WO2018066915A1

WO2018066915A1 - Water wheel for hydroelectric power generation using flowing water power

Info

Publication number: WO2018066915A1
Application number: PCT/KR2017/010915
Authority: WO
Inventors: 민병곤
Original assignee: 민병곤
Priority date: 2016-10-06
Filing date: 2017-09-29
Publication date: 2018-04-12
Also published as: KR101801484B1; KR20160125324A

Abstract

The present invention comprises a hydroelectric power generating device in which a splash plate is rotated while actively receiving water power and while floating on water, through a splash plate belt connected to a rope, using water power of a river and a stream and tides of a sea which constantly run in one direction.

Description

[Explanation of invention]

[Name of invention]

Hydro-powered aberration using flowing water {omi tted}

The present invention, by using the force of the hydraulic power using a drip plate receiving the flow rate of water flowing in a certain direction of the water to the hydroelectric generator to produce electricity using the force of the drip plate moving in the direction of the flow rate in the water It is about.

[Technique to become background of invention]

Conventional, look at the technology of water wheels using water power, when the drip tray plate is installed in the infinite plate of the infinite plate flashing device connected to the drip plate and the drip plate when the drip plate is subjected to the flow of water, the drip plate is rotated to move operation There is a device that rotates due to the flow rate at the twisted angle of the wing plate of the hydropower device in the hydropower unit or infinitive trolley system, but such a device is a device for connecting the wing plate and the wing plate constituting the belt Of heavy formation and frictional force generated by the fixed device during the operation of the mobile operation device in infinite crushing, and the reduction of efficiency due to the frictional force through the configuration of the infinite plate holding the wing plate and the wing plate when installing the hydroelectric generator When operating the equipment, there is a problem that the efficiency of production should be improved due to the frictional force of the operation of the equipment with aberration compared to the operation. It was.

(Prior art document) 10-2007-0041875. 10-2007-0026938. 10-2007-0089015 [Contents of the Invention]

Problem to be solved

In the present invention, the drip plate is submerged in the water, but the buoyancy action to tap the drip plate to float in a certain position to form a wing plate and connect the drip plate to lighten the configuration of the endless rogue device, which is moved in the belt The drip tray plate is installed to be rotated so that the drip plate keeps the flow rate of water on the water to receive the flow rate, and is formed lightly so that the weight of the drip plate is not transferred to the belt through the buoyant body in the water. The present invention aims to solve the problems of the existing hydroelectric generators by providing a hydroelectric generator that can be operated effectively by using the flow rates of general rivers and the sea velocity.

[Measures of problem]

The present invention, because the drip plate is submerged in the water, but the drip plate is installed with a buoyancy body that the drip plate is floated at a certain level, the buoyancy buoyancy in the state of floating in the water by forming the drip plate to be rotated in the belt through the buoyancy body By manufacturing and installing the drip tray plate, the drip plate is installed to receive the flow rate of the water, and during the movement of the drip plate receiving the hydraulic power, the belt wheel is installed to reduce the friction force received by the belt connected to the drip plate and the hydraulic power A buoyancy body is installed to jump the power generator onto the water. The simplicity of the structure of the fixing device and the drip plate and the frictional force of the drip plate during the installation operation It is characterized by consisting of drip board with buoyancy to produce electricity by using the flow rate, where it can be easily installed where water flow rate is formed so as not to form.

【Effects of the Invention】

The present invention, by forming a buoyancy body with a drip plate of the belt, the plate standing up to receive the flow rate in the drip plate, and the frictional force between the drip plate and the drip plate fixing device by maintaining the state in the water as a buoyancy body. Efficiently, it is possible to produce electricity by using a hydraulic power.

【Brief Description of Drawings】

1 is a flow chart of the operation of the hydroelectric aberration using the water flow of the present invention FIG. 2 is a plan view of the hydroelectric aberration using the water flow according to the present invention.

