KR101821960B1 - Buoyancy Power generating system installed onto bridge posts - Google Patents

Abstract

The present invention relates to a buoyancy generation system that can be installed between bridges of bridges constructed on the sea, comprising: a support frame part composed of a top frame and a bottom frame to which the buoyancy generation system can be mounted; A perforated portion perforated at regular intervals in the upper frame; A plurality of shaft fixing bases provided at regular intervals with a through portion interposed therebetween on an upper surface of the upper frame; A buoyant body fixture provided between the upper frame and the lower frame; A buoyant body centered on the buoyant body and capable of vertical vertical motion by wave force; A wave transmission unit fixedly coupled to an upper end of the buoyant body and capable of vertically moving up and down by receiving vertical up and down movements of the buoyant body through perforated perforations in the upper frame; A central rotation shaft provided so as to penetrate in parallel with the shaft fixing base; A toothed wheel portion fixedly coupled to the central rotary shaft so as to convert vertical vertical motion transmitted by the buoyant body and the wave transmission portion into rotational motion; A generator coupled to one side of the central rotary shaft; It is economical because there is no need to install a separate structure to prevent the separation of the power generation system and ensure durability by the wave acting in multiple directions by installing the buoyancy power generation system between the piers of bridges constructed on the sea. And the bottom surface is formed by a bell-shaped buoyant body recessed to maximize the transfer of buoyancy by the wave to prevent the buoyancy body from being damaged. And to a buoyancy power generation system installed at a pier capable of improving efficiency of power generation by maximizing buoyancy transmission.

Description

Buoyancy power generation system installed on bridges [

The present invention relates to a buoyancy generation system installed in a bridge pier, in which a buoyancy power generation system is installed between bridge piers of a bridge constructed in the sea, and a vertical up / down motion of the buoyancy body due to the wave transmitted to the installed power generation system is converted into a rotary motion To a buoyancy power generation system installed at a pier capable of generating electricity.

Generally, Korea produces and supplies electricity through thermal, hydro and nuclear power generation. However, due to the recent revitalization of eco-friendly renewable energy, wind power and photovoltaic power generation have been greatly emphasized. In addition, Korea has been developing eco-friendly generators that utilize wave and tidal force Is being actively studied.

On the other hand, according to the application No. 10-2008-0118486, the wave energy converting apparatus uses the change of the height of the wave to limit the installation place, and converts the wave energy into the rotational kinetic energy so as to generate the rotational force by a simple structure Which can be used for power generation.

However, the above-mentioned conventional art has a problem that it is difficult to secure the durability of the generator according to the height and the wavelength of the irregular wave. In some cases, the buoyant body of the generator may be detached or damaged due to the waves acting in multiple directions. In addition, there is a problem that a separate structure in which the lower part is buried and fixed on the underside so as to be able to fasten the power generation device is required, so that it can not be installed in an area where the structure installation work is not easy due to deep water depth or strong flow velocity.

In order to solve the above problems, the present invention provides a buoyancy power generation system between bridges that support the loads of bridges constructed on the sea, so that separate power generation systems It is economical because installation of structure is unnecessary, and it uses energy produced by power generation system as energy required for operation of bridge equipped with power generation system, thereby providing buoyancy power generation system using bridge capable of preventing power loss due to power transfer I want to.

In order to maximize the transmission of the buoyancy due to the wave force, the bottom surface of the bell-shaped buoyancy body is recessed to form a sphere, The buoyant force can be maximized and the buoyant body can be arranged in parallel with the traveling direction of the waves to enable the buoyant body to continuously move vertically up and down to maintain the sustainability and efficiency of the power generation. And to provide a buoyancy power system installed in the pier which can be improved.

The present invention relates to a buoyancy generation system installed at a pier,

Since a buoyant power generation system is installed between the bridges of bridges constructed on the sea, it is unnecessary to install a separate structure to prevent the separation of the power generation system and ensure durability by the waves acting in multiple directions. .
In addition, the present invention provides a buoyancy power generation system installed at a pier which can improve the sustainability and efficiency of power generation by allowing a plurality of buoyant bodies to be arranged in consideration of the traveling direction of waves, I want to.

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In order to solve the above problems,

The present invention is characterized in that a support frame portion composed of an upper frame and a lower frame is provided between bridge bridges of bridges constructed on the sea, and it is possible to prevent the power generation system from being detached by the waves acting in multiple directions, The buoyant body fixing frame provided between the lower frames is solved by providing a buoyancy power generation system provided at a pier which is capable of stable vertical vertical movement of the buoyant body coupled with the buoyant body fixing frame.

