WHEEL SYSTEM AND ASSOCIATED TRANSPORT DEVICE

专利摘要:
The invention mainly concerns a wheel system (S) designed to be rotated about a central axis (X), comprising two distinct parts (R1, R2) arranged to pivotally connect relative to one another. at the other around the central axis (X), the wheel system (S) is designed to occupy two positions, a first position, called up position, in which the two distinct parts (R1, R2) are superposed and a second position, called the standard position, in which the two distinct parts (R1, R2) are angularly offset from each other so as to form a disk in the plane perpendicular (P) to the central axis (X), the transition from the rising position to the standard position is effected by means of a translation movement, along the central axis (X), of one of the distinct parts (R2) by report to the other (R1).
公开号:FR3062625A1
申请号:FR1751036
申请日:2017-02-08
公开日:2018-08-10
发明作者:Ursy Bonheur MAKANGA；Victor LAMBERT；Herve Le Saux
申请人:Kerostin Medical；
IPC主号:

专利说明:

® FRENCH REPUBLIC
NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number:
(to be used only for reproduction orders)
©) National registration number
062 625
51036
COURBEVOIE © IntCI ⁸
B 62 B 5/02 (2017.01)
PATENT INVENTION APPLICATION
A1
©) Date of filing: 08.02.17. © Applicant (s): KEROSTIN MEDICAL Company by (30) Priority: simplified actions - FR. @ Inventor (s): MAKANGA URSY BONHEUR, LAM- BERT VICTOR and LE SAUX HERVE. (43) Date of public availability of the request: 10.08.18 Bulletin 18/32. ©) List of documents cited in the report preliminary research: Refer to end of present booklet (© References to other national documents ® Holder (s): KEROSTIN MEDICAL Company by related: simplified actions. ©) Extension request (s): (© Agent (s): GEVERS & ORES.
WHEEL SYSTEM AND ASSOCIATED TRANSPORT DEVICE.
FR 3 062 625 - A1 (5 /) The invention relates mainly to a wheel system (S) intended to be driven in rotation about a central axis (X), comprising two distinct parts (R1, R2) arranged so to be in pivot connection with respect to each other around the central axis (X), the wheel system (S) is designed so as to occupy two positions, a first position, called the ascent position, in which the two separate parts (R1, R2) are superimposed and a second position, called the standard position, in which the two separate parts (R1, R2) are angularly offset from one another so as to form a disc in the plane perpendicular (P) to the central axis (X), the transition from the ascent position to the standard position being effected by means of a translational movement, along the central axis (X), from one of the separate parts (R2) with respect to the other (R1).