Figure 3 is a perspective view of the drip tray according to the invention

Figure 4 is an operation explanatory diagram of the drip tray according to the present invention

5 is an explanatory diagram of installation of a power generation device according to the present invention;

(80) ： Rope connecting body (404): drip board

(70) ： Rope (99): Rope connecting ring

(101) ： drip tray ring (10): rotating shaft holder

(118) ： Buoyancy plate (303): drip tray fixing device

[Specific contents to carry out invention] [0007] The present invention will be described in detail with reference to the accompanying drawings as follows. As shown in FIGS. 1 to 5, the present invention has a rotation axis 363 and a rotation axis 363 spaced apart from each other (771). Rotating shaft holder for connecting the two ends of (113) and the horizontal axis (161), as shown by the arrow (161) between the axis of rotation and the axis of rotation to fix the axis of rotation (363), the main power rotation chain of the aberration (700) ) Is installed, the rotary shaft fixed shaft (10) and the rotary shaft holder (10) fitted to the rotary shaft fitting 20 formed on both ends of the shaft 30, the rotary shaft 363 and the rotary shaft 377 and the spaced apart (771) Both ends of the left side 220 and the right side 110 of the 363 are fitted and installed in the same manner as the dotted line display 113.

As described above, the rotary shaft 363 and the rotary shaft 363 are installed to be spaced apart from each other (113), as shown by the arrow 771, and the rotary shaft 363 is installed to be spaced apart from each other (771) by the rotary shaft holder (10) and Two identical gears 40 are fixed to the rotary shaft 363 at equal intervals 661 at regular intervals, such as the arrow 661, and are installed as the rotary shaft 363 and one body.

And, as shown in FIGS. 2 and 5, the hydrodynamic aberration 700 is fixed to the buoyancy body 553 so that the buoyancy body as shown in the dotted line circular display 399 to the rotary shaft support 10 and the side 577. A buoyancy body fixing table 615 is fixedly attached, and the buoyancy body fixing table 615 which is installed in the lateral direction as shown by the arrow 66 is obtained and placed on the buoyancy body 553 as a dotted circle mark 616 and placed aberration (700). ) Is placed so as to float on the water (091), the bottom belt 813 of the hydro-powered water-car (700) using the hydraulic power is submerged in water and the top belt (812) is lifted above the water.

In the above-described bar, avoid the rotation shaft gear 40 installed to be spaced apart from each other (771) The drip tray plate 633 is installed on the needle 50 such that the drip tray plate 633 is hung like a dotted circular mark 007 to transfer the hydraulic power 711 to the rotary shaft 363 and the rotary shaft 363 of the hydroelectric aberration. The receiving plate belt 633 will be described.

The daffle plate belt 633, the rope connector 80 as shown by the arrow bar 828 in the bar shown in Figures 1 to 5 between the rope connector 80 through the ropes 70 Installed at regular intervals 828, the interval at the time of the arrow of the pinion 50 of the rotary shaft gear 40 through the rope 70 connecting the rope connector 80 and the rope connector 80 (53) At the same spacing 828 as 3), it is installed by forming a spacing 828 between the rope connecting body 80 and the rope connecting body 80, wherein the rope connecting body 80 is formed by the rope 70 and one body. Both ends of the rope connector 80 are inserted into the rope connection ring 99 through the rope connection rings 99 of the fixedly attached rope, and the connection fixing 919 is installed by being fitted with a dotted circle mark 919. The connecting body 80 and the rope connecting body 80 are connected with the rope 70 to form a belt as shown by the dotted line circle 919.

As described above, the rope connector is installed with the rope 70 through the rope connecting ring 99 at a constant interval 828 between the rope 70 and the rope 70 through the rope 70. The drip tray stand ring 101 formed at the end of the drip tray stand 909 to the 80 is inserted and installed like a dotted circle mark 448, and the drip tray stand ring 101 is installed (448). Drip plate 404 through the drip tray stand operating shaft fitting (040) formed at the opposite end of the drip tray stand ring 101 of the drip tray stand 909 to be fixedly attached to one body, dotted line circle mark (070) Connected and fixed to form a daffle plate belt 633. As described above, the drip tray stand ring (101) installed at the end of the drip tray stand (909) is installed to be inserted into the rope connecting body (80), such as dashed circle display 448, the drip tray stand On the opposite side of the ring (101), the drip tray stand (909) and the drip tray stand operating shaft fitting body (040) fixedly attached to the end with one body are formed as shown in the arrow (040).

