| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种高山滑雪板 | CN201910674184.2 | 2019-07-25 | CN110251930A | 2019-09-20 | 刘金 |
| 本发明属于运动装备技术领域,尤其为一种高山滑雪板,包括板体、定位绑具和缓冲垫,所述板体上端面可拆卸连接有两个所述定位绑具,所述定位绑具上端面具有所述缓冲垫,所述板体上端面固定连接有两个定位板,所述定位板上端面均通过定位异形块可拆卸连接有所述定位绑具,所述定位绑具包括绑具底板、绑带、尾板和连接板,本发明在板体上端面通过固定板固定连接由限位辅块,绑具底板中间位置开设由限位孔A,将定位绑具转动至舒适的角度后,将绑具底板放置在限位辅块上,并且限位辅块位于限位孔A内,将定位异形块插入限位孔A内,并使用螺钉将定位异形块与限位辅块进行固定连接,从而实现多角度可调节式固定。 | ||||||
| 2 | 一种高山滑雪板脱离装置 | CN201610393172.9 | 2016-06-03 | CN105963955B | 2017-12-26 | 王黎辉; 余峙伟; 张建; 朱永梅; 唐文献; 王安琪 |
| 本发明公开一种高山滑雪板脱离装置,包括压板、后盖、调节螺栓和调节块,后盖底端安装于滑雪板,压板套于后盖上方,压板的两侧与后盖的两侧分别通过圆柱螺钉活动连接,后盖内部设有调节块;调节块的顶部和底部分别设有与后盖内壁顶部和底部的滑行槽相适配的凸起,调节块沿滑行槽在后盖内滑动,调节块的中部连接有拉力弹簧;拉力弹簧的另一端连接于压板前端;调节螺栓从后盖后端插入后与调节块上的螺纹孔相配。 | ||||||
| 3 | 一种高山滑雪板脱离装置 | CN201610393172.9 | 2016-06-03 | CN105963955A | 2016-09-28 | 王黎辉; 余峙伟; 张建; 朱永梅; 唐文献; 王安琪 |
| 本发明公开一种高山滑雪板脱离装置,包括压板、后盖、调节螺栓和调节块,后盖底端安装于滑雪板,压板套于后盖上方,压板的两侧与后盖的两侧分别通过圆柱螺钉活动连接,后盖内部设有调节块;调节块的顶部和底部分别设有与后盖内壁顶部和底部的滑行槽相适配的凸起,调节块沿滑行槽在后盖内滑动,调节块的中部连接有拉力弹簧;拉力弹簧的另一端连接于压板前端;调节螺栓从后盖后端插入后与调节块上的螺纹孔相配。 | ||||||
| 4 | 一种高山滑雪板疲劳指数检测装置 | CN202311835591.X | 2023-12-28 | CN117871298A | 2024-04-12 | 任志敏; 张冲; 韩旭; 朱词; 袁晓伟 |
| 本发明公开了一种高山滑雪板疲劳指数检测装置,包括测试平台以及装配在测试平台上的滑雪板循环载荷测试单元和滑雪板中心弹性常数测定单元;所述测试平台一端延伸有用于放置滑雪板的水平台面;所述滑雪板循环载荷测试单元包括依次装配在测试平台上的水平共线的支撑辊机构和循环加载机构;所述滑雪板中心弹性常数测定单元包括依次装配在测试平台上的水平共线的水平支撑机构和施压加载机构。本发明布局合理、使用灵活性强,实现了一机三用的创新理念,可兼容滑雪板循环载荷测试、底拱高度测量、中心弹性常数测定三个不同试验项目的测试需求,适合在对高山滑雪板进行疲劳指数检测时使用。 | ||||||
| 5 | 高山滑雪板弹性特性检测装置 | CN202210661419.6 | 2022-06-13 | CN114993856A | 2022-09-02 | 王苏; 张新伟; 陈晓巍; 朱词; 袁晓伟 |
| 本发明公开了一种高山滑雪板弹性特性检测装置,包括测试平台以及依次装配在测试平台上的水平共线的扭矩施加机构、固定支点、载荷驱动机构和水平支点;其中,扭矩施加机构的工作位与固定支点的下夹持位对应并位于同一高度,两者组成扭力弹簧常数测定单元;固定支点的下夹持位与载荷驱动机构的工作位对应并位于同一高度,两者组成端部弹簧常数测定单元;固定支点的上夹持位、载荷驱动机构的工作位与水平支点的支点位对应并位于同一高度,三者组成中心弹簧常数测定单元。本发明可满足国际标准ISO 5902‑2013《弹性特性测定》中对高山滑雪板进行弹性特性测定时的指标要求,填补了国内滑雪板检测领域的空白。 | ||||||
| 6 | 将高山滑雪鞋的后端保持在一滑板、特别是一高山滑雪板上的保持元件 | CN200610105599.0 | 2006-07-19 | CN1899651A | 2007-01-24 | P·米耶特 |
| 本发明涉及保持元件,其将鞋子保持在一滑板或滚动板上,该保持元件包括:一用于组装在所述板上的底座;一主体;一保持夹具(20),所述保持夹具(20)由所述主体承托,并绕一由所述主体承托的基本水平的横向转轴枢转地安装,由于一开放斜面与一承受一弹簧的回位力的支承机构之间的配合作用,该保持夹具能至少沿一垂直方向在一鞋子的保持位置与一鞋子的释放位置之间活动。所述保持元件的特征在于,所述开放斜面(23、24)由所述夹具承托,并且所述开放斜面平行于所述保持夹具的转轴地取向,所述支承机构(25、26)在所述开放斜面上施加一作用力,该作用力具有一平行于所述保持夹具的转轴地取向的主分量。 | ||||||
| 7 | 一种带有紧急自救功能的高山滑雪单板 | CN202110384974.4 | 2021-04-09 | CN113082681A | 2021-07-09 | 唐海丽 |
| 本发明涉及户外设备领域,且公开了一种带有紧急自救功能的高山滑雪单板,包括滑雪板,所述滑雪板上端面设有固定组件,所述滑雪板上侧设有折叠板,所述折叠板两端均开设有折叠腔,所述折叠腔上侧均连通且向上开设有定位腔,两侧所述定位腔内壁内均设有限位组件,两侧所述折叠腔内壁之间分别铰链连接有主折叠翻板以及副折叠翻板,所述固定组件能将所述主折叠翻板与所述副折叠翻板均固定于所述滑雪板上端面两侧,所述主折叠翻板内远离所述副折叠翻板一侧开设有连接腔,所述连接腔两壁之间固定设有连接杆。该滑雪装置通过将高山滑雪单板变形的方式,为使用者预留坚固的喘息空间,提高生存几率。 | ||||||
| 8 | 可变厚度高山滑雪板 | CN201921203094.7 | 2019-07-29 | CN211885323U | 2020-11-10 | 罗曼·巴伊; 让-吕克·迪托; 皮埃尔·比永; 尼古拉斯·皮热 |
| 本实用新型涉及一种滑行板,具体为一种滑雪板,所述滑雪板包括被板芯隔开的至少一个底部加固板层和至少一个顶部加固板层、若干侧刃、一个滑板底座,并且具备一条厚度曲线、一条廓线以及从后接触线延伸到前接触线的拱形头线,其特征在于,所述滑雪板的所述厚度曲线(9)具有从所述后接触线(7,8)到所述前接触线(7,8)在相同方向上连续定向的曲率。 | ||||||
| 9 | 残疾人高山滑雪板 | CN201721495704.6 | 2017-11-10 | CN207545787U | 2018-06-29 | 庄茂花; 李波; 李健瑞; 鲁大立 |