Wheel system and associated transport device
The invention relates to a wheel system intended to be driven in rotation about an axis and an associated transport device.
It is known from documents US Pat. No. 2,706,640, FR 2,640,218 and FR 2,502,090, to provide carts, or wheelchairs, with wheel systems allowing them to facilitate the passage of obstacles, such as stairs.
The solutions of the prior art consist of complex systems of wheels mounted on structures, themselves pivotally mounted relative to the carriage or relative to the wheelchair to be moved. These solutions often weigh down the entire cart / wheelchair.
One of the objectives of the invention consists in proposing a solution making it possible to facilitate the passage of obstacles, such as stairs, to a trolley or a wheelchair, without weighing down the structure.
Thus, the invention relates to a wheel system intended to be driven in rotation about an axis, called the central axis, comprising two distinct parts, the two distinct parts being arranged so as to be in pivot connection with respect to the other around the central axis.
According to the invention, the wheel system is designed so as to occupy two positions, a first position, called the ascent position, in which the two distinct parts are superimposed so as to form, in a plane perpendicular to the central axis, branches which extend radially from the central axis, a separate part then entirely covering the other separate part, and a second position, known as the standard position, in which the two distinct parts are angularly offset from one other, around the central axis, so as to form a disc in the plane perpendicular to the central axis, in particular a solid disc, the transition from the ascent position to the standard position - conversely from the standard position to the up position - by means of a translational movement, along the central axis, of one of the separate parts with respect to the other.
The solution of the invention consists of a single wheel system, which is itself composed of two parts which are movable relative to one another.
A relative position of these two parts, one with respect to the other, is dedicated to the passage of obstacles, for example the ascent of a flight of stairs. Another relative position of these two parts with respect to each other is rather provided for standard use, for example moving over an area free of obstacles.
On the other hand, the wheel system of the invention is articulated around a single central axis, and the passage to one or the other of the two positions of the wheel system is made by a pivot connection sliding around / along this same central axis.
The wheel system of the invention therefore has a simple structure, easily integrated into any transport device. In other words, when the wheel system is assembled with a transport device, it facilitates the passage of obstacles, such as stairs, without weighing down the general structure of this transport device.
According to different embodiments of the invention, which can be taken together or separately:
- the wheel system of the invention further comprises a mechanical and / or electromagnetic device intended to ensure the passage from the ascent position to the standard position and / or from the standard position to the ascent position,
- the wheel system of the invention also includes an electronic control device making it possible to control the passage from the climb position to the standard position and / or from the standard position to the climb position,
the two distinct parts are different in their shape and their dimensions so as to be complementary, in particular in standard position,
- A first of the two separate parts is in the form of an independent cross, known as a carrier cross, the carrier cross comprising a plurality of branches, the branches having a functional profile allowing them to hang and / or accompany a rotational movement of the wheel system, in the up position, when it comes up against a riser or stair nosing,
said functional profile includes hollows and reliefs which alternate around the periphery of said carrying cross,
- The second of the two separate parts is in the form of an independent cross called a rolling cross, the rolling cross comprising a plurality of branches, the branches being designed so as to cooperate with the hollows and reliefs of the functional profile of said carrying cross,
the branches of said second separate part comprise, in the vicinity of their distal end, outgrowths of material intended to fill the hollows in the functional profile of said first separate part, in particular when the system is in the standard position,
said first separate part comprises chamfered edges at the level of the recesses and / or reliefs of its periphery,
- a separate part is mounted on the hub of the other separate part.
The invention also relates to a transport device equipped with at least one wheel system as described above, the wheel system being assembled along an axis, called the axis of rotation of the wheel system of the transport device.
As an alternative, the transport device will be equipped with at least two wheel systems as described above, the wheel systems being assembled along a single axis, called the axis of rotation of the wheel systems of the transport device, on a single axle or on an axle specific to each wheel system.
According to different embodiments of the invention, which can be taken together or separately:
- the transport device of the invention comprises a transport chair for a person with reduced mobility,
- The transport device of the invention further comprises an elevation system intended to be actuated during the transition from the ascent position to the standard position and / or from the standard position to the ascent position of the at least one wheel system, in particular so as to facilitate passage between these two positions, said elevation system being configured to rest on a ground during its actuation so as to take off the wheel system from the ground,
