• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A snowmobile (100) comprising: a pair of feet (102, 104) configured to carry a snowmobile (100) as it travels on snow and / or ice (150); an electric motor (106); and a traction ring (108) powered by an electric motor (106) and configured to provide traction to the snow vehicle (100) as it rotates in contact with snow and / or ice (150), characterized in that the traction ring (108) is positioned on a pair of feet (102). , 104) to the front, and the snowmobile (100) further comprises a seat (2600) interposed between the pair of legs (102, 104) and configured to provide seating for at least the rider (800). In addition, protection requirements 2-18.
    公开号:FI12977Y1
    申请号:FIU20214058U
    申请日:2021-05-25
    公开日:2021-06-18
    发明作者:Markku Laatikainen
    申请人:Arctic Rides Oy;
    IPC主号:
    专利说明:

    SNOW VEHICLE
    FIELD Various embodiments relate to a snowmobile.
    BACKGROUND Natural resources and climate call for new solutions for travel, especially for short distances. Electric bikes, electric scooters, and the like are becoming more common. However, almost 30% of the world’s population lives in areas where there is a real winter with snow and ice. Naturally, snowmobiles have been around for a long time, but they are too fast, dangerous and expensive for everyday use on public - sidewalks and roads. As a result, there is a huge need for an everyday vehicle that can safely and reliably transport people and goods in snowy and icy conditions. GB 2195298 B describes a vehicle that resembles a kick sled and uses an engine. US 4,087,106 describes a tilting vehicle with wheels at three points of contact, or alternatively skates or skis. WO 2016/170364 A1 describes a personal wheeled mobility device that can be used with various configurations. Motorized kick sleds built by hobbyists can be found on the internet, but they are more designed for motorsports and high speeds. Everyday - type motorized kick sleds have been described in various streaming videos such as - "Electric kick sled" in the YouTube video: https://www.youtube.com/ watch V = OSRXpXrG150. A more sophisticated and safer snowmobile is clearly desirable.
    N BRIEF DESCRIPTION N 25 One side describes a 3 snowmobile according to protection requirement 1. The dependent claims describe some embodiments. S Embodiments - explained — in more detail — in the accompanying x drawings and descriptions of embodiments.
    O LIST OF FIGURES = 30 Embodiments will now be described with reference to the accompanying drawings, in which S Fig. 1 is a side view illustrating embodiments of a snowmobile; > Fig. 2 is a plan view illustrating embodiments of a snowmobile; Figure 3 illustrates embodiments of a control arrangement;
    Fig. 4 and Fig. 5 illustrate embodiments of a footrest; Fig. 6 illustrates an embodiment with additional rings; Fig. 7 illustrates an embodiment with a sled; Fig. 8, Fig. 9, Fig. 10, Fig. 11, Fig. 12 and Fig. 13 illustrate different use cases; Fig. 14, Fig. 15, Fig. 16, Fig. 17, Fig. 18, Fig. 19, Fig. 20 and Fig. 21 illustrate different embodiments of a snowmobile; Fig. 22, Fig. 23, Fig. 24, and Fig. 25 illustrate various accessory embodiments for a snowmobile; Fig. 26 and Fig. 27 illustrate an embodiment with a seat.
    DESCRIPTION OF EMBODIMENTS The following embodiments are examples only. Although the description may refer to one embodiment at a time in many places, this does not necessarily mean that each such reference is to the same embodiment, or that - the feature applies to only one embodiment. The individual features of the various embodiments may also be combined into other embodiments. In addition, the word "comprising" is to be understood as not limiting the described embodiments to only said features, and that such embodiments may also include features or structures not specifically mentioned. Reference numerals, both in connection with the description of the embodiments and in the claims, illustrate the embodiments by reference to the drawings, without being limited to these examples only. Embodiments and features, if any, described below, but not within the scope of the independent claim, are to be construed as examples useful in understanding the various embodiments S of the invention. N Consider a snowmobile 100 with reference to Fig. 1, which provides 7 side views, and Fig. 2, which provides a top view. N The snow vehicle 100 comprises a pair of feet 102, 104 configured z 30 - to carry the snow vehicle 100 as it travels on snow and / or ice 150. As shown in Figure 2, the pair of feet 102, 104 are positioned side by side so that the driver of the snow vehicle S 100 can stand on the pair of feet 102, 104, one foot each. N In one embodiment, the pair of feet 102, 104 is implemented as a pair of skis sized to slide the snow vehicle 100 on a snow-covered and / or ice-covered walkway, and on a snow- and / or ice-covered paved road. The saved path can be, for example, a snowmobile trail or a snowmobile trail. The manicured road also includes sidewalks and is typically in public use and snow is plowed as needed. The snowmobile 100 may not be designed to operate in deep snow. Depending on the design and application, the typical maximum snow depth can be, for example, 10-20 cm.
