KR20090085500A - Current speed increasing device for current power generation - Google Patents

Abstract

A flow amplifying device for current power generation is provided to increase generated energy by increasing the current and the torque flowing into a rotor by forming a duct or a pair of plates at a rotor. A flow amplifying device for current power generation comprises a support(11), a vertical feed unit(12), a pair of a length arm(13) and a width arm(14), and a duct(16). A groove is formed at the both sides of an opening of a support structure(80). The support is formed in the vertical direction at the inner side of a guide groove which is matched with the groove. The support stand is installed at the aperture both side bottom. A vertical transferring device vertically moves a drive block integrated with a rotor(129). A pair of length arms operates with the drive block and moves vertically. The width arm has a stopper fixed the outside. The diameter of duct gets smaller from the front side to the rear side.

Description

Flow speed increasing device for current power generation

The present invention relates to a flow rate amplification device for flow generation, and more particularly, the power generation device is installed in the waterway of the ocean, river or power plant to produce power using the flow rate of the fluid flow, which is introduced into the power generation device The present invention relates to a flow rate amplification device for flow generation, which increases the flow rate to the power generator, that is, torque (Torque) to produce more power.

The power generator using the flow rate is capable of generating clean energy by using the flow rate at a place where the fluid flow is fast, and for this, many devices such as a rotor, a gearbox, and a generator for converting the flow rate into rotational motion are required.

1 is a reference diagram showing a power generation apparatus using a flow rate according to the prior art, it is installed to be fixed to both ends of the support structure 80, such as the waterway 70 of the ocean or river or power plant, the fluid ( A support shaft 81 having a rotor 82 at a lower end thereof is provided so as to be immersed in 90, and the rotor 82 is rotated using the flow of the fluid 90 to produce electric power.

However, the above-described conventional technology increases installation costs because additional acceleration gear devices are needed in order to obtain the rated torque of the generator, that is, the required torque in a place where the flow velocity is not fast, and thus the configuration of the device is complicated. In addition, the efficiency is inevitably lowered, resulting in a problem of low economic efficiency.

In order to solve the problems as described above, in the present invention, in order to increase the flow of fluid is installed in the waterway of the ocean or river or power plant, the left and right width is gradually increasing from the front side to the rear side of the duct or the diameter gradually smaller It has a pair of narrower plates to increase the flow rate flowing into the rotor to increase the force transmitted to the generator, that is, the torque (Torque) to increase the amount of power generated, the longitudinal arm supporting the duct or plate It is easy to maintain and to be transported along the guide groove on the support provided in the support structure, the horizontal arm of the upper end supporting the longitudinal arm is provided with a stopper, the flow rate amplification device provided with the duct or plate is constant underwater Flow rate amplification device for flow generation that can be fixed to The purpose for the ball.

In another object of the present invention, the diameter of the front surface of the duct is variable by the fastening position of the fastening means, the left and right width of the pair is configured to vary the left and right width by the transfer member fixed to the plate, It is always possible to obtain a constant amount of power generation regardless of the flow rate change (change by external environment such as flow rate change due to rain, wind or drought) in the ocean, river or power plant waterproofing path where the power generation device of the present invention is installed.

As a configuration for achieving the object, the support is formed on both sides of the opening of the support structure, the guide groove corresponding to the groove is formed in the vertical direction on the inner side, the support is installed on the lower end of the opening; A shanghai conveying apparatus which is supported in the vertical direction on the inner surface of the opening and fastens a driving block integrally provided with a rotor on a front surface thereof, so as to shanghai the driving block; The protrusion is formed on the outer side to be inserted into the groove of the support structure and the guide groove of the support, and the inner side is provided with a connecting arm connected to the side of the drive block by bolts, which is interlocked with the drive block. A pair of longitudinal arms; Both ends are fixed to the left and right upper surface of the vertical arm, the horizontal arm is provided with a stopper on the outside of the vertical arm is fixed; It is provided with a fastening jaw fastened with a bolt on one side of the front end of the vertical arm so as to be located on the front of the rotor, it is composed of a duct is smaller in diameter from the front to the rear.

As another feature of the present invention, the shanghai conveying apparatus is provided with a motor on one side of the upper support structure, the cable is connected to one end of the motor is inserted into the back of the shanghai conveying apparatus and the other end is connected to the drive body provided on the inner bottom surface The upper surface of the drive body is provided with a screw, a guide groove is formed on the front of the shanghai transport device, the rear end of the drive block forms a through hole through which the screw is inserted, protrudes in a T shape to be inserted into the guide groove It is fastened, and the cover is fastened with a bolt on the shanghai conveying device upper surface.