- the wheel systems are designed so as to be removably assembled to said transport device,
- the transport device of the invention comprises a receptacle intended for the transport of various objects,
- The transport device of the invention comprises at least one motor intended to rotate the axle, or the axles, of the transport device.
The invention will be better understood, and other objects, details, characteristics and advantages thereof will appear more clearly during the detailed explanatory description which will follow, of at least one embodiment of the invention given in title of example purely illustrative and nonlimiting, with reference to the attached schematic drawing:
FIG. 1 is a schematic illustration of an exemplary embodiment of one of the two separate parts of the wheel system according to the invention, in front view,
FIG. 2 represents the same part as that illustrated in FIG. 1, in a slightly inclined profile view,
FIG. 3 is a schematic illustration of an exemplary embodiment of the other of the two separate parts of the wheel system according to the invention, in front view,
FIG. 4 is a schematic illustration of an exemplary embodiment of a wheel system according to the invention, in standard position, in front view, in particular from the front side,
- Figure 5 is the same illustration as in Figure 4, but on the back side,
FIG. 6 is a diagrammatic illustration of the same exemplary embodiment as that illustrated in FIG. 5, in the mounted position,
FIGS. 7a and 7b are schematic illustrations of an exemplary embodiment of a single axle of a transport device according to the invention on which two wheel systems according to the invention are assembled, respectively in the mounted position and in standard position,
FIG. 8 is a diagram making it possible to recall the usual vocabulary usually used for a staircase,
FIG. 9 schematically illustrates an exemplary embodiment of a transport device according to the invention provided with at least one wheel system according to the invention, in the mounted position,
FIG. 10 schematically illustrates the same example as that illustrated in FIG. 9, the wheel system being in the standard position,
- Figure 11 is a schematic illustration of the embodiment in which a separate part is mounted on the hub of the other separate part, the wheel system being in the mounted position.
As illustrated in FIGS. 4 to 6, the invention relates to a wheel system S intended to be driven in rotation about an axis, called the central axis X, comprising two distinct parts R1, R2, the two distinct parts R1, R2 being arranged so as to be in pivot connection with respect to each other around the central axis X.
According to the invention, the wheel system S is designed so as to occupy two positions.
The first position, called the ascent position, is illustrated in particular in FIG. 6. In this position, the two distinct parts R1, R2 are superimposed so as to form, in a plane perpendicular P to the central axis X, branches 1114 , 21-24 which extend radially from the central axis X.
The expression "plane perpendicular P to the central axis X" is understood here to mean the plane of the sheet for FIGS. 4 to 6.
The orthogonal projection of the distinct parts R1, R2 in this plane P, when the wheel system S is in the mounted position, allows only one of the two distinct parts R1 to be seen. Indeed, in this position, a separate part R1 fully covers the other separate part R2 and thus forms branches, or arms 11-14 (see Figure 6). The distinct part which is visible then depends on the positioning of the user relative to the perpendicular plane P. If he observes the wheel system S, in the mounted position, on the front side, he will only see the distinctive part R1, l other R2 then being hidden. If he looks at the wheel system S, in the up position, on the back side, he will also see the distinctive part R2, the other R1 being still partially visible (see Figure 6).
The second position, called the standard position, is illustrated in particular in FIG. 4. In this position, the two distinct parts R1, R2 are angularly offset from one another, around the central axis X so as to form, in the plane perpendicular P to the central axis X defined above, a solid disc. The orthogonal projection of the distinct parts R1, R2 in this plane P, when the wheel system S is in the standard position, makes it possible to see the two distinct parts R1, R2, this that the wheel system is observed from the front side (see figure
4) or back (see Figure 5).
The periphery of the distinct parts R1, R2 draws a circle in this perpendicular plane P.
We will call first separate part R1 the part illustrated in Figure 3. This first separate part R1 is here shown full P. It is nevertheless possible to provide material recesses within each branch 11-14 to reduce the weight, this without departing from the scope of the invention. The first separate part R1 will preferably have a single thickness of material.
The wheel system S of the invention will comprise, for example, a mechanical and / or electromagnetic device (not illustrated here) intended to ensure the passage from the ascent position to the standard position and / or from the standard position to the position climb.
This device allows the relative rotation of the first distinctive part R1 with respect to the other R2, called second distinctive part thereafter.
This device advantageously makes it possible to angularly move, around the central axis X, the first and second distinctive parts R1, R2 relative to one another.
In the context of the example illustrated here, with four branches 11-14, 21-24 for each of the distinctive parts R1, R2, this rotation is provided to cause one of the distinctive parts R2 to move, by approximately 45 °, with respect to to the other R1.
As illustrated in FIGS. 1 and 2, the second distinctive part R2 will comprise branches, or arms 21-24, the ends of which, in particular distal, are protuberances 21 '-24' offset from the plane which contains said branches 21-24 . Thus, in FIG. 1, the protrusions 21 ′ -24 ′ are in the same plane as the plane P of the sheet, while the branches 21-24 are themselves in an elevated plane of the thickness e which is that protrusions 21 '-24' (see Figure 2).
