Patent Description:
There are various wheelchairs known, both with a mechanical/manual drive and with an electric drive. Many of them are equipped with seat level adjustment mechanisms. For example, the American patent publication <CIT> discloses a foldable wheelchair using piston-cylinder type hydraulic drives to lift the seat. The British patent publication <CIT> discloses an engine vehicle with a seat level adjustment function, also using hydraulic piston-cylinder type drives. The <CIT> document discloses a wheelchair, in which the seat level adjustment is performed continuously, using a regulated bar supporting the seat and the backrest. The Chinese disclosure <CIT> of a utility model discloses a wheelchair using an X-type frame (a scissor mechanism) under the seat. The wheelchair described in the Indian patent application <CIT> executes adjustment of the seat level with the backrest using four actuators, enabling any tilt of the seat plane in relation to the platform with wheels. The <CIT> document discloses an electric wheelchair, which uses two wheels with (driving) axles and a third, idle wheel providing a stabilising function.

Use of a hubless wheel in a wheelchair is described in the patent publication <CIT>. This document discloses a wheel driven by a friction-based drive element or by a meshing between a pinion and an internal gear integrated into the driven wheel. The patent application <CIT> discloses a manual wheelchair equipped with hubless wheels, which offers the ability to tilt the seat, installed in grooves of the wheel rims.

Chinese patent application <CIT> discloses a rolling device adapted to roll on a ground surface. The device includes at least one motorized wheel including a circular stator and a circulator rotor. The stator may include a circular slot and a plurality of electromagnetic coils located in the circular slot so that at least two electromagnetic coils are arranged facing one another. The circular motor may include a circular strip having side walls and a free end edge connecting the side walls, as well as a contact surface with the ground, the circular strip including magnetic elements arranged on the side walls thereof. The circular rotor and the circulator stator may be assembled by means of assembly means provided on the circular stator.

Demand for new drive mechanisms offering additional functionalities of mechanical vehicles, such as the ability of easy adjustment of the seat/platform level still exists in the field.

Thus, the objective of the invention was to develop such a drive module for personal mobility vehicles, which enables easy seat/platform level adjustments, while decreasing the weight of the vehicle.

This objective has been implemented using a hubless drive module with an integrated seat/platform level mechanism, including shock absorption functionality, as well as by an electric wheelchair using such a module.

Thus, the subject of the invention is a hubless drive module including a rim with an inner driving-guiding race and a tyre on the outer side of the rim, installed rotatably on a main bearing panel and a drive motor with a power transmission system onto the driving race and a control module, characterised in that the hubless drive module includes a platform adjustment mechanism installed rotatably inside the rim and connected with the main bearing panel, wherein the platform level adjustment mechanism includes a top driven module and a bottom driven module connected using at least one guide, a screw unit located between the top driven module and the bottom driven module, provided with a cushioned mechanism is for connecting with the platform, a motor of the platform level adjustment mechanism and a threaded bar driven into rotation by the motor of the platform level adjustment mechanism, wherein the cushioned mechanism for connecting with the platform includes a platform fixture, a base and a shock absorbing element connecting the platform fixture and the base, and the platform fixture and the base may move along the guide and the base is connected with the threaded bar using a corresponding inner thread, ensuring base movement occurring together with rotation of the threaded bar, thus executing the platform level adjustment.

The main bearing panel is preferably equipped with at least one roller moving along the inner driving-guiding race.

The main top driven panel and/or the bottom driven is preferably equipped with at least one roller moving along the inner driving-guiding race.

The shock absorbing element is preferably provided as a spring, an elastomeric element or a pneumatic/oil shock absorber.

The hubless drive module preferably also includes a battery module.

The subject of the invention also includes a wheelchair with a seat and at least one passive wheel, and also includes the hubless drive module described above, wherein the seat comprises the platform.

The wheelchair is preferably equipped with at least one anti-tilt module.

