US20170049190A1 - Shoe - Google Patents
Shoe Download PDFInfo
- Publication number
- US20170049190A1 US20170049190A1 US15/306,321 US201515306321A US2017049190A1 US 20170049190 A1 US20170049190 A1 US 20170049190A1 US 201515306321 A US201515306321 A US 201515306321A US 2017049190 A1 US2017049190 A1 US 2017049190A1
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- US
- United States
- Prior art keywords
- sole
- shoe
- lacing
- lace
- moving body
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43C—FASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
- A43C11/00—Other fastenings specially adapted for shoes
- A43C11/16—Fastenings secured by wire, bolts, or the like
- A43C11/165—Fastenings secured by wire, bolts, or the like characterised by a spool, reel or pulley for winding up cables, laces or straps by rotation
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B11/00—Footwear with arrangements to facilitate putting-on or removing, e.g. with straps
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B13/00—Soles; Sole-and-heel integral units
- A43B13/14—Soles; Sole-and-heel integral units characterised by the constructive form
- A43B13/141—Soles; Sole-and-heel integral units characterised by the constructive form with a part of the sole being flexible, e.g. permitting articulation or torsion
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B3/00—Footwear characterised by the shape or the use
- A43B3/26—Footwear characterised by the shape or the use adjustable as to length or size
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43C—FASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
- A43C1/00—Shoe lacing fastenings
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43C—FASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
- A43C1/00—Shoe lacing fastenings
- A43C1/06—Shoe lacing fastenings tightened by draw-strings
-
- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43C—FASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
- A43C11/00—Other fastenings specially adapted for shoes
- A43C11/16—Fastenings secured by wire, bolts, or the like
Definitions
- the present invention relates to a shoe comprising a sole having a lower surface, an upper provided with connecting means arranged for receiving lacing, a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension and an actuator mechanism for moving the lacing tensioning mechanism between the positions.
- a shoe is fastened using laces (or shoestrings) which are received and guided in holes, eyelets, loops or hooks on either side of the shoe, more specifically the upper, and which form the connecting means for lacing.
- laces or shoestrings
- Tying a shoelace for fastening a shoe is however difficult, especially for smaller children and elderly people.
- shoes which are provided with lacing tensioning mechanisms. These mechanisms allow tensioning of the lace without actually tying a knot. It is for instance known to provide a turning knob as actuator which tensions the lace upon turning or to provide a clamp at the lace ends for interconnection. It is however a drawback that these known mechanisms are still difficult to operate, in particular for children and elderly people as mentioned above.
- the shoe according to the invention comprises:
- a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension;
- actuator mechanism for moving the lacing tensioning mechanism between the positions, wherein actuator mechanism comprises a moveable sole part which is moveable from and into the surface of the sole and wherein the actuator mechanism is arranged for moving the lacing tensioning mechanism from the loose position to the tensioned position upon movement of the moveable sole part into the surface of the sole.
- the lacing tensioning mechanism is actuated by a movement of a part of the sole.
- the moveable part of the sole In a resting position, in which position the lacing tensioning mechanism is in the loose position for easy access in the shoe, the moveable part of the sole extends, or in other words protrudes, from the surface of the sole.
- the moveable part By stepping into the shoe and exerting a force on the moveable part, the moveable part is moved into the surface of the sole, or in other words is moved towards a position wherein the moveable part is aligned with the surface of the sole.
- This movement activates the lacing tensioning mechanism, such that by simply stepping into and onto the shoe, the shoe can be fastened. It will be appreciated that fastening the laces in a shoe according to the invention does not require any manual work, which is typically the problem with children and elderly people.
- the surface of the sole as defined herein is not necessarily flat.
- the sole typically bends in use, such that the surface is accordingly bent.
- the sole may further be provided with a heel, which extends from the surface.
- the term surface of the sole should therefore be understood as the surface of the sole in a state wherein the user walks on the shoe.
- the shoe according to the invention preferably uses a convention lace. It is however also possible that other tensioning or fastening means are used which can be tensioned using the tensioning mechanism.
- the actuator and/or the lace tensioning mechanism is arranged outside of the space for receiving the foot of the user, which is preferably defined by the inner sole and the inner surface of the body of the shoe. This allows an efficient insertion of the foot in the shoe.
- the lacing tensioning mechanism is arranged to receive a part of the lace in a moving body which is moveable to and from the connecting means for loosening and tensioning the lace, wherein the actuator is arranged to move the moving body.
- a compact composition while allowing sufficient room to move for the moving body for efficiently tensioning and loosing the lace is obtained if the moving body is arranged to move and is guided in a plane parallel to the surface of the sole.
- the shoe may thereto be provided with a guide, for instance in the form of rails or rods, which are arranged to guide the moving body.
- the guides preferably limit movement of moving body along a single line in said plane.
- the guide for the moving body comprises opposing slits for receiving lateral edges of a substantially planar moving body. The slits allow movement of the moving body along the lengths of the slits.
- a very compact composition is obtained if the moving body is incorporated in the sole.
- the shoe comprises guiding means for guiding the lace from the connecting means to the moving body.
- the guiding means may for instance comprise channels for receiving ends of lacing and may extend between the connecting means, for instance in the form of holes, to a location near the moving body.
- the guiding means preferably extend from the connecting means to a position in the shoe near the moving body in the loose position. For moving towards the tensioned position, the moving body is moved away from the end, or opening, of the guiding means, thereby applying tension on the lace.
- the moving body is biased towards the connecting means, such that the lacing tensioning mechanism is biased towards the loose position. If the moving body is not forced or actuated, it will automatically move towards, i.e. shortens the lace path length to, the connecting means, thereby loosening the lacing. This allows efficient loosening of the shoe.
- the shoe further comprises locking means arranged for locking the lacing tensioning mechanism in the tensioned position.
- the lacing tensioning mechanism is hereby actively held in the tensioned position, where upon unlocking, the tensioning mechanism moves to the loose position.
