An inline frame for an inline skate, designed to mimic the properties of an ice hockey skate blade on ice. The inline frame includes at least one first connection part intended to be connected to a boot and at least two wheels positioned essentially in the inline frame's longitudinal direction. The
An inline frame for an inline skate, designed to mimic the properties of an ice hockey skate blade on ice. The inline frame includes at least one first connection part intended to be connected to a boot and at least two wheels positioned essentially in the inline frame's longitudinal direction. The unique thing about the inline frame is that it includes an upper chassis section and a lower chassis section which via a coupling element are arranged to be rotatable in the inline frame's longitudinal direction, and that the upper chassis section includes at least one first contact surface and that the lower chassis section includes at least one second contact surface, where at least one of the first contact surface and the second contact surface is curvilinear.
대표청구항▼
1. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the fir
1. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the first coupling element such that the first coupling element holds the upper chassis section and the lower chassis section together,wherein the upper chassis section and the lower chassis section are arranged to rock relative to each other along a longitudinal direction of the inline frame such that, when the upper chassis section rocks in a forwards direction relative to a neutral position, compression of the first portion of the first coupling element increases, andwhen the upper chassis section rocks in a backwards direction relative to the neutral position, compression of the second portion of the first coupling element increases,the inline frame comprising a first contact surface and a second contact surface, of which at least one is curvilinear, which are arranged to bear against each other, and arranged such that during relative rocking of the upper chassis section and lower chassis section, the first contact surface and the second contact surface rock against each other,wherein said first contact surface is a surface of the upper chassis section, said second contact surface is a surface of the lower chassis section, said first contact surface is curvilinear, and said second contact surface is flat. 2. An inline skate comprising an inline frame according to claim 1. 3. An inline frame according to claim 1, wherein the first coupling element includes at least one axle. 4. An inline frame according to claim 3, further comprising at least one resilient bushing. 5. An inline frame according to claim 4, wherein the bushing consists of rubber. 6. An inline frame according to claim 4, wherein the bushing consists of at least one spring. 7. An inline frame according to claim 1, wherein the first coupling element consists of an axle arranged essentially horizontally in the inline frame's transverse direction. 8. An inline frame according to claim 1, wherein the first coupling element includes at least two bushings. 9. An inline frame according to claim 1, wherein the inline frame is integrated with a boot. 10. An inline frame according to claim 1, further comprising at least one resilient bushing. 11. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the first coupling element such that the first coupling element holds the upper chassis section and the lower chassis section together,wherein the upper chassis section and the lower chassis section are arranged to rock relative to each other along a longitudinal direction of the inline frame such that, when the upper chassis section rocks in a forwards direction relative to a neutral position, compression of the first portion of the first coupling element increases, andwhen the upper chassis section rocks in a backwards direction relative to the neutral position, compression of the second portion of the first coupling element increases,the inline frame comprising a first contact surface and a second contact surface, of which at least one is curvilinear, which are arranged to bear against each other, and arranged such that during relative rocking of the upper chassis section and lower chassis section, the first contact surface and the second contact surface rock against each other,wherein said first contact surface is a surface of the upper chassis section, said second contact surface is a surface of the lower chassis section, said first contact surface is flat, and said second contact surface is curvilinear. 12. An inline frame according to claim 11, wherein the first coupling element includes at least one axle. 13. An inline frame according to claim 12, further comprising at least one resilient bushing. 14. An inline frame according to claim 13, wherein the bushing consists of rubber. 15. An inline frame according to claim 13, wherein the bushing consists of at least one spring. 16. An inline frame according to claim 11, wherein the first coupling element consists of an axle arranged essentially horizontally in the inline frame's transverse direction. 17. An inline frame according to claim 11, wherein the first coupling element includes at least two bushings. 18. An inline frame according to claim 11, wherein the inline frame is integrated with a boot. 19. An inline frame according to claim 11, further comprising at least one resilient bushing. 20. