder 170 and the cylinder gear 173 may be used in various forms that can be employed by those skilled in the art if the rotation of the motor 175 can be transmitted to the vertical cylinder 170 in addition to the engagement of the tooth engagement type. have. In addition, a connection gear 177 to be described later may be used for smooth coupling between the cylinder gear 173 and the motor 175, adjustment of the rotation speed, and direction adjustment.

The motor 175 can be used a variety of motors known to those skilled in the art as disclosed in the domestic patent publication No. 1979-0000427 "hydraulic motor" to be included and described herein.

The connection gear 177 transmits the rotational force transmitted from the motor 175 to the cylinder gear 173 at various rotation speeds, rotation directions, and rotation periods, and is a connection member connecting the motor 175 to the cylinder gear 173. . The rotation force transmitted from the motor 175 may be adjusted through the connection gear 177, and thus the rotation speed or rotation period of the cylinder gear 173 may be changed. In addition, the rotational speed change of the cylinder gear 173 may change the rotational speed, rotational cycle, and rotational direction of the vertical cylinder 170 connected thereto.

Although not shown in the drawings, an embodiment of the present invention may further include a motor controller for controlling the driving of the motor 175. The motor control unit controls the rotation of the cylinder 170 by sensing the rotation of the helical blade 130 or the electromotive force generated by the helical blade 130. In detail, since the direction of the tidal current changes, the cylinder 170 is rotated by the motor controller until the rotation of the helical blade 130 or the electromotive force generated by the helical blade 130 is not generated. . Therefore, when maintenance of the tidal current system is required, the most efficient and optimal rotation of the cylinder 170 can be controlled automatically by the motor control unit.

The maintenance apparatus 100 of the tidal current power generation system including the vertical cylinder as described above may be installed and used as an independent single member, but is installed on the underwater ground so that at least one passage is partitioned. The rotating shaft 110, the vertical cylinder 170 is installed so as to be rotatable through, the helical blade 130 and the cylinder window 171 on the same horizontal plane in one or more flow paths provided in the foundation structure 190 It can be used as a maintenance mechanism of a more stable tidal current generator by installing it in position.

The basic structure 190 to be used in the algae power generation system is pre-assembled through a structure of concrete or steel, etc. to move to the place where the algae will be generated, or installed and assembled in the place where algae is generated, the fluid under the water surface Has more than one flow path through it. The upper end of the foundation structure 190 is exposed on the water surface and is connected to and supported by the upper end of the rotating shaft 110 thereon and is connected to and supported by the upper end of the shaft 151 and the vertical cylinder 170 which transmits rotational force to the generator 150. The cylinder gear 173 and the motor 175 for rotating the vertical cylinder 170 may be mounted.

When the base structure 190 has a variety of shapes according to the present invention, the helical blade 130 that is coupled to the rotating shaft 110 and the rotating shaft 110 to rotate to the main body of the basic structure 190 as necessary It may be formed to protrude on one side instead of the formed flow path, in this case, as described above, the rotary shaft 110 does not necessarily need to be a vertical member having a straight shape falling from the water to the ground. It is also possible to use the rotating shaft 110 having a configuration.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

1 is a view showing a front view of the maintenance mechanism of the tidal current generator according to an embodiment of the present invention.

2 is a plan view showing a maintenance mechanism of the tidal current power generation device according to an embodiment of the present invention.

3 is a partially enlarged view of a maintenance mechanism of a tidal current power generation device according to an embodiment of the present invention.

Claims (7)

The lower end is installed in the underwater ground and the upper end is a rotatable rotating shaft formed in a shape protruding above the surface of the water, the helical blade is fixed by the blade support member in the longitudinal direction of the rotating shaft in water and is connected to the upper end of the rotating shaft by electric In the maintenance apparatus of the tidal current system including a generator for producing energy, A vertical cylinder having a cylinder window for controlling a fluid incident on the helical blade, the vertical cylinder being formed to surround the rotating shaft and the helical blade; A cylinder gear connected to the vertical cylinder to rotate the vertical cylinder, A motor for rotating the cylinder gear and A connection gear connected to the motor to transmit rotation of the motor to the cylinder, and adjusting any one or more of a rotation direction, a rotation speed, and a rotation period of the cylinder; Maintenance apparatus of the tidal power generation system comprising a. The method of claim 1, The helical blade, Two or more blades are composed of a double layer, The cylinder window of the vertical cylinder, It is formed according to the number of blades in a multi-layer structure in the same position on the horizontal plane and the helical blade Maintenance device of the tidal power system. The method of claim 1, Motor control unit for controlling the motor based on the electromotive force generated by the rotation of the helical blade or the rotation of the helical blade sensed by the generator Maintenance apparatus of the tidal power generation system further including. The method of claim 1, Further comprising a foundation structure is installed on the underwater ground so that at least one passage is partitioned, The rotating shaft and the vertical cylinder is installed to penetrate the interior of the base structure, so that the helical blade and the cylinder window is exposed to the flow path of the base structure Maintenance device of the tidal power system. The method of claim 1, Further comprising a foundation structure is installed on the underwater ground so that at least one passage is partitioned, The rotating shaft and the vertical cylinder is installed on one side of the base structure, so that the helical blade is attached to the rotating shaft by a blade support member Maintenance device of the tidal power system. The method of claim 3, wherein The motor control unit, Rotating the cylinder until the rotation of the helical blade and the electromotive force is not detected in the generator Maintenance device of the tidal power system. delete

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