KR20140030021A - Wave power generating apparatus - Google Patents

Abstract

The present invention relates to a wave power generating apparatus which is easy in installation and movement and can be installed without pitching of a cable which transmits the generated electric power. The wave power generating apparatus according to an embodiment of the present invention comprises a first floating means, a guide means, a third floating means, a vertically moving means, and a power generating means. The first floating means controls an amount of things existing therein to control weight. The guide means comprises: a guide bar of which one end is connected to the first floating means to rotate; and a conductive member formed inside the guide bar in the longitudinal direction and exposed to one side of the outside of the guide bar in the longitudinal direction. The third floating means is connected to the guide bar to make the guide bar stand up when the guide bar is inserted underwater. The vertically moving means floats on water, is inclined in such a way as to become upwardly narrower to receive power in the vertical direction when waves hit, and moves up and down along the guide bar. The power generating means generates electric power using the movements of the vertically moving means and is connected to the conductive member to transmit the generated electric power to the conductive member of the guide bar. In this instance, the wave power generating apparatus is submerged underwater after things are inserted into the first floating means, and then, the guide means is fixed underwater. According to the present invention, the wave power generating apparatus can be installed to the bottom of the sea because it is submerged in the state where things are inserted into the first floating means. Therefore, the wave power generating apparatus is easy to install.

Description

Wave power generating device

The present invention relates to a device for generating power using wave power, and more particularly, to a wave power generating device that is easy to install and move and does not swing a cable that delivers generated electricity.

21 illustrates a power generator using wave force disclosed in Korean Patent No. 10-1138475. The power generating apparatus disclosed in FIG. 21 includes a guide bar 10, a fixing means 20, a shandong means 30, and a power generating means 50. The fixing means 20 is installed on the bottom of the sea floor with a cement block, and the guide bar 10 is installed on the fixing means 20, and then the shangdong means 30 are inserted into the guide bar 10. The power generating means 50 generates electricity while the floating shank east means 20 moves up and down along the guide bar 10 by the waves.

In the conventional power generating apparatus shown in FIG. 21, the fixing means 20 is directly installed on the bottom of the sea, and the guide bar 10 is installed on the fixing means 20. In this case, since the worker has to work on the seabed, the installation is difficult and expensive, and there is a problem that takes a long time.

In addition, in order to produce a large amount of electricity, the volume of the shandong means 30 is increased. In the case of FIG. 21, since the guide bar 10 is installed, the shandong means 30 is inserted from the upper portion of the guide bar 10. Cranes must be mobilized. So the problem is that the installation is tricky.

In addition, in the case shown in Figure 21, the power generating means 50 generates electricity. The electricity generated by the power generating means 50 is transmitted to the land and used. Thus, the cable is connected from the land to the power generating means 50 in order to transmit the electricity generated by the power generating means 50 to the land. The cable must be thick in order to transfer large amounts of electricity. Thus, a cable having a thick thickness is connected from the land to the power generating means 50. By the way, since the power generating means 50 is installed on the upper portion of the Shanghai moving means 30, the power generating means 50 moves up and down by the waves. As a result, the cable must move up and down. However, because the cable is thick, it is not easy to move around, which not only acts as a resistance but also causes problems in safety.

The present invention is intended to solve the above problems. The present application aims to provide a wave power generation device that is easy to install.

 In addition, an object of the present invention is to provide a wave power generation device that is easy to transfer electricity from the seabed to the land.

A wave generating device according to an aspect of the present invention includes a first floating means, a second floating means, a string, a guide means, a vertical moving means, and an electricity generating means. The first floating means may adjust the weight by adjusting the amount of the object therein. The second floating means may adjust the weight by adjusting the amount of the object therein. The string connects the first floating means and the second floating means to fix the second floating means to the first floating means. The guide means includes a guide bar having one end coupled to the second floating means so as to be rotatable, a conductive member formed along the longitudinal direction inside the guide bar and exposed along one side of the outside of the guide bar along the longitudinal direction, Respectively. The shangdong means is floating in the water, the upper portion is wider and the lower portion is inclined narrowly so as to receive a force in the vertical direction when the wave strikes, it is installed to move up and down along the guide bar. The electricity generating means generates electricity by using the movement of the shank movement means, and is connected to the conductive member to transfer the generated electricity to the conductive member of the guide bar. The wave power generator is characterized in that an object is inserted into the first floating means and sunk on the floor in water to fix the guide means in water.

Further, in the wave power generator, it is preferable that the electricity generating means includes a rack gear, a generator, a rotary gear, and a contact member. The rack gear is formed on the one side of the guide bar. The generator is installed in the shandong means. The rotary gear meshes with the rack gear to drive the generator when the shank moving means moves up and down. The contact member is installed on the shandong means so that one side may contact the conductive member so as to transfer electricity produced by the generator to the conductive member.

In addition, in the wave power generator, the guide bar is preferably formed with a sliding groove in the longitudinal direction on the side. In this case, the contact member is inserted into the body portion, the brush is supported by the spring in the body portion to be exposed to contact the conductive member, and the shank movement means to support the body portion in the generator A support portion for electrically connecting the brush and one end is inserted into the sliding groove so as to slide along the sliding groove, and the other end is coupled to the body portion and the coupling portion for preventing the contact member from being separated from the guide bar. Equipped.