Attached to the center of the drip tray plate front surface 030 of the drip tray plate 040 when the drip tray stand operating fittings 040 and the top of the drip plate 404, the top (788) and the bottom (88 7) of the arrow The working shaft 626 is fitted to the drip tray plate working shaft fitting 505 fixedly formed, such that the working shaft 626 is indicated by the dotted line circular mark 070, so that the drip plate 404 is connected to the rope connector 80. It is connected to the drip tray plate 909 connected with the dotted line circle (070).

As described above, two or more drip trays 909 are connected to the rope connecting body 80 and installed 448, the drip plate 404 is connected to the installation (070), through the drip tray 909 It is preferable that the drip plate 404 is firmly connected to the rope connector 80.

As described above, the drip tray plate 404 through the drip tray plate 909 to the rope connector 80 in the bar shown in Figs. 2 and 3 is connected as shown by the dotted circle mark 448, the drip tray The spacing 966 between the ropes 70 installed in the connection 919 with the rope connecting ring 99 is wider than the length 733 of the plates 404, as shown by the arrow 966. ) And a rope connecting ring 99 are installed as shown in the arrow 966 with the drip plate 404 interposed therebetween through the rope connecting body 80.

The drip tray plate 404 is the same as the arrow (494) in front of the drip tray plate (030). The actuating shaft fitting hole 808 formed of the drip tray plate actuating shaft fitting 505 which is fixedly attached to the drip tray and the body, and the actuation formed in the actuating shaft fitting 040 of the dripping plate holder 909. The working shaft 626 is inserted into the shaft fitting hole 808 as shown by the dotted line circular mark 070 so that the drip tray 909 between the drip tray plate 404 and the rope connector 80 is connected with the dotted line circular mark 070. It is connected to the drip board 404 and the rope connector 80 as shown by the dotted circle mark 448.

As described above, the operation shaft 626 is inserted into the drip tray plate operating shaft fitting 505 and the drip tray plate operating shaft fitting 040 so that the drip tray plate 909 and the drip plate 404 are connected ( 070) is installed, the operation shaft 626 is fitted to the operating shaft fitting hole 808 formed of the drip tray plate operating shaft fitting body 040 and the drip tray plate operating shaft fitting 505, which rotates smoothly through physical force. It is installed to be in operation 996.

And, as a feature of the present invention, the buoyancy plate 118 is attached to the top 116 of the rear side 114 at the time of the arrow of the drip plate 404 is fixedly attached as shown by the dotted line circular display (466).

In the bar as described above will be described drip plate plate 909 and drip plate 404 is fixedly attached to the installation.

1 and 3 and 4, when the drip plate 404 is submerged, the drip tray stand 909 connected with the rope connector 80 and the dotted circle mark 448 is horizontal. On the basis of the drip tray stand 909 in the state 901, the drip tray stand working shaft fitting 040 and the drip plate working shaft fitting 505 are pivotally operated 996 through the working shaft fitting 626. The operating shaft 626 at the end of the drip tray plate in the horizontal state 901 by using The drip tray plate fixing device 303 is formed in the drip tray plate 909 to fix the state of the slope 713 behind the drip plate 404 on the basis of the vertical dotted line 737. The drip tray plate fixing device 303 stands the bolt-to-stall 308 having the same structure as the dotted circle 838 and the arrow 929 on the top 565 and the bottom 656 of the drip tray 909. A fixed attachment 838 and a nut 775 of the bolt-to-stick 308 are formed at the end of the bolt-to-stick 308 as shown by the dotted line circle 747.

As described above, the bolt bars 772 in which the bolts 262 are formed are inserted into the nut 775 of the bolt bar fixing plate 308 formed as shown by the dotted line circle mark 747 and the bolt like the dotted line circle mark 747. It is installed in the nut 775 of the mounting bracket 308.