    Pairs of skis can be made of synthetic material, possibly supported by suitable metal structures. In some applications, the pair of legs 102, 104 may be implemented, alternatively, or in addition, as a pair of flexible metal legs. It should be noted that two (= pair) is the minimum number for the legs 102, 104, but in some applications it can be seen that additional legs can be added for length and / or stability. In one embodiment, the pair of legs 102, 104 simultaneously connect a pair of skis below them with a pair of resilient metal legs, which causes the snowmobile to substantially carry the pairs of skis as it travels on snow and a pair of metal legs as it travels on ice. Each - relatively low flexible metal foot can be embedded in the bottom of the ski so that it extends along the longitudinal axis of the ski.
    The snowmobile comprises an electric motor 106 and a traction ring 108 powered by the electric motor 106 and configured to provide a thrust (or traction) to the snowmobile 100 as it rotates in contact with the snow and / or ice 150.
    The electric motor 104 is powered by one or more rechargeable batteries (not shown in Figure 1). One or more rechargeable batteries may be of the same type as those used in electric bicycles. One or more rechargeable batteries may be located in a suitable location in the body, such as under the seat 114 or behind the backrest 116.
    - It should be noted that the body of a snowmobile can be similar to the metal body of an O kick carriage (or propeller), but also other types of structures that LO also utilize synthetic material, = can be designed depending on 2 use cases. As can be seen, the frame comprises two supports 118, 120 to 30 pairs of legs 102, 104. The supports 118, 120 can also be implemented as a single integrated structure, which possibly also carries one or more batteries. In one embodiment of Q, the one or more supports 118, 120 are provided with one or more shock absorbers, such as a telescopic suspension, which N utilizes a spring (implemented with a steel or titanium spring, compressed air, 35 or elastomer) and a damper.
    The electric motor 106 may be a wheel hub motor incorporated in the hub of the traction ring 108. The wheel hub motor 106 may be of the same type and configuration as - in electric wheels = used. In one embodiment, the wheel hub motor 106 may include one or more batteries. The electric motor 106 may be a direct drive system in which the motor 106 - directly drives the tire 108, or the electric motor 106 may be a geared system in which the motor 106 drives the ring 108 via a set of gears.
    In one embodiment, the body of the snow vehicle 100 comprises one or more joints 138 configured so that the snow vehicle 100 is collapsible for storage and transport. Possible folding directions are illustrated in Figure 1 by arrows 140 and 142.
    The traction ring 108 may be implemented with an inflatable tire (with a rim, and either an inner tube or non-inner tube), for example, in a tire size of 16, 18, 19, 20, 21, or 22 inches. In one embodiment, the traction ring 108 is of the low pressure type (optionally designed for low ground pressure as in an ATV or fat bike), and / or the traction ring 108 is of the winter tire type, and / or the traction ring 108 comprises pins. Winter tires usually have a tread structure with greater gaps than traditional (summer) tires. Some = winter tires have protruding metal or ceramic studs to increase traction on hard-packed snow or ice.
    - In one embodiment, the traction tire 108 may be of the same type as that used in off-road vehicles (ATV or ATV).
    In one embodiment, the snowmobile 100 may comprise a seat 114 positioned above the traction ring 108 and configured to pick up a person as a passenger. The seat 114 may also include a backrest 116.
    Both can be made of wood or synthetic material, for example.