In addition, in the wave power generator, the electricity generating means further comprises a sliding track installed in the shank movement means, the generator is preferably installed in the sliding track to adjust the distance to the rack gear.

In addition, the wave power generator is preferably electricity that is produced in the generator is transmitted to the rack gear.

In addition, in the wave power generator, the electricity generating means preferably further comprises a power transmission unit for transmitting to the drive shaft of the generator in order to drive the generator by the rotational force of the rotary gear.

In addition, in the wave power generator, it is preferable that the electricity generating means further comprises a flywheel provided on the drive shaft of the generator. In this case, the power transmission unit transmits the rotational force of the rotary gear to the drive shaft to a plurality of gears, a plurality of pulleys connected by a belt, or a plurality of chains.

In addition, in the wave power generator, it is preferable that the electricity generating means further includes a fluid compressor operating by the power transmission unit to drive the generator.

In addition, the wave power generation apparatus preferably further comprises a cover means.

In the above wave power generator, the cover means preferably includes a first winding roller portion, a second winding roller portion, and a lid. The first sensory roller part is installed on one side of the guide bar above the body part. The second winding roller portion is installed on one side of the guide bar below the body portion. The cover is coupled to one end to be wound around the first winding roller part, and the other end is coupled to be wound around the second winding roller part, and is connected to the body part to move up and down together with the shanghai of the body part. Cover the conductive member.

In addition, in the wave power generation apparatus, the cover means is one end of the flexible first cover film is coupled to one side of the guide bar located on the left side of the conductive member to cover the conductive member, one end of the right side of the conductive member It is possible to have a flexible second cover film which is coupled to the other side of the guide bar located on one side and covers the conductive member so as to overlap the first cover film. In this case, the brush is inserted between the first cover film and the second cover film to contact the conductive member.

The wave generator according to another aspect of the present invention includes a first floating means, a second floating means, a string, a guide means, a vertical moving means, an electricity generating means, and a connecting means. The first floating means may adjust the weight by adjusting the amount of the object therein. The second floating means may adjust the weight by adjusting the amount of the object therein. The string connects the first floating means and the second floating means to fix the second floating means to the first floating means. The guide means includes a guide bar having one end rotatably coupled to the second floating means, and a conductive member formed along the longitudinal direction of the guide bar. The shangdong means is floating in the water, the upper portion is wider and the lower portion is inclined narrowly so as to receive a force in the vertical direction when the wave strikes, it is installed to move up and down along the guide bar. The electricity generating means generates electricity by the movement of the shandong means. The connecting means is installed on the shandong east means to face the guide bar and the transfer bar is formed along the longitudinal direction on the surface facing the guide bar so that electricity generated in the electricity generating means can be transferred, one end of the guide It is coupled to the means and the other end is provided with a contact member in contact with the wire of the transfer bar to transfer electricity to the conductive member in the wire. In this case, an object is inserted into the first floating means, and the object is immersed in the water so as to fix the guide means in water.

In the above-mentioned wave power generator, it is preferable that the electricity generating means includes a rack gear, a generator, and a rotary gear. The rack gear is formed on the one side of the guide bar. The generator is installed in the shandong means. The rotary gear is engaged with the rack gear so as to drive the generator when the shank moving means moves up and down.

Further, in the above-described wave power generator, it is preferable that a sliding groove is formed on the side surface of the transmission bar along the longitudinal direction. In this case, the contact member is coupled to the guide bar and the body portion electrically connected to the conductive member, the brush is inserted into the body portion and supported by the spring in the body portion to be exposed to contact the wire; One end is inserted into the sliding groove so as to slide along the sliding groove, and the other end is coupled to the body portion and includes a coupling portion for preventing the contact member from being separated from the transfer bar.

In addition, the wave power generation apparatus preferably further comprises a cover means. The cover means includes a first winding roller portion, a second winding roller portion, and a cover. The first winding roller portion is installed on one side of the transfer bar above the body portion. The second winding roller portion is installed on one side of the transfer bar below the body portion. Wherein the cover is coupled to the first winding roller portion at one end so as to be wound and the other end is coupled to the second winding roller portion so as to be wound and is connected to the body portion so as to move up and down together with the top and bottom of the body portion, It has a cover that covers electric wires.

Further, in the above-described wave generator, it is preferable that the electricity generating means further include a sliding track provided in the up-down moving means. In this case, the generator is installed in the sliding track so as to adjust the distance to the rack gear.

In addition, in the wave power generator, the electricity produced by the generator is preferably transmitted to the rack gear.

In the above-described wave generator, it is preferable that the second floating means has a smaller floating force than the first floating means.

In the wave power generator, it is preferable that the guide bar is connected to the second floating means by a joint, a ring, or a string.

Further, in the above-mentioned wave power generator, it is preferable that the shank moving means includes a first floating portion and a second floating portion. The second floating portion may have one end coupled to one end of the first floating portion so as to be rotatable, and the other end may be coupled with the other end of the first floating portion. In this case, the shank moving means wraps the guide bar so that the first floating part and the second floating part are coupled and slide along the guide bar.