As another feature of the present invention, a bearing is provided on the outer surface of the protrusion of the vertical arm, so that the vertical arm can be smoothly transported on the guide groove of the support.

As another feature of the present invention, the duct is divided in the longitudinal direction to form one end and the other end, the first fastening hole and the second fastening hole is formed before and after, and the other end of the first fastening hole and the second, third, Four fastening holes are formed in front and rear, the first fastening hole of one end and the other end is fixed with a bolt, and the second fastening hole of one end is fastened with a bolt to any one of the second, third and fourth fastening holes of the other end. The diameter of the front side of the duct is variable.

Another embodiment for achieving the object, the support is formed on both sides of the opening of the support structure, the guide groove corresponding to the groove is formed in the vertical direction on the inner surface, the support is installed on the lower side of the opening; A shanghai conveying apparatus which is supported in the vertical direction on the inner surface of the opening and fastens a driving block integrally provided with a rotor on a front surface thereof, so as to shanghai the driving block; The protrusion is formed on the outer side to be inserted into the groove of the support structure and the guide groove of the support, and the inner side is provided with a connecting arm connected to the side of the drive block by bolts, which is interlocked with the drive block. A pair of longitudinal arms; Both ends are fixed to the left and right upper surface of the vertical arm, the horizontal arm is provided with a stopper on the outside of the vertical arm is fixed; The left and right vertical arm front parts are fastened by fastening jaws fastened by bolts in a vertical direction, and the left and right widths are gradually narrowed from the front side to the rear side.

As another feature of the present invention, the shanghai conveying apparatus is provided with a motor on one side of the upper support structure, the cable is connected to one end of the motor is inserted into the back of the shanghai conveying apparatus and the other end is connected to the drive body provided on the inner bottom surface The upper surface of the drive body is provided with a screw, a guide groove is formed on the front of the shanghai transport device, and a through hole into which the screw is inserted is formed at the rear end of the drive block, and protrudes in a T shape to be inserted into the guide groove. And the fastening, the upper surface of the shanghai transport apparatus is provided with a cover that is fastened with bolts.

As another feature of the present invention, a bearing is provided on the outer surface of the protrusion of the vertical arm, so that the vertical arm can be smoothly transported on the guide groove of the support.

As another feature of the present invention, the plate is connected to the front and rear longitudinal arm of the folding member, the upper side of the support structure is provided with a fixing block formed with a fixing groove and a guide protrusion, the fixing block of Guided by a guide protrusion, the end of the conveying member is formed by welding to the side of the plate to form a plurality of fastening holes to be fastened to the fixing grooves bolts, the width of the plate to be installed left and right is variable.

As described above, the present invention includes a duct of a smaller diameter or a pair of plates of narrower left and right widths in a rotor of a power generator installed in a waterway of an ocean, a river, or a power plant, thereby increasing the flow velocity flowing into the rotor. It is possible to obtain more power by increasing the force transmitted to the power generation device, that is, torque, so that the vertical arm supporting the duct or plate can be moved up and down along the guide groove on the support provided in the support structure. It is easy to maintain, and the upper horizontal arm supporting the vertical arm is provided with a stopper has an effect that can be fixed so that the flow rate amplification device of the duct or plate is located in a certain water.

In addition, the diameter of the front surface of the duct is variable by the fastening position of the fastening means, the left and right width of the pair of the plate is configured by the left and right width is changed by the transfer member fixed to the plate, the power generation apparatus of the present invention is installed Regardless of the change in the flow rate of the ocean, river, or power plant waterway (changes caused by the external environment such as changes in the flow rate due to rain, wind, or drought), it is possible to obtain a constant amount of power generation.

2 is a perspective view of the flow rate amplification device for flow generation in accordance with the present invention, Figure 3 is a plan view of the flow rate amplification device for flow generation in accordance with the present invention, Figure 4 is a front view of the flow rate amplification device for flow generation in accordance with the present invention 5 is a state diagram of the longitudinal arm and the supporting structure and the support provided with a duct according to the present invention, Figure 6 is a detailed view of the Shanghai conveying apparatus of the flow rate amplification device for flow generation in accordance with the present invention, Figure 7 is the present invention 8 is a detailed view illustrating a flow rate amplification device for flow generation according to the present invention, and FIG. 8 is a second embodiment of the flow rate amplification device for flow generation according to the present invention. FIGS. 9 and 10 are a plan view and a front view of FIG. 11 is a coupling state of the longitudinal arm and the support structure and the support is provided with the plate of Figure 8, Figure 12 is an embodiment of the plate is adjustable angle of Figure 8, Figure 13 is the angle of the plate of Figure 1214 and 15 are a plan view and a front view of FIG. 12, and FIGS. 16 and 17 are reference photographs illustrating a change in flow rate in a state where a flow rate amplification device for flow generation of the present invention is applied.