    - The benefit of placing the seat 114 above the traction ring 108 is that the O wheel is better held on the ground if the seat 114 has a person or goods. The snow vehicle 100 may comprise a steering arrangement comprising 7 steering shafts 122 connected to the traction ring 108. The steering shaft 122 may - 30 - comprise structures similar to those of a bicycle comprising a steerer tube mounted on a frame tube and a fork, which Q is configured to hold the traction ring 108. In one embodiment, the fork may 3 comprise a shock absorber set. The steering arrangement may comprise a handlebar 124 set in a high level N (handebar-level), coupled to the steering shaft 122, 35 and configured and positioned to control the traction ring 108 while the driver is stationary with the pair of feet 102, 104. Optionally, the steering arrangement may comprise level) of a handlebars 128 coupled to the handlebars 122 and configured and positioned to control the traction ring 122 while the rider is seated 114. As shown in Figure 3, both handlebars 124, 128 may be similar to those used on a bicycle 5 where the handlebars are coupled. to a guide bracket connected to the guide tube. The high-level handlebar 124 resembles a handlebar in which a straight center portion is attached to the steering shaft 122, and each end curves back toward the driver. The handlebar 128 positioned in the seat level resembles the saddle base handlebar of the recumbent wheel.
    Figure 8 illustrates a driver 800 standing on a pair of feet 102, 104 and gripping a high level guide bar 124 to guide the traction ring 108 via the steering shaft 122.
    Figure 9 illustrates the driver 800 sitting on the seat 114 and gripping the handlebar 128 positioned in the seat level to guide the drive ring 108 through the steering shaft 122.
    Fig. 10 illustrates a driver 800 standing on a pair of legs 102, 104 and gripping a high level handlebar 124, while passenger 1000 sits on seat 114. In Fig. 11, driver 800 sits on seat 114 and snaps on seat level handlebar 128 while passenger 1000 stands on a pair of legs 102, 104. It should be noted that in Figure 10 and Figure 11, both the driver 100 and the passenger can grip the handlebar 124, 128 and also actually steer. This requires coordination and communication, but can also help in a tight place that requires careful guidance.
    The traction ring 108 is placed in front of the pair of legs 102, 104. Alternatively - the ring can be placed between the front of the pair of legs (as in the standard type - on the kick sled), but placing the front can improve grip and steering effect. O However, if a substantial portion of the traction ring 108 is placed in front of the pair of legs 102, 104 O, meaning that the front of each leg 102, 104 may be parallel to the portion of the traction ring 7, grip and control may still be improved (compared to - 30 - with the traction ring set). completely between the legs). = In one embodiment, the control arrangement comprises a first Q throttle lever 126 coupled to the high level control rod 124, 3 a second throttle lever 130 connected to the seat level control rod N 128. The control arrangement comprises a power switch 136 configured to activate the first throttle lever 126 in the first in the switch position and the second throttle lever 130 in the second switch position. The power switch 136 is also configured with an off position, in addition to the two on positions (= first and second switch positions). The power switch 136 may operate with a ignition key or other access control means to prevent unauthorized access. The throttle lever 128, 130 may be implemented as a thumb throttle.
    In fact, this means that the driver 800 can choose which throttle lever 126/130 to use: in the use case of Figure 10, the driver 800 activates the first throttle lever 126, while in Figure 11 the driver 800 activates the second throttle lever 130. In this way, the passenger 1000 cannot accelerate because his throttle lever is not not functional.
    In one embodiment, the power switch 136 may additionally or alternatively be configured to operate in at least two power positions, with the first power position providing only limited power from the electric motor 106 (or limited maximum speed snowmobile vehicle 100) and the second power position supplying full power from the electric motor 106 (or unlimited maximum speed snowmobile vehicle 100). It should be noted that the mechanical limiter can be equipped with a power switch 136: when in use, the mechanical limiter only allows the first power position for the power switch 136, which allows an elderly or young person to drive a snowmobile safely
    100.
    In one embodiment illustrated in Figure 3, the forward ends of the handlebars 128 positioned in the seat plane comprise headlights 132, 134 configured to pivot simultaneously with the steering shaft 122. Figure 3 also illustrates the principle of steering by turning the traction tire 108, according to which the snowmobile 100 advances in the direction of the arrow 300.