In addition, in the wave power generation apparatus, the shank movement means is preferably provided with a plurality of guide plates protruding on the outer peripheral surface formed in the vertical direction to guide the waves in the vertical direction.

In addition, the wave power generation device further includes a shock absorbing means that one end is coupled to the shankdong means and the other end is supported by an elastic force from one end to contact the guide bar, to mitigate the collision between the shankdong means and the guide bar. It is desirable to.

In addition, the wave power generation device preferably further includes a stopper for preventing the shank movement means from being separated from the guide bar.

In addition, in the wave power generator, the stopper is inserted to be slidable in the longitudinal direction from the upper portion of the guide bar, when the shank movement means ascend above the height of the guide bar to rise as the upper and lower It is desirable to prevent the vehicle from leaving.

The wave power generators may further include a third floating means coupled to the guide bar to raise the guide bar when the guide bar is inserted into the water.

According to the present invention, it is possible to install on the seabed by submerging the fluid into the first floating means. So it is easy to install.

Further, according to the present invention, since the first floating means is submerged and the second floating means is connected to the first floating means by a string, it can be easily installed on the seabed of high depth.

In addition, according to the present invention, the Shanghai moving means is separated and combined with the first floating part and the second floating part so that the Shanghai moving means can be easily installed in the guide bar.

In addition, since the electricity produced by the electricity generating means is transferred to the formed conductive member of the guide bar can be connected to the lower part of the guide bar to transmit electricity to the land. That is, since the cable is connected to the guide bar without being connected to the shanghai means, the cable may be fixed even if the shanghai means is moved to generate electricity.

1 is a perspective view of one embodiment of a wave power generation apparatus according to the present invention
2 to 5 is a conceptual diagram showing the assembly process of the embodiment shown in FIG.
6 is a conceptual diagram of the Shanghai East means of the embodiment shown in FIG.
7 is a cross-sectional view of the guide means of the embodiment shown in FIG.
8 and 9 are conceptual views of the electricity generating means of the embodiment shown in FIG.
Fig. 10 is a conceptual view of the contact between the contact member and the guide means of the embodiment shown in Fig. 1,
11 is a conceptual view in which the cover means is mounted in the embodiment shown in FIG. 1;
12 is another conceptual view of the cover means applicable to the embodiment shown in FIG. 1;
13 is a cross-sectional view of FIG.
14 is a conceptual diagram of a power transmission unit that may be applied to the embodiment shown in FIG. 1;
Fig. 15 is another conceptual view of the up-and-down moving means which can be applied to the embodiment shown in Fig.
16 is another conceptual diagram of a stopper that may be applied to the embodiment shown in FIG. 1;
17 is a perspective view of another embodiment of the wave power generator according to the present invention;
18 is a sectional view of the embodiment shown in FIG. 17;
19 is a cross-sectional view of the delivery bar of the embodiment shown in FIG.
20 is a conceptual diagram of contact between the contact member and the delivery bar of the embodiment shown in FIG. 17;
21 is an embodiment of a conventional wave generating device.

An embodiment of the wave power generation apparatus of the present invention will be described with reference to FIGS. 1 to 10. The wave power generator according to the present invention includes a first floating means 110, a second floating means 115, a string 118, a guide means 120, a third floating means 130, Means 140, electric generating means 150, stopper 180, and buffering means 185.

The first floating means 110 has a space to accommodate the fluid therein as a floating body, the air inlet 111, the fluid inlet 112 and the fluid outlet to control the amount of fluid received ( 113) is formed. The first floating means 110 serves to transport or fix the wave power generator to the seabed. In order to install the wave power generator, the fluid is removed from the inside to lighten the weight and float in the sea. Therefore, in order to fix the bottom in the sea after the transfer to the target point in the fluid is injected into the fluid inlet 112. Then, the first floating means 110 is greater than the buoyancy buoyant to sink to the sea floor is fixed to the sea floor. The first floating means 110 should be large enough to secure the fixing force. The air inlet 111, the fluid inlet 112, and the fluid outlet 113 serve to inject or discharge fluid into the first floating means 110. In this embodiment, although the weight of the first floating means 110 is adjusted by filling the fluid inside the first floating means 110, the weight of the first floating means 110 is adjusted by filling a metal ball or a cement block instead of the fluid. Can be.

The second floating means 115 has a space to accommodate the fluid therein as a floating body in the same way as the first floating means 110, and the air inlet, the fluid inlet and the like to adjust the amount of the fluid received , Fluid outlet is formed. In the same manner as the first floating means 110, the second floating means 115 may be filled with a metal ball or a cement block instead of the fluid to adjust the weight thereof.

The string 118 connects the first floating means 110 and the second floating means 115 so that the second floating means 115 can be fixed to the first floating means 110. That is, the first floating means 110 sinks into the deep sea and is fixed, and the second floating means 115 is fixed to the first floating means 115 by the string 118. Therefore, since the second floating means 115 should be fixed to the first floating means 110, it is preferable to have a small floating force compared to the first floating means 110.

