WO2018146099A1 - A chassis for a skating device - Google Patents

A chassis for a skating device Download PDF

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Publication number
WO2018146099A1
WO2018146099A1 PCT/EP2018/052966 EP2018052966W WO2018146099A1 WO 2018146099 A1 WO2018146099 A1 WO 2018146099A1 EP 2018052966 W EP2018052966 W EP 2018052966W WO 2018146099 A1 WO2018146099 A1 WO 2018146099A1
Authority
WO
WIPO (PCT)
Prior art keywords
chassis
skating device
roller
ball
skating
Prior art date
Application number
PCT/EP2018/052966
Other languages
French (fr)
Inventor
Roland Kessler
Arthur Guy ERDMAN
Brennan John OLSON
Bryant John UNTZ
Daniel Lee RYKS
Enrique CERVANTES
Evan Patrick COSGRIFF
Jeong Yong KIM
Kunal Sudam GARDE
Murid AMINI
Vlad GOLDENBERG
Original Assignee
Agora Investment Ag
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Agora Investment Ag filed Critical Agora Investment Ag
Priority to CN201880010450.5A priority Critical patent/CN110382062A/en
Publication of WO2018146099A1 publication Critical patent/WO2018146099A1/en
Priority to US16/530,571 priority patent/US20200001167A1/en

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C17/00Roller skates; Skate-boards
    • A63C17/22Wheels for roller skates
    • A63C17/24Wheels for roller skates with ball-shaped or spherical running surfaces
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C17/00Roller skates; Skate-boards
    • A63C17/04Roller skates; Skate-boards with wheels arranged otherwise than in two pairs
    • A63C17/06Roller skates; Skate-boards with wheels arranged otherwise than in two pairs single-track type

