KR20100006172A - Wave-force generation system - Google Patents

Abstract

PURPOSE: A wave power generation system is provided to simplify the power generation system, to easily replace a buoyancy body if the power generation system is out of order, to extend the life of the power generation system by reducing the damage due to salinity, and to modularize the system by forming an independent generator in every buoyancy body unit. CONSTITUTION: A wave power generation system comprises a buoyancy body(2) composed of a rotary power generating unit and a one-way power transmitting device, and a generator. The rotary power generating unit is able to execute forward and reverse rotation for converting the vertical movement power of the buoyancy body into the rotary power. The one-way power transmitting device always transmits the power to the same direction regardless of the forward and reverse rotation of the rotary power generated by the rotary power generating unit. The generator generates electricity by receiving the power of an output shaft of the one-way power transmitting device.

Description

Wave-power generation system {Wave-force generation system}

The present invention relates to wave power generation, and more particularly, it is possible to simplify the whole system by embedding a generator and related parts necessary for power generation in a buoyancy body, and when a power generation system of a unit buoyancy body fails, it is easy to be new. It is about wave power generation which can be replaced easily.

In Korean Patent Laid-Open Publication No. 1999-0080155, when a wave rises, a buoyancy body is raised or lowered, and a gear rod coupled on the buoyancy body is provided with a technology for generating power by rotating the gear while simultaneously raising or lowering.

However, the power generation apparatus as described above has a constraint that the gear bar must be long by the length of the buoyancy body from the low point to the high point, and also requires a space for the gear bar to move up and down in the upper part of the structure. This is due to the inefficiency that can not use the space of the upper part of the structure.

In particular, when the vertical movement of the buoyancy body due to waves is not constant, it seems that the coupling between the gear rod and the gear is not smooth, so that the operation is not performed properly and the failure occurs frequently due to mechanical defects.

In general, the wave power generation method using the buoyancy body is a buoyancy body is simply an empty container for obtaining buoyancy, and the general method of installing the accessories necessary for the rest of the generation outside the buoyancy body, so the configuration of the power generator There are drawbacks to being complicated and large.

Accordingly, the present invention has been made to solve the above problems, the object of which is in the wave power generation using buoyancy; By building a wheel which is a rotational force generating means outside the buoyancy body, and by embedding a rotating shaft to receive the rotational force of the wheel inside the buoyancy body, one-way power transmission device and a generator, the power generation system can be simplified and buoyancy when the power generation system fails It is to provide a wave power generation system that can easily replace the sieve.

The present invention relates to a wave power generation system having a marine structure in which an operating space is formed and a buoyancy body which is moved up and down by waves in the operating space of the marine structure; The buoyancy body, the rotation force generating means for converting the lifting and lowering force of the buoyancy body to the rotational force; A one-way power transmission device that receives all of the forward and reverse rotational forces so that power is always transmitted in the same direction even when the rotational force generated by the rotational force generating means is reversed; It characterized in that it comprises a generator for generating electricity by receiving the rotational force of the output shaft of the one-way power transmission device.

1. The present invention can simplify the whole system by integrally embedding the generator and power generation components in the buoyancy body, and can be easily replaced with a new one when the unit buoyancy fails.

2. By embedding the generator and related parts necessary for power generation inside the buoyancy body, salt damage can be reduced, thus extending the life of the power generation system.

3. Since each unit buoyant body has a built-in independent generator, the system can be modularized, so it is easy to expand the system.

4. The wind power can be obtained by the propeller installed on the upper part of the buoyancy body. The power generated can be maximized by producing electricity by combining the rotation force by the wind power and the lifting torque of the buoyancy body to rotate.

       5. Using the propeller installed at the lower end of the buoyancy body, the horizontal kinetic energy of the waves can be converted into rotational kinetic energy, and the rotational force is configured to rotate with the lifting and lowering rotational force of the buoyancy body to generate electricity by generating electricity. It can be maximized.

The present invention relates to a wave power generation system having a marine structure in which an operating space is formed and a buoyancy body which is moved up and down by waves in the operating space of the marine structure; The buoyancy body, the rotation force generating means for converting the lifting and lowering force of the buoyancy body to the rotational force; A one-way power transmission device that receives all of the forward and reverse rotational forces so that power is always transmitted in the same direction even when the rotational force generated by the rotational force generating means is reversed; It characterized in that it comprises a generator for generating electricity by receiving the rotational force of the output shaft of the one-way power transmission device.