The drip tray plate fixing device 303 is a bolt stand (Rotating action 922) of the bolt stand (772) of the bolt stand (308) by rotating the operation of the bolt stand (772) 772 is moved forward and backward as shown by the arrow 655 using the nut 775 in the bolt-to-stand 308, and the drip tray when the drip tray 404 is in the horizontal state 901 of the drip tray 909. Through the working shaft 626 with respect to the vertical dashed line 737 with respect to the working shaft fitting body 040 of the plate holder 909 and the working shaft 626 fitted to the drip tray working shaft fitting 505. The drip plate 404 is rearwarded as shown by arrow 713 using the pivoting operation 939 in which the drip plate 404 is tilted toward the back of the dripplate as shown by arrow 713. The bolt stand using the function of the arrow 655 of the bolt stand 772, which is the drip tray plate fixing device 303 to fix the state 713 is fixed to the bolt stand An end of 772 is a front surface of the drip plate 030 and a portion of one end of the top 788 of the drip plate 404 and the front 030 of the bottom 887 is indicated by a dotted circle. As shown in (979), the bolts (772) are opened to reach the top (788) and the bottom (887), and fixed and supported by fixing the lean state (713) is attached (979) is installed and fixed.

As described above, the drip plate 404 is connected to the bolt stand 772, but the drip plate 404 is connected to the rope connector 80 through the drip plate stand 909 to 448 to the drip plate stand ( When the plate 404 is inclined in the back state as shown by the arrow 713 on the basis of the dotted line 737 when the state 909 is in the horizontal state 901, it is held and fixed through the drip tray plate fixing device 303. To be installed.

The drip tray fixing device 303 is a dotted circle mark (top) 565 and the bottom 656 of the drip tray stand 909 for the same purpose of the same structure for holding and fixing the tilted state of the drip plate 404 ( As shown in 808, the bolt bar fixing stand 308 is fixedly installed 808, and the bolt bar 772 is fitted to the bolt fixing bar 308 as shown by the dotted line circle mark 747. On the other hand, the drip plate 404 of the apparatus of the present invention is the top surface 565 and the bottom surface of the drip plate stand 909 of the drip plate fixing device 303 to adjust and fix the inclined state 713 of the drip plate 404 ( 656 and the front end 030 of the drip tray 772 and the front plate 030 of the drip plate attached to the bolt bar holder 308 fixedly coupled with the operation shaft 626 ) Drip plate 404 is to be tilted backward as shown by the arrow 713 is installed to attach the connection coupling fixed.

As described above, the preferred installation and operation of the drip tray 404 of the present invention will be described. Aberrations using the water flow of the present invention, as shown in Figures 1 and 5 are installed to use the water flow of the sea and rivers and rivers with high and low tide.

The aberration 700 is fixed to the bottom surface 551 under the water surface (091) as shown by the dotted line circle 612 in the bar of Figure 5, the support stand 555 to be installed under the water surface Rotating shaft fittings 20 and dotted lines formed on both ends of the rotating shaft fixing stand 10, which is formed 113 and the fixing support 555 is installed (113) spaced apart from each other (771) of the rotating shaft 363 and the rotating shaft 363. It is preferable that the drip plate 404 of the belt 633 installed in the attachment connection fixing installation, such as 300, so as to be submerged in water and operate with the force of the water flow 711.

Or, as shown in Figures 2 and 5 to the left (100) and the right (200) of the hydroelectric aberration 700 using the water flow of the present invention, the buoyancy body 553 floating on the water shaft A buoyant body 553 is formed and attached to the side surface 577 of the holder 10 under the buoyancy body fixing table 615 that is fixedly installed as the dotted line circular mark 399. The upper belt 812 of the aberration using water flow with the force of the buoyancy force 117 of the installed buoyancy body 553 is spaced 218 apart from the water surface 091 and the arrow 218, The belt 813 is installed in the water 511 so as to be locked as shown by the arrow 813. As described above, in the bar shown in FIG. 5, the axle fixing rope 600, which is connected and fixed to the rotary shaft fixing stand 10 and the dotted line circle mark 017, to fix the position in place on the water so as to have an aberration, The aberration fixing rope 600 connected to the rotary shaft fixing stand 10 to a pile or a bridge pier 722 installed on the bottom 551 of 511 is mounted. A method 744 for holding and fixing the mare as shown by the dotted line is fixed to the hydropower aberration 700 using the flow power of the present invention in the flow power 711 and the drip tray 404 is used to fix the flow power 711. It can be installed so that it can be hydropowered.

