IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0073945
(2013-11-07)
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등록번호 |
US-9556633
(2017-01-31)
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발명자
/ 주소 |
- Lochtefeld, Thomas J.
- Bastenhof, Dirk
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
10 |
초록
▼
A wave pool having a deep end and a shallow end with a plurality of wave generators along the deep end that are extended along a curved stagger line positioned at an oblique angle relative to the moving waves. The wave generators are preferably extended in a substantially staggered manner relative t
A wave pool having a deep end and a shallow end with a plurality of wave generators along the deep end that are extended along a curved stagger line positioned at an oblique angle relative to the moving waves. The wave generators are preferably extended in a substantially staggered manner relative to the travel direction of the waves. A pair of dividing walls is preferably provided in front of each generator, wherein the dividing walls are extended substantially forward with an outward fade angle of no more than about 20 degrees relative to each other. The wave generators are preferably operated in sequence, such that a plurality of wave segments is generated, and such that the wave segments travel forward and then merge together to form a substantially uniform resultant wave which travels forward and then breaks along the shallow end.
대표청구항
▼
1. A method of generating waves comprising: providing a wave pool having a plurality of wave generators adapted to produce wave segments wherein each wave generator has a pair of dividing walls extending substantially forward in front of said wave generator, wherein said wave generators are extended
1. A method of generating waves comprising: providing a wave pool having a plurality of wave generators adapted to produce wave segments wherein each wave generator has a pair of dividing walls extending substantially forward in front of said wave generator, wherein said wave generators are extended in a staggered manner relative to a travel direction of the wave segments, and are positioned along a curved stagger line relative to the travel direction of the wave segments;intermittently generating said wave segments in sequence with each of said wave generators, wherein each of said wave segments travels forward through the pair of dividing walls associated with each wave generator, wherein each pair of dividing walls is adapted to have a fade angle of no more than 20 degrees to help maintain the energy, height and amplitude of the wave segments travelling forward, and wherein within each pair, a second dividing wall is extended further downstream than a first dividing wall; andcausing the wave segments to merge together as they travel forward beyond said dividing walls, to form a single resultant wave that extends substantially along an arcuate path across said wave pool. 2. The method of claim 1, wherein said method comprises operating said wave generators in sequence such that a plurality of wave segments is generated at pre-selected time intervals, wherein as the wave segments travel forward, each wave segment merges first on one side with an adjacent wave segment produced by a preceding wave generator in the sequence, and then, on the opposite side with an adjacent wave segment produced by a succeeding wave generator in the sequence. 3. The method of claim 1, wherein in front of each wave generator, the method comprises the wave segments travelling through the following: a wave formation zone extending between said pair of dividing walls wherein the method comprises substantially maintaining the energy, height and amplitude of the wave segment that travels forward through said pair of dividing walls;a partial wave merging zone wherein the method comprises enabling the wave segment in the partial wave merging zone to merge with another wave segment generated by a preceding wave generator in the sequence; anda full wave merging zone wherein the method comprises enabling the wave segment in the full wave merging zone to merge with another wave segment generated by a succeeding wave generator in the sequence. 4. The method of claim 3, wherein said partial wave merging zone extends from a distal end of said first dividing wall to a distal end of said second dividing wall, and said full wave merging zone extends forward from said distal end of said second dividing wall toward a shallow end of said wave pool, wherein the wave segments travelling through each of said pair of dividing walls merges first with an adjacent wave segment on one side after passing beyond said first dividing wall, and then with an adjacent wave segment on the opposite side after passing beyond said second dividing wall. 5. The method of claim 1, wherein a sloped floor is extended along a shallow end of said pool, along a curved breaker line that is substantially similar in curvature or substantially parallel to said curved stagger line, wherein the method comprises waves travelling across said wave pool and breaking obliquely relative to a tangent of said curved breaker line. 6. The method of claim 1, wherein the first dividing wall of one wave generator in the sequence forms part of the second dividing wall of a preceding wave generator in the sequence, wherein a angle between the first dividing wall of the one wave generator and the first dividing wall of the preceding wave generator in the sequence is equivalent to the fade angle of said pair of dividing walls of the one wave generator. 7. The method of claim 1, wherein the method comprises extending said curved stagger line along a circular arc and providing a predetermined number of wave generators around said circular arc, wherein the overall shape of the wave pool comprises a segment of a circle and is dependent on the predetermined number of wave generators that are provided. 8. The method of claim 1, wherein the wave segments travelling through each of said pair of dividing walls merges first with an adjacent wave segment on one side after passing beyond said first dividing wall, and then merges with an adjacent wave segment on the opposite side after passing beyond said second dividing wall. 9. A method of generating waves in a wave pool comprising: providing a plurality of wave generators each adapted with a pair of dividing walls extending forward in front of each wave generator, wherein said wave generators are adapted to produce wave segments that travel substantially forward in front of each wave generator, wherein said wave generators are oriented in a staggered manner relative to a forward travel direction of the wave segments, and wherein said wave generators are positioned along a curved stagger line with a tangent that is oriented at an oblique angle relative to the forward travel direction of the wave segments;wherein within each pair of said dividing walls, a second dividing wall is extended further downstream than a first dividing wall, and wherein said first dividing wall and said second dividing wall of each wave generator are extended at a fade angle of between zero to 20 degrees relative to each other;intermittently generating said wave segments in sequence with each of said wave generators, wherein as said wave segments travel forward and pass beyond the dividing walls associated with each wave generator, they merge together to form a resultant wave that extends substantially along an arcuate path across said wave pool; andproviding a sloped floor extended in said wave pool, wherein said sloped floor comprises an incline that enables the resultant wave to break or dissipate on the sloped floor. 