Thus, with regard to the particular shape given to the second distinctive part R2, the transition from the position of rise to the standard position reciprocally from the standard position to the position of rise - is also done by means of a movement of translation, along the central axis, of one of the distinct parts with respect to the other. This translational movement is therefore added to that of the pivot around the central axis X and it is a sliding pivot connection which exists between the two distinctive parts R1, R2 to ensure the passage from one to the other of the rise positions to standard and vice versa.
This is why the mechanical and / or electromagnetic device mentioned above will advantageously also ensure a relative translational movement of the first distinctive part R1 relative to the other R2, along the central axis X.
The outgrowths 21 "-24" will advantageously come integrally with the branches 21-24.
The protrusions 21 '- 24' 'may also be provided in a material other than that of the branches 21-24 and therefore fixed to the free end of the said branches 21-24 in a second step.
By way of example (not shown), the device comprises at least one electromagnetic lock and an electric motor.
The electromagnetic lock is designed to move in translation along the central axis X the second separate part R2 relative to the first separate part R1, by magnetic attraction, between the standard position and a so-called intermediate position, when said electromagnetic lock is in a state activated.
For this, the second separate part R2 comprises for example one or more portions made from a magnetic material. The second separate part R2 can for example be provided with a plywood made from a metallic material.
When the wheel system S is in the intermediate position, the second separate part R2 is arranged opposite the first separate part R1 relative to the plane P and in contact with the electromagnetic lock. In the intermediate position, the first separate part R1 and the second separate part R2 are also angularly offset from one another.
The second separate part R2 is for example kept in contact with the electromagnetic lock, when the wheel system S is in the up position. In other words, the electromagnetic lock remains in the activated state, when the wheel system S changes from the intermediate position to the mounted position and when the wheel system S is in the raised position.
The electromagnetic lock is further designed to release the magnetic attraction operated on the second separate part R2, when said electromagnetic lock is in an inactivated state.
The electromagnetic lock is for example intended to be mounted on a frame of the transport device T comprising the wheel system S.
The electric motor is designed to pivot, around the central axis X, the first separate part R1 relative to the second separate part R2, between the intermediate position and the mounted position, when said motor is in an activated state.
The motor is for example intended to be mounted on a frame of the transport device T comprising the wheel system S.
The device can also comprise elastic return means designed to move in translation along the central axis X the second distinct part R2 with respect to the first distinct part R1, in the direction of the first distinct part R1, when the electromagnetic lock is in the inactivated state. Thus, when the electromagnetic lock releases the magnetic attraction operated on the second separate part R2 and the wheel system S is in the intermediate position, the second separate part R2 moves to the standard position.
The elastic return means comprise for example one or more compression springs intended to be mounted between the second separate part R2 and the frame of the transport device T comprising the wheel system S.
Thus, to pass from the standard position to the ascent position, the electromagnetic lock is first activated, so as to move in translation the second separate part R2 from the standard position to the intermediate position. When the wheel system S is in the intermediate position, the electromagnetic lock remains in the activated state, thus blocking any translational or rotational movement of the second separate part R2. Then, the motor is itself activated, so as to rotate the first separate part R1 alone, the second separate part R2 being blocked by the electromagnetic lock, up to the up position.
Conversely, to go from the ascent position to the standard position, the motor is first activated so as to rotate the first distinct part R1 alone, the second distinct part R2 having remained blocked by the electromagnetic lock, to the intermediate position. Then, when the wheel system S is in the intermediate position, the electromagnetic lock releases the magnetic attraction operated on the second separate part R2. The second separate part R2 then moves to the standard position under the effect of the elastic return means.
Alternatively, the electromagnetic lock can also be designed to move the second separate part R2 by magnetic attraction in an inactivated state and to release said magnetic attraction in an activated state.
The device comprises for example at least a pair of two electromagnetic suction cups arranged so as to come into contact with portions of the second separate part R2 arranged diametrically opposite with respect to the central axis X, when the wheel system S is in the intermediate position and in the ascent position.
It is interesting to note that the device, whether mechanical and / or electromagnetic, can be actuated from the outside, for example from a distance.
To this end, the wheel system S of the invention may advantageously include an electronic control device (not illustrated here) making it possible to control the passage from the ascent position to the standard position and / or from the standard position to the up position.
It is also interesting to note that the two distinct parts R1, R2 are different in their shape and their dimensions so as to be complementary, in particular in the mounted position.