- An efficient locking mechanism is obtained if the locking means are arranged to lock the moveable sole part in the position in the surface of the sole. If the moveable sole part as actuator is locked, the tensioning mechanism is also locked.
- the locking means may for instance comprise a releasable connection between the sole parts.
- the use of a moving body which is moveable, for instance to and from the connecting means, for loosening and tensioning the lace, preferably in the plane of the sole, allows efficient tensioning of the lace part connected to the lace tensioning mechanism with a relative small displacement of the moveable sole part.
- the lacing tensioning mechanism further comprises at least one reel for receiving the part of the lace, wherein the reel is arranged for tensioning and loosening said lace upon rotation, wherein the moving body is arranged for engaging said reel for rotating the reel upon movement of the moving body.
- the translational movement of the moving body, in particular to and from the connecting means preferably in the plane of the sole, is hereby converted to a rotational movement for tensioning and loosening the lace received in the reel. This allows a relative large movement of the lace part, i.e.
- An end of the lace is preferably connected to said reel, such that upon rotation in a first direction of the reel, the lace is tensioned and that upon rotation in an opposite direction the lace is loosened.
- the reel and the moving body are hereto preferably provided with cooperating engagement surfaces in contact with each other for transferring the translational movement of the moving body into a rotational movement of the reel.
- a reliable transfer is obtained if the moving body is provided with a rack and the reel is provided with a cooperating pinion.
- Dependent on the gear ratio, the desired difference in lace length between the tensioned and loosened position can be determined on the basis of the movement of the moving body.
- the lacing tensioning mechanism comprises two reels, wherein each of the reels is arranged to receive a respective end of the lace. This results in an even tensioning and loosening of the lacing upon movement between the positions.
- a first reel is rotated by engagement of the moving body and the second reel is rotated by engagement of the first reel, a reliable tensioning and loosening action is obtained when both reels are in engagement with the moving body for rotating said reels.
- a particularly compact and stable combination is obtained if the moving body is arranged between and in engagement with the two reels.
- the reels hereby rotate in opposite directions upon movement by the moving body.
- the reel or the two reels as explained above, preferably has a rotational axis extending perpendicular to the plane of the sole. A movement of the moving body in the plane of the sole then results in the rotation for loosening and tensioning the lace. It is hereby preferred if the reel(s) is/are rotatably connected to a stationary part of the sole opposite the moveable sole part.
- the moveable sole part is hingeably connected to a stationary part of the sole.
- the moveable sole part hereby hinges or rotates for moving from and into the surface of the sole.
- the sole hereto comprises a hinging mechanism comprising for instance a hinging axle.
- the moveable sole part is hingeable due to the flexibility of the material of the sole.
- the moveable sole part may for instance be formed by cutting out a section of sole, while leaving the moveable sole part connected to the remainder of the sole along one edge. This edge interconnecting the moveable sole part and the remainder of the sole then forms the hinge. It is preferred if the moveable sole part is formed by a cut in the sole along a plane parallel to the sole.
- a reliable hinging action while allowing easy access in the shoe is obtained if the moveable sole part is arranged to hinge about a centrally located hinging axis.
- the axis hereby extends a central location, making it less vulnerable than for instance an axis at the front or back of the shoe.
- the actuator mechanism comprises a pushing rod extending between a sole part and the moving body for transferring the movement of the movable sole part to the moving body.
- the moving body is arranged on the movable sole part, such that the pushing rod extends between the moving body and a stationary part of the sole
- the actuator mechanism comprises a pushing rod extending between an end part of the moveable sole part opposite the hinging axis and the moving body, wherein the pushing rod is arranged for moving the moving body on movement of the moveable sole part.
- the pushing rod hereby transfers the force of the hinging moveable sole part to the moving body.
- the pushing rod is hereto also hingeably connected to the moveable sole part and the moving body.
- the moveable sole part forms the back part towards the heel of the sole. Further, in case of a tensioning mechanism comprising a moving body, this ensures sufficient room for the tensioning mechanism.
- the connecting means for receiving lacing comprise rotatable wheels, such as pulleys, for receiving and guiding a lace.
- rotatable wheels such as pulleys
- the rotatable wheels are preferably provided with a shielding wall, which encloses the lace between the wall and the wheel, such that the lace cannot come loose from the connecting means.
- the wall preferably extends along a length of the perimeter surface of the wheel, preferably at the outer or lateral sides of the shoe.
- connecting means as wheels may also be applied to shoes having convention laces, i.e. without the actuator formed by the moveable sole part or without lacing tensioning mechanism.
- a further preferred embodiment of the shoe further comprises biasing means which are arranged for opening the body of the shoe for easy entry in the loose position of the lacing. Opening the body means that the entry opening of a foot in the shoe is enlarged. It is preferred if the biasing means are incorporated in the body of the shoe.
- the biasing means for instance comprise elastic means, for instance springs or elastic fibres, arranged for urging wall sections of the body of the shoe outwardly. More specifically, the biasing means preferably comprise elastic means arranged to exert an outwardly oriented elastic force on the body. It is preferred if the biasing means are arranged in the body:
- the entry opening, the upper (the location of the connecting means) and the tongue limit easy entry in a shoe.
- the biasing means may for instance comprise spring or elastic fibres as described above which are arranged around the opening, in the upper and in the tongue and which are biased towards an opening position.
- the biasing means may be applied to shoes having convention laces, i.e. without the actuator formed by the moveable sole part or without lacing tensioning mechanism.
- FIG. 1 schematically shows a shoe according to the invention in perspective
- FIG. 2 shows the shoe from behind
- FIGS. 3 and 4 schematically show the tensioning mechanism in side view in two different stages of tensioning the shoe
- FIG. 5 shows another embodiment of the tensioning mechanism from behind, and
- FIGS. 6 and 7 schematically show the tensioning mechanism seen along arrow VI in FIG. 5 in respectively the loosened and tensioned position of the tensioning mechanism.