Hereinafter, the components will be described with reference to the drawings.

2 is a perspective view of a flow rate amplification device for flow generation of the present invention, the support structure 80 is installed at both ends of the waterway 70 of the ocean, river or power plant, the power generation device for amplifying the flow rate in the support structure 80 10 is installed, the power generation device 10 is composed of a support (11), the shanghai transport device 12, the vertical arm 13, the horizontal arm 14 and the duct (16).

2 to 6, the grooves 86 are formed at both sides of the opening 85 of the support structure 80, and the support 11 is the support. The guide groove 111 corresponding to the groove 86 of the structure 80 is formed in the vertical direction on the inner surface, and is installed at both lower ends of the opening 85, and the installation of the support 11 is supported by the support structure 80. At the bottom, it is installed by commonly used fastening means such as bolts or welding.

The shanghai conveying apparatus 12 is supported in the vertical direction to the inner surface of the opening 85 of the support structure 80, the front of the drive block 127 is integrally provided with a rotor 129 is fastened, the drive block Shanghai (127) is to be sent, the shanghai conveying apparatus 12 is provided with a motor 121 on the upper side of the support structure 80, the cable 122, one end of which is connected to the motor 121 is sent to Shanghai The other end is connected to the driving body 123 inserted into the back of the device 12 and provided on the inner bottom surface.

A screw 124 is provided on an upper surface of the driving body 123, a guide groove 125 is formed on the front surface of the shanghai conveying apparatus 12, and the screw 124 is formed on a rear end of the driving block 127. Formed through holes 128 to be inserted, protruding and fastening in a T shape to be inserted into the guide groove 125, the cover 126 is provided on the upper surface of the shanghai transport device 12 is fastened by bolts (B) .

The vertical arm 13 has a protrusion 132 is formed on the outer side to be inserted into the groove 86 of the support structure 80 and the guide groove 111 of the support 11, the drive block on the inner side 127 is provided with a connecting arm 131 connected to the side of the bolt (B) is composed of a pair of left and right to be transported in conjunction with the drive block 127, the projection 132 of the longitudinal arm (13) The outer surface is provided with a bearing 133, to facilitate the transfer of the vertical arm 13 during the Shanghai transport on the guide groove 111 of the support 11 and at the same time to reduce the friction as possible, the protrusion 132 In addition to the bearing 133 of the present invention, the outer surface may use a conveying means such as a roller.

Both ends of the horizontal arm 14 are fixed to upper and left vertical arms 13, and a stopper 141 is provided at an outer side of the vertical arm 13.

The duct 16 is provided with a fastening jaw 161 that is fastened by a bolt (B) on one side of the front end of the longitudinal arm 13 to be located at the front of the rotor 129, and the diameter gradually decreases from the front to the rear. It is provided in a losing shape.

In FIG. 5, the support 11, the longitudinal arm 13, and the support structure 80 are coupled to each other. An opening 85 having grooves 86 formed on both sides of the support structure 80 is formed. And a support 11 having a guide groove 111 corresponding to the groove 86 formed therein is installed at a lower end of the support structure 80, and the groove 86 and the support 11 of the support structure 80. It can be seen that the protrusion 132 of the longitudinal arm 13 connected to the connection arm 131 to the drive block 127 of the shanghai transport device 12 is inserted into the guide groove 111 of the ().

As shown in FIG. 6, the shank conveying apparatus 12 has a screw thread formed on an inner circumferential surface thereof so that the rear end of the driving block 127 is inserted into the screw 124 and the guide groove 125 provided inside the shanghai conveying apparatus 12. Protruded and inserted into the T shape having a through-hole 128, the power transmitted by the motor 121 rotates the screw 124 by the drive body 123, the upper and lower of the drive block 127 The vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 is controlled on the guide groove 111 of the support 11. In conjunction with the drive block 127 it is transported up and down.

In this case, as shown in FIG. 5, three bearings 133 are provided on each of the left and right sides of the protrusion 132 of the vertical arm 13 to facilitate the transfer of the vertical arm 13. The support 11 supporting the arm 13 not only plays a sufficient support role so that the generator 10 can be stably supported by the flow rate of flow, but also the vertical arm 13 to which the duct 16 is fastened up and down. Maintenance is easy by being transported and detachable, thereby preventing the vertical arm 13 from being transported along the guide groove 111.

