Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
  • B62J1/00—Saddles or other seats for cycles; Arrangement thereof; Component parts
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
  • B62J—CYCLE SADDLES OR SEATS; AUXILIARY DEVICES OR ACCESSORIES SPECIALLY ADAPTED TO CYCLES AND NOT OTHERWISE PROVIDED FOR, e.g. ARTICLE CARRIERS OR CYCLE PROTECTORS
  • B62J1/00—Saddles or other seats for cycles; Arrangement thereof; Component parts
  • B62J1/002—Saddles having a seating area with a central cavity or depression

Definitions

• the present invention relates to bicycle or ride on vehicle seats and saddles, such as for bicycles (bikes) and powered vehicles including electrically powered bikes (e-bikes).
• bicycles bicycles
• powered vehicles including electrically powered bikes (e-bikes).
• 'Ride on' vehicles are those vehicles where a rider sits perched on or astride a seat/saddle, rather than in a seat, such as in a car seat.
• Conventional bicycle seats or saddles consists of cushioned foam, leather and/or springs to provide comfort.
• they are all based on the principle of compression cushioning. In other words, when a rider sits on the seat the springs and/or cushioning foam material are compressed by the rider's weight. The comfort is therefore provided by the cushioning properties (usually dictated by thickness and density of the cushioning material) of the seat material under compression.
• Weight of a person sitting on a normal chair is distributed over a wide surface area. This includes the buttocks and thighs.
• the person's weight is distributed over a much smaller area. This creates a five or six fold increase in pressure on the crotch.
• a typical bike seat or saddle concentrates pressure against the perineum.
• the perineum contains the nerves and arteries to the genitals. This concentration of pressure, especially when the bicycle is used for long periods or the pressure is increased by impact with the seat or saddle when riding over rough ground, can cause physical harm to the rider, and incidents of impotence and sexual dysfunction have been reported.
• Strips of material extend longitudinally and have one of their ends all connected to a ring, and the other free ends connected to and spaced along a bar attached to springs.
• the ring and the springs attach to different parts of the bike frame to provide a suspended seat. Suspension is provided by the springs.
• the strips of material are prevented from spreading sideways by additional transverse strips of material woven across the longitudinal strips. Thus, the strips of material do not have elastomeric properties and thus do not provide elastic comfort suspension; rather, the springs provide suspension to the seat.
• the present invention provides a seat or saddle of a bicycle or ride on vehicle, the seat or saddle including at least one resilient elastomeric web seat portion suspended in tension between first and second supports, the suspended web(s) supporting the rider's effective weight on the seat or saddle, whereby the at least one elastomeric web resiliently stretches under said rider's effective weight with increasing reactive tension until the tension in the elastomeric web balances the rider's effective weight and the rider is supported by the seat or saddle.
• Effective weight refers to the portion of the rider's weight on the seat or saddle, which may not be the rider's complete weight. Part of the rider's weight may be supported by pedals/footrests and/or handlebars/steering mechanism. It will be appreciated that the effective rider's weight on the seat or saddle will vary with terrain and shift in weight. Also, effective weight on the seat or saddle will vary with up and down motions.
• the seat or saddle of the present invention is able to dynamically adjust to the effective weight by increasing reactive tension when the effective weight increases (such as the bike going over a hump at speed), or decreases (such as when the bike drops into a hollow at speed).
• the elastomer web(s) provides a form of seat suspension for the rider, thereby enhancing comfort and ride enjoyment, as well alleviating the risk of health problems associated with commonly known fixed saddles.
• the present invention relates to a new structural approach to ride on seats or saddles based on utilizing at least one suspended web under tension to create a comfortable seat with preferably enhanced air circulation.
• the present invention relates to a novel layout for ride on seats where the principle feature is to reverse the normal compression cushioning seat design and instead utilize a suspended flexible web arrangement that flexes down under tension via rider weight, somewhat like a flexible hammock.
• the web seat portion of the present invention may include an open mesh or net, such as a regular polygon pattern (e.g. square, rectangular or hexagonal pattern) mesh, or a solid web of elastomer, or combinations thereof.
• Mesh or net type (open cell) style webs provide enhanced air circulation.
• the elastomer is a urethane elastomer.
• the elastomer may have a durometer value of 30-120 ShoreA, more preferably between 80 and 95 ShoreA, to provide required elastomeric stretch characteristics with sufficient rider weight support.
• Example injection moulding grade materials commercially available include BASF Elastollan 1 185 and BAYER Desmopan 385S.