More specifically, the first separate part R1, R2 is in the form of an independent cross R1, called a carrier cross R1 and comprising a plurality of branches 11-14.
As illustrated in FIG. 3, the branches 11-14 advantageously have the same functional profile allowing them to hang and / or accompany a rotational movement of the wheel system S, in the mounted position, when the latter abuts on a riser CM or a stair nosing N of a staircase.
Figure 8 illustrates what we mean by CM riser, N step nosing, M step, lap of step G and height of step H.
FIG. 3 includes marks A, B and C at the level of one of said branches 11. These three zones are functional zones A, B, C:
• the zone marked A serves as a grip on the step, in the vicinity of the stair nosing N, • the zone marked C corresponds to a circular part which is intended to cooperate on the step M, by rolling over it, • the zone marked B is a part which prevents the grip being made on the next step M + 1 and / or, a part which facilitates the tilting of the wheel system S when it comes into contact with a riser CM.
Advantageously, the functional profile of the carrying cross R1 includes hollows and reliefs which alternate around its periphery.
By "hollow" is meant the absence of material corresponding to zones A / B between two successive branches 11-14 around / around the periphery of the first separate part / rolling cross R1. “Relief” is understood to mean the material corresponding to the zones C around / around the periphery of the first distinct part / rolling cross
R1.
The second R2 of the two separate parts R1, R2 is in the form of an independent cross called the rolling cross R2 and comprising a plurality of branches 21-24.
As mentioned above, the branches 21-24 are designed so as to cooperate with the hollows and reliefs of the functional profile of the carrier cross R1, in particular by means of the material growths 21 "-24" described above. More specifically, these material outgrowths 21 ′ -24 ’are intended to fill the hollows in the functional profile of said carrier cross R1, in particular when the system is in the mounted position (see FIGS. 4 and 5). In other words, these material outgrowths 21 ′ -24 ’are drawn to complete the recesses provided between two successive branches 21-24 of the first separate part R1.
In other words, the second distinctive part R2 is made of branches
21-24 which carry outgrowths of material 21 "-24" at their distal end, or free end, the outgrowths 21 "-24" being attached to the branches 21-24.
In other words, the protrusions 21 ′ -24 ’each constitute an extra thickness e with respect to the branches 21-24 (see FIG. 2). In the mounted position, said extra thicknesses e complement / fill the hollows of the profile of the carrier cross R1, the branches 21-24 then coming into contact with the carrier cross R1.
It should be noted that the example illustrated here relates to crosses R1, R2 with four branches 11-14, 21-24 each, which explains the description of an angular shift movement of the order of 45 ° of the crosses R1 , R2 relative to each other.
The number of four branches 11-14, 21-24 is not limitative. It could be three, or even five, six, seven or eight. The angular offset to be expected from a cross R1 with respect to the other cross R2 will be calculated as a function, so as to form the disc described above when the wheel system S is in the standard position.
It should also be noted that said first separate part R1 may advantageously comprise chamfered edges at the level of the recesses and / or reliefs of its periphery, preferably at the level of the recesses, so as to facilitate the entry of the growths of materials 21 ′ - 24 ′ at the level of said recesses when the wheel system S passes from the ascent position to the standard position.
As illustrated in FIGS. 7a and 7b, the invention also relates to a transport device T equipped with at least two wheel systems S1, S2 described above, the wheel systems S1, S2 being assembled along a single and same axis Y, said axis of rotation of the wheel systems S1, S2 of the transport device T. This axis of rotation Y of the wheel systems S1, S2 of the transport device T coincides with the central axis X defined above above.
The wheel systems S1, S2 can advantageously be assembled on a single axle E (example illustrated in FIGS. 7a and 7b) or on an axle specific to each wheel system S1, S2 (example not illustrated).
The operation of the wheel system S according to the invention will now be explained with the aid of FIGS. 9 and 10 which illustrate an example of a transport device T in the obstacle climb phase, such as a flight of stairs ( Figure 9), then in the rolling phase on a flat stretch, or devoid of an obstacle (Figure 10).
A wheel system S1, S2 is arranged on each side of the axis of rotation Y of the transport device T.
When exiting an ES staircase, the wheel system S, then in the climbing position, must switch to the standard position.
In the mounted position, the distinctive parts R1, R2 are offset to allow the first distinctive part R1 to bear on the steps M.
Arrived on a flat surface, one of the distinctive parts R2, or cross bearing R2, of each wheel system S1, S2 pivots by an angle about 45 °, then translates along its axis X to engage the outgrowths of materials 21 '-24' of the rolling cross R2 in the hollows of the carrying cross R1, while the other distinctive part R1, or carrying cross R1, remains in contact with the ground, so as to form, after pivoting around the 'central axis X, then translation along the same axis, a wheel, solid and standard with the periphery of the two crosses R1, R2 thus deployed.
When arriving at an ES staircase, the wheel system S, then in the standard position, must shift to the climb position.
In the standard position, the distinctive parts R1, R2 form a solid wheel.