As described above, when the drip plate 404 is installed in the drip plate belt 633 in the present invention, the drip plate belt 633 by the hydraulic power to the rear side 114 as shown by the arrow 713 The rotation operation 310 of the aberration when the hydraulic power of the arrow 711 is received by the drip board plate front surface 030 of the inclined drip tray plate 404 will be described.

1 to 4, the drip tray plate 633 is installed on the gear 40 of the rotating shaft 363 to be spaced apart from each other as shown by the dotted circle (007), The drip tray plate 633 is installed so that the lower drip tray belt 813 is locked into the water 511 as shown by the arrow 813.

As described above, the top drip plate belt 812 in the bar shown in Figures 1 and 2 and 5 is installed so as to protrude spaced 218 above the water surface (091), the drip plate belt of the 633 is a dotted line near the end of the left side 912 and the right side 913 at the time of the arrow of each rope connecting body 80, which forms the drip tray belt 633 in the bars of FIGS. 2 and 3. As shown in the circular mark 919, the rope connecting ring 99 is spaced apart from the installed rope connecting ring 99 as shown by the arrow 88 at the left side 912 and the right side of the rope connecting body 80. The end of the belt 913 and the belt wheel 197 are fitted to the rope connector 80 so as to be rotated as shown by the arrow 106 so as to be rotated as shown by the dotted line circle mark 914.

And, the belt wheel (197) of the bottom drip tray belt 813 of the drip tray belt 633. A lower wheel cloud 818 is installed to allow the rolling operation 106, wherein the lower wheel cloud 818 is obtained in which the belt wheel 197 is obtained on the lower wheel cloud 818. ， It is preferable that the belt wheel 197 is installed in a straight line so that the belt wheel 197 can be rolled smoothly by the action of supporting the weight of the drip plate belt 633. As described above, the gear 40 Belt wheel 197 of the arrow 886, which is a component of the drip tray belt 633, which is released from the gear down to the water 511 during the rotation operation 310 of the The rope of the lower sump plate belt 813 is rolled up until the rope 70 of the rope connecting body 80 of the wheel 106 is rolled up to the opposite gear. 70) the bottom wheel, which prevents the struck down The worm wheel 818 is fixed to the rotary shaft fixing rod 10 and the connecting rod 757 as a dotted circle mark 575, and the lower wheel roller 818 is installed so as to be locked by the water 511 and the rotary shaft It is formed between the gear 40 and the rotary shaft gear 40.

On the other hand, the upper wheel rolling belt 816 rolls the belt wheel 197 of the upper drip tray belt 812 located on the water surface is formed in a straight line horizontally in the bar shown in Figure 1 and Figure 2 At 40, the belt wheel 190, which is loosened up as shown by the arrow 210, is installed to be a rolling operation 106, and the upper wheel roller 816 is a rotary shaft gear 40 and a rotary shaft gear 40. And the deflection of the rope 70 of the upper dripplate belt 812 when the belt wheel 197 is operated to roll over the upper wheel rolling stand 816 during the movement of the dripplate belt 633 as described above. Phenomenon is prevented and the upper wheel cloud It is preferable that the table 816 be fixed to the rotary shaft fixing table 10 and the connecting table 757 as shown by the dotted line circular display 575.

As described above, it will be described that the drip plate 404 of the drip plate belt 633 operates by receiving the flow rate 711 of the water.

The drip tray plate 404 is installed with a drip plate stand 909 and is fixedly attached and through the drip plate stand 909 drip plate stand ring 101 as shown in Figures 1 and 3 and 4 Rotating up and down through the drip tray 909 in the water 511 using the operation 606 the drip tray 909 is rotated 360 ^° as shown by the arrow 606 around the rope connector (80) ( 993).