- a shoe 1 which is provided with a sole 10 and an upper 11 , which forms a body 12 of the shoe 1 .
- the upper 11 is provided with connecting means for lacing 3 in the form of pulleys 2 .
- the pulleys 2 comprise wheels 21 which are arranged to rotate for efficiently guiding the shoelace 3 .
- the wheel 21 is partly enclosed by a wall 22 to prevent the lace 3 from coming loose.
- the walls 22 are arranged at the lateral sides of the wheels 21 of pulley 2 , such that the lace 3 can be arranged in a zig-zag fashion between the two sides of the upper 11 .
- the lace 3 in this embodiment is tied in a knot 31 at a frontal location of the shoe 1 and runs through the pulleys 2 towards entries 15 a of channels 15 for guiding the lace 3 from the connecting means to a lacing tensioning mechanism 4 which will be explained in greater detail below.
- the tensioning mechanism is arranged for automatically tensioning and loosening the lace 3 and thereby the shoe 1 .
- the wall surrounding the opening 13 of the shoe 1 is provided with a spring member 13 a extending along said wall.
- the spring member 13 a exerts an outwardly directed force, indicated with arrows B, which opens the entry opening 13 in the loose state of the lace 3 .
- the inner edge of the upper 11 is provided with a spring member 11 a which extends along said edge.
- the spring member 11 a exerts a biasing force directed laterally outwardly, as indicated with arrows C. This also opens the shoe 1 in loosened state of the lace 3 .
- the tongue 14 of the shoe 1 is provided with a spring member 14 a which biases the tongue 14 to open, as indicated with arrow D.
- the spring members 13 a, 11 a and 14 a form biasing means for biasing the body 12 in an opening position of the shoe 1 , such that a foot can be easily inserted in the shoe 1 .
- the tensioning mechanism 4 comprises a moving body 41 which is arranged to receive a part of the lace 3 in openings 41 a.
- the lace 3 is wound along the moving body 41 . More specifically, the lace 3 enters the channel 15 at the entry 15 a near the connecting means 2 , see in particular FIG. 3 , and leaves the channel 15 at the end 15 b near the tensioning mechanism 4 in the sole 10 .
- the lace 3 then enters the first hole 41 a of the moving body 41 , returns in the second hole 41 a to subsequently enter a channel again in an end (not shown) of the channel towards the connecting means 2 .
- the lace thus forms a loop from the knot 31 ( FIG. 1 ), through the connecting means 2 , the two channels 15 provided at both lateral sides of the shoe 1 and the moving body 41 .
- the moving body 41 is guided by rods 42 which are arranged on an upper sole part 10 d (as will be explained below).
- the moving body 41 is allowed to move along the rods 42 .
- the moving body 41 is substantially planar and is guided at the lateral edges in correspondingly shaped slits arranged in wall sections of a recess in the upper sole part 10 d. The slits then form the guides for guiding the moving body 41 .
- the moving body 41 is further connected to the upper sole part 10 d by a spring 43 or another material with elastic properties, such as an elastic band, for instance made of rubber.
- the spring 43 forces the moving body 41 in the position as shown in FIG. 2 , i.e. towards the ends 15 b of the channels 15 .
- an actuator 5 is provided in the form of a moveable sole part 10 a.
- the moveable sole part 10 a is formed by cutting the back half of the sole 10 in two, thereby forming a upper sole part 10 d which is fixedly connected to the body 12 and a moveable part 10 a which is hingeably connected to the remainder 10 b of the sole.
- the upper sole part 10 d and/or the moveable sole part 10 a are provided with a recess for receiving the tensioning mechanism 4 there between.
- the lower surface of the upper sole part 10 d and the upper surface of the moveable sole part 10 a at least partly abut, such that these surfaces form end surfaces.
- the hinge axis 10 c is located at a central region of the shoe.
- a connecting plate 51 fixed on the upper surface of the moveable sole part 10 a connects to a push rod 52 which is at its other end connected to the moving body 41 . Pivoting of the moveable sole part 10 a (indicated with A in FIG. 1 ) will thus result in a movement of the moving body 41 , as will be explained below.
- the tensioning mechanism 4 is in its loose position.
- the distance between the moving body 41 and the ends 15 b of the channels 15 is hereby small.
- a movement indicated with III in FIG. 4 is initiated, thereby pivoting the moveable sole part 10 a towards the upper sole part 10 d in a direction indicated with II in FIG. 4 .
- the pushing rod 52 will push the moving body 41 in a direction indicated with I along the rods 42 .
- the distance between the moving body 41 and the ends 15 b of the channels 15 is thereby increased, thereby increasing the path length of the lace 3 and thus thereby tensioning the lace 3 .
- the pulleys 2 as connecting means ensure a homogeneous distribution of the tension along the length of the upper 11 . While moving in a direction I, the spring 43 is tensioned.
- the moveable sole part 10 a When the moveable sole part 10 a has moved into the surface of the sole 10 , the upper surface of the moveable sole part 10 a and the lower surface of the upper sole part 10 d abut, thereby limiting any further relative movement in the direction II. In this position, the user can walk on the shoe. In this position, the moving body 41 has travelled along a length d as indicated in FIG. 4 , thereby tensioning the lace 3 .
- a user can adjust the needed tension by adjusting the knot 31 near the front of the shoe 1 . After this adjustment, the lacing tensioning mechanism 4 can be used for fastening and loosening the lacing.
- a locking mechanism 6 is arranged to interlock the upper sole part 10 d and the moveable sole part 10 a.
- a finger 62 is arranged to engage a protrusion 61 in a snap-fit fashion. The user can unlock the locking mechanism 4 by hand or by using his other foot, thereby loosening the lacing tensioning mechanism 4 .
- the locking mechanism 4 If the locking mechanism 4 is loose, lifting the heel (a movement opposite direction III in FIG. 4 ) will result in the movement of the moving body 41 towards the ends 15 b of the channels 5 due to the tension in the spring 43 . Also the weight of the moveable sole part 10 a may assist in moving the moving body 41 back.