10. The method of claim 9, wherein the method comprises adapting said wave generators such that they each comprise a caisson with first and second side walls, wherein said first and second dividing walls of each wave generator are extensions of said first and second side walls, respectively, and wherein as the wave segments travel forward, each wave segment first merges on one side with an adjacent wave segment produced by a preceding wave generator in the sequence, and then on the opposite side with an adjacent wave segment produced by a succeeding wave generator in the sequence. 11. The method of claim 10, wherein the method comprises adapting said first dividing wall of one caisson such that it forms part of a second dividing wall of an adjacent caisson, wherein the fade angle between said first and second dividing walls of one caisson is substantially the same as the fade angle between said first and second dividing walls of an adjacent caisson, wherein the fade angle between said first and second dividing walls and a stagger distance of each caisson help to determine an arcuate orientation of said curved stagger line. 12. The method of claim 9, wherein the method comprises operating said wave generators in sequence such that a plurality of wave segments is generated at pre-selected time intervals, wherein as the wave segments travel forward, each wave segment travels through the pair of dividing walls associated with each wave generator and merges first on one side with an adjacent wave segment after passing beyond said first dividing wall, and then on the opposite side with an adjacent wave segment after passing beyond said second dividing wall. 13. The method of claim 9, wherein in front of each wave generator, the method comprises wave segments travelling through the following: a wave formation zone extending between said pair of dividing walls wherein the method comprises substantially maintaining the energy, height and amplitude of the wave segment that travels forward through said pair of dividing walls;a partial wave merging zone wherein the method comprises enabling the wave segment in the partial wave merging zone to merge with another wave segment generated by a preceding wave generator in the sequence; anda full wave merging zone wherein the method comprises enabling the wave segment in the full wave merging zone to merge with another wave segment generated by a succeeding wave generator in the sequence. 14. The method of claim 13, wherein said partial wave merging zone extends from a distal end of said first dividing wall to a distal end of said second dividing wall, and wherein said full wave merging zone extends forward from said distal end of said second dividing wall toward a shallow end of said wave pool, wherein the wave segments travelling through each of said pair of dividing walls merges first with an adjacent wave segment after passing beyond said first dividing wall, and then with an adjacent wave segment after passing beyond said second dividing wall. 15. The method of claim 9, wherein said sloped floor is extended along a shallow end of said wave pool, along a curved breaker line that is substantially similar in curvature or substantially parallel to said curved stagger line, wherein the method comprises waves travelling across said wave pool and breaking obliquely relative to a tangent of said curved breaker line. 16. The method of claim 9, wherein the first dividing wall of one wave generator in the sequence forms part of the second dividing wall of a preceding wave generator in the sequence, wherein a fade angle between the first dividing wall of the one wave generator in the sequence and the first dividing wall of the preceding wave generator in the sequence is equivalent to the fade angle of said pair of dividing walls of the one wave generator. 17. The method of claim 9, wherein the method comprises extending said curved stagger line along a circular arc and providing a predetermined number of wave generators around said circular arc, wherein the overall shape of the wave pool comprises a segment of a circle and is dependent on the predetermined number of wave generators that are provided. 18. A method of generating waves in a wave pool comprising: providing a plurality of wave generators each adapted with a pair of dividing walls extending substantially forward in front of each wave generator, wherein within each pair of dividing walls, a second dividing wall is extended further downstream than a first dividing wall;wherein each wave generator is adapted to produce a wave segment that travels substantially forward, wherein said wave generators are oriented in a staggered manner and along a curved stagger line relative to a forward travel direction of the wave segments; andintermittently generating wave segments in sequence with each of said wave generators, wherein each wave segment travels forward through the pair of dividing walls associated with each wave generator, and merges with other wave segments in the sequence, first on one side after passing beyond said first dividing wall, and then, on the opposite side after passing beyond said second dividing wall, to form a resultant wave that travels across said wave pool. 19. The method of claim 18, wherein each wave segment merges first on the one side with an adjacent wave segment produced by a preceding wave generator in the sequence, and secondly on the opposite side with an adjacent wave segment produced by a succeeding wave generator in the sequence. 20. The method of claim 18, wherein in front of each wave generator, the method comprises the wave segments travelling through the following: a wave formation zone extending between said pair of dividing walls, wherein the method comprises substantially maintaining the energy, height and amplitude of the wave segments as they travel between said pair of dividing walls;a partial wave merging zone extending forward from a distal end of said first dividing wall to a distal end of said second dividing wall, wherein the method comprises causing the wave segments in the partial wave merging zone to merge first on the one side with an adjacent wave segment produced by a preceding wave generator in the sequence; anda full wave merging zone extending forward from the distal end of said second dividing wall toward a shallow end of said wave pool, wherein the method comprises causing the wave segments in the full wave merging zone to merge on the opposite side with an adjacent wave segment produced by a succeeding wave generator in the sequence. 21. The method of claim 18, wherein each of said pair of dividing walls is extended at a fade angle of no more than 20 degrees, and wherein as the wave segments travel forward and merge together, the resultant wave travels substantially along an arcuate path across said wave pool.
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