Rotation force generating means in the present invention, at least one set of wheels rotatably mounted to the outside of the buoyancy body; Inside the buoyancy body is arranged a rotating shaft that rotates integrally with the wheels.

In addition, it is preferable to have a pulley mounted on the rotating shaft, and a belt for transmitting the rotational force of the pulley to the one-way power transmission device.

In addition, a sprocket may be mounted to the rotating shaft of the wheel, and a chain may be provided to transmit the rotational force of the sprocket to the one-way power transmission device.

In addition, the propeller mounted in the center of the upper end of the buoyancy body is a method for obtaining the rotational force by the wind, the propeller mounted in the center of the lower end of the buoyancy body can obtain the rotational force by converting the horizontal kinetic energy of the waves into rotational kinetic energy. .

It is preferable to configure the rotating shaft rotated by the propeller and the output shaft of the one-way power transmission device to rotate with each other.

The reason for the configuration as above is that with the advantage of obtaining the rotational force by the propeller, if the buoyant body gains the rotational force only by the lifting force of the buoyant body, when the buoyant body descends, the buoyancy body starts to descend from the highest point or starts to rise from the lowest point. It is to compensate for the stopping of the rotational force at the moment, and to transmit stable and continuous rotational force to the generator input shaft.

In addition, in order to maximize the efficiency of power generation in the buoyancy body, it is also preferable to configure the speed increaser to be connected to the generator after increasing the speed.

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

First embodiment ;

1 shows a schematic perspective view of a wave power generation system according to the present invention, the offshore structure 1 used in the present invention may be installed or positioned in the sea in a fixed or floating manner. In addition, the offshore structure 1 is preferably open at the upper side and the side as well as the lower end in order for the wave force to be transmitted to the buoyancy body 2 as it is, and to increase the power of development, a plurality of buoyancy bodies 2 are provided in the offshore structure ( It is desirable to install in 1).

2 shows an excerpt perspective view of one buoyancy body 2 and an offshore structure 1, in which the buoyancy body 2 is formed by wheels 21 and 21a mounted outside the buoyancy body 2. The inner wall of the working space (1a) of the structure (1) is in close contact with the rising and falling by waves (W).

When the buoyancy body (2) is raised and lowered, the lifting force of the buoyancy body (2) can be converted into a rotational movement, for this purpose, the buoyancy body (2) is provided with a rotational force generating means capable of forward and reverse rotation, this rotation force generation The means consists of eight wheels 21, 21a and rotation shafts 22, 22a rotatably mounted on the exterior of the buoyancy body 2.

2 and 3, a pulley mounted to the rotary shafts 22 and 22a as a method for transmitting the rotational force of the rotary shafts 22 and 22a to the input shaft 34a to the one-way power transmission device 40 ( 23 and 23a and belts 25 and 25a for transmitting the rotational force of the pulleys 23 and 23a to the pulleys 24 and 24a, respectively.

When the pulleys 24 and 24a are rotated by the belts 25 and 25a, respectively, the spur gears 32 and 32a built into the respective rotation shafts 34 and 34a are engaged with each other to rotate, thereby rotating the rotational force. Forwarded to 34a.

The rotating shaft 34a is formed to be connected to the same axis as the input shaft 34a of the one-way power transmission device 40, and the rotating shaft 34a and the input shaft 34a will be described as being mixed.

As shown in FIG. 4, in the one-way power transmission device 40, even if the input shaft 34a rotates forward and backward, the rotation shaft 46a of the power output gear 46 always rotates in the same direction.

As described above, the one-way power transmission device 40 rotates the input shaft 34a while the wheels 21 and 21a of the rotational force generating means rotate forward and backward, and thus the power output gear 46 always rotates only in the same direction. The one-way power transmission device 40 according to Utility Model Registration No. 20-0422089 registered and registered in advance was used.

Therefore, the one-way power transmission device 40 used in the present invention is capable of generating power by transmitting rotational force in the same direction as well as when the buoyancy body 2 rises, as well as in the first and second directions. A generator 60 which connects the power output gear 46 to rotate only in a constant direction by using the clutches 44 and 45, and generates electricity through the speed increaser 55 for amplifying the rotational force to the output shaft 46a. To be delivered). The electricity generated in this way is stored in the capacitor 70 via a cable (not shown) to be transmitted to the outside if necessary.