- the spring 43 is further sufficiently stiff to hold the moving body 41 in the position shown in FIG. 3 , such that a user can efficiently step into the shoe 1 .
- FIGS. 5, 6 and 7 a second embodiment of the tensioning mechanism 4 a is shown.
- the tensioning mechanism 4 a is provided with a moving body 41 a which is moved in the plane of the upper part 10 d of the sole by a pushing rod 52 upon movement of the moveable sole part 10 a along direction A. More specifically, upon movement of the moveable sole part 10 a from the position as shown in FIG. 5 , which corresponds to the loosened position of the tensioning mechanism 4 a also shown in FIG. 6 , towards the upper sole part 10 d, the pushing rod 52 pushes the moving body 41 a in a direction I.
- the pushing rod 52 is hereby connected to a front part of the moving body 41 a, which is further provided with a recess 44 for receiving the pushing rod 52 in tensioned position as will be explained later.
- a spring 43 is connected to the moving body 41 a which urges the moving body in a direction opposite arrow I, i.e. towards the loosened position.
- the lace 3 is not directly coupled to the moving body 41 a.
- Reels 6 having rotation axes R perpendicularly to the plane of the sole and which are connected to the upper sole part 10 d are provided to receive the lace end.
- the reels 6 comprise two flanges 61 in between which the lace 3 can be received and wound.
- the reels 6 are provided with a connection 62 for connecting ends of the lace 3 to the reels 6 .
- the reels 6 are further provided with sprockets 63 which cooperate with racks 45 arranged on either sides of the moving body 41 a.
- the moving body 41 a is arranged between the two reels 6 , in particular the sprockets 63 thereof, and is in engagement therewith.
- the distance e between the two sprockets 63 is sufficiently large such that pushing rod 52 can be received there between and can be received in the accordingly shaped recess 44 in the tensioned position.
- Movement of the moving body 41 a in the direction I upon movement of the sole part 10 a towards the upper sole part 10 d will therefore result in a rotation of the reels 63 in directions indicated with IV in FIG. 6 .
- the lace ends are connected and guided in such a way that this rotation will result in winding the lace 3 on the reels 6 , thereby tensioning the lace 3 .
- FIG. 7 This is schematically indicated in FIG. 7 , wherein the lace end 3 are shown wound up around the reels 6 .
- the pushing rod 52 extends substantially planar and is received in the recess 44 .
- This will result in a compact composition.
- the spring 43 is elongated and biases the moving body 41 a back to the position of FIG. 6 . Locking of the sole part 10 a to the upper part 10 d in the tensioned position will however prevent this. Upon unlocking however, the moving body 41 a will be urged towards the loosened position, thereby rotating the reels 6 to unwind the lace ends 3 . This will release the tension in the lace 3 which will allow the user to take off the shoe. In particular when the shoe is provided with elastic means for widening the shoe, this will further contribute in automatically unwinding the lace 3 from the reels 6 .
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- Footwear And Its Accessory, Manufacturing Method And Apparatuses (AREA)
Abstract
Shoe comprising:—a sole having a lower surface;—an upper provided with connecting means arranged for receiving lacing;—a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension; and—an actuator mechanism for moving the lacing tensioning mechanism between the positions, wherein actuator mechanism comprises a moveable sole part which is moveable from and into the surface of the sole and wherein the actuator mechanism is arranged for moving the lacing tensioning mechanism from the loose position to the tensioned position upon movement of the moveable sole part into the surface of the sole.
Description
- The present invention relates to a shoe comprising a sole having a lower surface, an upper provided with connecting means arranged for receiving lacing, a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension and an actuator mechanism for moving the lacing tensioning mechanism between the positions.
- Typically, a shoe is fastened using laces (or shoestrings) which are received and guided in holes, eyelets, loops or hooks on either side of the shoe, more specifically the upper, and which form the connecting means for lacing. Tying a shoelace for fastening a shoe is however difficult, especially for smaller children and elderly people.
- Next to the alternatives of for instance Velcro, zippers or straps with buckles which allow fastening of shoes without tying a knot, shoes are known which are provided with lacing tensioning mechanisms. These mechanisms allow tensioning of the lace without actually tying a knot. It is for instance known to provide a turning knob as actuator which tensions the lace upon turning or to provide a clamp at the lace ends for interconnection. It is however a drawback that these known mechanisms are still difficult to operate, in particular for children and elderly people as mentioned above.
- It is therefore a goal of the present invention, amongst other goals, to provide an efficient, easy in use shoe which can be fastened and/or loosened easily.
- This goal, amongst other goals, is met by a shoe according to claim 1. More specifically, to meet this goal, amongst other goals, the shoe according to the invention comprises:
- a sole having a lower surface;
- an upper provided with connecting means arranged for receiving lacing;
- a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension; and
- an actuator mechanism for moving the lacing tensioning mechanism between the positions, wherein actuator mechanism comprises a moveable sole part which is moveable from and into the surface of the sole and wherein the actuator mechanism is arranged for moving the lacing tensioning mechanism from the loose position to the tensioned position upon movement of the moveable sole part into the surface of the sole.
- According to the invention, the lacing tensioning mechanism is actuated by a movement of a part of the sole. In a resting position, in which position the lacing tensioning mechanism is in the loose position for easy access in the shoe, the moveable part of the sole extends, or in other words protrudes, from the surface of the sole. By stepping into the shoe and exerting a force on the moveable part, the moveable part is moved into the surface of the sole, or in other words is moved towards a position wherein the moveable part is aligned with the surface of the sole. This movement activates the lacing tensioning mechanism, such that by simply stepping into and onto the shoe, the shoe can be fastened. It will be appreciated that fastening the laces in a shoe according to the invention does not require any manual work, which is typically the problem with children and elderly people.