In order to maximize the transmission of the buoyancy due to the wave force, the bottom surface of the bell-shaped buoyancy body is recessed to form a sphere, The buoyant force can be maximized and the buoyant body can be arranged in parallel with the traveling direction of the waves to enable the buoyant body to continuously move vertically up and down to maintain the sustainability and efficiency of the power generation. By providing a buoyancy power system installed in the bridge pier which can be improved.

According to the present invention, there is provided a bumper of the present invention, comprising: a wave transmission part coupled to an upper end of a buoyancy body and having a wave transmission part fixed at a predetermined interval, and a toothed wheel part rotating in a single direction, The present invention provides a buoyancy power generation system provided at a pier which is capable of generating electricity by rotating a central rotary shaft fixedly coupled to a toothed wheel portion by a rotational force.

The present invention relates to a buoyancy power generation system installed at a pier, and a buoyancy power generation system is installed between the piers of bridges constructed on the sea, thereby to prevent separation of the power generation system due to waves acting in multiple directions, It is economical because installation is unnecessary, and the top is molded in the form of a sphere capable of offsetting the wave acting in multiple directions, and the bottom surface is formed in a bell-like shape recessed to maximize the transfer of buoyancy by the wave. It is possible to prevent the buoyant body from being damaged by the buoyant body and maximize the buoyancy transmission, thereby improving the efficiency of the power generation.

In addition, the present invention makes it possible to continuously and vertically move up and down the buoyant body by installing a plurality of buoyant bodies in consideration of the traveling direction of the waves, thereby improving the efficiency and sustainability of the power generation, It is possible to minimize the power loss due to the movement of the electric power by using it as energy required for operation of the installed bridge.

1 is an embodiment of a buoyancy power generation system installed at a pier.
Fig. 2 is an embodiment of a buoyant body that vertically moves up and down due to the wave transmitted to a buoyancy generation system installed at a pier and a wave transmission unit coupled to the buoyancy body.
3 is a detailed configuration diagram of a buoyancy power generation system installed at a pier.
Fig. 4 is a sectional view of each name of a wave. Fig.
5 is a detailed view of a penetration portion of a buoyancy generation system installed at a pier.
6 is a detailed view of a wave transmission portion of a buoyancy power generation system installed at a pier.
7 is a detailed view of a wave transmission portion of a buoyancy power generation system installed at a pier.
Fig. 8 is a diagram showing the construction of one end of the central rotary shaft of the buoyancy power generation system installed at the pier.
9 is a detailed view of the gear wheel portion of the buoyancy power generation system installed at the pier.
FIGS. 10 and 11 are detailed views of a method of operating the gear wheel portion and the wave transmission portion of the buoyancy power generation system installed at a pier.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

The present invention relates to a buoyancy generation system installed at a pier which can be installed between piers of bridges constructed on the sea, and is composed of an upper frame (11) and a lower frame (12) A support frame portion 10; A penetration portion 13 formed at a predetermined interval in the upper frame 11; A plurality of shaft fixing rods (14) provided on the upper surface of the upper frame (11) at regular intervals with a through hole (13) interposed therebetween; A buoyant fixture 15 provided between the upper frame 11 and the lower frame 12; A buoyant body (20) formed around the buoyant body fixing table (15) and capable of vertical up and down movement by a wave force; Which is fixed to the upper end of the buoyant body 20 and penetrates the penetration portion 13 formed in the upper frame 11 to receive vertical up and down movement of the buoyant body 20, (30); A central rotation axis 40 provided so as to pass parallel to the shaft fixing table 14; A unidirectional toothed wheel portion (50) fixedly coupled to a central rotary shaft at an upper end of the penetrating portion so as to convert vertical vertical motion transmitted by the buoyant body (20) and the wave transmission portion (30) into rotational motion; A generator (60) coupled to one side of the central rotary shaft (40); The present invention relates to a buoyancy power generation system installed in a pier.

More specifically,

The support frame part 10 constituted by the upper frame 11 and the lower frame 12 is mounted on the buoyancy power generation system and at the same time, A plurality of penetrating portions 13 are formed in the upper frame 11 so that the vertical movement of the buoyant body 20 due to the wave force is transmitted to the upper bridge 11, The portion 30 can be inserted into the penetration portion 13 to perform vertical vertical motion. In addition, the buoyant body fixing member 15 is provided between the upper frame 11 and the lower frame 12, so that the buoyant body 20 can be stably vertically moved up and down corresponding to the wave force acting in multiple directions.