To pass in the mounted position, one of the distinctive parts R2, or crossbearing R2, of each wheel system S1, S2 translates along its axis X to clear the material outgrowths 21 '-24' from the rolling cross R2 out of the hollows of the carrier cross R1, then pivots at an angle of approximately 45 °, while the carrier cross R1 remains in contact with the ground, so as to form, after translation along the central axis X, then pivoting around the same X axis, a wheel that could be described as a toothed wheel.
It should be noted that the two crosses R1, R2 of the same system S can be in rotation directly on the axle E, or in rotation one on the other, via an intermediate hub this without leaving the frame of the invention.
FIG. 11 schematically illustrates a separate part R2 which is mounted on the hub m1 of the other separate part R1. In other words, the rolling cross R2 is articulated on the carrying cross R1 which will serve as a driving cross because in direct engagement with the axle E. In other words, the rolling cross R2 is articulated on the hub m1 of the supporting cross ensuring the passage from the ascent position to the standard position and / or from the standard position to the ascent position to the wheel system S1 illustrated in FIG. 11.
It should also be noted that the wheel systems S1, S2 may advantageously be designed to be removably assembled to said transport device T, this without using an external tool, for example via a mechanical or electromechanical coupling system, with the transport device T.
It should also be noted that the transport device T of the invention advantageously comprises a chair for transporting a person with reduced mobility and / or a receptacle intended for the transport of various objects and / or forks, such as a hand truck, for transporting bulky objects.
FIGS. 9 and 10 illustrate a transport device T of the travel suitcase type.
It should also be noted that the transport device T of the invention comprises at least one motor intended to rotate the axle E, or the axles, of the transport device T. More specifically, the motor is coupled to the axle E, or axles, so as to rotate at least one of the two crosses R1, R2 of the same wheel system S. Said motor can also act as the motor of the mechanical and / or electromagnetic device.
The transport device T may further comprise a raising system (not illustrated) intended to be actuated when passing from the raising position to the standard position and / or from the standard position to the raising position of the system (s) wheel S1, S2, in particular so as to facilitate the passage between these two positions, said elevation system being configured to bear on a ground during its actuation so as to take off the wheel system or systems S1, S2 from the ground.
By way of example (not illustrated), the elevation system comprises an electric jack connected to a frame of the transport device T on the one hand and to the axle E, by means of one or more articulated connecting rods, on the other hand, and a shim mounted on a frame of the transport device T. The actuation of the jack makes it possible to pivot the axle E and therefore of the wheel system (s) S1, S2, while the shim comes to rest on the ground, so as to take off the wheel system (s) S1, S2 from the ground and thus facilitate the transition from the ascent position to the standard position and / or from the standard position to the ascent position of the or wheel systems S1, S2.
By way of example, the dimensions of the crosses R1, R2 will be provided so as to form a wheel system in the standard position, or deployed, forming a disc with an outside diameter of the order of 48 cm. These dimensions are mainly conditioned by the height H of the steps of an ES staircase, and less by the lap
G of these (often standard). They are also advantageous for driving on chaotic terrain.
By way of precision, the outer end C of the branches 11-14, 21-24 of the crosses R1, R2 must be of the order of the eighth of a circle, in particular in order to form an entire circle when the wheel system 10 is in position standard.
For clarification, again, the A side of the branches 11-14 which is intended to hang on the step M is curved, in particular to facilitate its shoulder on abnormally high steps.
It is interesting to note that when the transport device T of the invention comprises a wheelchair for transporting a person with reduced mobility, this allows a third accompanying person to pull a person seated in his wheelchair to the top of a staircase, or better still, if the wheelchair is motorized, and / or robotized, to climb this staircase effortlessly.
One of the advantages of providing a possible robotization of a transport device T according to the invention consists in avoiding any tilting of said device T down the ES staircase.
The transport device T may also be fitted to an explorer machine, for example a remote-controlled machine.
It should also be noted that alternative embodiments are of course possible. In particular, it is also possible, in additional exemplary embodiments, to provide an electronic system making it possible to manage the drive motor of the E-axle, or of the axles, when climbing a staircase.
This electronic system would include a plurality of sensors, in particular:
• a first sensor placed in part B of a branch 11 (see figures 3) to detect a riser CM and thus trigger a process of starting the engine; this process will advantageously include a calculation step making it possible to predict the distance of the wheel system S in the mounted position relative to the riser CM, in particular by an appropriate distance, so that after a first rotation of the wheel system S , in particular of an eighth of a circle, the wheel system S does not come to strike in its rotation the following riser, • a second sensor placed in part C, in particular in the center of the arc of a circle C, of the branch 12 which is intended to rest on the step M above the riser CM detected by the first sensor, and which will trigger the stopping of the engine when the part of this branch 12 rests entirely on the step M.
As a further precision, the so-called up position could have been called up / down position, without departing from the scope of the invention.