    Figure 4 illustrates an embodiment in which the snow vehicle O 100 comprises a footrest 112 configured and positioned to act as a LO preference in contact with the upper surface 500 of the snow 150 while the traction ring 7 108 is partially buried deeper in the snow 150. In a further embodiment - 30 = footrest 112 is hinged to the body of the snow vehicle 100 so that the footrest = 112 is configured to follow the surface formation of the upper surface 500 of the snow 150. Q Figure 5 illustrates an embodiment in which the footrest 112 is configured to pivot to a position where goods can be picked up N on the seat 114. In addition, the backrest 116 can be configured to pivot to cover the extended compartment formed by the seat 114 and the footrest 112. Alternatively, the footrest 112 may be configured to pivot so as to cover the compartment formed by the seat 114 as a cover.
    In one embodiment = illustrated in Figure 6, the snowmobile 100 comprises at least two tires 602 engageable with a pair of feet 102, 104. At least two rings 602 are configured in the driving position to support the snowmobile 100 as it travels on a surface 600 free of snow and / or ice or snow and / or the ice is covered with gravel (due to sanding, for example). As can be seen, each ring 602 may be attachable to the rear of each Leg 102, 104.
    The tires 602 may be of the closed type as in roller skates, but they may also be pneumatic tires.
    Additional rings may be placed on the front of the feet 102, 104, although as shown in Figure 6, the feet 102, 104 may be lifted off the ground 600 by up to one pair of rings 602. At least two rings 602 may be removably attachable.
    Yet another alternative is that at least two rings 602 are attached to the legs 102, 104 so that they can be placed between a driving position and a storage position (where at least two rings 602 - do not touch the ground below).
    In one embodiment illustrated in Figure 13, the electric motor 106 comprises a disengagement mechanism 110 for disengaging the electric motor 106 from the traction ring 108, which allows the traction ring 108 to roll freely while the driver provides propulsion to the snow vehicle 100 by kicking snow and / or ice 150. when driving down a hill to save one or more batteries.
    In one embodiment, the electric motor 106 is configured to implement braking functionality by preventing or stopping the rotation of the traction ring 108.
    Such braking can also be regenerative, i.e. during braking - one or more batteries are charged. - In one embodiment, the electric motor 106 is configured to rotate the traction ring 108 in the package to reverse the snow vehicle 100.
    LO In one embodiment illustrated in Figure 12, a pair of legs 7 102, 104 is configured to pick up a sled 700 configured to carry one or more persons 1200 and / or goods 1202 (at the same time as the rider is seated 114, or even stands on a pair of legs 102). , 104). As shown in Q, the carriage 700 may be provided with securing means 1204 to secure the goods 1202 3 while driving.
    Of course, the sled can 700 be provided with N seating arrangements for the occupants 1200. S 35 Referring next to Fig. 14, Fig. 15, Fig. 16, Fig. 17, Fig. 18, Fig. 19, Fig. 20 and Fig. 21, which illustrate various embodiments of the snow vehicle 100.
    In Fig. 14, the snowmobile vehicle 100 is provided with the steering arrangement described above, comprising a steering shaft 122 coupled to the traction ring 108 and a high level steering rod 124 connected to the steering shaft 122 and configured and positioned to control the traction ring 108 while the driver 800 is stationary with a pair of feet 102 , 104.
    The traction ring 108 is placed in front of the pair of legs 102, 104. In addition, each Leg of the pair of legs 102, 104 is configured to tilt so that the front portion 1406 of the Legs 102, 104 is higher than the back portion 1408 of the Legs 102, 104.
    The tilt is clearly visible in Figure 14: the angle 1404 is shown between the straight surface of the Leg 102 and the snow and / or ice 150.
    It should be noted that, as described above, the pairs 102, 104 may be made of a synthetic material, optionally reinforced with suitable metal structures, such as a body portion 1400 of a snowmobile 100.
    As seen in Figure 22, the driver 800 stands between the front portion 1406 of the legs 102, 104 and the rear portion 1408 of the legs 102, 104. When there is little or no loose snow on ground 150, the snowmobile 100 contacts the ground 150 with the traction ring 108 and the rear portions 1408 of the feet 102, 104. This increases the stability of the snowmobile 100, and also minimizes friction between the feet 102, 104 and the ground 150. However, if there is - more snow, the fronts of the feet 102, 104 1406 slide on snow 150, and the friction between the feet 102, 104 and the snow is again minimized (since the fronts of the feet 102, 104 1406 slide on snow instead of plowing snow).