Definitions

  • Ice skating has been known for centuries and known as a preferred leisure, sport, and fitness activity. Roller skating was created to simulate ice-skating on a solid ground. First models of rollers skates were so called quad skates. They had four wheels placed in two lines. Quad skates were not as fast and maneuverable as ice skates, but still became very popular among people in the 60s and 70s. The new age of skating began in the 90s when inline outdoor roller skates were introduced to the general public. The inline skates are faster and more maneuverable than the quad skates, but the experience is still not completely similar to ice skating. Inline skates have no opportunity to use the hockey stop and side slide breaking. Breaking has anyhow been a challenge for inline skate users.
  • US 6,508,335 features an omni-directional wheel which includes a frame having an upper portion for affixing the frame to an under-side of a weight bearing surface, at least two side walls, and a central cavity defined by the side walls for receiving at least one spherical wheel, at least two wheel bearings connected in axial alignment to the side walls for rotation of the wheel about a fixed axis, at least two wheel seats each having one side in axial connection to the wheel bearings and an opposite conical face wherein the conical faces are disposed in opposite axial alignment for mounting the wheel between the faces and a force of static friction is exerted relative to the conical faces and the wheel when the wheel is rotating about the fixed axis and a force of kinetic friction is exerted relative to the conical faces and the wheel when the wheel is rotating about an axis perpendicular to the fixed axis, and an upper load bearing connected to the frame which bias against an upper surface of the wheel.
  • US 5,397, 138 features an in-line roller skate including an elongate base plate having a top side to which a boot is secured, and an underside that mounts four wheel assemblies, the front wheel assembly having a fixed orientation and the remaining assemblies each having a caster-like construction.
  • Springs bias each of the caster-like assemblies in a straight-ahead orientation, and first and second near-vertically extending fixed brake surfaces are spaced on opposite sides of the rearward most wheel such that the wheel frictionally engages a brake surface whenever the wheel is substantially turned to one direction or the opposite direction.
  • US 5,685,550 features a shaft extending in the skating directions supported by stanchions depending from a boot plate.
  • Spherical wheels formed by hemispherical segments are rotatably secured to the shaft in fixed axial position by a ring member having wing axles extending transversely the shaft axis, the ring member being rotatable about bearing members secured to the shaft.
  • One of the bearing members has a braking cam with a pair of oppositely positioned recesses which mate with a corresponding braking detent mechanism mounted in each wing axle.
  • Each wheel segment is independently rotatably secured to a wing axle for rotation in the skating directions.
  • the wing axles rotate with the wheels about the shaft in response to a stopping action transverse to the skating directions to provide a braking resistance in response to the detent mechanism riding against the cam surface.
  • Different spring loads and springs are provided to allow for different skating stroke and stopping forces.
  • US application 2006/0214394 features the multi-directional skates with each skate being an assembly having a skate boot, at least four roller assemblies, and a skid plate.
  • the skate boot is a traditional in-line/aggressive skate-type boot including an upper shoe portion and a sole portion.
  • the roller assemblies each include a substantially spherical roller or ball that act as rolling surfaces for skate, allowing it to create movement in any direction, not just forward and backward, but also sideways and complete 360-degree movement.
  • the number and alignment of the roller assemblies may be modified according to the desires of the individual skater, but they are intended to be aligned such that each skate is capable of balancing itself it an upright position.
  • US patent 6,491,308 features a roller skate which includes a frame, a structure for fixing the frame to a person's foot, and at least two balls, which are freely rotatably supported by concave rollers. Axes of rotation of the rollers extend in a horizontal direction, transversely to the longitudinal direction of the frame. A roller is located between the two balls which are arranged side by side. The roller bears against both balls during operation. This document is hereby incorporated by reference.
  • US 4,076,263 features skates employing balls as the primary rolling elements which may be used in lieu of roller skates for street hockey or indoors on wood floors, concrete or other hard surfaces.
  • the skate includes two balls, preferably of semi-hardened rubber, metal, wood, plastic or the like, one in the front and one at the rear of the skate.
  • Each ball is supported by a set of rolling supports which allow the ball to rotate freely in a forward or backward direction but inhibits rotation of the ball in other directions.
  • the supports include at least two transverse shafts on which are mounted spaced rollers or rings of different diameters and contoured to mate with the upper portion of the ball.
  • the different size rollers are independently rotatable on the shaft to compensate for the different surface speeds of the ball as it rolls forwards or backwards. Since the rollers can rotate only about the transverse axis of the shaft, the friction produced between the ball and the supports in a direction other than forwards and backwards inhibits sidewise movement of the skate.
  • a pusher block is provided at the forward end of the skate allowing the wearer to push himself forwardly either by tipping the block against the skating surface or by a sidewise pushing motion much like an ice skate.
  • US 5,486,011 features a braking device for in-line skates including a resiliently biased, pivotally mounted load bearing wheel.
  • the resilient element prevents contact between the wheel and a skate mounted braking surface during normal skating movements.
  • the braking device is activated by exerting sufficient downward force on the load bearing wheel to overcome the resilient bias and thereby making frictional contact between the load bearing wheel and the braking surface.
  • US 6,899,344 features a multidirectional roller skate device and an associated method of using the device.
  • the device includes a foot platform having a plurality of rolling units attached to the bottom of the foot platform.
  • the foot platform may be either a boot for use as a roller skate or a board for use as a skate board.
  • Each rolling unit includes a wheel, an axle, a fork, and a steering housing.
  • the fork has a top ring; two opposing arms attached to the top ring of the fork; a first flange attached to the top ring of the fork; and a second flange attached to the top ring of the fork