The guide means 120 serves to guide the movement of the shandong means 140 up and down by waves. To this end, the guide means 120 includes a guide bar 121 and a conductive member 123.

One end 121a of the guide bar 121 is coupled to the second floating means 115 so as to be rotatable. In this embodiment, the guide bar 121 is hooked to the second floating means 115. When the guide bar 121 is fixedly coupled to the second floating means 115, a bending moment is generated in the engagement portion of the second floating means 115 and the guide bar 121 when the wave is hit. In this case, since the coupling portion may be damaged, the guide bar 121 is coupled to the second floating means 115 so as to be freely rotatable. And sliding grooves 122 are formed along the longitudinal direction on both side surfaces of the guide bar 121. In this embodiment, one end 121a of the guide bar 121 is coupled to the second floating means 115 by a ring, but it may be connected to a joint or a string in addition to the ring. At this time, the ring or string may be formed of carbon fiber or the like.

The conductive member 123 is formed along the longitudinal direction inside the guide bar 121 and is formed to be exposed along the longitudinal direction on the outer one side of the upper portion of the guide bar 123. That is, the conductive member 123 is formed along the longitudinal direction in the inner 123a of the guide bar 121, and is formed on one side at the outer 123b of the upper part of the guide bar 121 to allow electricity to pass through each other. 123a and the outside 123b are connected to each other.

The third floating means 130 is coupled to the guide bar 121 to generate the buoyancy to guide the guide bar 121 when the guide bar 121 is inserted in the water. When the second floating means 115 is sunk in water, the guide bar 121 is also sunk together in the water. The third floating means 130 has a property of floating out of the water by buoyancy and one end 121a of the guide bar 121 is coupled to the second floating means 115 so that the guide bar 121 is rotated. If you sink in the water guide bar 121 is erected vertically.

Similarly to the first floating means 110 or the second floating means 115, the third floating means 130 has a space for accommodating the fluid, and includes an air inlet 131 and a fluid inlet 132. ) And the fluid discharge port 133 is preferably formed to control the amount of the fluid contained therein.

Shanghai East means 140 serves to move up and down along the guide bar 121 by the waves hit. To this end, the Shanghai East means 140 is formed of a floating body that can float on the water, the guide bar 121 is formed to be inserted through the center thereof. At this time, the shangdong means 140 is preferably inclined to receive a lot of vertical force of the wave in order to increase the distance to move up and down by the wave, the upper portion is wider and the lower portion is narrower. In this case, when the wave hits the vertical force Shanghai shank means 140 can move more and more up and down. Shanghai moving means 140 is mounted by inserting the guide bar (121). At this time, if the guide bar 121 is erected in the water, the height is high and should be mounted by lifting the Shanghai East means 140. By the way, since the shankdong means 140 is large and heavy, it is difficult for a worker to lift and mount it. To this end, the Shanghai moving means 140 is configured to be separated into a first floating part 141 and a second floating part 143. The first floating part 141 and the second floating part 143 may be hinged at one side 144 to rotate about one side 144, and the other side 145 may be coupled to open and close. So, after unwinding the other side 145, the first floating part 141 and the second floating part 143 are rotated about the one side 144 to open and therebetween the first floating part 141 and the second floating part 143. The guide bar 121 may be inserted into the first floating part 141 and the second floating part 143 by fastening the other side 145 to mount the shank means 140. A stopper 147 may also be placed on the first floating part 141 and the second floating part 143 to pour fluid therein. Since the fluid may be stored separately in each of the first floating part 141 and the first floating part 143, when the weight balance of the first floating part 141 and the second floating part 143 is not matched, The fluid can be stored to balance the weight.

The electricity generating means 150 generates electricity by using the shank east means 140 when it moves up and down by a wave. To this end, the electricity generating means 150 includes a rack gear 151, a generator 153, a rotary gear 155, a contact member 157, and a sliding track 166.

The rack gear 151 is formed in one direction of the guide bar 121 in the longitudinal direction. The sliding track 166 is formed to face the guide bar 121 at the upper portion of the shanghai movement means 140. The generator 153 is installed on the sliding track 166 to slide along the sliding track 166. Thus, the generator 153 may adjust the distance from the rack gear 151. The rotary gear 155 is in contact with the rack gear 151, and is installed in the generator 153 to drive the generator 153 when the shank east means 140 moves up and down. Shanghai East means 140 moves up and down by the waves. Then, the rotary gear 155 is rotated by biting the rack gear 151 to operate the generator 153. The generator 153 then produces electricity. In order for the generator 153 to be driven, the rotary gear 155 should be engaged with the rack gear 151. This may cause the rotary gear 155 and the rack gear 151 to be bitten by moving the generator 153 along the sliding track 166. In addition, by installing the spring 154 on the rear side of the generator 153 to push the generator 153, the rotary gear 155 and the rack gear 151 may not be separated. Meanwhile, since the rack gear 151 is exposed to the outside, seafood such as shellfish may be coupled to the rack gear 151. Therefore, in order to prevent this, it is preferable that a slight current is supplied to the rack gear 151. In the present embodiment, since electricity is produced in the generator 153, it is preferable that a part of the electricity produced by the generator 153 is connected to the rack gear 151.