- It should be noted that the surface of the sole as defined herein is not necessarily flat. The sole typically bends in use, such that the surface is accordingly bent. The sole may further be provided with a heel, which extends from the surface. The term surface of the sole should therefore be understood as the surface of the sole in a state wherein the user walks on the shoe.
- The shoe according to the invention preferably uses a convention lace. It is however also possible that other tensioning or fastening means are used which can be tensioned using the tensioning mechanism.
- According to a further preferred embodiment, the actuator and/or the lace tensioning mechanism is arranged outside of the space for receiving the foot of the user, which is preferably defined by the inner sole and the inner surface of the body of the shoe. This allows an efficient insertion of the foot in the shoe.
- According to a preferred embodiment, the lacing tensioning mechanism is arranged to receive a part of the lace in a moving body which is moveable to and from the connecting means for loosening and tensioning the lace, wherein the actuator is arranged to move the moving body. By moving the moving body, the distance, or path length for the lace, between the connecting means and the moving body is changed, thereby tensioning said lace upon elongated the distance and vice versa.
- A compact composition while allowing sufficient room to move for the moving body for efficiently tensioning and loosing the lace is obtained if the moving body is arranged to move and is guided in a plane parallel to the surface of the sole. The shoe may thereto be provided with a guide, for instance in the form of rails or rods, which are arranged to guide the moving body. The guides preferably limit movement of moving body along a single line in said plane. Preferably, the guide for the moving body comprises opposing slits for receiving lateral edges of a substantially planar moving body. The slits allow movement of the moving body along the lengths of the slits. A very compact composition is obtained if the moving body is incorporated in the sole.
- According to a further preferred embodiment, the shoe comprises guiding means for guiding the lace from the connecting means to the moving body. The guiding means may for instance comprise channels for receiving ends of lacing and may extend between the connecting means, for instance in the form of holes, to a location near the moving body. Upon movement of the moving body, the lace in the guiding means is tensioned, thereby tensioning the lace in the connecting means for fastening the shoe. The guiding means preferably extend from the connecting means to a position in the shoe near the moving body in the loose position. For moving towards the tensioned position, the moving body is moved away from the end, or opening, of the guiding means, thereby applying tension on the lace.
- It is preferred if the moving body is biased towards the connecting means, such that the lacing tensioning mechanism is biased towards the loose position. If the moving body is not forced or actuated, it will automatically move towards, i.e. shortens the lace path length to, the connecting means, thereby loosening the lacing. This allows efficient loosening of the shoe.
- To prevent accidental loosening of the shoe in use, it is preferred if the shoe further comprises locking means arranged for locking the lacing tensioning mechanism in the tensioned position. The lacing tensioning mechanism is hereby actively held in the tensioned position, where upon unlocking, the tensioning mechanism moves to the loose position. An efficient locking mechanism is obtained if the locking means are arranged to lock the moveable sole part in the position in the surface of the sole. If the moveable sole part as actuator is locked, the tensioning mechanism is also locked. The locking means may for instance comprise a releasable connection between the sole parts.
- As said, the use of a moving body which is moveable, for instance to and from the connecting means, for loosening and tensioning the lace, preferably in the plane of the sole, allows efficient tensioning of the lace part connected to the lace tensioning mechanism with a relative small displacement of the moveable sole part.
- Although it is possible that the lace part is directly coupled to the moving body for tensioning and loosening the lace upon movement of the moving body, it is according to a further preferred embodiment also possible that the lacing tensioning mechanism further comprises at least one reel for receiving the part of the lace, wherein the reel is arranged for tensioning and loosening said lace upon rotation, wherein the moving body is arranged for engaging said reel for rotating the reel upon movement of the moving body. The translational movement of the moving body, in particular to and from the connecting means preferably in the plane of the sole, is hereby converted to a rotational movement for tensioning and loosening the lace received in the reel. This allows a relative large movement of the lace part, i.e. a large difference between the tensioned and loosened position, using a relative small displacement of the moving body and thereby movement of the moveable sole part. An end of the lace is preferably connected to said reel, such that upon rotation in a first direction of the reel, the lace is tensioned and that upon rotation in an opposite direction the lace is loosened.
- The reel and the moving body are hereto preferably provided with cooperating engagement surfaces in contact with each other for transferring the translational movement of the moving body into a rotational movement of the reel. A reliable transfer is obtained if the moving body is provided with a rack and the reel is provided with a cooperating pinion. Dependent on the gear ratio, the desired difference in lace length between the tensioned and loosened position can be determined on the basis of the movement of the moving body.
- According to a further preferred embodiment, the lacing tensioning mechanism comprises two reels, wherein each of the reels is arranged to receive a respective end of the lace. This results in an even tensioning and loosening of the lacing upon movement between the positions. Although it is possible that a first reel is rotated by engagement of the moving body and the second reel is rotated by engagement of the first reel, a reliable tensioning and loosening action is obtained when both reels are in engagement with the moving body for rotating said reels. A particularly compact and stable combination is obtained if the moving body is arranged between and in engagement with the two reels. The reels hereby rotate in opposite directions upon movement by the moving body.
- The reel, or the two reels as explained above, preferably has a rotational axis extending perpendicular to the plane of the sole. A movement of the moving body in the plane of the sole then results in the rotation for loosening and tensioning the lace. It is hereby preferred if the reel(s) is/are rotatably connected to a stationary part of the sole opposite the moveable sole part.
- According to a further preferred embodiment, the moveable sole part is hingeably connected to a stationary part of the sole. The moveable sole part hereby hinges or rotates for moving from and into the surface of the sole. It is possible that the sole hereto comprises a hinging mechanism comprising for instance a hinging axle. It is however preferred if the moveable sole part is hingeable due to the flexibility of the material of the sole. The moveable sole part may for instance be formed by cutting out a section of sole, while leaving the moveable sole part connected to the remainder of the sole along one edge. This edge interconnecting the moveable sole part and the remainder of the sole then forms the hinge. It is preferred if the moveable sole part is formed by a cut in the sole along a plane parallel to the sole.