  • the steering housing has: a top plate attached to the foot platform and pivotally attached to the fork; an anchor shaft attached to the top plate; a first coil spring having a first and a second end, the first end of the first coil spring is attached to the first flange of the fork, the second end of the first coil is attached to the anchor shaft of the steering housing; a second coil spring having a first and second end, the first end of the second coil spring is attached to the second flange of the fork, the second end of the second coil is attached to the anchor shaft of the steering housing; and a rectangular bearing set attached to the steering housing and attached to the fork.
  • the method of using the device includes the steps of balancing, bending, contacting, lifting, obtaining, placing, pushing, repeating, and standing.
  • US 6,065,762 features a multidirectional in-line roller skate comprising a boot to receive a foot of a skater.
  • the boot has a sole.
  • a frame is provided.
  • a facility is for securing the frame to a bottom surface of the sole of the boot.
  • a plurality of spherical wheel assemblies is also provided.
  • a subassembly is for mounting each spherical wheel assembly in a removable manner to a bottom surface of the frame centrally along a common place, so that each spherical wheel assembly can rotate horizontally along a riding surface.
  • An assemblage is for revolving each spherical wheel assembly vertically three hundred and sixty degrees in a clockwise and counterclockwise direction upon the riding surface, to allow the skater to perform tight figure skating maneuvers on the riding surface.
  • US 6,293,565 (Bl) features a skate assembly that allows a skater forward/backward motion as well as side-to-side motion.
  • Various aspects of the skate assembly can be adjusted to fit the size and weight of the skater, the skill level of the skater, the skating or playing style of the skater, and the various surfaces to which it might come into contact.
  • the skate assembly is comprised of a plurality of linearly aligned roller assemblies.
  • the skate assembly includes at least one friction plate mounted on the inside edge of the skate frame that provides a push-off area used by the skater to initiate motion, accelerate, or stop.
  • the skate assembly is comprised of at least one roller assembly interposed between a pair of conventional wheels.
  • the pair of conventional wheels provides stability when the skater is moving in either a forward or backward direction since these two wheels are confined to rotation in a single plane.
  • the skater wishes to move laterally he or she tilts the skates, for example by inwardly angling both knees, causing the conventional wheels to be raised from the rolling surface and placing all of the skater's weight on the omnidirectional, i.e., substantially spherical, rollers.
  • the roller within each of the roller assemblies can be mounted between two sets of bearings mounted on either side of the roller; between an upper bearing set and a set of bearings that surrounds the roller; or within a roller cavity that has been coated with a low friction coating.
  • the present invention provides a new and/or alternate device and/or method to allow a user rolling over a substantially even surface.
  • the present invention particularly provides a ball with advantageous properties.
  • the elasticity can provide a more comfortable travel for a user while at the same time limiting noise during use.
  • a suitable hardness can limit abrasion and prolong lifetime.
  • the kinetic section according to the present invention is directed to find use in a skating device.
  • a chassis comprising at least one retention element comprising at least one of a sliding surface.
  • rollers of various forms can be configured, as could be a barrel-shaped roller and/or an hourglass shaped roller and/or a cylinder shaped roller and/or a bearing ball. Further at least one ball can be configured to be supported by at least one turning element.
  • the chassis can further comprise at least one support for fixing a boot. Further, at least two axles can be secured at the side walls of the chassis with their ends and/or at least two turning elements can be arranged on the axles and/or adapted to rotate around that axle.
  • the chassis can further comprise at least one turning element in the form of a roller, a ball, a wheel and/or a sliding surface.
  • the chassis can be configured to have at least one turning element that may comprise a bearing, arranged between the turning element and the axle and/or can be adapted to reduce kinetic friction between the turning element and the axle.
  • a skating device can be arranged to comprise the chassis.
  • a method for manufacturing a chassis for a skating device can comprise the features particularly the before and aft disclosed descriptions where the chassis can be configured to comprise at least one retention element comprising.
  • This retention element can be configured to further comprise at least one of a sliding surface, a barrel-shaped roller, an hourglass shaped roller, a cylinder shaped roller and/or a bearing ball. Further at least one ball and at least one turning element may be comprised.
  • the method for a chassis to further comprise at least one support for fixing a boot is disclosed.
  • At least two axles can be configured, wherein the ends of the axles can be arranged to be attached to sidewalls of the chassis. Further, the method to arrange the at least two turning elements with axles and/or adapted to rotate around that axle is disclosed .
  • the method for the turning elements can be configured to comprise at least of a roller, a ball, a wheel and/or a sliding surface can be provided for. Rollers may be assumed to be preferred.
  • the method may be configured to at least one turning element to comprise a bearing, arranged between the turning element and the axle and/or adapted to reduce kinetic friction between the turning element and the axle.
  • a chassis 5 of a skating device is shown. At least one roller can be rotatably fixed to a chassis 5 with an axle 25. A ball 15 is held in a working position by the means of at least two rollers 20 supported by at least one bearing. Element 2 is a support to connect the chassis 8 with a boot.
  • Fig 2 is an exploded view of the chassis 5 with components of a skating device.
  • a chassis is shown to house the rotating and/or supporting parts.
  • Bearing elements 35 are placed in the retention elements 10.
  • ball 15 is then positioned to rest on four bearing elements 35.
  • the rollers 20 are assembled by providing the axles 25 and securing them to the chassis 5.
  • the bearing can be adapted to be a sliding bearing 35.
  • step (X) preceding step (Z) encompasses the situation that step (X) is performed directly before step (Z), but also the situation that (X) is performed before one or more steps (Yl), followed by step (Z).
  • step (X) preceding step (Z) encompasses the situation that step (X) is performed directly before step (Z), but also the situation that (X) is performed before one or more steps (Yl), followed by step (Z).