In addition, the horizontal arm 14, both ends of which are fixed to the vertical arm 13, the vertical arm 13 has a sufficient strength, and is vertically conveyed by the Shanghai conveying apparatus 12, the vertical arm 13 in a desired position A stopper 141 is provided below the horizontal arm 14 to fix the horizontal arm 14.

The duct 16 may be fixed so that the diameter of the duct 16 is constantly smaller from the front to the rear, as shown in Figure 7, the duct 16 is divided in the longitudinal direction one end 165 and the other end 166 The first fastening hole 165a and the second fastening hole 165b having spiral grooves on the inner circumferential surface are formed in front and rear at one end 165, and the other end 166 has a spiral groove on the inner circumferential surface. The first fastening holes 166a and the second, third, and fourth fastening holes 166b, 166c, and 166d are formed before and after the first fastening holes 165a and 166a of the one end 165 and the other end 166. B) is fixed, and the second fastening hole 165b of one end 165 is fastened with a bolt B to any one of the second, third, and fourth fastening holes 166b, 166c, and 166d of the other end 166. In order to change the diameter of the front surface of the duct 16 may be used.

FIG. 7 (a) is an exploded view for better understanding of the duct 16 divided into the one end 165 and the other end 166, and FIGS. 7 (b) to 7 (d) illustrate one end 165 and the other end ( In the state where the first fastening holes 165a and 166a of 166 are fixed with bolts B, the second fastening holes 165b of one end 165 are connected to the second fastening holes 166b of the other end 166 and As a reference diagram showing a state in which the bolts B are fastened to the three fastening holes 166c and the fourth fastening holes 166d, the diameters d, d ', and d ″ depending on the fastening position of the front surface of the duct 16. FIG. It can be seen that this is changed.

As described above, in the installation of the generator 10 is provided with a duct 16 in the waterproof passage 70, by rotating the rotor 129 using the fluid flowing from the duct 16 to extract energy, Since the energy is proportional to the third power of the flow rate and the square of the diameter, more energy can be obtained under the same conditions by slightly increasing the flow rate using the duct 16.

Referring to the operation method of the flow-generating flow rate amplification device of the present invention configured as described above are as follows.

The generator 10 installed in the water flow path 70 in which the flow velocity flows is positioned to be immersed in the fluid 90. When the motor 121 of the shanghai transport device 12 is driven in the forward direction, the motor 121 The generated signal is transmitted to the drive body 123 inside the shanghai transport device 12 through the cable 122, the screw 124 is rotated in one direction by the drive body 123 to the screw 124 The driving block 127 inserted into the through hole 128 is transferred downward.

As the driving block 127 is transferred downward, the vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 also moves from the guide groove 111 of the support 11 to the bearing 133. It is conveyed downward by the transport distance of the drive block 127 by the driven protrusion 132.

As described above, the rotor 129 provided on the front surface of the driving block 127 and the lower side of the longitudinal arm 13 are fastened to the duct 16 provided on the front surface of the rotor 129 so as to be immersed in the fluid 90. In this state, the rotor 129 is rotated to produce electric power. At this time, the fluid 90 flowing into the duct 16 whose diameter decreases toward the rear side has a flow velocity higher than that before the duct 16 is installed. Because of this, the power generated also increases.

In addition, when using the duct 16 is divided into one end 165 and the other end 166, the diameter of the front surface of the duct 16 can be varied, so that the external environment such as the flow rate change due to rain or wind or drought Even if the flow rate changes by adjusting the cross-sectional area of the duct 16 can always produce a constant amount of power generation.

At this time, the stopper 141 of the horizontal arm 14, both ends of which are fixed to the upper surface of the left and right vertical arms 13, is fixed to the vertical arms 13 which are positioned at a certain point in the upper and lower portions by the driving block 127 as described above. State is maintained.

As described above, when maintenance of the power generator 10 is required while continuously generating power, when the motor 121 of the Shanghai transport apparatus 12 is driven in the reverse direction, a signal generated from the motor 121 is generated. Is transmitted to the drive body 123 inside the shanghai transport device 12 through the cable 122, the screw 124 is rotated in the other direction by the drive body 123 through the hole ( The driving block 127 inserted into the 128 is transferred upward.

As the driving block 127 is transferred upward, the vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 is also moved from the guide groove 111 of the support 11 to the bearing 133. The driving protrusion 132 is moved upward by the transfer distance of the driving block 127. During maintenance, the protrusion 132 of the vertical arm 13 is guide groove 111 of the support 11. And after the transfer to be completely separated into the groove 86 of the support structure 80 to perform a maintenance work, the stopper 141 provided on the horizontal arm 14 during the maintenance is the horizontal arm before operation In (14) it is separated first.