The subject of the invention is presented in embodiments in the figures, where:.

The main bearing panel (<NUM>) preferably consists of two closing sheets (side sheets) connected together using bolts, rivets or other fixtures, through stiffening elements and stiffening elements with installed rollers cooperating with the race (<NUM>) guiding the wheel and with the guiding fin (<NUM>). The hubless drive module also contains a drive motor (<NUM>) and a mechanism (<NUM>) adjusting the level of the platform (<NUM>) containing the cushioning, installed rotatably inside the rim (<NUM>) and connected to the top bearing panel (<NUM>). The motor (<NUM>) of the mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>) drives the threaded bar (<NUM>) into rotation using the transmission (<NUM>) of the screw (<NUM>) drive. The mechanism (<NUM>) is attached to side sheets, described herein as the main bearing panel (<NUM>). In order to optimise the force distribution in the system at its ends, guiding roller sets are installed at its ends, stabilising the system in the rim (<NUM>), both centrally and within the wheel axle. The drive module according to the invention additionally includes a battery module (<NUM>).

<FIG> schematically presents the mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>), which includes the top driven module (<NUM>) and the bottom driven module (<NUM>), also responsible for mechanism stabilisation in the rim (<NUM>) as a part of the stabilising system, connected together using at least one guide (<NUM>), a screw system (<NUM>) located between the top driven module (<NUM>) and the bottom driven module (<NUM>), equipped with a cushioned mechanism (<NUM>) connecting with the platform (<NUM>)/seat (<NUM>), a motor (<NUM>) (not shown in <FIG>, visible in <FIG>) of the mechanism (<NUM>) adjusting the level of the platform (<NUM>) and a threaded bar (<NUM>) in the form of a trapezoidal screw, driven into rotation by the motor (<NUM>). The cushioned mechanism (<NUM>) connecting with the platform (<NUM>)/seat (<NUM>) includes a fixture (<NUM>) of the platform (<NUM>) and the base (<NUM>), as well as a cushioning element (<NUM>) connecting the fixture (<NUM>) of the platform (<NUM>) and the base (<NUM>). The cushioning element (<NUM>) is preferably provided as a spring. The fixture (<NUM>) of the platform (<NUM>) and the base (<NUM>) may move along the guide (<NUM>) and the base (<NUM>) is connected to the threaded bar (<NUM>) via the corresponding, internal thread, ensuring movement of the base (<NUM>) occurring together with rotation of the threaded bar (<NUM>), thus adjusting the level of the platform (<NUM>)/seat (<NUM>).

The top driven module (<NUM>) and/or the bottom driven module (<NUM>) is preferably equipped with at least one roller (<NUM>) moving along the inner driving-guiding race (<NUM>).

<FIG> presents cross-sections through the top, middle and bottom parts of the mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>).

<FIG> schematically presents a hubless drive module with a platform/seat position adjustment mechanism and shock absorption and a drive system according to the invention, in a general view, equipped with an anti-tilt module (<NUM>) including anti-tilt wheels, connected with the main bearing panel (<NUM>) using a connecting element (<NUM>). The drive module also includes a rear, driven wheel (<NUM>) with a shock absorber (<NUM>) of the passive wheel, connected with the drive module using a suspension arm (<NUM>). The drive module is also equipped with a battery module (<NUM>). The screw module (<NUM>) includes the screw (<NUM>) with a motor (<NUM>) and a cushioned mechanism (<NUM>) connecting with the platform (<NUM>), not shown.

<FIG> and <FIG> schematically present the wheelchair according to the invention. The wheelchair has a seat (<NUM>), two small rear driven wheels (<NUM>) with shock absorbers (<NUM>) of driven wheels (<NUM>) and a hub-free drive module described above. The main bearing panel (<NUM>) is equipped with at least one roller moving along the inner driving-guiding race (<NUM>). The wheelchair is also equipped with two anti-tilt modules (<NUM>). The drive motor (<NUM>) is connected with the driving race (<NUM>) using a power transmission system (<NUM>). The battery module (<NUM>) is also shown.