As described above, the drip tray plate 404 in the bar shown in Figure 1 in the operation 210, the upper drip tray belt 812 of the present invention is released as shown by the arrow 210 in the gear 40. Silver, drip tray 909 is the weight of the drip plate 404 and drip tray plate 909 through the rotation operation 606 in the rope connection 80, the arrow 944 through the rotation operation 606 The drip tray 404 runs like the arrow 449 on the drip tray stand 909 where the drip tray stand 909, which is lowered down, is lifted up above the water surface (091). 449) and the belt wheel (197) rolls on the upper wheel cloud 816, and moves to the rope connector 80 through the drip tray 909 to move as shown by the arrow (773).

As described above, the upper drip tray belt 816 is moved (773) is wound on the gear 40 and the operation is released (310) while the gear 40 is rotated (310) as shown by the arrow 310 In the above, the drip plate 404 is lowered on the water (091) like the drip plate (013) The flesh display operation 410 is made through the rotation operation 310 of the gear 40. As described above, the drip tray plate has an arrow 688 when the drip tray belt 633 enters the water 511. It is located below the surface of the water (091) by the operation of the belt 633 of the, the gear is rotated as shown by the arrow 310, the drip plate 013 is submerged in the water like the drip plate 510 When the 510 is connected to the drip tray plate 909 and the drip plate attached to the fixing plate through the buoyancy plate 118 through the rotation operation 993 of the drip plate plate ring 101 connected to the rope connector 80. As it floats in the water, it is installed to operate in the water as the drip plate 887 at the flow rate 711.

As described above, the drip plate 510 and the drip plate 404 submerged in the water is moved while receiving the flow rate of the water 711, buoyancy plate to float the drip plate 404 in the water (511) ( At the end of the drip tray 909 connected to the buoyant action 117 of the 118 and the rope connector 80, the drip plate 404 is acted by the flow rate of water 712 and is laterally 114 in the water 511. Water flow rate while the front surface 030 of the drip plate 404, which is erected at an angle (713) and is erected to the rear side 114 in the water flow direction (711), is subjected to the flow action (711). In the direction of action, the drip plate 404 is maintained in a standing state 713 to be moved.

[0031] Delete It will be described the operation that the drip plate 404 is to receive the flow rate of water 712 in the bar as described above.

As described above, the drip plate 404 is submerged to prevent the drip plate 404 does not sink into the water 511 during the movement operation, the present invention is the upper end of the back side ₁₁₄ of the drip plate ( ₁₁₆ ) buoyancy plate installed fixedly with drip board and one body

(118) acts to sink to the weight of the drip plate 404 and drip tray stand 909 while the drip plate 404 is submerged, but the drip plate 404 with the buoyancy force of the buoyant body (117) ) Floated up and down, buoyant (117) is installed to float, but through the buoyancy (117) the drip plate 404 is rotated up and down along the action of the flow rate of water in the standing state (713) The operation 993 is installed to be through the drip tray plate ring (10 1) connected to the rope connector (80).

In the above operation (117), when the drip plate 404 receives the flow rate action 711 of the water, the buoyancy plate 118, which floats on the water as shown by the dotted line 405, when the arrow ( In order to sink into the water 511 like the buoyancy plate 118 of 406 and to allow the front surface 030 of the drip plate 404 to receive a lot of flow velocity, the drip plate 404 is used in the present invention. 909 and the drip tray plate 303 through the drip tray plate fixing device 303 is fixedly installed around the operating shaft 626, the drip plate 404 in the drip tray plate 909 is horizontal (901) The drip tray 404 is slanted as shown by the arrow 713 toward the back 114 based on the dotted line 737 centered on the actuating shaft 606 fitted to the drip tray operating shaft fitting 040. The top surface 565 of the drip tray 909 so that the tilted state 713 is maintained. Using the bolt bar 772 in the drip tray holder 308 installed on the bottom 656, the bolt bar 772 is dotted with the top 788 and the bottom 887 of the front of the drip plate 030, respectively. Fixed and attached as indicated by the mark 979, and the drip plate 404 is plated on the back side 114 as shown by the arrow 713 around the working shaft 626 based on the dotted line 737 (713). Installed so that