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  • Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)

Abstract

A chassis for a skating device comprising at least one retention element comprising at least one of a sliding surface, a barrel-shaped roller, an hourglass shaped roller, a cylinder shaped roller, a bearing ball, at least one ball and at least one turning element.

Description

A chassis for a skating device
Field
Ice skating has been known for centuries and known as a preferred leisure, sport, and fitness activity. Roller skating was created to simulate ice-skating on a solid ground. First models of rollers skates were so called quad skates. They had four wheels placed in two lines. Quad skates were not as fast and maneuverable as ice skates, but still became very popular among people in the 60s and 70s. The new age of skating began in the 90s when inline outdoor roller skates were introduced to the general public. The inline skates are faster and more maneuverable than the quad skates, but the experience is still not completely similar to ice skating. Inline skates have no opportunity to use the hockey stop and side slide breaking. Breaking has anyhow been a challenge for inline skate users.
Several attempts were made to further improve inline skates.
US 6,508,335 (B2) features an omni-directional wheel which includes a frame having an upper portion for affixing the frame to an under-side of a weight bearing surface, at least two side walls, and a central cavity defined by the side walls for receiving at least one spherical wheel, at least two wheel bearings connected in axial alignment to the side walls for rotation of the wheel about a fixed axis, at least two wheel seats each having one side in axial connection to the wheel bearings and an opposite conical face wherein the conical faces are disposed in opposite axial alignment for mounting the wheel between the faces and a force of static friction is exerted relative to the conical faces and the wheel when the wheel is rotating about the fixed axis and a force of kinetic friction is exerted relative to the conical faces and the wheel when the wheel is rotating about an axis perpendicular to the fixed axis, and an upper load bearing connected to the frame which bias against an upper surface of the wheel.
US 5,397, 138 (A) features an in-line roller skate including an elongate base plate having a top side to which a boot is secured, and an underside that mounts four wheel assemblies, the front wheel assembly having a fixed orientation and the remaining assemblies each having a caster-like construction. Springs bias each of the caster-like assemblies in a straight-ahead orientation, and first and second near-vertically extending fixed brake surfaces are spaced on opposite sides of the rearward most wheel such that the wheel frictionally engages a brake surface whenever the wheel is substantially turned to one direction or the opposite direction.
US 5,685,550 (A) features a shaft extending in the skating directions supported by stanchions depending from a boot plate. Spherical wheels formed by hemispherical segments are rotatably secured to the shaft in fixed axial position by a ring member having wing axles extending transversely the shaft axis, the ring member being rotatable about bearing members secured to the shaft. One of the bearing members has a braking cam with a pair of oppositely positioned recesses which mate with a corresponding braking detent mechanism mounted in each wing axle. Each wheel segment is independently rotatably secured to a wing axle for rotation in the skating directions. The wing axles rotate with the wheels about the shaft in response to a stopping action transverse to the skating directions to provide a braking resistance in response to the detent mechanism riding against the cam surface. Different spring loads and springs are provided to allow for different skating stroke and stopping forces.
US application 2006/0214394 (Al) features the multi-directional skates with each skate being an assembly having a skate boot, at least four roller assemblies, and a skid plate. The skate boot is a traditional in-line/aggressive skate-type boot including an upper shoe portion and a sole portion. The roller assemblies each include a substantially spherical roller or ball that act as rolling surfaces for skate, allowing it to create movement in any direction, not just forward and backward, but also sideways and complete 360-degree movement. The number and alignment of the roller assemblies may be modified according to the desires of the individual skater, but they are intended to be aligned such that each skate is capable of balancing itself it an upright position.
US patent 6,491,308 (Bl) features a roller skate which includes a frame, a structure for fixing the frame to a person's foot, and at least two balls, which are freely rotatably supported by concave rollers. Axes of rotation of the rollers extend in a horizontal direction, transversely to the longitudinal direction of the frame. A roller is located between the two balls which are arranged side by side. The roller bears against both balls during operation. This document is hereby incorporated by reference.
US 4,076,263 (A) features skates employing balls as the primary rolling elements which may be used in lieu of roller skates for street hockey or indoors on wood floors, concrete or other hard surfaces. In the preferred form the skate includes two balls, preferably of semi-hardened rubber, metal, wood, plastic or the like, one in the front and one at the rear of the skate. Each ball is supported by a set of rolling supports which allow the ball to rotate freely in a forward or backward direction but inhibits rotation of the ball in other directions. The supports include at least two transverse shafts on which are mounted spaced rollers or rings of different diameters and contoured to mate with the upper portion of the ball. The different size rollers are independently rotatable on the shaft to compensate for the different surface speeds of the ball as it rolls forwards or backwards. Since the rollers can rotate only about the transverse axis of the shaft, the friction produced between the ball and the supports in a direction other than forwards and backwards inhibits sidewise movement of the skate. A pusher block is provided at the forward end of the skate allowing the wearer to push himself forwardly either by tipping the block against the skating surface or by a sidewise pushing motion much like an ice skate.