- A reliable hinging action while allowing easy access in the shoe is obtained if the moveable sole part is arranged to hinge about a centrally located hinging axis. The axis hereby extends a central location, making it less vulnerable than for instance an axis at the front or back of the shoe.
- According to a further preferred embodiment, the actuator mechanism comprises a pushing rod extending between a sole part and the moving body for transferring the movement of the movable sole part to the moving body. Although it is possible that the moving body is arranged on the movable sole part, such that the pushing rod extends between the moving body and a stationary part of the sole, it is preferred if the actuator mechanism comprises a pushing rod extending between an end part of the moveable sole part opposite the hinging axis and the moving body, wherein the pushing rod is arranged for moving the moving body on movement of the moveable sole part. The pushing rod hereby transfers the force of the hinging moveable sole part to the moving body. The pushing rod is hereto also hingeably connected to the moveable sole part and the moving body.
- In order to provide an efficient movement to the tensioned position by stepping into the shoe, it is preferred if the moveable sole part forms the back part towards the heel of the sole. Further, in case of a tensioning mechanism comprising a moving body, this ensures sufficient room for the tensioning mechanism.
- To allow an efficient transfer of the tensioning or loosening action along the connecting means for lacing upon activating the tensioning mechanism, it is preferred if the connecting means for receiving lacing comprise rotatable wheels, such as pulleys, for receiving and guiding a lace. This allows a more homogeneous distribution of the forces along the lace in the connecting means. This facilitates loosening and tensioning of the shoe. The rotatable wheels are preferably provided with a shielding wall, which encloses the lace between the wall and the wheel, such that the lace cannot come loose from the connecting means. The wall preferably extends along a length of the perimeter surface of the wheel, preferably at the outer or lateral sides of the shoe.
- It is noted that the connecting means as wheels may also be applied to shoes having convention laces, i.e. without the actuator formed by the moveable sole part or without lacing tensioning mechanism.
- To further facilitate the user of the shoe while stepping into the shoe, a further preferred embodiment of the shoe further comprises biasing means which are arranged for opening the body of the shoe for easy entry in the loose position of the lacing. Opening the body means that the entry opening of a foot in the shoe is enlarged. It is preferred if the biasing means are incorporated in the body of the shoe.
- The biasing means for instance comprise elastic means, for instance springs or elastic fibres, arranged for urging wall sections of the body of the shoe outwardly. More specifically, the biasing means preferably comprise elastic means arranged to exert an outwardly oriented elastic force on the body. It is preferred if the biasing means are arranged in the body:
-
- around the entry opening of the shoe for opening said entry opening;
- around the upper for latterly moving apart the lateral sides of the upper; and/or
- in a tongue for moving the tongue in a direction away from the sole.
- In particular the entry opening, the upper (the location of the connecting means) and the tongue limit easy entry in a shoe. By providing the biasing means at at least one of these locations, entry into the shoe is made easier. The biasing means may for instance comprise spring or elastic fibres as described above which are arranged around the opening, in the upper and in the tongue and which are biased towards an opening position. Also the biasing means may be applied to shoes having convention laces, i.e. without the actuator formed by the moveable sole part or without lacing tensioning mechanism.
- The present invention is further illustrated by the following Figures, which show a preferred embodiment of the device according to the invention, and are not intended to limit the scope of the invention in any way, wherein:
-
FIG. 1 schematically shows a shoe according to the invention in perspective; -
FIG. 2 shows the shoe from behind; -
FIGS. 3 and 4 schematically show the tensioning mechanism in side view in two different stages of tensioning the shoe; -
FIG. 5 shows another embodiment of the tensioning mechanism from behind, and; -
FIGS. 6 and 7 schematically show the tensioning mechanism seen along arrow VI inFIG. 5 in respectively the loosened and tensioned position of the tensioning mechanism. - In
FIG. 1 , a shoe 1 is shown which is provided with a sole 10 and an upper 11, which forms abody 12 of the shoe 1. The upper 11 is provided with connecting means for lacing 3 in the form ofpulleys 2. Thepulleys 2 comprisewheels 21 which are arranged to rotate for efficiently guiding theshoelace 3. Thewheel 21 is partly enclosed by awall 22 to prevent thelace 3 from coming loose. Thewalls 22 are arranged at the lateral sides of thewheels 21 ofpulley 2, such that thelace 3 can be arranged in a zig-zag fashion between the two sides of the upper 11. - The
lace 3 in this embodiment is tied in aknot 31 at a frontal location of the shoe 1 and runs through thepulleys 2 towardsentries 15 a ofchannels 15 for guiding thelace 3 from the connecting means to alacing tensioning mechanism 4 which will be explained in greater detail below. The tensioning mechanism is arranged for automatically tensioning and loosening thelace 3 and thereby the shoe 1. - To facilitate entry of a foot in the shoe 1 in a loosened state of the
lace 3, the wall surrounding theopening 13 of the shoe 1 is provided with aspring member 13 a extending along said wall. Thespring member 13 a exerts an outwardly directed force, indicated with arrows B, which opens the entry opening 13 in the loose state of thelace 3. Also the inner edge of the upper 11 is provided with aspring member 11 a which extends along said edge. Thespring member 11 a exerts a biasing force directed laterally outwardly, as indicated with arrows C. This also opens the shoe 1 in loosened state of thelace 3. Finally, also thetongue 14 of the shoe 1 is provided with aspring member 14 a which biases thetongue 14 to open, as indicated with arrow D. Thespring members body 12 in an opening position of the shoe 1, such that a foot can be easily inserted in the shoe 1. - The lacing
tensioning mechanism 4 will now be elucidated with reference toFIG. 2-4 . Thetensioning mechanism 4 comprises a movingbody 41 which is arranged to receive a part of thelace 3 inopenings 41 a. In this example, thelace 3 is wound along the movingbody 41. More specifically, thelace 3 enters thechannel 15 at theentry 15 a near the connectingmeans 2, see in particularFIG. 3 , and leaves thechannel 15 at theend 15 b near thetensioning mechanism 4 in the sole 10. Thelace 3 then enters thefirst hole 41 a of the movingbody 41, returns in thesecond hole 41 a to subsequently enter a channel again in an end (not shown) of the channel towards the connectingmeans 2. The lace thus forms a loop from the knot 31 (FIG. 1 ), through the connectingmeans 2, the twochannels 15 provided at both lateral sides of the shoe 1 and the movingbody 41. - The moving