Up and down feed control of the power generation device 10 is controlled while the motor 121 is driven in the forward or reverse direction by the operator.

The second embodiment of the flow rate amplification device for flow generation according to the present invention is as follows.

8 to 11 is a second embodiment of the flow rate amplification device for flow generation according to the present invention, the support structure 80 is installed at both ends of the waterway 70 of the ocean, river or power plant, the support structure 80 The generator 10 is installed to amplify the flow rate, the generator 10 is a support 11, the shanghai transport device 12, the vertical arm 13, the horizontal arm 14 and the plate 18 It consists of.

The detailed configuration of the power generation device 10 has grooves 86 formed on both sides of the opening 85 of the support structure 80, and the support 11 coincides with the groove 86 of the support structure 80. The guide groove 111 is formed in the vertical direction on the inner side, is installed on the lower side of both sides of the opening 85, the installation of the support 11 is generally used, such as bolts or welding at the bottom of the support structure (80) It is installed by the fastening means.

The shanghai conveying apparatus 12 is supported in the vertical direction to the inner surface of the opening 85 of the support structure 80, the front of the drive block 127 is integrally provided with a rotor 129 is fastened, the drive block Shanghai (127) is to be sent, the shanghai conveying apparatus 12 is provided with a motor 121 on the upper side of the support structure 80, the cable 122, one end of which is connected to the motor 121 is sent to Shanghai The other end is connected to the driving body 123 inserted into the back of the device 12 and provided on the inner bottom surface.

A screw 124 is provided on an upper surface of the driving body 123, a guide groove 125 is formed on the front surface of the shanghai conveying apparatus 12, and the screw 124 is formed on a rear end of the driving block 127. Formed through holes 128 to be inserted, protruding and fastening in a T shape to be inserted into the guide groove 125, the cover 126 is provided on the upper surface of the shanghai transport device 12 is fastened by bolts (B) .

The vertical arm 13 has a protrusion 132 is formed on the outer side to be inserted into the groove 86 of the support structure 80 and the guide groove 111 of the support 11, the drive block on the inner side 127 is provided with a connecting arm 131 connected to the side of the bolt (B) is composed of a pair of left and right to be transported in conjunction with the drive block 127, the projection 132 of the longitudinal arm (13) The outer surface is provided with a bearing 133, to facilitate the transfer of the vertical arm 13 during the Shanghai transport on the guide groove 111 of the support 11 and at the same time to reduce the friction as possible, the protrusion 132 In addition to the bearing 133 of the present invention, the outer surface may use a conveying means such as a roller.

Both ends of the horizontal arm 14 are fixed to upper and left vertical arms 13, and a stopper 141 is provided at an outer side of the vertical arm 13.

The plate 18 is provided with a pair of fastening jaws 18a fastened to the front and rear vertical arms 13 by bolts B in a vertical direction, and the left and right widths are gradually narrowed from the front to the rear. It is configured to lose.

FIG. 11 is a view illustrating a coupling state of the support 11, the longitudinal arm 13, and the support structure 80, and the opening 85 having grooves 86 formed at both sides of the support structure 80. Is formed, the support 11 is formed in the support structure 80, the guide groove 111 corresponding to the groove 86 is formed in the lower end, the groove 86 and the support of the support structure 80 It can be seen that the protrusion 132 of the longitudinal arm 13 connected to the driving block 127 of the shanghai transport device 12 by the connecting arm 131 is inserted into the upper portion of the guide groove 111 of (11).

As shown in FIG. 6, the shanghai conveying apparatus 12 has a screw thread formed on an inner circumferential surface thereof so that the rear end of the driving block 127 is inserted into the screw 124 and the guide groove 125 provided inside the shanghai conveying apparatus 12. Is inserted into the T-shape having a through hole 128, and the power transmitted by the motor 121 rotates the screw 124 by the driving body 123. The vertical arm 13 is controlled to move up and down, and the vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 according to the vertical movement of the driving block 127 is also provided on the guide groove 111 of the support 11. In conjunction with the drive block 127 is transported up and down.

In this case, as shown in FIG. 11, three bearings 133 are provided at the left and right sides of the protrusion 132 of the vertical arm 13 to help the transfer of the vertical arm 13 smoothly. The support 11 supporting the arm 13 not only plays a sufficient support role so that the generator 10 can be stably supported by the flow rate of flow, but also the vertical arm 13 to which the plate 18 is fastened up and down. Maintenance is easy by being transported and detachable, thereby preventing the vertical arm 13 from being transported along the guide groove 111.