The buoyant body (20) is shaped in the form of a sphere capable of offsetting the wave force acting in multiple directions at the upper end so as to increase the stability and efficiency of generation in response to the wave power. The bottom surface maximizes the transfer of buoyancy by the wave force And is formed in the shape of a bell which is recessed concavedly and is inserted around the buoyant body fixing table 15. Also, the buoyant body 20 may be implemented in different sizes and shapes, and is not limited to the size and shape described in the present invention.

As shown in FIG. 6, two wave supports 31 are fixedly coupled to the upper surface of the buoyant body 20 to receive the wave force applied to the buoyant body 20 and penetrate the penetration portion of the upper frame , And vertically up and down movements are provided, and a unidirectional toothed wheel portion is fixedly coupled to the central rotation shaft between the two support rods. That is, on the inner walls of the two support rods, a bar-shaped support portion 31a protruded and formed; Side supporting plates 31b integrally formed on both sides of the bottom of the bar-shaped supporting portion 31a; And a shaft rotating stone plate (32) coupled between the bottom surface of the bar type supporting part and the side surface supporting plate. A fixing pin 34 is inserted into the pin through hole 32a formed in the pinion tool 31c and the shaft rotating stone plate 32 provided in the side supporting plate 31b, The publication 32 may be combined.
7, the shaft rotation stone projection 32 coupled to the one side wave transmission portion 30 when coupled to the inner wall of the support portion of the wave transmission portion 30 is downwardly coupled as shown in FIG. 7, The shaft rotating stone press plate 32 coupled to the transmitting portion 30 is engaged by the upwardly-fastened inwardly protruding support portion and the shaft rotating stone presses mounted thereon to prevent the bidirectional rotation of the unidirectional wheel portions 50, The efficiency of power generation by the buoyant body 20 that vertically moves up and down can be improved. 10, when the wave transmission portion 30 is downwardly moved by the downward movement of the buoyant body 20, the axial rotation stone plate 32, which is downwardly coupled to the wave transmission portion 30, The shaft rotating portion 32 is rotated upwardly by being engaged with the portion 50 to rotate the toothed wheel portion 50 in the unidirectional direction and at the same time, So that the toothed wheel portion coupled with the central rotary shaft is rotated in the unidirectional direction.
More specifically, the toothed wheel portion is formed of unidirectional teeth as shown in Fig. 10, and the shaft rotating stone plate is coupled downward at one side of the wave transmission portion and upward at the other side. Referring to FIGS. 10 and 11, as shown in FIG. 10, when the wave transmission portion moves downward, the shaft rotating protrusion engages with the toothed wheel portion to rotate the toothed wheel portion. When the wave transmission portion moves upward, The wheel portion is not engaged with the shaft rotating stone publication, and the shaft rotating stone publication is folded in the supporting direction. The shaft revolving stone publication is coupled between the side support plates formed on the bottom of the bar support supporter and is made to be foldable by the support pins of the pinion tools of the side support plate and the pin through holes of the shaft revolving stone publication . In addition, an elastic body is coupled between the shaft rotating stone publication and the bar supporting portion. The elastic body is formed on the upper surface of the shaft rotating stone publication and the bottom surface of the bar supporting portion so that the elastic body can be fixedly engaged. The upper end of the support shaft is fixedly coupled to the bottom surface of the bar-shaped support portion so that the shaft rotation stone publication is folded toward the support frame with the fixing pin as a central axis so as not to engage with the toothed wheel portion and the elastic body can be expanded or contracted as shown in Fig. . The shaft rotatable stone projection 32 which is folded up during the rotation of the toothed wheel portion 50 by the vertical up and down movement of the wave transmission portion 30 can be re-folded or engaged with the toothed wheel portion according to the rotation of the toothed wheel portion So that the toothed wheel portion 50 can be continuously rotated. It is a well-known technique that the elastic body is coupled to the bottom surface of the bar- shaped support portion and the shaft rotating stone publisher.