US 5,486,011 (A) features a braking device for in-line skates including a resiliently biased, pivotally mounted load bearing wheel. The resilient element prevents contact between the wheel and a skate mounted braking surface during normal skating movements. The braking device is activated by exerting sufficient downward force on the load bearing wheel to overcome the resilient bias and thereby making frictional contact between the load bearing wheel and the braking surface.
US 6,899,344 (Bl) features a multidirectional roller skate device and an associated method of using the device. The device includes a foot platform having a plurality of rolling units attached to the bottom of the foot platform. The foot platform may be either a boot for use as a roller skate or a board for use as a skate board. Each rolling unit includes a wheel, an axle, a fork, and a steering housing. The fork has a top ring; two opposing arms attached to the top ring of the fork; a first flange attached to the top ring of the fork; and a second flange attached to the top ring of the fork The steering housing has: a top plate attached to the foot platform and pivotally attached to the fork; an anchor shaft attached to the top plate; a first coil spring having a first and a second end, the first end of the first coil spring is attached to the first flange of the fork, the second end of the first coil is attached to the anchor shaft of the steering housing; a second coil spring having a first and second end, the first end of the second coil spring is attached to the second flange of the fork, the second end of the second coil is attached to the anchor shaft of the steering housing; and a rectangular bearing set attached to the steering housing and attached to the fork. The method of using the device includes the steps of balancing, bending, contacting, lifting, obtaining, placing, pushing, repeating, and standing.
US 6,065,762 (A) features a multidirectional in-line roller skate comprising a boot to receive a foot of a skater. The boot has a sole. A frame is provided. A facility is for securing the frame to a bottom surface of the sole of the boot. A plurality of spherical wheel assemblies is also provided. A subassembly is for mounting each spherical wheel assembly in a removable manner to a bottom surface of the frame centrally along a common place, so that each spherical wheel assembly can rotate horizontally along a riding surface. An assemblage is for revolving each spherical wheel assembly vertically three hundred and sixty degrees in a clockwise and counterclockwise direction upon the riding surface, to allow the skater to perform tight figure skating maneuvers on the riding surface. US 6,293,565 (Bl) features a skate assembly that allows a skater forward/backward motion as well as side-to-side motion. Various aspects of the skate assembly can be adjusted to fit the size and weight of the skater, the skill level of the skater, the skating or playing style of the skater, and the various surfaces to which it might come into contact. In one configuration the skate assembly is comprised of a plurality of linearly aligned roller assemblies. The skate assembly includes at least one friction plate mounted on the inside edge of the skate frame that provides a push-off area used by the skater to initiate motion, accelerate, or stop. In another configuration the skate assembly is comprised of at least one roller assembly interposed between a pair of conventional wheels. The pair of conventional wheels provides stability when the skater is moving in either a forward or backward direction since these two wheels are confined to rotation in a single plane. When the skater wishes to move laterally he or she tilts the skates, for example by inwardly angling both knees, causing the conventional wheels to be raised from the rolling surface and placing all of the skater's weight on the omnidirectional, i.e., substantially spherical, rollers. At this point lateral skate motion is as easy as linear skate motion. The roller within each of the roller assemblies can be mounted between two sets of bearings mounted on either side of the roller; between an upper bearing set and a set of bearings that surrounds the roller; or within a roller cavity that has been coated with a low friction coating.
Summary
The present invention provides a new and/or alternate device and/or method to allow a user rolling over a substantially even surface. The present invention particularly provides a ball with advantageous properties. The elasticity can provide a more comfortable travel for a user while at the same time limiting noise during use. At the same time a suitable hardness can limit abrasion and prolong lifetime.
The kinetic section according to the present invention is directed to find use in a skating device.
A chassis is disclosed comprising at least one retention element comprising at least one of a sliding surface. As an alternative solution rollers of various forms can be configured, as could be a barrel-shaped roller and/or an hourglass shaped roller and/or a cylinder shaped roller and/or a bearing ball. Further at least one ball can be configured to be supported by at least one turning element.
The chassis can further comprise at least one support for fixing a boot. Further, at least two axles can be secured at the side walls of the chassis with their ends and/or at least two turning elements can be arranged on the axles and/or adapted to rotate around that axle. The chassis can further comprise at least one turning element in the form of a roller, a ball, a wheel and/or a sliding surface.
The chassis can be configured to have at least one turning element that may comprise a bearing, arranged between the turning element and the axle and/or can be adapted to reduce kinetic friction between the turning element and the axle.
A skating device can be arranged to comprise the chassis.
Further a method for manufacturing a chassis for a skating device is disclosed which can comprise the features particularly the before and aft disclosed descriptions where the chassis can be configured to comprise at least one retention element comprising. This retention element can be configured to further comprise at least one of a sliding surface, a barrel-shaped roller, an hourglass shaped roller, a cylinder shaped roller and/or a bearing ball. Further at least one ball and at least one turning element may be comprised.