In addition, the horizontal arm 14, both ends of which are fixed to the vertical arm 13, the vertical arm 13 has a sufficient strength, and is vertically conveyed by the Shanghai conveying apparatus 12, the vertical arm 13 in a desired position A stopper 141 is provided below the horizontal arm 14 to fix the horizontal arm 14.

Referring to the operation method of the flow-generating flow rate amplification device of the present invention configured as described above are as follows.

The generator 10 installed in the water flow path 70 in which the flow velocity flows is positioned to be immersed in the fluid 90. When the motor 121 of the shanghai transport device 12 is driven in the forward direction, the motor 121 The generated signal is transmitted to the drive body 123 inside the shanghai transport device 12 through the cable 122, the screw 124 is rotated in one direction by the drive body 123 to the screw 124 The driving block 127 inserted into the through hole 128 is transferred downward.

As the driving block 127 is transferred downward, the vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 also moves from the guide groove 111 of the support 11 to the bearing 133. It is conveyed downward by the transport distance of the drive block 127 by the driven protrusion 132.

As described above, the lower end of the plate 18 provided on the front surface of the rotor 129 is locked to the fluid 90 by being fastened to the lower side of the rotor 129 and the vertical arm 13 provided on the front of the driving block 127. Rotating the rotor 129 in the position to produce power, wherein the fluid 90 flowing into the plate 18 becomes narrower toward the rear of the left and right width than the speed before the plate 18 is installed Because of the high flow rate, the power generated also increases.

At this time, the stopper 141 of the horizontal arm 14, both ends of which are fixed to the upper surface of the left and right vertical arms 13, is fixed to the vertical arms 13 which are positioned at a certain point in the upper and lower portions by the driving block 127 as described above. State is maintained.

As described above, when maintenance of the power generator 10 is required while continuously generating power, when the motor 121 of the Shanghai transport device 12 is driven in the reverse direction, a signal generated from the motor 121 is generated. Is transmitted to the drive body 123 inside the shanghai transport device 12 through the cable 122, the screw 124 is rotated in the other direction by the drive body 123 through the hole ( The driving block 127 inserted into the 128 is transferred upward.

As the driving block 127 is transferred upward, the vertical arm 13 connected to the side of the driving block 127 by the connecting arm 131 is also moved from the guide groove 111 of the support 11 to the bearing 133. The driving protrusion 132 is moved upward by the transfer distance of the driving block 127. During maintenance, the protrusion 132 of the vertical arm 13 is guide groove 111 of the support 11. And after the transfer to be completely separated into the groove 86 of the support structure 80 to perform a maintenance work, the stopper 141 provided on the horizontal arm 14 during the maintenance is the horizontal arm before operation In (14) it is separated first.

Up and down feed control of the power generation device 10 is controlled while the motor 121 is driven in the forward or reverse direction by the operator.

The plate 18 may be a fixed one that the width of the left and right pairs are gradually narrowed gradually from the front to the rear, or may be used as an angle-adjustable plate 18 as shown in FIGS. 12 to 15.

The angle-adjustable plate 18 is connected to the folding member 181 at the front side of the left and right vertical arms 13, as shown in the exploded view of FIG. 13, and a fixing groove at one side of the upper surface of the support structure 80. 183 and a fixed block 182 having a guide protrusion 184 formed thereon, guided by the guide protrusion 184 of the fixed block 182, and fastened to the fixing groove 183 with a bolt B. The end of the transfer member 185 is formed by welding to the side of the plate 18, a plurality of fastening holes 186 are formed so that the left and right width of the plate 18 is variable by the transfer member 185, the fixed Threads are formed on the inner circumferential surface of the groove 183 and the fastening hole 186.

In addition, when the plate 18 having the right and left widths is variable, the diameter of the front surface of the plate 18 may be varied, even if the flow rate changes due to external environment such as a change in flow rate due to rain or wind or drought. By adjusting the cross-sectional area of (18), it is possible to always produce a constant amount of electricity.

The method of operating the angle adjustable plate 18 is a transport member whose end is welded to the plate 18 along the guide protrusion 184 of the fixed block 182 provided on the upper surface of the support structure 80. After transferring the 185 to a desired position, the fastening hole 186 of any one of the plurality of fastening holes 186 formed in the conveying member 185 into the fixing groove 183 of the fixing block 182. When it is fixed by the bolt (B), the angle of the plate 18 according to the fixing position of the transfer member 185 is set, in Figure 14 the last fastening hole 186 of the transfer member 185 is the fixing groove The position of the plate 18 when it is fixed to 183 is shown, and the imaginary line of the plate 18 may fix the fastening hole 186 of the end of the transfer member 185 to the fixing groove 183. The position of the hour is shown.

