SE543472C2 - Magnetic insole arrangement for riders' footwear - Google Patents

Abstract

ABSTRACT The present invention relates to a magnetic insole kit (1) comprising an insolemember (101, 201, 301 ), at least one magnetic member (105, 205, 305), afirst positioning unit (103, 203, 303), and a second positioning unit (103', 203',303'), wherein said insole member (101, 201, 301) and said first positioningunit (103, 203, 303) jointiy defines a first magnet positioning space (121, 221),wherein said insole member (101, 201, 301) and said second positioning unit(103', 203', 303') jointly defines a second magnet positioning space (121 ',221 ') that is different from said first magnet positioning space (121, 221),wherein said first magnet positioning space (121, 221) and said secondmagnet positioning space (121', 221') are arranged to receive said at leastone magnetic member (105, 205, 305). Elected for publication: Fig. 1

Description

The present invention relates to a magnetic insole arrangement and amagnetic insole kit.

BACKGROUND OF THE INVENTION When riding, having the correct position of the boot in relation to thestirrup is important. lf the boot is incorrectly positioned, the rider may havedifficulties communicating with the horse, the boot may slip from the stirrup, orthe rider might injure him-/herself due to a non-ergonomic transmittal of forcesfrom the stirrup to the foot of the rider. As each individual horse and ridercombination is unique, with their own specific weight distribution, gait, andrelative position to each other, determining the optimal position of the rider'sboot in relation to the stirrup is difficult. Furthermore, personal preferences ofthe rider is also a factor in determining this position.

When designing a stirrup, one key aspect is safety. lf a rider getscaught in the stirrup when falling off the horse, serious injury is likely to follow.ln the worst case, such a fall might even be fatal.

For this purpose, magnetic stirrups are commonly available, as theseallow safe positioning of the rider's boots on the stirrups while simultaneouslyincreasing the grip between the rider's boots and the stirrup, which lowers therisk of the rider's foot slipping through and getting caught in the stirrups.However, finding a magnetic stirrup that matches the rider's preferredpositioning of their magnetic boots in relation to the stirrup may be difficultand may require a significant amount of trial-and-error.

SUMMARY OF THE INVENTIONlt is an object of the present invention to alleviate at least some of the mentioned drawbacks of the prior art and to provide a magnetic insolearrangement that allows a rider to configure the positioning of the magneticmember in relation to the insole, thus adapting the position of the boot inrelation to a stirrup. This is cost efficient, as the rider will only ever have to buy one magnetic insole arrangement, instead of buying several magneticstirrup/insole arrangements in order to find one that correctly matches thepreferred boot positioning of the rider. This and other objects, which willbecome apparent in the following, are accomplished by a magnetic stirruparrangement and a magnetic stirrup kit as defined in the accompanyingindependent claims.

The term exemplary should in this application be understood asserving as an example, instance or illustration.

The present invention is at least partially based on the realisation thatby providing means for adapting the position and size of the magnetpositioning space in a magnetic stirrup arrangement, a higher degree of userflexibility and configurability is achieved. This is beneficial since it allows therider to quickly arrive at a stirrup arrangement that matches the preferredpositioning of their boots in relation to the stirrup.

According to the first aspect of the present invention, a magnetic insolekit is provided. The magnetic insole kit comprises an insole member, at leastone magnetic member, a first positioning unit, and a second positioning unit.The insole member and the first positioning unit jointly defines a first magnetpositioning space. The insole member and the second positioning unit jointlydefines a second magnet positioning space that is different from the firstmagnet positioning space. The insole member comprises a cavitv and the cavfitv ie arreneecš to receive either et' said first :ßesitionšne tinšt and seicš second pesštienine unit..- -eæte--tïhe first magnet positioning space and the second magnet positioning space are arranged to receive the at least onemagnetic member.

The first and the second magnet positioning spaces are different insize, orientation, and/or shape. Thus, by reassembling the magnetic insolearrangement and changing from a first positioning unit to a second positioningunit, a user may adapt the positioning of the at least one magnetic member.This enables a user to adapt the positioning of his or her feet in relation to amagnetic stirrup with which the magnetic insole arrangement is to be used.

According to one exemplary embodiment, the magnetic member is apermanent magnet or an electromagnet.

Ace-erding»te-ene»exemetafy-embed-imenQ--sašd-inseie-afember The cavity is dimensioned such that the first and second positioningunits may be fitted therein. For example, they may be press fitted into thecavity, or they may be fitted with Velcro, adhesives or other connectionmeans. Thus, a secure and reliable connection between the positioning unitsand the insole member is achieved.

According to at least one exemplary embodiment, the cavity isarranged to receive said first positioning unit and said second positioning unit.This means that the first positioning unit and the second positioning unit mayboth be received by the cavity and fitted therein, however not simultaneously.Either one of the two substantially fills out the entire cavity when fitted therein.

According to at least one exemplary embodiment, the first and thesecond magnet positioning spaces both have a smaller volume than saidcavity. This enables a magnetic member to be fitted to either one of thepositioning units such that a secure connection therebetween is achieved,while the positioning units are fitted to the insole member.

According to one exemplary embodiment, said insole membercomprises an insole base and at least one cover member. The cover membermay either be made from the same material as the insole base, in order toprovide a homogenous feel to the insole member, or from a different materialhaving desired properties such as moisture transportation ability,breathability, or comfort enhancing features. According to one exemplaryembodiment, the cover member is located on the upper side of the insolemember, such that a user's foot may rest thereupon.