Referring again to FIGS. 2 and 9, reference numerals 27 and 127 denote stoppers that can be detached at the time of replacement of the buoyancy body 2 and that the buoyancy body 2 is not detached arbitrarily. ) Is preferably installed at the lower end side of the marine structure (1).

Referring to the operation of an embodiment of the present invention configured as described above, the buoyancy body 2 is raised and lowered in the operating space (1a) of the structure 1 according to the height of the digging, in this case the buoyancy body (2) Eight wheels (21, 21a) rotatably attached to the outside of the will rotate.

For example, when the buoyancy body 2 rises in the arrow direction A as shown in FIG. 8, the wheels 21a on the right side rotate in a clockwise direction, and the wheels 21 on the left side rotate in a counterclockwise direction. do.

Here, the rotational force of the left wheel 21 is transmitted to the spur gear 32 by the belt 25 connecting the pulley 23 and the pulley 24 coupled to the rotating shaft 22.

In addition, the rotational force of the right wheel 21a is transmitted to the input shaft 34a of the one-way power transmission device 40 by the belt 25a connecting the pulley 23a and the pulley 24a coupled to the rotation shaft 22a. It is supposed to be done.

Therefore, since the spur gear 32 and the spur gear 32a are engaged with each other and rotate, the reverse rotational force by the left wheels 21 is converted to the forward rotation by the spur gear 32a, and the one-way power transmission in the forward rotation is performed. It is transmitted to the input shaft 34a of the device 40.

In contrast to the method described above, when the buoyancy body 2 descends, the right wheels 21a are reversely rotated, and the left wheels 21 are forwardly rotated.

However, since the spur gear 32 and the spur gear 32a are engaged with each other and rotate, the turning power by the left wheels 21 is converted into the reverse rotational power by the spur gear 32a, so that the one-way power is rotating in the reverse direction. It is transmitted to the input shaft 34a of the delivery device 40.

That is, in terms of the input shaft 34a of the one-way power transmission device 40, when the buoyancy body rises, the rotation direction of the input shaft 34a rotates in the forward direction, and when the buoyancy body descends, the rotation direction of the input shaft 34a It will rotate in the reverse direction.

5 is a partial view of the one-way power transmission device (utility model registration No. 20-0422089) registered by the applicant in advance, even if the rotation direction of the input shaft 34a forward or reverse rotation, the output shaft by the one-way power transmission device 40 46a can always rotate only in the same direction.

In addition, the rotation speed is increased by connecting to the speed increaser 55 to the output shaft 46a of the one-way power transmission device 40; The output shaft of the speed increaser 55 may be connected to the input shaft of the generator 60 to produce electricity. The output shaft may be stored in the storage battery 70 and transmitted to the outside when necessary.

Second embodiment;

First embodiment; As the configuration and operation are the same, a detailed description thereof will be omitted, and the functions added to the first embodiment will be described as follows.

As shown in FIG. 5, a propeller 70 is installed at the center of the lower end of the buoyancy body 2, and the horizontal propagation energy of the wave is converted into the rotational motion by using the propeller, and then the converted rotation axis is transmitted in one direction. It is preferably configured to engage and rotate with the output shaft 46a of the device 40.

5, the bevel gear 51 is coupled to the output shaft 46a of the one-way power transmission device, and the bevel gear 77 is coupled to the rotating shaft 75 that is rotated by the propeller 70.

In addition, the one-way clutch 76 or one-way bearing 76 should be inserted between the bevel gears 77 engaged with the rotation shaft 75.

That is, when the output shaft 46a of the one-way power transmission device rotates clockwise; When the rotation shaft 75 by the propeller rotates in the clockwise direction, the one-way clutch 76 should be engaged so that the rotational force is transmitted to the bevel gear 77.

By the configuration as described above; After the buoyancy body 2 is configured to rotate by engaging the output shaft 46a of the one-way power transmission device that rotates as the elevating body 2 and the rotating shaft 75 rotated by the propeller 70 rotate, the output shaft 46a is a generator. The efficiency of the power generation system can be increased by

Third embodiment;

First embodiment; As the configuration and operation are the same, a detailed description thereof will be omitted, and the functions added to the first embodiment will be described as follows.