The method for a chassis to further comprise at least one support for fixing a boot. At least two axles can be configured, wherein the ends of the axles can be arranged to be attached to sidewalls of the chassis. Further, the method to arrange the at least two turning elements with axles and/or adapted to rotate around that axle is disclosed .
The method for the turning elements can be configured to comprise at least of a roller, a ball, a wheel and/or a sliding surface can be provided for. Rollers may be assumed to be preferred.
The method may be configured to at least one turning element to comprise a bearing, arranged between the turning element and the axle and/or adapted to reduce kinetic friction between the turning element and the axle.
The method for manufacturing a skating device, allowing a skating device to comprise the chassis can be assumed disclosed. Brief description of the figures
The drawings, described below, are for illustration purposes only. The drawings are not intended to limit the scope of the present teaching in any way.
Exemplary embodiments of the invention will be described, referring to the figures. These examples are provided to give further understanding of the invention, without limiting the scope.
In the following description, a series of elements is described. The skilled person will appreciate that unless specified by the context, the number or the position of elements is not critical for the resulting configuration and its effect.
In Fig. 1 a chassis 5 of a skating device is shown. At least one roller can be rotatably fixed to a chassis 5 with an axle 25. A ball 15 is held in a working position by the means of at least two rollers 20 supported by at least one bearing. Element 2 is a support to connect the chassis 8 with a boot.
Fig 2 is an exploded view of the chassis 5 with components of a skating device. To begin at the bottom part of the figure a chassis is shown to house the rotating and/or supporting parts. Bearing elements 35 are placed in the retention elements 10. In this embodiment ball 15 is then positioned to rest on four bearing elements 35. Then the rollers 20 are assembled by providing the axles 25 and securing them to the chassis 5. Additionally and/or alternatively, the bearing can be adapted to be a sliding bearing 35.
Embodiments
While the disclosure has been illustrated and described in detail in the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and non- restrictive; the disclosure is thus not limited to the disclosed embodiments. Variations to the disclosed embodiments can be understood and effected by those skilled in the art and practicing the claimed disclosure, from a study of the drawings, the disclosure, and the appended claims.
As used herein, including in the claims, singular forms of terms are to be construed as also including the plural form and vice versa, unless the context indicates otherwise. Thus, it should be noted that as used herein, the singular forms "a," "an," and "the" include plural references unless the context clearly dictates otherwise.
The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to fulfill aspects of the present invention. The present technology is also understood to encompass the exact terms, features, numerical values or ranges etc., if in here a relative term, such as "about", "substantially", "ca.", "generally", "at least", "at the most" or "approximately" is used in this specification, such a term should also be construed to also include the exact term. That is, e.g., "substantially straight" should be construed to also include "(exactly) straight". In other words, "about 3" shall also comprise "3" or "substantially perpendicular" shall also comprise "perpendicular". Any reference numerals in the claims should not be considered as limiting the scope.
In the claims, the terms "comprises/comprising", "including", "having", and "contain" and their variations should be understood as meaning "including but not limited to", and are not intended to exclude other components. Furthermore, although individually listed, a plurality of means, elements or method steps may be implemented. Additionally, although individual features may be included in different claims, these may possibly advantageously be combined, and the inclusion in different claims does not imply that a combination of features is not feasible and/or advantageous. In addition, singular references do not exclude a plurality.
Whenever steps were recited in the above or also in the appended claims, it should be noted that the order in which the steps are recited in this text may be the preferred order, but it may not be mandatory to carry out the steps in the recited order. That is, unless otherwise specified or unless clear to the skilled person, the order in which steps are recited may not be mandatory. That is, when the present document states, e.g., that a method comprises steps (A) and (B), this does not necessarily mean that step (A) precedes step (B), but it is also possible that step (A) is performed (at least partly) simultaneously with step (B) or that step (B) precedes step (A). Furthermore, when a step (X) is said to precede another step (Z), this does not imply that there is no step between steps (X) and (Z). That is, step (X) preceding step (Z) encompasses the situation that step (X) is performed directly before step (Z), but also the situation that (X) is performed before one or more steps (Yl), followed by step (Z). Corresponding considerations apply when terms like "after" or "before" are used.
It will be appreciated that variations to the foregoing embodiments of the invention can be made while still falling within the scope of the invention can be made while still falling within scope of the invention. Features disclosed in the specification, unless stated otherwise, can be replaced by alternative features serving the same, equivalent or similar purpose. Thus, unless stated otherwise, each feature disclosed represents one example of a generic series of equivalent or similar features.
Use of exemplary language, such as "for instance", "such as", "for example" and the like, is merely intended to better illustrate the invention and does not indicate a limitation on the scope of the invention unless so claimed . Any steps described in the specification may be performed in any order or simultaneously, unless the context clearly indicates otherwise.
All of the features and/or steps disclosed in the specification can be combined in any combination, except for combinations where at least some of the features and/or steps are mutually exclusive. In particular, preferred features of the invention are applicable to all aspects of the invention and may be used in any combination.