| 一种残疾人高山滑雪板。缺乏肢体的残疾人在进行滑雪时,经常会发生滑雪板偏斜,造成运动者和滑雪器械一起侧翻,使缺乏肢体的残疾人从雪地上爬起非常困难,既浪费体力又浪费时间,还可能造成摔伤的危险。一种残疾人高山滑雪板,其组成包括:滑雪板(1),滑雪板的上方中间位置焊接有安装架(2),安装架上扣入有U型结构的支撑架(3),安装架和支撑架的两侧开设有一组直径相同的插孔(4),插孔内插入有螺栓组件(5),螺栓组件将安装架和支撑架固定连接,支撑架的上方垂直的焊接有连接架(6),连接架的顶部焊接有蹲坐底架(7),蹲坐底架的架体上焊接有一组防护栏(8)。本实用新型应用于残疾人滑雪板。 | ||||||
| 10 | 高山滑雪板弹性特性检测装置 | CN202221464175.4 | 2022-06-13 | CN218067485U | 2022-12-16 | 王苏; 张新伟; 陈晓巍; 朱词; 袁晓伟 |
| 本实用新型公开了一种高山滑雪板弹性特性检测装置,包括测试平台以及依次装配在测试平台上的水平共线的扭矩施加机构、固定支点、载荷驱动机构和水平支点;其中,扭矩施加机构的工作位与固定支点的下夹持位对应并位于同一高度,两者组成扭力弹簧常数测定单元;固定支点的下夹持位与载荷驱动机构的工作位对应并位于同一高度,两者组成端部弹簧常数测定单元;固定支点的上夹持位、载荷驱动机构的工作位与水平支点的支点位对应并位于同一高度,三者组成中心弹簧常数测定单元。本实用新型可满足国际标准ISO 5902‑2013《弹性特性测定》中对高山滑雪板进行弹性特性测定时的指标要求,填补了国内滑雪板检测领域的空白。(ESM)同样的发明创造已同日申请发明专利 | ||||||
| 11 | 高山滑雪板极性转动惯量检测设备 | CN202221566794.4 | 2022-06-22 | CN217930679U | 2022-11-29 | 董占伟; 熊炜; 尹克强; 朱词; 袁晓伟 |
| 本实用新型公开了一种高山滑雪板极性转动惯量检测设备,属于质量检测技术领域,包括工作台、支撑架和测量装置;测量装置包括第一转杆、第二转杆、一端缠绕在第一转杆上的第一挂绳、一端缠绕在第二转杆上的第二挂绳和固定高山滑雪板的固定装置;第一挂绳和第二挂绳的另一端与固定装置连接;第一挂绳和第二挂绳形成的平面为校准面;第一挂绳和第二挂绳的距离为h,固定装置上端面与第一转杆下端面之间的距离H,则h:H为1:20,h为50mm;支撑架上固设有角度比对块,角度比对块与校准面之间的夹角为25°。本实用新型便于准确找到高山滑雪板的中点,利用挂绳的柔性,降低高山滑雪板摆动的阻力,检测精度高,适用于检测高山滑雪板的极性转动惯量。 | ||||||
| 12 | 高山滑雪板形变载荷和断裂载荷检测设备 | CN202221465397.8 | 2022-06-13 | CN218067428U | 2022-12-16 | 田旭; 龙冬梅; 任静娜; 朱词; 袁晓伟 |
| 本实用新型属于滑雪板性能检测技术领域,公开了一种高山滑雪板形变载荷和断裂载荷检测设备,包括测试底座以及固装在测试底座上的加载机构和支撑机构;所述支撑机构包括对称设于加载机构两侧的锁紧夹具和水平支点,并且,锁紧夹具的夹紧位与水平支点的支点位处于同一高度上;所述加载机构包括固装在测试底座上的龙门支架、固装在龙门支架上的驱动组件以及与驱动组件传动连接用于对试样施加载荷的施力组件;所述施力组件上固装有力值传感器,所述施力组件构成的工作位的下方设有位移传感器。本实用新型能够实现对高山滑雪板形变载荷和断裂载荷的测定,填补了国内滑雪板检测领域的空白。 | ||||||
| 13 | PAIR OF SKIS FOR ALPINE SKIING | PCT/AT1997000139 | 1997-06-23 | WO1998000205A1 | 1998-01-08 | ATOMIC AUSTRIA GMBH |
| The invention relates to a pair of skis for alpine skiing which have asymmetrically waisted skis (1, 2), the outside of each ski having a more heavily curved lateral moulded blank (24) than the inside. To facilitate parallel motion during cornering with equally loaded skies (1, 2), the waist on the outside of each ski (1, 2) is set back by a distance (X) in cm in relation to the waist on the inside. Subsequently, the start of the waist (24) on the outside of each ski (1, 2) is outwardly offset by a distance (Y) in mm at the blade region in comparison with the waist (25) on the inside. Consequently, the waists (24; 25) of the outside of the inside ski (2) and the inside of the outside ski (1) describe at least approximately concentric arcs (16, 26) during cornering when the two skis (1, 2) are guided at a distance (D) in dm from each other, the outside ski (1) being set back in relation to the inside ski (2), in the direction of travel. | ||||||
| 14 | Alpine skis | US446672 | 1989-12-06 | US4971350A | 1990-11-20 | Jacques Fagot |
| A downhill ski has side walls which form, over at least a part of their length, an acute angle with the base and have a continuously varying slope and are asymmetrical. The slope angle of one of the side walls increasesfrom tip to waist and decreases from waist to tail, while the slope angle of the other side wall decreases from tip to waist and increases from waist to tail. The two skis of a given pair are symmetrical to one another relative to a longitudinal plane located midway between the two skis, so that like side walls can be alternately positioned adjacent each other to suit different snow conditions. The construction provides enhanced versatility for varying snow conditions. | ||||||