The races (<NUM>) may be formed as bars (<FIG>) or an open profile (<FIG>).

The anti-tilt module (<NUM>) containing anti-tilt wheels is connected with the main bearing panel (<NUM>) via a connecting element (<NUM>), for example a pin. The anti-tilt module (<NUM>) may be additionally provided with a mechanism allowing it to hide within the outline of the driving wheel if an obstacle is crossed and to return to the working position once the obstacle is overcome.

<FIG> presents an alternative execution of the mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>). The mechanism (<NUM>) includes a bolt (<NUM>) of the seat level adjustment mechanism (<NUM>), the bearing profile of stabilising rollers (<NUM>) which moves along the guide (<NUM>) using stabilising rollers (<NUM>). The mechanism (<NUM>) also includes the motor (<NUM>) of the mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>), which drives the threaded bar (<NUM>) using the transmission (<NUM>) of the screw (<NUM>) drive. The figure also shows the attachment surface of the fixture (<NUM>) of the platform (<NUM>)/seat (<NUM>), which includes a sliding bushing (<NUM>) of the shock absorbing module, through which the screw (<NUM>) is passing.

The base (<NUM>) is provided with a leveling roller (<NUM>), and the shock absorber (<NUM>) in the form of a spring connects the base (<NUM>) with the fixture (<NUM>).

<FIG> schematically presents an alternative rolling mechanism (<NUM>) adjusting the level of the platform (<NUM>)/seat (<NUM>) - a cross-section through the axis of stabilising rollers with a single guide (<NUM>), in which the guide (<NUM>) has the form of an open profile.

The subject of the invention is a hubless drive module for mechanical vehicles, in particular for electric mobility devices, electric wheelchairs, as well as autonomous pallets, other personal mobility vehicles, such as scooters and all-terrain vehicles. The hubless drive module according to the invention is equipped with an integrated mechanism adjusting the level of the seat (in the case of wheelchairs) or of a platform (in the case of scooters or autonomous pallets).

Additionally, the mechanism adjusting the seat level is provided with a springing/shock absorbing mechanism, which may be a spring, an elastomer or a pneumatic/oil shock absorber.

Claim 1:
A hubless drive module including a rim (<NUM>) with an inner driving-guiding race (<NUM>) and a tyre (<NUM>) on the outer side of the rim (<NUM>), installed rotatably on a main bearing panel (<NUM>) and a drive motor (<NUM>) with a power transmission system (<NUM>) transmitting power onto the driving-guiding race (<NUM>) and a control module, wherein the hubless drive module includes a platform level adjustment mechanism (<NUM>) installed rotatably inside the rim (<NUM>) and connected with the main bearing panel (<NUM>), wherein the platform level adjustment mechanism (<NUM>) includes a top driven module (<NUM>) and a bottom driven module (<NUM>) connected using at least one guide (<NUM>), a screw unit (<NUM>) located between the top driven module (<NUM>) and the bottom driven module (<NUM>), provided with a cushioned mechanism (<NUM>) for connecting with a platform (<NUM>), a motor of the platform level adjustment mechanism (<NUM>) and a threaded bar (<NUM>) driven into rotation by the motor of the platform level adjustment mechanism (<NUM>), wherein the cushioned mechanism (<NUM>) for connecting with the platform (<NUM>) includes a platform fixture (<NUM>), a base (<NUM>) and a shock absorbing element (<NUM>) connecting the platform fixture (<NUM>) and the base (<NUM>), and the platform fixture (<NUM>) and the base (<NUM>) may move along the guide (<NUM>) and the base (<NUM>) is connected with the threaded bar (<NUM>) using a corresponding inner thread, ensuring base (<NUM>) movement occurring together with rotation of the threaded bar (<NUM>), to execute the platform (<NUM>) level adjustment.