Claims

Claims
1. A chassis (5) for a skating device ( 1) comprising
a . at least one retention element ( 10) comprising at least one of
a sliding surface (35);
a barrel-shaped roller (35);
an hourglass shaped roller (35);
a cylinder shaped roller (35);
a bearing ball (35) and
b. at least one ball ( 15);
c. at least one turning element (20) .
2. The chassis (5) for a skating device (1) according to claim 1, further comprising a. at least one support (2) for fixing a boot;
b. at least two axles (25), wherein the ends of the axles (25) are arranged to be attached to sidewalls (6) of the chassis (5);
c. at least two turning elements (20), arranged on the axles (25) and/or adapted to rotate around that axle (25).
3. The chassis (5) for a skating device ( 1) according to any of the preceding claims, wherein the turning element (20) comprises at least one of
a. a roller (35);
b. a ball (35);
c. a wheel (35);
d. a sliding surface (35) .
4. The chassis (5) for a skating device ( 1) according to any of the preceding claims, wherein at least one turning element (20) comprises a bearing (30), arranged between the turning element (20) and the axle (25) and/or adapted to reduce kinetic friction between the turning element (20) and the axle (25).
5. The chassis (5) for a skating device ( 1) according to any of the preceding claims, wherein at least one turning element (20) is configured as a semicircular shell with spherical cutouts to act at the same time as retention element (10).
6. A skating device ( 1), according to any of the preceding claims, comprising the chassis (5).
7. A method for manufacturing a chassis (5) for a skating device ( 1) particularly according to the claims 1 to 5, the chassis (5) configured to comprise
a. at least one retention element ( 10) comprising at least one of
a sliding surface (35);
a barrel-shaped roller (35);
an hourglass shaped roller (35);
a cylinder shaped roller (35);
a bearing ball (35) and
b. at least one ball ( 15);
c. at least one turning element (20).
8. The method for manufacturing a chassis (5) for a skating device ( 1) according to claim 7, allowing the chassis (5) for a skating device ( 1) to further comprise a. at least one support (2) for fixing a boot;
b. at least two axles (25), wherein the ends of the axles (25) are arranged to be attached to sidewalls (6) of the chassis (5);
c. at least two turning elements (20), arranged on the axles (25) and/or adapted to rotate around that axle (25).
9. The method for manufacturing a chassis (5) for a skating device ( 1) according to the claims 7 to 8, the turning elements (20) to be configured to comprise at least on of
a. a roller (35);
b. a ball (35);
c. a wheel (35);
d. a sliding surface (35),
preferably rollers (35) .
10. The method for manufacturing a chassis (5) for a skating device ( 1) according to any of the claims 7 to 9, allowing at least one turning element (20) to comprise a bearing (30), arranged between the turning element (20) and the axle (25) and/or adapted to reduce kinetic friction between the turning element (20) and the axle (25).
11. The method for manufacturing a chassis (5) for a skating device ( 1) according to any of the preceding claims 7 to 10, wherein at least one turning element (20) is configured as a semicircular shell with spherical cutouts to act at the same time as retention element (10).
12. The method for manufacturing a skating device (1), according to any of the claims 7 to 11, allowing a skating device (1) to comprise the chassis (5).
PCT/EP2018/052966 2017-02-07 2018-02-06 A chassis for a skating device WO2018146099A1 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201880010450.5A CN110382062A (en) 2017-02-07 2018-02-06 Chassis for skating equipment
US16/530,571 US20200001167A1 (en) 2017-02-07 2019-08-02 Chassis for a skating device