As shown in FIG. 6, a propeller 80 is installed at the center of the upper end of the buoyancy body 2, the wind energy is converted into rotational motion using the propeller, and then the converted rotational shaft 85 is transferred in one direction. It is preferably configured to engage and rotate with the output shaft 46a of the device 40.

6, the bevel gear 51 is coupled to the output shaft 46a of the one-way power transmission device, and the bevel gear 87 is coupled to the rotating shaft 85 that is rotated by the propeller 80.

In addition, the one-way clutch 86 or one-way bearing 86 is inserted between the bevel gears 87 and the rotating shaft 85 to be engaged.

That is, when the output shaft 46a of the one-way power transmission device rotates clockwise; When the rotation shaft 85 by the propeller rotates counterclockwise, the one-way clutch 86 should be engaged so that the rotational force is transmitted to the bevel gear 87.

By the configuration as described above; After the buoyancy body 2 is configured to rotate with the output shaft 46a of the one-way power transmission device which rotates as it moves up and down, and the rotating shaft 85 rotated by the propeller 80, the output shaft 46a is generated by the generator. The efficiency of the power generation system can be increased by

1 is a schematic perspective view of a system excluding the propeller of the wave power generation system according to the present invention.

Figure 2 is an excerpt perspective view of a set of buoyancy body (2) and offshore structure (1).

3 is a plan view showing the basic configuration of the wave power generation system and the internal configuration of the buoyancy body.

Figure 4 is a block diagram of the internal components of the one-way power transmission device for which the inventor registered a utility model.

5 is a system conceptual diagram configured to increase power generation efficiency by converting horizontal kinetic energy of waves into rotational kinetic energy through a propeller in addition to the wave power generation method using the vertical kinetic energy of the buoyancy body.

6 is a system conceptual diagram configured to increase power generation efficiency by converting wind power by wind into rotational kinetic energy through a propeller in addition to a wave power generation method using up and down kinetic energy of a buoyancy body.

7 is a system conceptual diagram in the case of combining the first to third embodiments.

8 is a side view of the wheels and belts, pulleys and gears that rotate during the vertical movement of the buoyancy body.

Claims (5)

A wave power generation system having an offshore structure having a working space and a buoyant body which is moved up and down by waves in the offshore working space; In the buoyancy body, Rotational force generating means capable of forward and reverse rotation for converting the lifting force of the buoyancy body into rotational force; A one-way power transmission device such that power is always transmitted only in the same direction even when the rotational force generated by the rotational force generating means rotates forward and backward; And And a generator for generating electricity by receiving power from the output shaft of the one-way power transmission device. A wave power generation system having an offshore structure having a working space and a buoyant body which is moved up and down by waves in the offshore working space; In the buoyancy body, Rotational force generating means capable of forward and reverse rotation for converting the lifting force of the buoyancy body into rotational force; A one-way power transmission device such that power is always transmitted only in the same direction even when the rotational force generated by the rotational force generating means rotates forward and backward; An output shaft of the one-way power transmission device; Rotating shafts which are rotated by propellers installed in the center of the lower end of the buoyancy body are configured to engage with each other to rotate; And a generator for generating electricity by receiving power from the output shaft of the one-way power transmission device. A wave power generation system having an offshore structure having a working space and a buoyant body which is moved up and down by waves in the offshore working space; In the buoyancy body, Rotational force generating means capable of forward and reverse rotation for converting the lifting force of the buoyancy body into rotational force; One-way power transmission device so that the power is always transmitted in the same direction even when the rotational force generated by the rotational force generating means is reversed; An output shaft of the one-way power transmission device; The rotating shafts rotated by the propellers installed in the center of the upper end of the buoyancy body is configured to engage with each other to rotate; And a generator for generating electricity by receiving power from the output shaft of the one-way power transmission device. The method of claim 1, wherein At least one set of wheels rotatably mounted on the exterior of the buoyancy body and rotatable in close contact with the marine structure; A wave power generation system, characterized in that the axis of rotation is rotated by the wheels inside the buoyancy body.       The method of claim 2;       Coupling bevel gears 77 and 87 to rotational shafts 75 and 85;       Wave power generation system characterized in that the coupling between the one-way clutch (76,86) between the rotating shaft and the bevel gear.

Images