The contact member 157 serves to transfer electricity produced by the generator 153 to the conductive member 123. To this end, the contact member 157 includes a body portion 158, a brush 160, a support portion 162, and a coupling portion 164. One end of the brush 160 is inserted into the body 158 and the other end thereof is exposed to be in contact with the conductive member 123. The brush 160 slides while rubbing against the conductive member 123 because the shandong movement means 140 performs shandong movement together. So it can be worn. Even when the brush 160 is worn, one end of the brush 160 is supported by the spring 161 in the body 158 so as to always contact the conductive member 123, and the other end protrudes out of the body 158. I try to be. Thus, even if the brush 160 is worn, it may protrude to the outside by the amount of wear, and thus always comes into contact with the conductive member 123. The support part 162 is installed on the shankdong means 140 to support the body 158. In this case, a wire is formed inside the support part 162 to allow electricity to flow from the generator 153 to the brush 160 of the body part 158. That is, the electric wire is connected from the generator 153 to the brush 160 of the body 158 through the inside of the support 162. In order to closely contact the brush 160 with the conductive member 123, the support part 162 may be coupled to the shank moving means 140 in the form of a ball joint or a hinge.

The coupling part 164 prevents the brush 160 and the conductive member 123 from being separated. To this end, the coupling part 164 has one end inserted into the sliding groove 122 of the guide bar 121 and the other end connected to the body part 158. At this time, one end of the coupling portion 164 inserted into the sliding groove 122 is formed to be able to easily slide along the sliding groove 122. For example, it may be formed as a bearing and inserted into the sliding groove 122. In addition, a spring may be inserted into the coupling portion 164 to pull the body portion 158 toward the guide bar 121. In this case, the coupling part 164 may have a property to be contracted by a spring so that the body part 158 may be pulled out of the guide bar 121.

The stopper 180 prevents the moving means 140 from being separated from the guide bar 121. To this end, the stopper 180 is installed on the top of the guide bar 121 to prevent the shank movement means 140 from escaping from the top of the guide bar 121. When the moving means 140 hits the stopper 180, a spring may be installed inside the guide bar 121 to absorb the shock. When the wave hits the Shanghai East means 140 moves up and down along the guide bar 121. At this time, even if a sudden wave hits the Shanghai East means 140 ascending out of the guide bar 121, the stopper 180 is installed to limit the movement of the Shanghai East means 140.

The buffer means 185 serves to mitigate the collision between the shangdong means 140 and the guide bar 121. To this end, the buffer means 185 is installed in the shankdong means 140 to contact the guide bar 121. In this case, the shock absorbing means 185 may be formed of a bearing or the like to reduce friction with the guide bar 121 and may be supported by an elastic member such as a spring to absorb the shock of the guide bar 121. When the wave hits the Shanghai East means 140 not only moves up and down, but also moves back and forth, left and right. When there is a gap between the shanghai dong means 140 and the guide bar 121, the shanghai dong means 140 moves forward, backward, left, and right with respect to the guide bar 121. Then, the combination of the rack gear 151 and the rotary gear 155 can be separated. The shock absorbing means 185 may prevent the coupling between the rack gear 151 and the rotary gear 155 by removing the gap between the shank moving means 140 and the guide bar 121.

In the present embodiment, the conductive member 123 is exposed to the outside of the guide bar 121. In this case, when the rain or waves hit hard, the conductive member 123 may be wetted by water leakage. Thus, the present embodiment may further include a cover unit 170 covering the conductive member 123 as shown in FIG. The cover unit 170 includes a first winding roller part 171, a second winding roller part 173, and a cover 175 to cover the conductive member 123 exposed to the outside.

The first winding roller part 171 is positioned above the body 158 and is installed on one side of the guide bar 121 to which the conductive member 123 is exposed. The second winding roller portion 173 is disposed below the body portion 158 and is installed on one side of the guide bar 121 to which the conductive member 123 is exposed. The cover 175 is coupled so that one end thereof may be wound around the first winding roller part 171 so as to cover the conductive member 123 exposed on one side of the guide bar 121, and the other end of the second winding roller part 173. ) To be wound around. At this time, the middle portion of the cover 175 is cut and coupled to the body portion 158 of the contact member 157. That is, the cover 175 is wound on the first winding roller portion 171 is coupled to the upper portion of the body portion 158, coupled to the lower portion of the body portion 158 is wound on the second winding roller portion 173. Thus, when the body 158 moves upward, the first winding roller part 171 winds up the cover 175, and the second winding roller part 173 loosens the cover 175. On the contrary, when the body 158 moves downward, the first winding roller part 171 loosens the cover 175 and the second winding roller part 173 winds the cover 175.