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The horizontal support plate 35 is coupled to the upper surfaces of the two support rods of the wave transmission unit 30 to maintain parallelism of the wave transmission unit 30 during vertical vertical movement of the wave transmission unit 30, 50 and the wave transmission unit 30 to prevent idling of the toothed wheel unit 50 and to improve the efficiency of the power generation. The horizontal support plate 35 is supported by the horizontal support plate 35 A horizontal support plate fastening bolt 36 is inserted into the horizontal support plate fastening bolt through hole 35a and fastened to the horizontal support plate fastening bolt fastening hole 37 provided on the upper surface of the wave transmission portion 30 so as to be coupled.
The center rotary shaft 40 is installed to penetrate through the shaft fixing table 14 provided at the upper surface of the upper frame 11 with a predetermined interval therebetween through the penetrating portion 13. In order to rotate the rotary shaft 40 in the unidirectional direction As shown in Fig. 9, the toothed wheel portion 50, which is formed by shaping each of the toothed wheels in a direction and having an inclination, is inserted, so that the vertical up and down motion by the wave transmission portion 30 can be converted into the unidirectional rotational motion. The converted unidirectional rotational motion is weighted by a plurality of toothed wheels 50 attached to the central rotary shaft 40 and transmitted to the generator 60 fastened to one end of the central rotary shaft 40, . A brake pad 41 is provided at one end of the central rotary shaft 40 to prevent a sharp rotation of the toothed wheel portion 50 by generating frictional force during abrupt vertical vertical motion of the buoyant body 20 due to a strong wave force It is possible to improve the safety of the power generation system, and the operation principle of the brake pad 41 is not explained separately from the conventional art.

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10. Support frame part
11. Top frame
12. Lower frame
13. Penetration
14. Axis holder
15. Buoyancy fixture
20. Buoyancy
30. Wave-
31. Support
31a. Bar type support
31b. Side support plate
31c. Pinch tool
32. Axial rotating stone publishing
32a. Pin through hole
32b. Elastomer shroud
33. Elastomer
34. Fixing pin
35. Horizontal support plate
35a. Horizontal support plate fastening bolt hole
36. Horizontal support plate fastening bolt
37. Horizontal Support Plate Bolt Shot
40. Center axis
41. Brake Pads
50. Gear wheel section
60. Generator

Claims (6)

A buoyancy power generation system installed between bridges of bridges constructed in the sea, comprising: a support frame part composed of a lower frame to which the buoyancy generation system can be mounted and an upper frame in which the penetrating part is perforated; A shaft fixed to the top surface of the upper frame at regular intervals with a through hole interposed therebetween, the shaft being fixed to the center shaft; A buoyant body fixture provided between the upper frame and the lower frame; A buoyant body centered on the buoyant body and capable of vertical vertical motion by wave force; A pair of support members fixedly coupled to the upper end of the buoyancy member and penetrating the perforated portion of the upper frame to vertically up and down the buoyant member, a bar support portion protruding inwardly at a predetermined interval on the inner wall of the support member, And a shaft rotatable stone plate installed on the bottom surface of the bar-shaped supporter using a pin pin penetrating a pin through hole of a pinching tool of a side supporting plate and a pin penetrating hole of a shaft rotatable plate publication;
A unidirectional toothed wheel portion fixedly coupled to the center rotary shaft between two pairs of supporting portions of the penetrating portion upper surface wave power transmitting portion; A generator coupled to one side of the central rotary shaft; A horizontal support plate installed on the upper surface of the support of the wave transmission unit to prevent idle rotation due to generation of separation between the toothed wheel unit and the wave transmission unit; Respectively,
Wherein the shaft rotation projecting portion of the wave transmission portion is engaged with the unidirectional toothed portion so that the central rotation shaft is rotated in the uni-direction to generate power.
delete The method according to claim 1,
The shaft rotation stone plate provided on one side support of the wave transmission unit is downwardly coupled and the shaft rotation stone plate installed on the other side support is upwardly coupled so that the shaft rotation stone plate is engaged with or unfolded to the unidirectional toothed wheel unit according to vertical up- Wherein the buoyancy generator is capable of rotating the central rotation shaft in one direction by a buoyant body moving vertically up and down at the same time.
The method according to claim 1,
An elastic body inserting opening formed on the upper surface of the shaft rotating stone publishing and the bottom of the bar type supporting portion; An elastic body provided at the elastic body insertion port; Further comprising an elongate resilient body that is rotatable when the shaft rotating stone publication is folded so that the shaft rotating stone publication can be re-folded or engaged with the rotation of the gear wheel portion.
delete The buoyant body according to claim 1, characterized in that the upper end of the buoyant body is formed in the form of a sphere capable of canceling the wave force acting in multiple directions, and the bottom surface is formed in a concave recessed bell shape Buoyancy power system installed at the bridge.

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