body 41 is guided byrods 42 which are arranged on an uppersole part 10 d (as will be explained below). The movingbody 41 is allowed to move along therods 42. As an alternative (not shown), the movingbody 41 is substantially planar and is guided at the lateral edges in correspondingly shaped slits arranged in wall sections of a recess in the uppersole part 10 d. The slits then form the guides for guiding the movingbody 41. The movingbody 41 is further connected to the uppersole part 10 d by aspring 43 or another material with elastic properties, such as an elastic band, for instance made of rubber. Thespring 43 forces the movingbody 41 in the position as shown inFIG. 2 , i.e. towards theends 15 b of thechannels 15. - For moving the moving
body 41, anactuator 5 is provided in the form of a moveablesole part 10 a. The moveablesole part 10 a is formed by cutting the back half of the sole 10 in two, thereby forming a uppersole part 10 d which is fixedly connected to thebody 12 and amoveable part 10 a which is hingeably connected to theremainder 10 b of the sole. The uppersole part 10 d and/or the moveablesole part 10 a are provided with a recess for receiving thetensioning mechanism 4 there between. During use, the lower surface of the uppersole part 10 d and the upper surface of the moveablesole part 10 a at least partly abut, such that these surfaces form end surfaces. - The
hinge axis 10 c is located at a central region of the shoe. A connectingplate 51 fixed on the upper surface of the moveablesole part 10 a connects to apush rod 52 which is at its other end connected to the movingbody 41. Pivoting of the moveablesole part 10 a (indicated with A inFIG. 1 ) will thus result in a movement of the movingbody 41, as will be explained below. - In
FIG. 3 , thetensioning mechanism 4 is in its loose position. The distance between the movingbody 41 and theends 15 b of thechannels 15 is hereby small. By stepping into the shoe 1, a movement indicated with III inFIG. 4 is initiated, thereby pivoting the moveablesole part 10 a towards the uppersole part 10 d in a direction indicated with II inFIG. 4 . Due to this pivoting movement, the pushingrod 52 will push the movingbody 41 in a direction indicated with I along therods 42. The distance between the movingbody 41 and theends 15 b of thechannels 15 is thereby increased, thereby increasing the path length of thelace 3 and thus thereby tensioning thelace 3. Thepulleys 2 as connecting means ensure a homogeneous distribution of the tension along the length of the upper 11. While moving in a direction I, thespring 43 is tensioned. - When the moveable
sole part 10 a has moved into the surface of the sole 10, the upper surface of the moveablesole part 10 a and the lower surface of the uppersole part 10 d abut, thereby limiting any further relative movement in the direction II. In this position, the user can walk on the shoe. In this position, the movingbody 41 has travelled along a length d as indicated inFIG. 4 , thereby tensioning thelace 3. During a first use of the shoe 1, a user can adjust the needed tension by adjusting theknot 31 near the front of the shoe 1. After this adjustment, the lacingtensioning mechanism 4 can be used for fastening and loosening the lacing. - For preventing accidental loosening of the lace, as the moving
body 41 tends to travel in a direction opposite I inFIG. 4 due to thespring 43, alocking mechanism 6 is arranged to interlock the uppersole part 10 d and the moveablesole part 10 a. In this example, afinger 62 is arranged to engage aprotrusion 61 in a snap-fit fashion. The user can unlock thelocking mechanism 4 by hand or by using his other foot, thereby loosening the lacingtensioning mechanism 4. - If the
locking mechanism 4 is loose, lifting the heel (a movement opposite direction III inFIG. 4 ) will result in the movement of the movingbody 41 towards theends 15 b of thechannels 5 due to the tension in thespring 43. Also the weight of the moveablesole part 10 a may assist in moving the movingbody 41 back. Thespring 43 is further sufficiently stiff to hold the movingbody 41 in the position shown inFIG. 3 , such that a user can efficiently step into the shoe 1. - In
FIGS. 5, 6 and 7 a second embodiment of thetensioning mechanism 4 a is shown. Also in this embodiment, thetensioning mechanism 4 a is provided with a movingbody 41 a which is moved in the plane of theupper part 10 d of the sole by a pushingrod 52 upon movement of the moveablesole part 10 a along direction A. More specifically, upon movement of the moveablesole part 10 a from the position as shown inFIG. 5 , which corresponds to the loosened position of thetensioning mechanism 4 a also shown inFIG. 6 , towards the uppersole part 10 d, the pushingrod 52 pushes the movingbody 41 a in a direction I. The pushingrod 52 is hereby connected to a front part of the movingbody 41 a, which is further provided with arecess 44 for receiving the pushingrod 52 in tensioned position as will be explained later. As in the first embodiment, aspring 43 is connected to the movingbody 41 a which urges the moving body in a direction opposite arrow I, i.e. towards the loosened position. - In this embodiment, the
lace 3 is not directly coupled to the movingbody 41 a.Reels 6 having rotation axes R perpendicularly to the plane of the sole and which are connected to the uppersole part 10 d are provided to receive the lace end. In this embodiment, thereels 6 comprise twoflanges 61 in between which thelace 3 can be received and wound. Thereels 6 are provided with aconnection 62 for connecting ends of thelace 3 to thereels 6. Thereels 6 are further provided withsprockets 63 which cooperate withracks 45 arranged on either sides of the movingbody 41 a. The movingbody 41 a is arranged between the tworeels 6, in particular thesprockets 63 thereof, and is in engagement therewith. The distance e between the twosprockets 63 is sufficiently large such that pushingrod 52 can be received there between and can be received in the accordingly shapedrecess 44 in the tensioned position. - Movement of the moving
body 41 a in the direction I upon movement of thesole part 10 a towards the uppersole part 10 d will therefore result in a rotation of thereels 63 in directions indicated with IV inFIG. 6 . The lace ends are connected and guided in such a way that this rotation will result in winding thelace 3 on thereels 6, thereby tensioning thelace 3. This is schematically indicated inFIG. 7 , wherein thelace end 3 are shown wound up around thereels 6. - In the tensioned position as shown in
FIG. 7 , the pushingrod 52 extends substantially planar and is received in therecess 44. This will result in a compact composition. Also visible inFIG. 7 is that thespring 43 is elongated and biases the movingbody 41 a back to the position ofFIG. 6 . Locking of thesole part 10 a to theupper part 10 d in the tensioned position will however prevent this. Upon unlocking however, the movingbody 41 a will be urged towards the loosened position, thereby rotating thereels 6 to unwind the lace ends 3. This will release the tension in thelace 3 which will allow the user to take off the shoe. In particular when the shoe is provided with elastic means for widening the shoe, this will further contribute in automatically unwinding thelace 3 from thereels 6. - The present invention is not limited to the embodiment shown, but extends also to other embodiments falling within the scope of the appended claims.
