JP2018066292A - Wave power generation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wave power generation device which can be used as a permanent facility and has high power generation efficiency.SOLUTION: A wave power generation device 10 comprises a float 20 which is supported by a fixed pile 12 in a manner that allows the same to be moved up and down. The float 20 has: a loading surface 22; a power generation roller (pinion gear 32) which rotates in contact with the fixed pile 12; a generator 36 which rotates a rotation shaft with rotative force of the pinion gear 32; and a speed-up gear 34 which is positioned between the pinion gear 32 and the generator 36 and increases the rotative force of the pinion gear 32. The wave power generation device is preferably provided with a cushioning mechanism at a position where the pinion gear 32 is installed so as to allow the pinion gear 32 to maintain a state where the same is brought into contact with the fixed pile 12 even when the float 20 is oscillated in a horizontal direction.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a wave power generator, and more particularly, to a wave power generator intended for a floating pier as a swinging floating body.

  As a technology that constitutes a wave power generation device using a floating pier as a floating body, those disclosed in Patent Literature 1 and Patent Literature 2 are known.

  The technique disclosed in Patent Document 1 has a relationship between a float having a permanent magnet and a guide portion having a coil between a float such as a floating pier and a fixing portion that supports and anchors the float. It is something that. According to such a configuration, electromagnetic induction occurs between the support column and the guide portion (whether any element is attached to the float or the fixed portion), and power is generated.

  In addition, the technique disclosed in Patent Document 2 is provided with a damper for suppressing the swing of the float between a float such as a floating pier and a fixed column that supports the float. Energy that contributes to energy is converted into electrical energy. Specifically, the damper means is a hydraulic cylinder, the force for compressing the hydraulic cylinder is transferred to the hydraulic motor, and the hydraulic motor is rotated to generate power.

Japanese Patent Laid-Open No. 2007-2778 JP 2012-131296 A

  In the technique disclosed in the above-mentioned patent document, the effect can surely be obtained from the viewpoint of performing power generation using a part of the force for swinging the float. However, with the technique disclosed in Patent Document 1, it is difficult to obtain practical power because a straight line corresponding to the width of oscillation is a distance that contributes to power generation.

  Moreover, in patent document 2, since the energy which rocks | fluctuates a float is converted into hydraulic energy and this is converted into rotation of a motor, energy loss is large and power generation efficiency is bad.

  Therefore, an object of the present invention is to provide a wave power generation device that can be used as a permanent facility and has high power generation efficiency.

  The wave power generation device according to the present invention for achieving the above object is a wave power generation device having a float supported by a fixed pile so as to be movable up and down. The float is mounted on a boarding surface and the fixed pile. A speed increaser that includes a power generation roller that is in rolling contact and a power generation unit that rotates a rotation shaft by the rotational force of the power generation roller, and that increases the rotational force of the power generation roller between the power generation roller and the power generation unit. It is characterized by having.

  Further, in the wave power generation device having the above-described characteristics, a contact state between the power generation roller and the fixed pile is maintained at a portion where the power generation roller is installed when the float swings in a horizontal direction. It is advisable to provide a buffer mechanism for this purpose.

  According to such a feature, the contact between the power generation roller and the fixed pile can be ensured, and when the float swings in the vertical direction, a rotational force can be reliably obtained. Further, when the float swings in the horizontal direction, it is possible to prevent the interval between the power generation roller and the fixed pile from being narrowed and the rotation shaft of the power generation roller from being damaged.

  Further, in the wave power generation device having the above-described characteristics, the power generation roller is arranged via a mooring piece extending from an edge of the float to support the roller supporting the float. It is good to make it.

  Furthermore, in the wave power generation device having the above-described characteristics, the power generation roller can be a rack gear arranged on the fixed pile and a pinion gear meshing with the rack gear.

  By having such a feature, it is possible to reliably obtain a rotational force with respect to a stroke generated when the float swings.

  According to the wave power generation device having the above characteristics, it can be permanently installed as a floating pier. Further, even when the swing stroke is small, power generation can be performed efficiently.

It is a figure showing the front composition of the wave power generator concerning a 1st embodiment. It is a top view which shows the AA arrow in FIG. It is the elements on larger scale in FIG. It is a figure which shows the front structure of the wave power generator which concerns on 2nd Embodiment. It is a top view which shows the BB arrow in FIG.

  Hereinafter, embodiments of the wave power generation device of the present invention will be described in detail with reference to the drawings. First, the wave power generation device according to the first embodiment will be described with reference to FIGS. 1 to 3. FIG. 1 is a diagram showing a front configuration of the wave power generation device according to the first embodiment, and FIG. 2 is a plan view showing an AA arrow in FIG. FIG. 3 is a partially enlarged view of FIG.