As described above, the generator 10 is provided with a plate 18 capable of adjusting the angle in the waterproof passage 70, by rotating the rotor 129 using the fluid flowing from the plate 18 to energy In dispensing, since the energy is proportional to the third power of the flow rate and the square of the diameter, more energy can be obtained under the same conditions by slightly increasing the flow rate using the plate 18.

FIG. 16 and FIG. 17 are reference photographs showing a change in flow rate when the flow rate amplification device for flow generation of the present invention is applied. FIG. 16 shows a streamline around the duct 16 and shows a fluid particle ( Particles collide with the duct 16 and then flow into the duct 16. The flow rate in the duct 16 increases as fluid particles are sucked into the duct 16 instead of going straight due to the duct 16. It can be seen that the speed increases, Figure 17 shows the flow rate distribution inside and outside the duct 16, it can be seen that the flow rate inside the duct 16 is increased by about 50% than the external flow rate, the color of the surrounding The velocity distribution is represented by.

Therefore, the present invention is installed in the waterway 70 of the ocean or river or power plant, etc., in order to increase the flow of the fluid 90, the duct 16 or the front and rear width from the front side to the rear side becomes smaller gradually from the front to the rear This pair of narrower plate 18 is provided to increase the flow rate flowing into the rotor 129 to increase the force transmitted to the generator 10, that is, torque (Torque) can be obtained more power generation The vertical arm 13 supporting the duct 16 or the plate 18 is easy to maintain and transport along the guide groove 111 on the support 11 provided in the support structure 80. The horizontal arm 14 of the upper end supporting the vertical arm 13 may be provided with a stopper 141 to fix the flow rate amplification device having the duct 16 or the plate 18 to be positioned in a certain water. .

In addition, the duct 16 is the diameter of the front surface of the duct 16 is variable by the fastening position of the fastening means, the left and right width of the pair of plates 18, the transport member 185 is fixed to the plate 18 By varying the left and right width by the variable, regardless of the flow rate change (change due to the external environment, such as the flow rate change due to rain, wind or drought) of the ocean, river, or power plant waterway 80 is installed You can always get a certain amount of power.

While the invention has been shown and described with respect to particular embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention as set forth in the appended claims. Anyone can grow up easily.

1 is a reference diagram showing a power generation apparatus using a flow rate according to the prior art.

Figure 2 is a perspective view of the flow rate amplification device for flow generation according to the present invention.

3 is a plan view of a flow rate amplification device for flow generation according to the present invention.

4 is a front view of a flow rate amplification device for flow generation according to the present invention.

Figure 5 is a coupling state of the longitudinal arm and the support structure and the support is provided with a duct according to the present invention.

Figure 6 is a detailed view of the Shanghai transport apparatus of the flow rate amplification device for flow generation according to the present invention.

7 is a detailed view of the duct of the flow rate amplification device for flow generation according to the present invention.

8 is a second embodiment of a flow rate amplification device for flow generation according to the present invention.

9 and 10 are a plan view and a front view of FIG. 8.

Figure 11 is a coupling state of the vertical arm and the support structure and the support is provided with the plate of FIG.

12 is an embodiment of a plate capable of adjusting the angle of FIG.

Figure 13 is an exploded view of the device for adjusting the angle of the plate of FIG.

14 and 15 are a plan view and a front view of FIG. 12.

16 and 17 is a reference picture showing the flow rate change in the state in which the flow rate amplification device for flow generation of the present invention is applied.

<Description of the symbols for the main parts of the drawings>

10: power generator 11: support

12: Shanghai transport device 13: vertical arm

14: horizontal arm 16: duct

18: plate 70: waterproof

80: support structure 90: fluid

Claims (8)