权利要求:
Claims (10)
[1" id="c-fr-0001]
Claims
1. Wheel system (S) intended to be driven in rotation about an axis, called central axis (X), comprising two distinct parts (R1, R2), the two distinct parts (R1, R2) being arranged so to be in pivot connection with respect to each other around the central axis (X), the wheel system (S) being characterized in that it is designed so as to occupy two positions, a first position , called the ascent position, in which the two distinct parts (R1, R2) are superimposed so as to form, in a plane perpendicular (P) to the central axis (X), branches (11-14, 21-24 ) which extend radially from the central axis (X), a separate part (R1) then entirely covering the other separate part (R2), and a second position, called standard position, in which the two separate parts (R1, R2) are angularly offset from each other, around the central axis (X), so as to form a di sque in the plane perpendicular (P) to the central axis (X), in particular a solid disc, the passage from the ascent position to the standard position - conversely from the standard position to the ascent position - taking place by the through a translational movement, along the central axis (X), of one of the separate parts (R2) relative to the other (R1).
[2" id="c-fr-0002]
2. Wheel system (S) according to the preceding claim, further comprising a mechanical and / or electromagnetic device intended to ensure the passage from the ascent position to the standard position and / or from the standard position to the ascent position, and / or an electronic control device making it possible to control the passage from the ascent position to the standard position and / or from the standard position to the ascent position.
[3" id="c-fr-0003]
3. Wheel system (S) according to any one of claims 1 or 2, characterized in that the two separate parts (R1, R2) are different in their shape and their dimensions so as to be complementary, in particular in standard position .
[4" id="c-fr-0004]
4. Wheel system (S) according to the preceding claim, in which a first (R1) of the two distinct parts (R1, R2) is in the form of a cross, independent, called a carrying cross (R1), the cross carrier (R1) comprising a plurality of branches (11-14), the branches (11-14) having a functional profile (A, B, C) allowing them to hang and / or accompany a rotation movement of the system wheel (S), in the mounted position, when the latter comes up against a riser (CM) or a stair nosing (N) of a staircase (ES), said functional profile comprising recesses and reliefs which alternate on the periphery of said carrying cross (R1).
[5" id="c-fr-0005]
5. Wheel system (S) according to the preceding claim, in which the second (R2) of the two separate parts (R1, R2) is in the form of a cross, independent, called a rolling cross (R2), the rolling cross (R2) comprising a plurality of branches (21, 24), the branches (21, 24) being designed so as to cooperate with the hollows and reliefs of the functional profile of said carrying cross (R1).
[6" id="c-fr-0006]
6. Wheel system (S) according to any one of claims 4 or 5, in which the branches (21, 24) of said second separate part (R2) comprise, in the vicinity of their distal end, protuberances of material ( 21 '-24') intended to fill the hollows in the functional profile of said first separate part (R1), in particular when the system is in the standard position.
[7" id="c-fr-0007]
7. Wheel system (S) according to any one of claims 4 to 6, wherein said first separate part (R1) comprises chamfered edges at the hollows and / or reliefs of its periphery.
[8" id="c-fr-0008]
8. Transport device (T) characterized in that it is equipped with at least one wheel system (S1) according to any one of the preceding claims, the wheel system (S1) being assembled along an axis (Y), said axis of rotation of the wheel system (S1) of the transport device (T).
[9" id="c-fr-0009]
9. Transport device (T) according to the preceding claim, characterized in that it comprises a transport chair for a person with reduced mobility.
[10" id="c-fr-0010]
10. Transport device (T) according to the preceding claim, characterized in that
5 that it further comprises a raising system intended to be actuated during the transition from the ascent position to the standard position and / or from the standard position to the ascent position of the at least one wheel system (S1 ), in particular so as to facilitate the passage between these two positions, said elevation system being configured to rest on a ground
10 when actuated so as to take off the wheel system (S1) from the ground.
1/6
2/6

