Patent Grant
11266899
The present disclosure relates to a coupling assembly between a footwear and a sport equipment which exploits magnetic elements.
Examples of this sport equipment can be for example skis, snowboards or water skis, surfboards, windsurf or kitesurf boards, bicycles and generally all sport equipment that needs to be bound to the user's feet.
In the winter sports field, the bindings fixing the boot to the skis or to the snowboard are essentially mechanisms of the mechanical type which use interlocks and springs to ensure a stable binding, which must however be able to be released in the event of a danger to the user.
For example, for a snowboard the boot is fixed to the board, by a binding, fixed to the board in which the boot is fitted, with the aid of ratchets, operated manually by the user, and is bound to the snowboard.
Similarly for a ski, the boot is inserted into a binding on the ski and which determines a housing for the boot. The stable binding is generated by exerting pressure with the boot on the ski, which determines the locking of a snap-on mechanism present in the binding. To release the boot from the ski generally on the binding there is a sort of button, which can be advantageously pressed with the aid of a ski pole, which determines the release of the snap-on mechanism.
These are generally quite complex mechanisms, and which in any case always require a manual operation to both bind the boot to the equipment and subsequently to release it.
The present disclosure sets out to overcome the aforesaid drawbacks, linked to both the mechanical conformation of the bindings and the difficulty in manually operating them, by realizing a coupling assembly between a footwear and a sport equipment that uses magnetic elements to ensure the binding and releasing. In this way the footwear is hooked onto the equipment in a quick and safe manner, without any awkward movements for the user.
One aspect of the present disclosure regards a coupling assembly between a footwear and a sport equipment.
The characteristics and advantages of the present disclosure will be clearer and evident from the following illustrative and non-limiting description of an embodiment, which regards a coupling assembly between a boot and a snowboard, with reference to the attached figures.
In an equivalent manner the present disclosure can be applied to boots and skis and other sport equipment.
These figures illustrate respectively:
With reference to the cited figures, the coupling assembly according to the present disclosure comprises a footwear 2, in the embodiment illustrated conformed like a boot, comprising at least one housing near the sole suitable for receiving a first metallic element 21 and a binding 3 fixed on the sport equipment, provided with a seat for the insertion of said footwear, also equipped with at least a second metallic element 31. Alternatively, the first 21 or the second 31 metallic element is an electromagnet, which when activated is magnetically bound to the other element 31 or 21.
For the purpose of the present disclosure, electromagnet means a metallic element to which electrical energy is supplied, for example by means of a conductor wire coil which acts as a magnet when the said electric current passes through it, but which stops being a magnet when the current stops.
The positioning of the first metallic element on the footwear and the second metallic element in the binding is such that it places the two metallic elements at a minimum distance, substantially in contact, when the footwear is placed on the binding, so as to allow the magnetic field generated by the electromagnetic metallic element to interact in an optimal way on the other.
Therefore, when the electromagnet is activated and the footwear is placed in the housing the footwear is bound stably to the equipment.
The metallic elements are preferably plate-shaped, so that they can better be coupled together. Preferably, the electromagnet is the first metallic element, namely the one inserted in the sole of the footwear, which also supports at least one compartment 22 to house one or more power supply batteries B of said electromagnet and one electronic microprocessor board S for controlling the assembly.
Preferably, there are two first metallic elements 21, one positioned near the tip and one near the heel of the footwear.
The binding 3 provides two magnetic elements 31 located in correspondence of those provided on the boot in order to perfectly mate each other.
Alternatively on the binding a single plate is provided.
According to an alternative embodiment, the electromagnet is the second metallic element 31, the one provided on the sport equipment binding, on said binding being also housed the battery and the electronic control board.
Furthermore, the coupling assembly comprises an electronic control interface 4, connectable in wireless mode (for example via BLUETOOTH® wireless technology) to said electronic board, which may be in the form of a bracelet, a portable electronic device such as for example a smartphone, or a smartwatch, which is provided with suitable buttons, or similar control elements of the electromagnets and generally speaking of the electronic board.
The assembly is also provided with a proximity sensor monitored constantly by said electronic board which allows the electronic board to understand when the footwear is properly positioned, so as to allow the passage of the power supply for the electromagnets. Among other things, this prevents the circuit from being activated incorrectly outside the binding, preventing an unnecessary waste of the batteries.
In the illustrated embodiment the footwear is a boot and the sport equipment is a snowboard.
A rear buckle 32 houses the rear part of the boot, facilitating the fit. Said buckle 32 is also used to position an abutment element 33 for the proximity sensor 23 located in the rear part of the boot. This abutment element 33 may advantageously be a magnet.
The electronic board mainly controls the activation of the electromagnets, and also monitors the proximity sensor and the batteries, communicating with the coupling interface to activate and monitor the boot hooking and unhooking.
According to a characteristic of the disclosure, the said board may be equipped with an electronic charging device, which exploits the movement of the boot or the equipment if the board is positioned on the same equipment. Inside said devices are provided with a series of coils and magnets, which with movement form an electromagnetic field around the said coils useful for generating electrical energy.
Said interface 4, illustrated by way of example in the form of a bracelet, is powered autonomously and is equipped with electronic controls to enable/disable the electromagnets and consequently hook/unhook the boot to/from the snowboard. Furthermore, it is equipped with LED lights 41 and an acoustic signalling device 42 useful for allowing the user to promptly monitor the operating status of the whole equipment.
For example, the magnetic hooking between the boots and the binding above the snowboard is therefore possible by means of a prolonged press (2-3 seconds) of a dedicated button 43 (preferably a button for each boot) which activates the power supply to the electromagnets.
To avoid accidents or pointless discomfort, as already described, a proximity sensor is fitted in the rear part of the boot which, when in the exact position on the magnet located on the frame of the binding, ensures that the microprocessor understands when the boot is in the correct position and allows the activation of the electromagnets.
Again for the purpose of guaranteeing the safety of the user, the footwear or sport equipment has a safety release device (i.e. a button) which at any time allows the user to free the footwear from the binding.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102018000009359 | Oct 2018 | IT | national |
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| Number | Date | Country | |
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| 20200114250 A1 | Apr 2020 | US |