    The snowmobile 100 of Figure 14 is also provided with at least two rings 602 as previously described connected to a pair of feet 102,
    104. The rings 602 can be moved between two positions.
    Fig. 15 illustrates tires 602 in a driving position in which tires 602 O carry a snowmobile 100 as it travels on a surface 600 that is free of snow and / or ro ice, or that is covered with gravel. The tires 602 may be LO height adjustable in the driving position. Fig. 14 illustrates tires 602 in a storage position where the tires = allow a pair of feet 102, 104 to carry the snow vehicle 100 as it travels on snow Q and / or ice 150. As shown in Figure 14, the tires 602 can be turned or folded 3 so as not to carry the snow vehicle 100 weight on snow N and / or ice 150 below (slight contact with snow and / or ice 150 may remain). Figure 16 and Figure 17 illustrate in detail the mechanism that allows the rings 602 to move between the storage position and the drive position, and also allow the tires 602 to be height adjustable in the drive position. The mechanism comprises an arm 1600 connected to the body 1400 at one end and to the center of the ring 602 at the other end by a mounting 1602. The arm may pivot from the storage position of Figure 16 to the drive position of Figure 17. The arm 1600 may be provided with - holes 1604, 1606. The support 1608 is fixedly connected to the body 1400 and provided with a protruding spring-loaded pin 2100 as illustrated in Figure 21. The driver can then adjust the height of each ring 602 by directing the spring-loaded pin 2100 to hole 1604 or hole 1606. note that the number of holes 1604, 1606 in our example is two, but holes 1604, 1606 can be - used more to provide more precise height adjustment. Figure 19 illustrates a collapsed snow vehicle 100 provided by the previously described embodiment, wherein the body of the snow vehicle 100 comprises one or more joints 138 configured so that the snow vehicle 100 is collapsible for storage and transport. Fig. 18 illustrates a detail of a ready-to-drive snow vehicle 100, while Fig. 20 illustrates a folded snow vehicle 100, both provided by a hinge 138 connecting two body parts 1400A, 1400B to each other. Fig. 21 illustrates a detail of the mechanism 1600, 1608 that allows the rings 602 to move between the storage position and the drive position. As can be seen, the arm 1600 has been moved so that the folded snowmobile 100 is as compact as possible. Referring next to Figure 22, Figure 23, Figure 24 and Figure 25, which illustrate various accessory embodiments for a snowmobile
    100. - As seen in Figure 22, the snowmobile vehicle 100 is of the type with an O steering arrangement comprising a steering shaft 122 connected to the traction ring ro 108 and a high level steering rod 124 connected to the LO steering shaft 122 and configured and positioned to enable - 30 - control of the traction ring 108 while the driver 800 is stationary with the pair of feet 102, 104. = The snowmobile vehicle 100 comprises a fastening mechanism 2200 configured Q to place an accessory in front of the steering shaft 122. 3 In one embodiment of Figure 23, the accessory is a passenger seat 3 2300 that picks up a passenger 1000 (such as a child, adolescent or adult, or> 35 - even a pet such as a dog or cat). The passenger seat can also be a multi-purpose bench (possibly including storage space).
    In one embodiment of Figure 24, the accessory is a storage box 2400 (or basket, for example). In one embodiment of Figure 25, the accessory is a Cooler Bag 2500 or a Heat Bag 2500.
    It should be noted that in addition to these examples, the accessory may be some other type of useful extension to the functions of the snowmobile 100, including, but not limited to: a music player, a snow plow, a snow thrower, one or more additional rechargeable batteries.