Cover means 170 may be modified in various forms. 12 and 13 show another embodiment of the cover means 170. In this case, the cover means 170 includes a first cover film 176 and a second cover film 177. The first encapsulation 176 and the second encapsulation 177 may be formed of a flexible member, and rubber or the like may be used. One end of the first cover layer 176 is coupled to one side of the guide bar 121 located on the left side of the conductive member 123 to cover the conductive member 123. One end of the second cover layer 177 is coupled to the other side of the guide bar 121 located on the right side of the conductive member 123 to cover the conductive member 123. In this case, the first cover layer 176 and the second cover layer 177 are formed to overlap to cover the conductive member 123. Thus, the conductive member 123 may be completely covered. In this case, the brush 160 is inserted between the overlapping first cover film 176 and the second cover film 177 to contact the conductive member 123. In this case, the brush 160 is inserted between the first encapsulation layer 176 and the second encapsulation layer 177 to be in contact with the conductive member 123, and is bent and formed.

Meanwhile, in the embodiment described above, the rotary gear 155 rotates to drive the generator 153. However, according to the embodiment, a fluid compressor (not shown) may be installed to rotate the rotary gear 155 to operate the fluid compressor, and the fluid compressor may drive the generator 153.

In addition, in the above-described embodiment, the rotary gear 155 directly drives the generator 153, but as shown in FIG. 14, the power transmission unit 195 is provided to drive the generator 153 with the power transmission unit 195. Can be. That is, the rotary gear 155 transmits the rotational force to the power transmission unit 195 and the power transmission unit 195 drives the generator 153. The power transmission unit 195 may be composed of a plurality of gears, a plurality of pulleys or a plurality of chains connected by a belt. In this case, the flywheel 196 may be installed on the drive shaft 153a of the generator 153.

The installation of this embodiment floats the first floating means 110 in the sea as shown in FIG. 2 and moves it to the target point. 3, the first floating means 110 and the second floating means 115 are moved to the string 118 after the second floating means 115, the third floating means 130, and the guide means 120 are moved. Injecting fluid into the first floating means (110) to sink. The first floating means 110 is then sinked and fixed by weight. In this case, an appropriate amount of fluid is added to the second floating means 115 so that a large lifting force does not act on the first floating means 110. Then, the second floating means 115, the third floating means 130, and the guide means 120 enter the water, and the guide means 120 is erected by the third floating means 130. When the guide means 120 is erected, the cable 188 is connected to the lower portion of the guide bar 121. The cable 188 is connected to the conductive member 123 installed inside the guide bar 121 to receive electricity. As shown in FIG. 5, the first floating part 141 and the second floating part 143 of the Shanghai moving means 140 are opened and installed on the guide bar 121.

When the Shanghai East means 140 is installed, the Shanghai East means 140 moves up and down by the waves. Then, the rotary gear 155 rotates to drive the generator 153. When the generator 153 is driven, the electricity produced by the generator 153 is transferred to the conductive member 123 through the contact member 157 and transmitted to the cable 188. In the conventional case, the cable 188 is installed in the shandong means 140. In this case, whenever the Shanghai moving means 140 moves up and down, the cable 188 should also move up and down. However, since the thickness of the cable 188 is not flexible, the movement of the cable 188 was not smooth. As a result, even if the wave caused by the cable 188, there was a problem that the vertical movement of the Shanghai East means 140 is not active. In this embodiment, since the cable 188 is connected to the lower portion of the guide bar 121, the above problem can be solved.

On the other hand, the power generation capacity of this embodiment depends on the distance that the Shanghai East means 140 moves up and down by the waves. In other words, if the Shanghai East means 140 moves up and down a lot, the power generation capacity is increased. Thus, in order to increase the distance that the shankdong means 140 moves up and down when the wave strikes, the shankdong means 140 may be provided with a guide plate 140a on its outer circumferential surface. When the guide plate 140a is installed, the wave is guided in the vertical direction to receive more vertical force. So even if the same waves hit, the distance to move vertically increases.

1 to 10 is a case where the stopper 180 is supported by a spring and fixed to the guide means 120. However, the stopper 180 may be formed to extend in the longitudinal direction beyond the maximum height of the wave as shown in Figure 16 may be inserted into the guide means 120. When the wave of the maximum height hits the wave as shown in FIG. 16B, when the guide means 120 rises due to the wave, the stopper 180 also rises together to prevent the guide means 120 from being separated.

17 to 19 show another embodiment of the wave power generator according to the present invention. 1 to 10 is a case where the contact member 157 is installed in the shankdong means 140 to move together with the shankdong means 140. However, FIGS. 17 to 20 illustrate embodiments in which the contact member 157 is fixed to the guide bar 121.

In this case, the wave power generator includes a connection means 190. The connecting means 190 has a transfer bar 191 and a contact member 157. The transmission bar 191 is installed in the shanghai east means 140 to face the guide bar 121, the wire 194 and the sliding groove 193 is formed in the delivery bar 191. The wire 194 is formed along the longitudinal direction on the surface facing the guide bar 121 so that electricity generated from the electricity generating means 150 can be transferred. That is, the wire 194 is formed in the lengthwise direction facing the guide bar 121 of the transfer bar 191 is connected to the generator so that the electricity produced in the generator of the electricity generating means 150 can be transferred. Sliding groove 193 is formed along the longitudinal direction on the side of the delivery bar (191).

The contact member 157 is included in the electricity generating means in the embodiment shown in FIG. 1, but is included in the connecting means 190 in the embodiment shown in FIG. 17, and is supplied to the wire 194 of the delivery bar 191. It serves to transfer electricity to the conductive member 123 of the guide bar 121. To this end, the contact member 157 includes a body portion 158, a brush 160, and a coupling portion 164.