In the power generation apparatus 10 using the flow rate is installed on the support structure 80 of the sea or river or power plant waterway 70, Grooves 86 are formed at both sides of the opening 85 of the support structure 80, and guide grooves 111 coincident with the grooves 86 are formed in a direction perpendicular to the inner surface thereof, so that both sides of the opening 85 are formed. A support 11 installed at the bottom; The drive block 127 is fastened to the inner surface of the opening 85 in a vertical direction, and the rotor 129 is integrally provided on the front surface thereof so that the drive block 127 is shanghai. ; A protrusion 132 is formed on the outer side to be inserted into the groove 86 of the support structure 80 and the guide groove 111 of the support 11, and a bolt (side) on the side of the driving block 127. A pair of left and right longitudinal arms 13 connected to the driving block 127 by a connecting arm 131 connected to the driving block 127; Both ends are fixed to the upper surface of the left and right vertical arm 13, the horizontal arm 14 is provided with a stopper 141 to the outside of the fixed vertical arm (13); A fastening jaw 161 is fastened to one side of the front end of the vertical arm 13 so that the rotor 129 is positioned in front of the rotor 129, and a duct 16 is reduced in diameter from the front side to the rear side. Flow rate amplification device for flow generation, characterized in that. The method of claim 1, The shanghai conveying apparatus 12 is provided with a motor 121 on the upper side of the support structure 80, the cable 122, one end of which is connected to the motor 121 is inserted into the back of the shanghai conveying apparatus 12 inside The other end is connected to the driving body 123 provided on the bottom surface, the screw 124 is provided on the upper surface of the driving body 123, the guide groove 125 is formed on the front of the shanghai transport device 12 The rear end of the drive block 127 forms a through hole 128 into which the screw 124 is inserted, protrudes in a T shape so as to be inserted into the guide groove 125, and is disposed above the shank conveying apparatus 12. Flow rate amplification device for flow generation, characterized in that the cover is provided with a cover (126) fastened by a bolt (B). The method of claim 1, The outer surface of the protrusion 132 of the vertical arm 13 is provided with a bearing 133 to smoothly transport the vertical arm 13 during the Shanghai transport on the guide groove 111 of the support 11. Flow rate amplification device for flow generation. The method of claim 1, The duct 16 is divided in the longitudinal direction to form one end 165 and the other end 166, the first fastening hole (165a) and the second fastening hole (165b) is formed in the front and rear, The first fastening hole 166a and the second, third and fourth fastening holes 166b, 166c, and 166d are formed in the other end 166 before and after the first fastening hole 166 and the first fastening hole of the other end 166. 165a and 166a are fixed by bolts B, and the second fastening hole 165b of one end 165 is any one of the second, third and fourth fastening holes 166b, 166c and 166d of the other end 166. The flow rate amplification device for flow generation, characterized in that the diameter of the front surface of the duct 16 is variable by fastening to the bolt (B). In the power generation apparatus 10 using the flow rate is installed on the support structure 80 of the sea or river or power plant waterway 70, Grooves 86 are formed at both sides of the opening 85 of the support structure 80, and guide grooves 111 coincident with the grooves 86 are formed in a direction perpendicular to the inner surface thereof, so that both sides of the opening 85 are formed. A support 11 installed at the bottom; The drive block 127 is fastened to the inner surface of the opening 85 in a vertical direction, and the rotor 129 is integrally provided on the front surface thereof so that the drive block 127 is shanghai. ; A protrusion 132 is formed on the outer side to be inserted into the groove 86 of the support structure 80 and the guide groove 111 of the support 11, and a bolt (side) on the side of the driving block 127. A pair of left and right longitudinal arms 13 connected to the driving block 127 by a connecting arm 131 connected to the driving block 127; Both ends are fixed to the upper surface of the left and right vertical arm 13, the horizontal arm 14 is provided with a stopper 141 to the outside of the fixed vertical arm (13); Fastening jaws 18a fastened by bolts B are fastened to the front portions of the left and right vertical arms 13, and the plates 18 are gradually narrowed from the front side to the rear side. Flow rate amplification device for flow generation. The method of claim 5, The shanghai conveying apparatus 12 is provided with a motor 121 on the upper side of the support structure 80, the cable 122, one end of which is connected to the motor 121 is inserted into the back of the shanghai conveying apparatus 12 inside The other end is connected to the driving body 123 provided on the bottom surface, the screw 124 is provided on the upper surface of the driving body 123, the guide groove 125 is formed on the front of the shanghai transport device 12 The rear end of the drive block 127 forms a through hole 128 into which the screw 124 is inserted, protrudes in a T shape so as to be inserted into the guide groove 125, and is disposed above the shank conveying apparatus 12. Flow rate amplification device for flow generation, characterized in that the cover is provided with a cover (126) fastened by a bolt (B). The method of claim 5, The outer surface of the protrusion 132 of the vertical arm 13 is provided with a bearing 133 to smoothly transport the vertical arm 13 during the Shanghai transport on the guide groove 111 of the support 11. Flow rate amplification device for flow generation. The method of claim 5, The plate 18 is connected to the front and rear portions of the left and right vertical arms 13 by a folding member 181, and a fixing groove 183 and a guide protrusion 184 are formed at one side of the upper surface of the support structure 80. The fixed block 182 is provided, guided by the guide protrusion 184 of the fixed block 182, the transfer hole 186 is formed a plurality of fastening holes 186 to be fastened to the fixing groove (183) by the bolt (B) The end portion of the member 185 is fixed to the side of the plate by welding, so that the width of the plate 18 installed on the left and right sides is variable.

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