  The wave power generation device 10 according to the embodiment may include the fixed pile 12 and the float 20, and the float 20 may be configured to be movable up and down along the fixed pile 12.

  The fixed pile 12 is erected at the bottom of the water area where the wave power generation device 10 is installed, and has a height at least a part of which is on the water (above the water surface). The fixed pile 12 according to the embodiment includes a pile body 14 and a sheath tube 16 disposed on the outer periphery of the pile body 14. As shown in FIG. 1, the pile main body 14 has a shape in which a tip projected on the water surface is folded back, and the tip is disposed in water. And the sheath pipe 16 is arrange | positioned at the folding | turning part of the pile main body 14. FIG.

  In the case of the wave power generation device 10 according to the present embodiment, a plurality of fixed piles 12 (two in the example shown in FIGS. 1 and 2) are arranged, and the outer periphery of the sheath tube 16 in at least one fixed pile 12 is long. A rack gear 18 is provided along the direction.

  The float 20 raises and lowers along the fixed pile 12 (sheath pipe 16) by receiving the wave force, thereby playing a role of generating electric power. As shown in FIGS. 1 and 2, the float 20 according to the embodiment forms a so-called pier-like body that is arranged between the plurality of fixed piles 12 and allows a person or a vehicle to be placed thereon. 22 is a floating body. The float 20 is provided with mooring rollers 24 and 26 that are in rolling contact with the sheath tube 16, mooring hardware 28, and the like. In addition, the mooring rollers 24 and 26 are provided in at least two places, and the mooring rollers 24 and 26 are in contact with the fixed pile 12 on a plurality of side surfaces so that the float 20 can be stabilized. Good.

  Although the specific form of the mooring rollers 24 and 26 is not questioned, for example, the rollers 24a and 26a provided with resin-based contact portions such as rubber and elastomer on the outer periphery of the core material, and the rollers 24a and 26a are supported. What is necessary is just to set it as the structure which has the holders 24b and 26b. Since the contact portions of the rollers 24a and 26a are made of resin, it is possible to suppress damage at the time of contact and wear of the sheath tube 16, and it is also possible to suppress oscillation in a direction that does not contribute to power generation.

  When the float 20 is disposed between the plurality of fixed piles 12, as shown in FIG. 2, the mooring rollers 24, It is good to arrange so that 26 may be in rolling contact. Therefore, when two mooring rollers 24 and 26 are provided as shown in FIG. 2, the mooring roller 24 disposed directly on the float 20 and the mooring roller 26 disposed on the mooring metal 28 are provided.

  In the present embodiment, the mooring piece 28 is provided with a generator unit 30. The generator unit 30 can be configured to include, for example, a pinion gear 32, a speed increaser 34, and a generator 36. The pinion gear 32 is a gear that meshes with the rack gear 18 provided on the sheath pipe 16 of the fixed pile 12, and the arrangement of the rotation shaft is determined in accordance with the arrangement position of the rack gear 18.

  The speed increaser 34 is a gear unit that plays a role of amplifying a rotational force obtained when the pinion gear 32 meshes with the rack gear 18 and rolls and transmits it to the rotating shaft of the generator 36. The generator 36 is a device that generates power by receiving the rotation of the pinion gear 32 amplified by the speed increaser 34. By adopting such a configuration, the rotational speed of the rotating shaft of the generator 36 can be increased compared to the rotational speed of the pinion gear 32 even when the swing stroke of the float 20 caused by the wave force is small. , Power generation efficiency can be improved.

  In addition, a control panel for controlling the generator unit 30 and a storage battery for storing electric power generated due to power generation (both control panel and storage battery are not shown) are inside the float 20, an aerial cable (not shown), etc. It is good to be installed on the land via.

  Further, in the embodiment, the generator unit 30 is configured to protrude from the tip side of the mooring piece 28. This is because the generator unit 30 can be installed on an existing floating pier or the like by arranging the generator unit 30 in such an external form. Here, the contact surface between the float 20 and the mooring roller 24 and the contact surface between the mooring metal 28 and the mooring roller 26 are provided with a buffer mechanism such as an elastic rubber or a rail pulley so that the horizontal surface of the float 20 with respect to the fixed pile 12 is interposed. It is preferable to absorb the oscillation of the direction and keep the meshing state between the pinion gear 32 and the rack gear 18 in a good state. By adopting such a configuration, it is possible to reliably generate power when swinging and to prevent damage to the gear. It should be noted that the shift (swing) along the gear teeth cutting direction can be allowed. This is because even if a slight deviation occurs in the tooth cutting direction, the gears will not be disengaged.