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the first coupling element such that the first coupling element holds the upper chassis section and the lower chassis section together,wherein the upper chassis section and the lower chassis section are arranged to rock relative to each other along a longitudinal direction of the inline frame such that, when the upper chassis section rocks in a forwards direction relative to a neutral position, compression of the first portion of the first coupling element increases, andwhen the upper chassis section rocks in a backwards direction relative to the neutral position, compression of the second portion of the first coupling element increases,the inline frame comprising a first contact surface and a second contact surface, of which at least one is curvilinear, which are arranged to bear against each other, and arranged such that during relative rocking of the upper chassis section and lower chassis section, the first contact surface and the second contact surface rock against each other,wherein said first contact surface is curvilinear and said second contact surface is curvilinear, andwherein said first contact surface is a surface of the upper chassis section, and said second contact surface is a surface of the lower chassis section. 21. An inline frame according to claim 20, wherein the first coupling element includes at least one axle. 22. An inline frame according to claim 21, further comprising at least one resilient bushing. 23. An inline frame according to claim 22, wherein the bushing consists of rubber. 24. An inline frame according to claim 22, wherein the bushing consists of at least one spring. 25. An inline frame according to claim 20, wherein the first coupling element consists of an axle arranged essentially horizontally in the inline frame's transverse direction. 26. An inline frame according to claim 20, wherein the first coupling element includes at least two bushings. 27. An inline frame according to claim 20, wherein the inline frame is integrated with a boot. 28. An inline frame according to claim 20, further comprising at least one resilient bushing. 29. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the first coupling element such that the first coupling element holds the upper chassis section and the lower chassis section together,wherein the upper chassis section and the lower chassis section are arranged to rock relative to each other along a longitudinal direction of the inline frame such that, when the upper chassis section rocks in a forwards direction relative to a neutral position, compression of the first portion of the first coupling element increases, andwhen the upper chassis section rocks in a backwards direction relative to the neutral position, compression of the second portion of the first coupling element increases,the inline frame further comprising a first contact surface and a second contact surface, of which at least one is curvilinear, which are arranged to bear against each other, and arranged such that during relative rocking of the upper chassis section and lower chassis section, the first contact surface and the second contact surface rock against each other,the inline frame further comprising a separate chassis element arranged to fit between said upper chassis section and said lower chassis section, and to at least partly bear against said upper chassis section or said lower chassis section forming an exchangeable chassis element of said upper or lower chassis section comprising a contact surface corresponding to at least one of the first contact surface and the second contact surface. 30. An inline frame according to claim 29, wherein said exchangeable chassis element comprises a separate front portion and a separate rear portion. 31. An inline frame according to claim 29, wherein said chassis element is adjustably arranged in relation to the upper or lower chassis section in a longitudinal direction of the inline frame. 32. An inline frame according to claim 29, further comprising at least one resilient bushing. 33. An inline frame for inline skates, comprising: an upper chassis section;a lower chassis section; andat least a first coupling element, the first coupling element including a first portion and a second portion, the upper chassis section and the lower chassis section being engaged by way of the first coupling element such that the first coupling element holds the upper chassis section and the lower chassis section together,wherein the upper chassis section and the lower chassis section are arranged to rock relative to each other along a longitudinal direction of the inline frame such that, when the upper chassis section rocks in a forwards direction relative to a neutral position, compression of the first portion of the first coupling element increases, andwhen the upper chassis section rocks in a backwards direction relative to the neutral position, compression of the second portion of the first coupling element increases,the inline frame comprising a first contact surface and a second contact surface, of which at least one is curvilinear, which are arranged to bear against each other, and arranged such that during relative rocking of the upper chassis section and lower chassis section, the first contact surface and the second contact surface rock against each other,wherein the first contact surface and the second contact surface extend along substantially the whole inline frame. 34. An inline frame according to claim 33, wherein the first coupling element includes at least one axle. 35. An inline frame according to claim 34, further comprising at least one resilient bushing. 36. An inline frame according to claim 35, wherein the bushing consists of rubber. 37. An inline frame according to claim 35, wherein the bushing consists of at least one spring. 38. An inline frame according to claim 33, wherein the first coupling element consists of an axle arranged essentially horizontally in the inline frame's transverse direction. 39. An inline frame according to claim 33, wherein the first coupling element includes at least two bushings. 40. An inline frame according to claim 33, wherein the inline frame is integrated with a boot. 41. An inline frame according to claim 33, further comprising at least one resilient bushing.
Bobbert, Maarten; de Groot, Gerrit; Houdjik, Johannes Hendricus Petrus; de Koning, Jacobus Jozef; Meester, Hans; Schreurs, Albert Wilhelm, Connecting mechanism for pivotally connecting a shoe to a sporting device.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.