The body 158 is coupled to the guide bar 121 and electrically connected to the conductive member 123. The brush 160 is inserted into the body 158 and is exposed to be in contact with the wire 194 formed on one surface of the delivery bar 191. At this time, even if the brush 160 is worn, it is supported by the spring 161 inside the body 158 so as to always contact the wire 194. The coupling part 164 serves to prevent the contact member 157 from being separated from the delivery bar 191, and one end of the coupling part 164 is inserted into the sliding groove 193 to slide along the sliding groove 193. , The other end is coupled to the body portion (158). The coupling portion 164 may have a spring inserted therein to pull the body portion 158 toward the delivery bar 191.

Meanwhile, in the present embodiment, the conductive member 123 is formed along the longitudinal direction in the guide bar 121 and is connected to the body 158. In the case of the embodiment shown in Figure 1, the conductive member 123 is formed to one surface of the outside of the guide portion 121, in the present embodiment, the conductive member 123 is formed only to be connected to the body portion 158.

110: first floating means 111: air inlet
112: fluid inlet 113: fluid outlet
115: second floating means 118: string
120: guide means 121: guide bar
122: sliding groove 123: conductive member
130: third floating means 131: air inlet
132: fluid inlet 133: fluid outlet
140: Shanghai East Sudan 141: the first rich man
143: second floating part 144: one side
145: other side 147: stopper
150: electricity generating means 151: rack gear
153: generator 154: spring
155: rotary gear 157: contact member
158: body 160: brush
161: spring 162: support
164: coupling unit 166: sliding track
170: cover means 171: first winding roller
173: second winding roller 175: cover
170: cover means 171: first winding roller
180: stopper 185: buffer means
188 cable 190 connection means
191: delivery bar 193: sliding groove
194: electric wire 195: power transmission unit
196: flywheel

Claims (30)