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP17155060.1 2017-02-07
EP17155060 2017-02-07

Related Child Applications (1)

Application Number Title Priority Date Filing Date
US16/530,571 Continuation US20200001167A1 (en) 2017-02-07 2019-08-02 Chassis for a skating device

Publications (1)

Publication Number Publication Date
WO2018146099A1 true WO2018146099A1 (en) 2018-08-16

Family

ID=58009689

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/EP2018/052966 WO2018146099A1 (en) 2017-02-07 2018-02-06 A chassis for a skating device

Country Status (3)

Country Link
US (1) US20200001167A1 (en)
CN (1) CN110382062A (en)
WO (1) WO2018146099A1 (en)

Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4076263A (en) 1975-04-04 1978-02-28 Rand Robert K Ball skate
US5397138A (en) 1994-01-21 1995-03-14 Mangelsdorf; Gary Braking mechanism for in-line skate
US5486011A (en) 1994-06-02 1996-01-23 Nelson; Randy Spring biased braking device for in-line roller skates
US5685550A (en) 1995-06-07 1997-11-11 Mayer, Ii; Bruce Allen Roller skate with brake
US5716074A (en) * 1996-04-03 1998-02-10 Theodorou; Katerina Multi-directional roller skate
US6065762A (en) 1998-03-11 2000-05-23 Brelvi; Nazir A Multidirectional in-line roller skate
US6293565B1 (en) 1998-12-04 2001-09-25 Netminders, Inc. Roller hockey goalie skate
US20020153205A1 (en) * 2001-04-23 2002-10-24 Zinanti Michael David Omni-directional wheel sith frictional bias
US6491308B1 (en) 1997-11-10 2002-12-10 Ball-Skate Ag Roller skate
US6899344B1 (en) 2003-05-15 2005-05-31 Maurice W. Raynor Multidirectional roller skate device and method of using
US20060214394A1 (en) 2005-03-28 2006-09-28 Seid Michael H Multi-directional skates

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1241949A (en) * 1996-11-14 2000-01-19 V-结构公司 Skate with angularly mounted wheels

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4076263A (en) 1975-04-04 1978-02-28 Rand Robert K Ball skate
US5397138A (en) 1994-01-21 1995-03-14 Mangelsdorf; Gary Braking mechanism for in-line skate
US5486011A (en) 1994-06-02 1996-01-23 Nelson; Randy Spring biased braking device for in-line roller skates
US5685550A (en) 1995-06-07 1997-11-11 Mayer, Ii; Bruce Allen Roller skate with brake
US5716074A (en) * 1996-04-03 1998-02-10 Theodorou; Katerina Multi-directional roller skate
US6491308B1 (en) 1997-11-10 2002-12-10 Ball-Skate Ag Roller skate
US6065762A (en) 1998-03-11 2000-05-23 Brelvi; Nazir A Multidirectional in-line roller skate
US6293565B1 (en) 1998-12-04 2001-09-25 Netminders, Inc. Roller hockey goalie skate
US20020153205A1 (en) * 2001-04-23 2002-10-24 Zinanti Michael David Omni-directional wheel sith frictional bias
US6508335B2 (en) 2001-04-23 2003-01-21 Michael David Zinanti Omni-directional wheel sith frictional bias
US6899344B1 (en) 2003-05-15 2005-05-31 Maurice W. Raynor Multidirectional roller skate device and method of using
US20060214394A1 (en) 2005-03-28 2006-09-28 Seid Michael H Multi-directional skates

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US20200001167A1 (en) 2020-01-02
CN110382062A (en) 2019-10-25

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