| 15 | Dry-land alpine skis | US14602149 | 2015-01-21 | US09409079B2 | 2016-08-09 | David Park |
| A wheeled device, and method of making thereof, that simulates the feel and performance of alpine skiing/snowboarding on dry land is provided. Features of embodiments include: (1) a deck having flex similar to that of a ski/snowboard; (2) placement of wheels in a geometry mimicking the side cut of a shaped alpine ski/snowboard, and that with feature (1), enables a user to turn the device in an arc; and (3) wheels constructed of materials of varied coefficients of friction, which enable a user to skid the device in a braking mechanism similar to that of an alpine ski/snowboard, with the placement and design of the wheels emulating the base edge bevel of a typical snow-ski/snowboard. In an embodiment, the device is affixed to a user's feet using a binding device similar to that used for alpine skiing/snowboarding, and the user primarily relies on gravity on an inclined plane for locomotion. | ||||||
| 16 | SKIPAAR FÜR DEN ALPINSKILAUF | EP97926915.0 | 1997-06-23 | EP0907390A1 | 1999-04-14 | HÄMMERLE, Gerhard |
| The invention relates to a pair of skis for alpine skiing which have asymmetrically waisted skis (1, 2), the outside of each ski having a more heavily curved lateral moulded blank (24) than the inside. To facilitate parallel motion during cornering with equally loaded skies (1, 2), the waist on the outside of each ski (1, 2) is set back by a distance (X) in cm in relation to the waist on the inside. Subsequently, the start of the waist (24) on the outside of each ski (1, 2) is outwardly offset by a distance (Y) in mm at the blade region in comparison with the waist (25) on the inside. Consequently, the waists (24; 25) of the outside of the inside ski (2) and the inside of the outside ski (1) describe at least approximately concentric arcs (16, 26) during cornering when the two skis (1, 2) are guided at a distance (D) in dm from each other, the outside ski (1) being set back in relation to the inside ski (2), in the direction of travel. | ||||||
| 17 | SKIPAAR FÜR DEN ALPINSKILAUF | EP97926915.6 | 1997-06-23 | EP0907390B1 | 2002-09-11 | HÄMMERLE, Gerhard |
| The invention relates to a pair of skis for alpine skiing which have asymmetrically waisted skis (1, 2), the outside of each ski having a more heavily curved lateral moulded blank (24) than the inside. To facilitate parallel motion during cornering with equally loaded skies (1, 2), the waist on the outside of each ski (1, 2) is set back by a distance (X) in cm in relation to the waist on the inside. Subsequently, the start of the waist (24) on the outside of each ski (1, 2) is outwardly offset by a distance (Y) in mm at the blade region in comparison with the waist (25) on the inside. Consequently, the waists (24; 25) of the outside of the inside ski (2) and the inside of the outside ski (1) describe at least approximately concentric arcs (16, 26) during cornering when the two skis (1, 2) are guided at a distance (D) in dm from each other, the outside ski (1) being set back in relation to the inside ski (2), in the direction of travel. | ||||||