  The wave power generation device 10 having such a configuration enables efficient power generation while being always used as a floating pier. Moreover, since it can be used as a floating pier / power generation facility that is always used, not a special facility as a power generation facility using wave power, it is possible to diversify the usage.

  Next, the wave power generation device according to the second embodiment will be described with reference to FIGS. 4 and 5. FIG. 4 is a diagram showing a front configuration of the wave power generation device according to the second embodiment, and FIG. 5 is a plan view showing the arrow BB in FIG. 4.

  The configuration of most of the wave power generation device 10A according to the present invention is the same as that of the wave power generation device 10 according to the first embodiment described above. Therefore, portions having the same configuration are denoted by the same reference numerals in the drawings, and detailed description thereof is omitted.

  The difference from the wave power generation device 10 according to the first embodiment is in the arrangement of the generator unit 30. Specifically, in the first embodiment, the generator unit 30 is arranged on the mooring piece 28 connected to the float 20. On the other hand, in this embodiment, the generator unit 30 is arranged directly on the float 20.

  In such a configuration, when a control panel and a storage battery (both not shown) are arranged inside the float 20, a cable or the like can be directly drawn into the float 20. Moreover, even if it is a case where it is such an arrangement configuration, there will be no trouble in use as a floating pier and efficient power generation.

  In any of the above embodiments, the pinion gear 32 is used as an element for inputting the rotational force to the generator unit 30. However, this configuration is a configuration as an element for reliably generating a rotational force by meshing with the rack gear 18 disposed in the sheath tube 16. Therefore, the generator unit 30 may be configured to include a roller (power generation roller) that can roll with respect to the sheath tube 16 instead of the pinion gear 32. In addition, when it is set as such a structure, the rack gear 18 arrange | positioned at the sheath pipe 16 becomes unnecessary.

  When a roller is used instead of the pinion gear 32, the generator unit 30 and the mooring roller 26 can be integrated. Since both the roller instead of the pinion gear 32 and the mooring roller 24 are rollers that roll when they contact the sheath tube 16, they share a part of their functions to generate power using the rotational force generated by the mooring roller 24. Can also be made. In such a configuration, it is not necessary to provide the generator unit 30 individually. Therefore, the facility can be simplified and downsized.

  Furthermore, in the said embodiment, all described that the generator unit 30 was arrange | positioned in the edge part of the float 20 adjacent to any one fixed pile 12 in the some fixed pile 12, or the mooring fixture 28. FIG. However, when the plurality of fixed piles 12 are provided, the generator unit 30 may be disposed at all positions corresponding to the whole of the plurality of fixed piles 12 or any one of the selected fixed piles 12. By providing a plurality of generator units 30 for one float 20, the amount of power generation can be increased.

  Moreover, in the said embodiment, in order to simplify description, about the fixed pile 12, only two arrange | positioned so that the float 20 may be inserted | pinched are described. However, in the wave power generation devices 10 and 10A according to the present embodiment, it is not necessary to limit the number of the fixed piles 12 as long as two or more, that is, a plurality of fixed piles 12 are provided. Furthermore, the wave power generators 10 and 10A to which the present invention is applied can be applied not only to newly installed devices but also to existing devices (such as existing floating piers).

10, 10A ......... Wave power generator, 12 ......... Fixed pile, 14 ......... Pile body, 16 ......... Sheath tube, 18 ......... Rack gear, 20 ......... Float, 22 ......... Boarding surface 24 ......... Mooring roller, 24a ......... Roller, 24b ......... Holder, 26 ......... Mooring roller, 26a ......... Roller, 26b ......... Holder, 28 ......... Mooring hardware, 30 ......... Generator unit, 32 ... Pinion gear, 34 ... Speed up gear, 36 ... Generator.

Claims (4)

A wave power generator having a float supported by a fixed pile so as to be movable up and down,
The float includes a boarding surface,
A power generation roller that is in rolling contact with the fixed pile;
Power generation means for rotating the rotating shaft by the rotational force of the power generation roller,
A wave power generation device comprising a speed-up gear for increasing the rotational force of the power generation roller between the power generation roller and the power generation means.   The portion where the power generation roller is installed is provided with a buffer mechanism for maintaining a contact state between the power generation roller and the fixed pile when the float swings in a horizontal direction. 1. The wave power generation device according to 1.   3. The wave power generation according to claim 1, wherein the power generation roller is disposed via a mooring member extending from an edge of the float to support the roller supporting the float. 4. apparatus. The wave power generation device according to any one of claims 1 to 3, wherein the power generation roller is a rack gear arranged on the fixed pile and a pinion gear meshing with the rack gear.