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同族专利:

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公开号 | 公开日

---

FR3062625B1|2019-04-26|

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WO2018145788A1|2018-08-16|

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US20200023674A1|2020-01-23|

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EP3580069A1|2019-12-18|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US20110233991A1|2010-03-29|2011-09-29|Robosynthesis Limited|Wheel and Wheel Assembly|

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DE102011052615A1|2011-08-11|2013-02-14|Hochschule Regensburg|Wheel, particularly stair continuous wheel for vehicle to climb stairs for people with limited mobility, has wheel disk with rolling surface that has variable radius relative to axis, such that rolling surface has two protrusions|

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DE102013006690A1|2013-04-16|2014-10-16|Iav Gmbh Ingenieurgesellschaft Auto Und Verkehr|Wheel for driving on stairs and method for operating the wheel|

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US20160303901A1|2015-04-20|2016-10-20|Soongsil University Research Consortium Techno-Park|Transformable wheel|

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US2706640A|1951-01-12|1955-04-19|Walker D Mcmahan|Stair climbing hand truck|

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FR2502090A1|1981-03-17|1982-09-24|Tobex Motivated Chair Cy Ltd|VEHICLE FOR GOING UP AND DOWN FROM STAIRS|

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FR2640218A2|1988-05-31|1990-06-15|Kerdoncuff Francois|Load transporting appliance for facilitating the movement of individuals who have a breathlessness handicap and for easily climbing the steps of a staircase|CN109927813A|2019-04-04|2019-06-25|江南大学|A kind of crossing over blockage movable pulley and crossing over blockage mobile device|

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FR3095408A1|2019-04-23|2020-10-30|Kerostin Medical|Wheel and associated transport device|

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CN111114663A|2019-12-25|2020-05-08|鞠昌金|Anti-skid hub mechanism for snow shoveling vehicle|

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FR3109747A1|2020-04-29|2021-11-05|Herve Le Saux|Toothed wheel and associated transport device|

法律状态:
2018-02-27| PLFP| Fee payment|Year of fee payment: 2 |

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2018-08-10| PLSC| Search report ready|Effective date: 20180810 |

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2019-02-25| PLFP| Fee payment|Year of fee payment: 3 |

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2020-11-13| ST| Notification of lapse|Effective date: 20201006 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1751036|2017-02-08|

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FR1751036A|FR3062625B1|2017-02-08|2017-02-08|WHEEL SYSTEM AND ASSOCIATED TRANSPORT DEVICE|FR1751036A| FR3062625B1|2017-02-08|2017-02-08|WHEEL SYSTEM AND ASSOCIATED TRANSPORT DEVICE|

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EP17808825.8A| EP3580069A1|2017-02-08|2017-11-20|Wheel system and associated transport device|

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PCT/EP2017/079722| WO2018145788A1|2017-02-08|2017-11-20|Wheel system and associated transport device|

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US16/484,209| US20200023674A1|2017-02-08|2017-11-20|Wheel system and associated transport device|