| 18 | Safety binding for alpine skis | US853709 | 1992-06-05 | US5324062A | 1994-06-28 | Jean-Pierre Rigal; Philippe Lemoine; Pierre Desarmaux; Philippe Schary |
| Alpine ski binding designed to hold the rear end of a boot in place on a ski. The binding comprises a body (3) connected to the ski, a device (2) for position-retention of the rear end of the boot, which is carried by the body, and a support plate for the boot (9), on which the rear end of the sole rests. The support plate is mobile in the median longitudinal and vertical plane, and a layer (15) of an elastically-compressible material is interposed between the support plate and the upper surface of the ski. In particular, the plate is interposed around an axis (25) carried by the stirrup piece which holds the rear part of the slide-rail (4) in position on the ski. | ||||||
| 19 | Pair of skis for alpine skiing | US09051829 | 1998-04-28 | US06241272B1 | 2001-06-05 | Gerhard Hämmerle |
| A pair of skis for alpine skiing, with asymmetrically waisted skis (1, 2), each ski (1, 2) at its outside comprising a sidecut (24) of heavier curvature than at its inside; to facilitate parallel guiding of the skis when going through curves, with equally loaded skis (1, 2), the waisting at the outside of each ski (1, 2) is rearwardly offset relative to that at the inside by a distance (X) in the range of centimeters, and the beginning of the waisting (24) at the outside of each ski (1, 2), following upon the shovel region, is outwardly offset as compared to the waisting (25) at the inside, by a distance (Y) in the range of millimeters; in this manner, when going in curves, when the two skis (1, 2) are guided at a distance (D) in the range of decimeters from each other, with the outer ski (1) rearwardly offset in travel direction relative to the inner ski (2), the waistings (24; 15) of the outside of the inner ski (2) and of the inside of the outer ski (1) describe at least approximately concentric arcs (16, 26). | ||||||
| 20 | Binding element for alpine skis | US274273 | 1994-07-13 | US5560634A | 1996-10-01 | Christian Challande; Pascal Thomas; Pierre Desarmaux |
| The invention is related to a binding element for skis, especially a front element. The element includes a base connected to the ski, a body mounted on the base, a jaw, an energy spring housed in the body to elastically oppose the opening movements of the jaw in response to lateral and vertical biases of the boot, a support plate on which the sole of the boot rests. The support plate is mobile in a rocking motion, and a second circuit for tilting the jaw, generating release of the boot and independent of the energy spring of the jaw, is controlled by the rocking motion of the boot support plate. | ||||||
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