First floating means that can adjust the weight by adjusting the amount of the object therein,
Second floating means that can adjust the weight by adjusting the amount of the object therein,
A string connecting the first floating means and the second floating means to fix the second floating means to the first floating means;
A guide bar having one end rotatably coupled to the second floating means and a guide member having a conductive member formed along the longitudinal direction inside the guide bar and exposed at one side of the outside of the guide bar along the longitudinal direction, Sudan,
Floating in the water, the upper portion is wide and the lower portion is inclined narrowly so as to receive a force in the vertical direction when the wave strikes, Shanghai East means installed to move up and down along the guide bar,
And electric generating means connected to the conductive member for generating electricity using the motion of the up-down moving means and for transmitting the generated electricity to the conductive member of the guide bar,
And inserting an object into the first floating means to sink the bottom of the water to fix the guide means in the water. According to claim 1, wherein the electricity generating means
A rack gear formed at one side of the guide bar;
A generator installed in the shanghai east means,
A rotary gear engaged with the rack gear to drive the generator when the up-and-down moving means moves up and down,
And a contact member provided on the up-down moving means so as to be able to contact the conductive member so that electricity generated by the generator can be transmitted to the conductive member. 3. The method of claim 2,
The guide bar is formed with a sliding groove in the longitudinal direction on the side,
The contact member includes a body portion, a brush inserted in the body portion and supported by the spring at the body portion so as to be exposed to the conductive member, and a support portion supporting the body portion in the up- And a coupling part which is inserted into the sliding groove so as to be slidable along the sliding groove and whose other end is coupled to the body part to prevent the contact member from being separated from the guide bar Wherein the wave generator comprises: The method of claim 3, wherein the electricity generating means
And a sliding track installed on the shank moving means, wherein the generator is installed on the sliding track to adjust a distance from the rack gear. 5. The method of claim 4,
Wave power generator, characterized in that the electricity produced by the generator is transmitted to the rack gear. 6. The method of claim 5,
Wave power generation apparatus further comprises a cover means for covering the conductive member. 7. The apparatus according to claim 6,
A first winding roller part installed on one side of the guide bar above the body part;
A second winding roller part installed at one side of the guide bar below the body part;
One end is coupled to be wound around the first winding roller portion, and the other end is coupled to be wound around the second winding roller portion, and connected to the body portion so as to move up and down together with the shanghai of the body portion. Wave power generation apparatus comprising a cover for covering. The method according to claim 6,
Wherein the cover means comprises a flexible first cover membrane having one end connected to one side of the guide bar located on the left side of the conductive member and covering the conductive member, and a second cover membrane having one end joined to the other side of the guide bar located on the right side of the conductive member And a flexible second cover film covering the conductive member so as to overlap with the first cover film,
And the brush is inserted between the first cover film and the second cover film to contact the conductive member. The method of claim 8, wherein the electricity generating means
And a power transmission unit for transmitting the driving shaft to the drive shaft of the generator in order to drive the generator by the rotational force of the rotary gear. 10. The method of claim 9,
The electricity generating means further comprises a flywheel installed on the drive shaft of the generator,
And the power transmission unit transmits the rotational force of the rotary gear to the drive shaft by a plurality of gears, a plurality of pulleys connected by belts, or a plurality of chains. 11. The method of claim 10, wherein the electricity generating means
And a fluid compressor operating by the power transmission unit to drive the generator. First floating means that can adjust the weight by adjusting the amount of the object therein,
Second floating means that can adjust the weight by adjusting the amount of the object therein,
A string connecting the first floating means and the second floating means to fix the second floating means to the first floating means;
A guide bar having one end coupled to the second floating means so as to be rotatable, and a conductive member formed along the longitudinal direction of the guide bar;
Floating in the water, the upper portion is wide and the lower portion is inclined narrowly so as to receive a force in the vertical direction when the wave strikes, Shanghai East means installed to move up and down along the guide bar,
Electricity generating means for generating electricity by the movement of the shandong means;
A transmission bar installed at the shanghai east means so as to face the guide bar and having a wire formed along a longitudinal direction on a surface facing the guide bar such that electricity generated by the electricity generating means is transmitted, and one end is coupled to the guide means; The other end is connected to the wire of the transfer bar includes a connecting means having a contact member for transmitting electricity to the conductive member in the wire,
And inserting an object into the first floating means to sink the bottom of the water to fix the guide means in the water. 13. The apparatus according to claim 12, wherein the electricity generating means
A rack gear formed at one side of the guide bar;
A generator installed in the shanghai east means,
And a rotating gear that is in contact with the rack gear to drive the generator when the shank moving means moves up and down. 14. The method of claim 13,
The delivery bar is formed with a sliding groove along the longitudinal direction on the side,
The contact member includes a body portion having one end coupled to the guide bar and electrically connected to the conductive member, a brush inserted into the body portion and supported by a spring at the body portion so as to be exposed to contact the electric wire, and one end thereof. The wave generator is inserted into the sliding groove so as to slide along the sliding groove and the other end is coupled to the body portion having a coupling portion for preventing the contact member from being separated from the transfer bar. 15. The method of claim 14,
Wave power generation apparatus further comprises a cover means for covering the conductive member. 16. The device of claim 15,
A first winding roller part installed on one side of the guide bar above the body part;
A second winding roller part installed at one side of the guide bar below the body part;
One end is coupled to be wound around the first winding roller portion, and the other end is coupled to be wound around the second winding roller portion, and connected to the body portion so as to move up and down together with the shanghai of the body portion. Wave power generation apparatus comprising a cover for covering. 16. The method of claim 15,
Wherein the cover means comprises a flexible first cover membrane having one end connected to one side of the guide bar located on the left side of the conductive member and covering the conductive member, and a second cover membrane having one end joined to the other side of the guide bar located on the right side of the conductive member And a flexible second cover film covering the conductive member so as to overlap with the first cover film,
And the brush is inserted between the first encapsulation film and the second encapsulation film to make contact with the conductive member. 18. The method of claim 17, wherein the electricity generating means
And a sliding track installed on the shank moving means, wherein the generator is installed on the sliding track to adjust a distance from the rack gear. 19. The method of claim 18,
Wave power generator, characterized in that the electricity produced by the generator is transmitted to the rack gear. 20. The apparatus of claim 19, wherein the electricity generating means
And a power transmission unit for transmitting the driving shaft to the drive shaft of the generator in order to drive the generator by the rotational force of the rotary gear. 21. The method of claim 20,
The electricity generating means further comprises a flywheel installed on the drive shaft of the generator,
And the power transmission unit transmits the rotational force of the rotary gear to the drive shaft by a plurality of gears, a plurality of pulleys connected by belts, or a plurality of chains. 22. The apparatus of claim 21, wherein the electricity generating means
And a fluid compressor operating by the power transmission unit to drive the generator. 23. The method according to any one of claims 1 to 22,
And a third floating means coupled to the guide bar so that the guide bar can be erected when the guide bar is inserted into the water. 24. The method of claim 23,
And the second floating means has a floating force smaller than that of the first floating means. 25. The method of claim 24,
The guide bar is a wave power generator, characterized in that connected to the second floating means by a joint, a ring or a string. 26. The apparatus according to claim 25, wherein the up-
A first floating portion,
One end is coupled to be rotatable with one end of the first floating part, and the other end has a second floating part that can be engaged with the other end of the first floating part, and the first floating part and the second floating part are coupled to the Wave power generation apparatus characterized in that the surrounding the guide bar to slide along the guide bar. 27. The apparatus of claim 26, wherein the up-
And a plurality of guide plates protruding from the outer circumferential surface and formed in a vertical direction to guide the wave in the vertical direction. 28. The method of claim 27,
One end is coupled to the shankdong means and the other end is supported by an elastic force from one end to contact the guide bar, the wave power generation apparatus characterized in that it further comprises a buffer means for mitigating the collision between the shangdong means and the guide bar . 29. The method of claim 28,
And a stopper for preventing the shank moving means from being separated from the guide bar. 30. The method of claim 29,
The stopper is inserted to be slidable in the longitudinal direction from the top of the guide bar, when the shank movement means ascend above the height of the guide bar to rise together to prevent the shank movement means from being separated. Wave power generator.

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