    In one embodiment, the snowmobile vehicle 100 comprises one or more rechargeable batteries 1402 configured to supply electric power to the electric motor 106 and a power output 2202 configured to supply electric power 2302, 2502 to the accessory 2300, 2500 from one or more rechargeable batteries 1402. As a result, the power output 2202 may provide 2302, 2502 to heat the seat 2300, cool the cooler 2500, heat the heat bag 2500, power the music player, power the snow thrower, etc. It should be noted that since the accessory may include one or more additional rechargeable batteries, the snowmobile 100 may be provided with a power input to 106. It should also be noted that an accessory that requires - electrical power may also include one or more rechargeable batteries that supply additional electrical power or a single electrical power to the accessory. It should also be noted that the accessory may include accessories such as a cover 2504, a lock, attachment points to carry the load, hooks, a USB (Universal Serial Bus) connection, etc. Figure 26 and Figure 27 illustrate that the snowmobile vehicle 100 comprises - in addition to a seat 2600 is placed between a pair of legs 102, 104 and configured to provide seating for at least rider 800. As shown in Figure 26, seat O 2600 may be long enough to provide seating for passenger 1200 (or ro up to two passengers 1200, depending on the length of seat 2600 and the physical dimensions of LO passengers 1200 ). The seat 2600 is sized so that - 30 = the driver 800, when seated, steers the snowmobile 100 by turning it to a high level = the set handlebar 124. The steering shaft 122 may comprise a telescopic structure Q that allows the driver 800 to adjust the height of the handlebar 124. The driver 800 and the 3rd passenger 1200 can keep their feet on a pair of legs 102, 104 or the body part N 1400. The seat 2600 can be fixedly placed in the snow vehicle 100, or S 35 - alternatively, the seat 2600 can be removably attached to the snow vehicle 100, allowing the driver 800 to vary from seat or stand between driving. Figure 27 illustrates that the seat 2600 may comprise a cover 2602 that can pivot to the open position, allowing goods 2700 to be loaded into the seat 2600 for carriage. Alternatively, the seat may comprise a door in the side wall, and the door may be opened to load goods 2700 into seat 2600. Seat 2600 may be placed low so that the bottom of the luggage compartment is slightly higher than a pair of legs 102, 104 (so that the bottom of seat 2600 does not rub snow and / or ice 150 against). The luggage compartment can also be open at one or both ends (or even open on all four sides), thus allowing long objects (such as skis, etc.) to be loaded and transported. The seat 2600 may also be a bench supported by legs (e.g., four feet rising from the pair of legs 102, 104) and, optionally, provided with a floor between the pair of legs 102, 104, thus providing flexible cargo space under the seat 2600. The described embodiments provide a safe and easy to use snow vehicle 100 for everyday use by ordinary people. As such, it - may resemble an electric bike, possibly meeting legal requirements such as 15 km / h, 25 km / h, or some other nationally set limit for top speed. In addition, legal requirements for the dimensions of a street vehicle can be taken into account in the design. Of course, since the described snow vehicle 100 defines a new type of vehicle, legislation is still evolving. Although the invention has been described with reference to one or more embodiments according to the accompanying drawings, it is clear that the invention is not limited thereto, but can be modified in various ways within the scope of the appended claims. All words and expressions are to be construed broadly and are intended to be illustrative, not limiting, of the embodiments. It is self-evident to one skilled in the art that as technology advances, the inventive principle can be implemented in a variety of ways. S OF LÖ I LO OF
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    权利要求:
    Claims (18)
    [1]
    A snowmobile (100) comprising: a pair of feet (102, 104) configured to carry a snowmobile (100) as it travels on snow and / or ice (150); an electric motor (106); and a traction ring (108) powered by an electric motor (106) and configured to provide traction to the snow vehicle (100) as it rotates in contact with snow and / or ice (150), characterized in that the traction ring (108) is positioned on a pair of feet (102). , 104) - to the front, and the snowmobile (100) further comprises a seat (2600) interposed between the pair of legs (102, 104) and configured to provide seating for at least the rider (800).
    [2]
    The snowmobile of claim 1, wherein each Foot of the pair of feet (102, 104) is configured to tilt such that the front (1406) of the Foot (102, 104) is higher than the rear (1408) of the Foot (102, 104).
    [3]
    A snowmobile according to any preceding claim, wherein the pair of feet (102, 104) comprises a pair of skis sized to slide the snowmobile (100) on a trampled path covered with snow and / or ice (150), and the snow and / or ice (150) covering a manicured road.