As described above, the present invention is locked in the water 511 in the bar as shown in FIG. 4 but does not sink into the water through the buoyancy plate 118, the front surface of the drip board 404 inclined backward ( In the action 711 where the water flow rate is 030, the water flow rate action 711 is floated on the water by the buoyancy plate 118, and the front surface of the drip plate 404 is maintained at an angle. In the action 711 where the flow rate 711 pushes the drip plate 404 forward, as shown by the arrow 711, the drip plate 404 moves to the rear 114 and the slanted drip tray 713. On the front surface 030 of the plate 404 there is an action of the flow rate 711 and the flow rate 71 1 acts in a forward direction with the front surface 030 of the drip plate 404 and thus to the buoyancy plate 118. Action of pushing forward the floating drip plate 404 and the downward pressing force 712 to sink the drip plate 404 by It is installed under water for action.

With the action of the pressing force 712 above, the drip plate 404 receives and simultaneously floats the drip plate 404 in the water 511 with the buoyancy force 117 of the buoyancy plate 118. In the action of the flow rate 711 by holding on to the 909, the drip plate 404 does not float up under the action of the flow rate 712 and does not sink down with buoyancy action 711 so that the drip plate belt 633 is the forward action of the front surface 030 of the drip plate 404 While receiving the force 712 of the flow velocity, the drip tray belt 633 moves in the direction of the flow velocity and rotates the rotation shaft 40 through the rotation shaft gear 40.

As described above, the position in the water is no longer subsided when the aberration is operated and the drip plate plate ring 101 to the rope connector 80, the drip plate 404 connected to the water Water flow plate (404) placed in the direction of water flow (711) and buoyancy action (117) of the buoyancy plate (118), so that the front surface (030) of the drip plate (404) receives the flow action (712) When the drip plate is moved 227 in the direction of arrow 227 in the fluidity of the water, the drip plate is inserted into the rope connector 80 so as to rotate up and down through the drip tray plate ring 101 connected thereto. Is installed.

As described above, when the drip plate 404 of the bottom belt 813 is subjected to the flow rate 711 of the water, the aberration of the power generator using the water flow of the present invention, through the drip plate plate 633 Rotation of the rotary shaft 40 by the force of the flow force 711 is installed by rotating the generator using a pulley and a belt or a chain and gear already commercially used in conjunction with the rotary shaft 40 and the rotation of the generator It is a power generation device using water power that can generate electricity.

Meanwhile, the present invention is a stone 716 placed on the river bed 551, such as the dotted line circle 717 in the bar shown in Figure 4 in the movement operation of the drip plate 404 receives the flow rate of water (712) And the lower end 667 of the back of the drip tray 116 collide with the dashed circular mark 727 (717). The rotational axis 606 of the operation shaft holder 505 connected to the drip tray 909 is installed. Rotation of the drip tray plate 404 through the lowering of the drip plate 404 The end 667 is installed to relieve the stratification of the impingement and move over the stone with an action 719 that sounds like an arrow 719 toward the front 030.

[0039] Delete

On the other hand, the drip tray 404 of the device of the present invention dotted line circle mark (979) the bolt 772 and the front surface 030 of the drip plate 404 for fixing the inclined state of the drip plate (404) It is preferable to be fixedly attached to the connection connection as

Claims

[Claim]

[Claim 1]

Two gears 40 are provided at the bearing 30 of the rotation shaft fixing table 10 at both ends of the rotating shaft 363 and the left side 220 and the right side 110 of the rotating shaft 363 provided at equal intervals 661. A rotary shaft 363 which is inserted and installed (113), and the rotary shaft 363 and the rotary shaft 363 are spaced apart from each other (771) by the rotary shaft holder 10; and

The ropes 70 are connected to the pinion 50 of the rotary shaft gear 40 spaced apart from each other by the rope connection ring 99 and are fitted into the rope connection ring 99 to be installed 919. Sieves 80 are installed 007 over the pinion 50 but between the rope linkages 80, the spacing 828 between the rope linkages 80, and between the gear pinions 50. The intervals 533 are installed at the same intervals.