Claims (20)
1. Shoe comprising:
a sole having a lower surface;
an upper provided with connecting means arranged for receiving lacing;
a lacing tensioning mechanism arranged for tensioning the lace received in said connecting means, wherein the lacing tensioning mechanism is moveable between a loose position with reduced lacing tension for easy access in the shoe and a second tensioned position wherein the lace is under tension; and
an actuator mechanism for moving the lacing tensioning mechanism between the positions, wherein actuator mechanism comprises a moveable sole part which is moveable from and into the surface of the sole and wherein the actuator mechanism is arranged for moving the lacing tensioning mechanism from the loose position to the tensioned position upon movement of the moveable sole part into the surface of the sole.
2. Shoe according to claim 1 , wherein the actuator and/or the lace tensioning mechanism is arranged outside of the space for receiving the foot of the user,
3. Shoe according to claim 1 or 2 , wherein the lacing tensioning mechanism is arranged to receive a part of the lace in a moving body which is moveable to and from the connecting means for loosening and tensioning the lace, wherein the actuator is arranged to move the moving body.
4. Shoe according to claim 3 , wherein the moving body is arranged to move and is guided in a plane parallel to the surface of the sole.
5. Shoe according to claim 4 , wherein the moving body is incorporated in the sole.
6. Shoe according to any of the claims 3 -5 , wherein the shoe comprises guiding means for guiding the lace from the connecting means to the moving body.
7. Shoe according to any of the claims 3 -6 , wherein the moving body is biased towards the connecting means, such that the lacing tensioning mechanism is biased towards the loose position.
8. Shoe according to claim 7 , further comprising locking means arranged for locking the lacing tensioning mechanism in the tensioned position by locking the moveable sole part in the position in the surface of the sole.
9. Shoe according to any of the preceding claims 3 -8 , wherein the lacing tensioning mechanism further comprises at least one reel for receiving the part of the lace, wherein the reel is arranged for tensioning and loosening said lace upon rotation, wherein the moving body is arranged for engaging said reel for rotating the reel upon movement of the moving body.
10. Shoe according to claim 9 , wherein the moving body is provided with a rack and the reel is provided with a cooperating pinion.
11. Shoe according to claim 9 or 10 , wherein the lacing tensioning mechanism comprises two reels, wherein each of the reels is arranged to receive a respective end of the lace, wherein the moving body is arranged between and in engagement with the two reels.
12. Shoe according to any of the claims 9 to 11 , wherein the reel is rotatably connected to a stationary part of the sole opposite the moveable sole part.
13. Shoe according to any of the preceding claims, wherein the moveable sole part is hingeably connected to a stationary part of the sole about a centrally located hinging axis.
14. Shoe according to claim 13 , wherein the moveable sole part is formed by a cut in the sole along a plane parallel to the sole.
15. Shoe according to at least claims 3 and 13 , wherein the actuator mechanism comprises a pushing rod extending between an end part of the moveable sole part opposite the hinging axis and the moving body, wherein the pushing rod is arranged for moving the moving body on movement of the moveable sole part.
16. Shoe according to any of the preceding claims, wherein the moveable sole part forms the back part towards the heel of the sole.
17. Shoe according to any of the preceding claims, wherein the connecting means for receiving lacing comprise rotatable wheels, such as pulleys, for receiving and guiding a lace.
18. Shoe according to any of the preceding claims, wherein the shoe comprises biasing means incorporated in the body of the shoe which are arranged for opening the body of the shoe for easy entry in the loose position of the lacing.
19. Shoe according to claim 18 , wherein the biasing means comprise elastic means arranged to exert an outwardly oriented elastic force on the body.
20. Shoe according to claim 18 or 19 , wherein the biasing means are arranged in the body:
around the entry opening of the shoe for opening said entry opening;
around the upper for latterly moving apart the lateral sides of the upper; and/or
in a tongue for moving the tongue in a direction away from the sole.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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EP14165969.8A EP2937007A1 (en) | 2014-04-25 | 2014-04-25 | Shoe |
EP14165969.8 | 2014-04-25 | ||
EP14188624.2 | 2014-10-13 | ||
EP14188624 | 2014-10-13 | ||
PCT/EP2015/058417 WO2015162066A1 (en) | 2014-04-25 | 2015-04-17 | Shoe |
Publications (1)
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US20170049190A1 true US20170049190A1 (en) | 2017-02-23 |
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US15/306,321 Abandoned US20170049190A1 (en) | 2014-04-25 | 2015-04-17 | Shoe |
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WO (1) | WO2015162066A1 (en) |
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