• More than one web seat portion may be provided between the supports. Multiple webs may be layered one over the other, either attached to one another in a laminated arrangement or unattached to each other and co-suspended between the supports, or a combination of layers of both types.
• a seat or saddle may be provided having multiple layers of elastomeric web, each layer suspended between opposed supports.
• the supports may be provided on a seat frame.
• the seat or saddle is a bicycle seat or saddle including a frame with attachment portions to retain at least one said web therebetween in tension.
• the web(s) may include web seat portion attachment portions configured to releasably or permanently engage with corresponding attachment portions on a seat frame.
• the web seat attachment portions may be moulded into the elastomer, such as by a one piece poured or injection moulded web.
• the web may be provided with attachment fittings to attach the web to a seat frame or vehicle frame.
• Tension and suspension in the seat can be varied by changing the web for a web of different Shore hardness and/or by adding/subtracting webs or varying web length.
• Tension adjustment means can also be incorporated into the base frame to increase or decrease tension pre-load on the web/mesh via an adjustable tension system.
• the support provided by the seat can be tailored to a particular rider.
• hooks may be provided on one or more adjusters mounted at a or the respective end of or underneath the seat/saddle to which loops on the ends of the web are removably retained. The hooks may rotated or moved to increase or decrease tension in the web(s).
• position on the web(s) at which the web(s) is/are retained by retainer(s) on the seat/saddle or frame may be selected, such as various openings enabling a longer or shorter effective web length to be chosen which effects tension in the elastomer.
• Webs may be colour coded relating to level of rider support.
• FIGURE 1 shows a bicycle seat/saddle according to an embodiment of the present invention.
• FIGURE 2 shows a seat according to a second embodiment of the present invention.
• FIGURE 3 shows a seat according to a further embodiment of the present invention.
• FIGURE 4 shows a seat according to the embodiment of the present invention with the seat frame as shown in figure 2 but with hexagonal mesh web.
• FIGURE 5 is a top view of the seat shown in Figure 4.
• FIGURE 6 shows the hexagonal mesh web of Figures 4 and 5 in its moulded flat form.
• Figure 7 shows an alternative embodiment of the present invention.
• Figure 8 shows a means of releasably attaching the web to a seat frame according to an embodiment of the present invention.
• Figure 9 shows initial downward forces indicated by arrows representing weight of a rider on the suspended seat.
• Figure 10 shows downward forces indicated by arrows representing weight of a rider causing downward deformation of the suspended seat web/mesh causing increased tension forces in the seat web to react the rider's weight.
• Figure 11 shows an alternative embodiment of the present invention including an alternative form of attachment for the elastomer web seat portion to a seat frame for a bicycle.
• the present invention is applicable to, though not limited to, the following ride on vehicles: e-bikes, pedal bicycles, motor scooters, motorcycle seats, motocross bikes and off-road motorcycles, all-terrain vehicle seats such as quad bikes, jet-skis.
• the top area of the base can be cushioned via conventional padding to absorb extreme impact.
• the rider touches the frame base generally the vast majority of force exerted by the bump is already absorbed by the flexible web so the contact force is very slight.
• the present invention automatically contours to the individual anatomy of each rider. Because the web/mesh is a flexible elastomer, it naturally conforms to individual body shape, providing riding comfort.
• the web or mesh/net stretches over the frame base and can be secured to each end via projections (e.g. knobs) or loops to fit into or over corresponding recesses or lugs respectively designed into the seat frame base.
• the flexible web/mesh/net can typically be moulded flat via injection moulding and an ideal example material is flexible polyurethane thermoplastic elastomer. The characteristics of this material are a supreme ability to stretch and rebound without deformation.
• connection methods other than loops over corresponding frame base hooks.
• Examples such clamps, or knobs and slotted designs and even rotating adjustable systems can be utilized.
• the hook method is described herein.
• the hooks and corresponding knobs can be external or concealed via covers.
• racing versions could be narrow, small and lightweight while longer and wider versions could be made for super comfort for casual cycling, cruising etc.
• the seat mounts to frame seat posts via conventional means so there are no special requirements by way of bicycle or seat post design.
• the seat can therefore be supplied with new bikes and OEM or retro-fitted to existing bikes.
• the present invention is not limited to pedal cycles, such as bicycles.