The rope connector 80 and the drip tray plate 909 are connected to and installed by the drip tray plate ring 101 (448), the upper surface 565 and the bottom surface 656 of the drip tray plate 909, of the same structure The drip tray plate fixing device 303 is fixedly installed, and the drip tray stand working shaft fitting body 040 of the drip tray stand 909 and the dripping plate working shaft fitting 505 of the drip plate front surface 030 are the working shafts. 626 is connected to the center portion 522 of the front surface 030 of the drip plate 404, and the drip plate fixing device installed on the top 565 and the bottom 656 of the drip tray 909 ( Bolts 772 of 303 are opened to the top 788 of the front 030 of the drip plate 404 and to the bottom 887 of the drip tray plate 030 so as to be fixedly attached to the drip tray plate 030. , Top belt (812) on the water And the lower belt 813 is installed in the water 511, and both ends of the left 912 and the right 913 of the rope connectors 80, and the belt wheels 197 are installed (914) and the drip tray Rope 70 between the plate 404 and the drip tray 909 and connecting the rope connector 80 919 relatively wider than the length 733 of the drip plate 404, and the rope ( 70: Drip plate belt 633, which is installed to form a wide gap between them (966)

An operating shaft 626 is fitted into the drip tray plate actuating shaft fitting 505 and the drip plate actuation shaft fitting body 040, which is installed 070 at the center of the front surface 030 of the drip plate 404, thereby Plate and drip tray plate is connected and installed (070), the top 565 and the bottom 656 of the drip tray 909, the drip tray plate fixing device 303 of the drip tray plate fixing device of the same structure, respectively (308) Bolt rods 772 are fitted to be fixedly installed (838), and the bolt rods (747) installed on the top 565 and the bottom 656 of the drip tray stand 909 through the bolt stand 308, respectively, bolt rod Drip tray stand 909 and drip tray plate 404 on the basis of when the drip tray plate 909 is connected to the rope connector 80 (448) in the water 511, the horizontal state (901) The drip plate 404 about the operating shaft 626 in the direction of the flow rate 711 with respect to the dashed line 737 perpendicular to the operating shaft 626. The bolt stand 772, which is the drip tray plate fixing device 303, which keeps the inclined state 713 at the rear side 114 of the bottom plate 114, and the top 788 of the front surface 030 of the drip plate 404 At the bottom 887, the ends of the bolts 772 and the front surface 030 of the drip plate 404 are connected and fixedly mounted 979, and the drip tray ring rings 101 are connected to the rope. And 448 are installed so that the drip trays 404 are pivotally operated 993 in the water 511 via the drip tray stand 909, and the rear side 114 of the drip plates 404 Drip board 404 on which the buoyancy plate 118 is fixed 116 at the top 788:

The rotation shaft fixing unit 10 and the connecting rod 757, the coupling coupling fixed installation 575 is located in the water 511 is installed, the operation of the belt wheels (197) of the drip tray belt 633 to ride and roll (106) (Lower wheels)

The fixed shaft coupling (575) is connected to the rotary shaft fixing stand (10) and the connecting rod (757), and formed above the water surface (091) and the top wheel rolling racks that the belt wheels (197) of the drip plate belt (633) rides and rolls. (816): and

The buoyancy body 553 is fixedly attached and installed below the buoyancy body fixing 615 which is installed on the left side 100 and the right side 200 of the aberration 700 and is fixed to the rotary shaft fixing unit 10. 616), the aberration 700 is installed above the water surface (091), the aberration fixing rope 600 connected to the above aberration 700 is connected to the bridge piers 722 through which the hydraulic power 711 flows ( 744), and the aberration 700 is fixedly installed at the hydraulic power 711,

In the above-described action 712 in which the front surface 030 of the drip plate 404 of the drip plate belt 633 receives the flow rate 711 of the water, the buoyancy action of jumping and standing the drip plate 404 of the buoyancy plate 118 ( 117 and drip plate 404 in the action 712 in which the drip plate 404 is pressed down in the forward water flow 712 acting on the front surface 030 of the inclined drip plate 713. The standing state of the water is maintained in the water 511, but the rope connection body 80 and the drip tray plate 404 through the connected drip tray 909 is characterized in that the rotating operation (993) in the water (511) Hydroelectric power aberration using water power.