    [4]
    A snowmobile according to any preceding claim, wherein the snowmobile (100) comprises: a seat (114) positioned above the traction ring (108) and configured to pick up a person as a passenger; and a steering arrangement comprising a steering shaft (122) coupled to the drive ring (108), a high level guide rod (124) coupled to the steering shaft (122), configured and positioned to enable N drive rings (108) steering with the driver standing with a pair of feet (102, 104), and a 7-seat level handlebar (128) connected to the steering shaft N (122) and configured and positioned to enable the traction ring (122) z 30 - steering with the driver seated (114) . O
    [5]
    The snowmobile of claim 4, wherein the steering arrangement S comprises a first throttle lever (126) coupled to the high level N handlebar (124), a second throttle lever (130) coupled to the S seat level handlebar (128), and a power switch ( 136), which is - configured to activate the first throttle lever (126) in the first switch position and the second throttle lever (130) in the second switch position.
    [6]
    A snowmobile according to claim 4 or 5, wherein the forward ends of the handlebars (128) positioned in the seat plane comprise headlights (132, 134) configured to pivot simultaneously with the steering shaft (122).
    [7]
    A snowmobile according to any preceding claim, wherein the snowmobile (100) comprises a footrest (112) configured and positioned to act as a priority in contact with the top surface (500) of the snow (150) while the traction ring (108) is partially buried deeper. to the snow (150).
    [8]
    The snowmobile of claim 7, wherein the footrest (112) is hinged to the body of the snowmobile (100) such that the footrest (112) is configured to follow the surface formation of the top surface (500) of the snow (150).
    [9]
    A snowmobile according to claim 8, wherein the footrest (112) is configured to pivot to a position where the goods can be picked up on the seat (114).
    [10]
    A snowmobile according to any preceding claim, wherein the snowmobile (100) comprises at least two rings (602) coupled to a pair of feet (102, 104) which, in the driving position, are height adjustable and support the snowmobile (100) as it travels on a surface (600) having no snow and / or ice, or having snow and / or ice covered with gravel, and, in the storage position, allow the pair of feet (102, 104) to carry the snow vehicle (100) as it travels on the snow and / or ice (150).
    [11]
    A snowmobile according to any one of the preceding claims, wherein the traction tire (108) is of the low pressure type, and / or the traction tire (108) is of the winter tire type, and / or the traction tire (108) comprises studs.
    [12]
    A snowmobile according to any preceding claim, wherein - the electric motor (106) comprises a disengagement mechanism (110) for disengaging the O electric motor (106) from the traction ring (108) allowing the traction wheel ro (108) to roll freely while the driver provides power to the snowmobile 0 (100) by kicking on snow and / or ice (150). - | _ 30
    [13]
    A snowmobile according to any preceding claim, wherein = the electric motor (106) is configured to rotate the traction ring (108) on the Pack Q to reverse the snowmobile (100). 3
    [14]
    A snowmobile according to any preceding claim, wherein the N pair of feet (102, 104) is configured to pick up a sled (700) configured to carry one or more persons (1200) and / or cargo (1202).
    [15]
    A snowmobile according to any preceding claim, wherein the body of the snowmobile (100) comprises one or more joints (138) configured so that the snowmobile (100) is collapsible for storage and transport.
    [16]
    A snowmobile according to any preceding claim, wherein the snowmobile (150) is of the kick sled type.
    [17]
    A snowmobile according to any preceding claim, wherein the snowmobile (100) comprises a steering arrangement comprising a steering shaft (122) coupled to - a traction ring (108), a high level guide bar (124) coupled to the steering shaft (122), and is configured and configured to allow control of the traction ring (108) while the rider is standing on the pair of feet (102, 104); and a mounting mechanism (2200) configured to place in front of the steering shaft (122) an accessory comprising one or more of the following: a passenger seat (2300), a storage box (2400), a cooler bag (2500), a heat bag (2500), a music player, a snow plow, a snow thrower , one or more extra rechargeable batteries.
    [18]
    The snowmobile of claim 17, wherein the snowmobile (100) comprises: one or more rechargeable batteries (1402) configured to supply electric power to the electric motor (106); and a power output (2202) configured to supply electrical power (2302, 2502) to the accessory (2300, 2500) from the one or more rechargeable batteries (1402). =
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    同族专利:
    公开号 | 公开日
    FI128980B|2021-04-30|
    FI12925Y1|2021-03-31|
    FI20206119A1|2021-04-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
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    优先权:
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    FI20206119A|FI128980B|2020-11-06|2020-11-06|Snow vehicle|
    FIU20214034U|FI12925Y1|2020-11-06|2021-03-15|Snow vehicle|
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