• the principles of a seat embodying the present invention can also be incorporated into other related products such as seats on e-bikes, motocross and off-road motorcycles, motor scooters, all-terrain vehicle seats, motorcycle seats, jet-ski seats etc.
• the present invention provides a cycle seat with a suspended, hammock style, elastomer web or mesh held under tension for a rider to sit on, instead of a conventional cushioned seat under compression.
• Figure 1 shows a seat 1 with the seat post 2 supporting a flat style example seat frame-base 3, with grid-patterned flexible web in the form of a mesh 4 stretched over the frame-base 3 via connection to the frame-base front section
• FIG. 2 shows a front perspective view of an alternative embodiment of cycle seat.
• the seat 20 is shown with the seat post 22 supporting a twin-tube styled example frame-base 23 with frame tubes 23a,23b protected by padding 27, with grid-patterned flexible web/mesh/net 24 stretched over the twin-tubed frame- base 23 via connection to the frame-base front section 25 and frame-base rear section 26 using front web hooks 29 and rear web hooks 28 respectively.
• Figure 3 shows another embodiment of the seat according to the present invention described, being a front perspective view of the seat 30 with the seat post 32 supporting an injection-moulded form frame-base 33 protected by padding 37, with grid-patterned flexible web/mesh 34 stretched over the injection- moulded frame-base 33 via connection to the frame-base front section 35 and frame-base rear section 36 via front web hooks 39 and rear web hooks 38 respectively.
• Figures 4 and 5 show alternative views of an embodiment the present invention.
• Figure 4 being a rear perspective view of the seat shown in Figure 2.
• Figure 5 is a top view.
• the seat 20 is shown with the seat post 22 supporting a twin-tube styled example frame-base 23 protected by padding 27, with hexagonal patterned flexible web/mesh 24a stretched over the twin-tubed frame-base 23 via connection to the frame-base front section 25 and frame-base rear section 26 via front web hooks/loops 29 and rear web hooks/loops 28 respectively.
• Figure 6 shows a hexagonal pattern seat web mesh portion 24a as it would be moulded or injection moulded in flat form with front web attachment loops 29 to hook over corresponding projections on the front of the seat frame, and rear web attachment loops 28 to hook over corresponding rear projections on the seat frame.
• This attachment arrangement requires the web to be stretched over the frame to fit onto the projections and thereby initially tension the web.
• Figure 7 shows an alternative form of the seat 70 of the present invention where the web is not flat, rather, it is curved to more closely replicate a traditional bike seat shape, showing a perspective view of a rounded web seat 70 with the seat post 72 supporting the seat base 73, with flexible web/mesh 78 stretched over and around the base 73.
• the seat base has a moulded body 75.
• the mesh has longitudinal strands 74 extending front to rear across the seat base and transverse strands 77 stabilising those longitudinal strands.
• the moulded seat body has a rear upstand 79b with grooves, openings, channels or notches 76b to receive and retain the longitudinal strands at the rear of the seat, and a front upstand 79a with grooves, openings, channels or notches 76a to receive and retain the longitudinal strands of the web at the rear front end.
• Figure 8 shows a portion of a seat 80 with a moulded web seat portion incorporating moulded rear loops 88 stretched and engaged over projection pegs 87 on the seat frame 83.
• Figures 9 and 10 show the seat 90 in side view with the moulded web seat portion mounted to a padded seat frame 93 on a seat stem 92.
• Arrows denote force applied to the web by weight of a rider.
• the force is sufficient to deflect the web downwards. Amount of deflection can be varied by controlling the Shore rating of the web, the number of webs and the dimensions of the frame and/or web(s) cross-sections.
• Figure 1 1 shows an alternative form of seat 1 10 according to an embodiment of the present invention.
• the centre view shows the seat in perspective.
• the left hand inset view shows the front end web mounting with its cover, and the right hand inset view shows the rear web mounting and its cover.
• a moulded elastomer web 1 14, preferably of moulded polyurethane, is mounted to a moulded seat frame 1 12.
• the rear mounting shows the projections 1 18 to receive the end loops 1 17 of the web.
• the front view shows the front projections to receive the front loops 1 16 of the web.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Seats For Vehicles (AREA)

Priority Applications (4)

Applications Claiming Priority (2)

Publications (1)

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Family Applications (1)

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Citations (5)

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• 2012
  • 2012-05-30 CN CN201280026977.XA patent/CN103889830B/zh not_active Expired - Fee Related
  • 2012-05-30 AU AU2012262657A patent/AU2012262657B2/en not_active Ceased
  • 2012-05-30 WO PCT/AU2012/000601 patent/WO2012162735A1/en active Application Filing
  • 2012-05-30 EP EP12793977.5A patent/EP2714497A4/en not_active Withdrawn

Patent Citations (5)

Non-Patent Citations (1)

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