According to one exemplary embodiment, said cavity is formed in saidinsole base, and said at least one cover member covers at least one side ofsaid cavity. Thus, the cover member of the insole member functions to keepthe positioning unit and the magnetic member in place inside the cavity.

According to one exemplary embodiment, said insole membercomprises an insole base, an upper cover member, and a lower covermember, and said cavity is formed in said insole base, and said upper and lower cover members cover a respective side of said cavity. By having asandwich structure as described above, the magnetic member and thepositioning unit in which it is fitted may be kept securely in place between thetwo cover members. Furthermore, composite material properties may beachieved by alternating |ayers of different properties, such as softness,breathability, viscoelasticity, and so on. According to one exemplaryembodiment, the lower cover member partially covers the cavity of the insolemember.

According to one exemplary embodiment, said cavity of said insolemember is open from one side. Thus, the positioning unit and the magneticmember may be inserted from this side allowing quick and easy assembly ofthe magnetic insole arrangement. When the magnetic insole arrangement isarranged inside a shoe, the sides of said shoe will help keep the positioningunit and the magnetic member in place.

According to one exemplary embodiment, said positioning unit isinserted from said open side of said cavity.

According to one exemplary embodiment, said first positioning unit andsaid second positioning unit are releasably connectable to said insolemember. This enables a user to change between the two positioning units,thus allowing adaptability in which magnetic positioning space to utilize.

According to one exemplary embodiment, said at least one of said firstpositioning unit and said second positioning unit comprises at least oneprotrusion and wherein said insole member comprises at least one recessarranged to receive said at least one protrusion to hold said first or secondpositioning unit in place in relation to said insole member. By having a snap-lock, friction fit, jigsaw connection piece, or other connection arrangementbetween the positioning unit and the insole member, a secure connectiontherebetvveen is provided.

According to one exemplary embodiment, said at least one protrusionis elastically deformable to allow said first or second positioning unit to beinserted into said insole member. According to one exemplary embodiment,said at least one protrusion is elastically deformable to allow said first orsecond positioning unit to be inserted into said cavity of said insole member.

This enables quick and easy connection of the positioning units to theinsole member. Preferably, the elasticity of the protrusion is chosen such thatonly a force above a predetermined threshold causes the positioning unit tomove relative to the insole member. This allows for having a protrusion thatprevents the positioning units from accidentally disengaging the insolemember, while allowing a user to deliberately disengage the positioning unitsonce so desired.

According to one exemplary embodiment, at least one of said firstpositioning unit and said second positioning unit comprises at least twopositioning members jointly defining a magnet positioning space. Whenhaving positioning units with complex geometries, having it made up from twopositioning members may simplify the manufacturing of the units.Fufihennme,hawngthepomflomngunübernadeupofaphnæüyofpositioning members allows for greater modularity in determining the size,orientation, and shape of the magnet positioning space.

According to one exemplary embodiment, said cavity of said insolemember is open from two opposite sides. For example, the cavity may beopen from an upper side and a lower side of the insole member, such that athrough-hole is formed. Alternatively, the cavity may be open from the twolateral sides of the insole member. This allows the sides of a shoe in whichthe magnetic insole member is to be arranged to prevent the positioning unitsand the magnetic member from disengaging from the insole member.

According to one exemplary embodiment, said at least two positioningmembers are inserted into said cavity from a respective side.

According to one exemplary embodiment, said cavity of said insolemember is open from one side, and closed from the opposite side. Forexample, the cavity may be open from one lateral side and extend towardsthe opposite lateral side. Alternatively, the cavity may be open from an upperor lower side and extend downwards or upwards towards the opposite side ofthe insole member. As such, the cavity may be defined in five directions bythe insole member, and in one direction be open towards a surrounding space.

According to one exemplary embodiment, said insole member and saidfirst and second positioning units are made from the same material. Thisenables the user of the insole arrangement to experience a homogenoustactile feel from the entire insole arrangement, thus improving user comfort.The insole member may for example be made from cork, non-woven fabric,EVA, PU foam, TPU foam, Sorbothane, or Poron. Alternatively, thepositioning units may be made from hard plastic or a metal. The metal may beferromagnetic, and thus stick to the magnetic member arranged inside thecavity of the positioning unit. This increases the stability of the assembly ofthe magnetic insole arrangement.

According to one exemplary embodiment, said insole member has anupper side, a lower side and lateral sides. The upper side is to be understoodas being the side that is intended to face the foot of a user, while the lowerside is to be understood as being the side that is intended to face the innersole of a shoe. The lateral sides of the insole member are the sides thatextend from a toe portion of the insole member to a heel portion of the insolemember, i.e. its longitudinally extending sides.

According to one exemplary embodiment, said cavity extends from oneside of said insole member. According to one exemplary embodiment, saidcavity extends towards an opposite side of said insole member. According toone exemplary embodiment, said cavity extends from an upper side towardsa lower side, or wherein said cavity extends from a lower side towards anupper side, or wherein said cavity extends from one lateral side towards anopposite lateral side. According to one exemplary embodiment, said cavity isclosed from one side of said insole member.

Generally, all terms used in the description are to be interpretedaccording to their ordinary meaning in the technical field, unless explicitlydefined otherwise herein. All references to “a/an/the [element, device,component, means, step, etc.]” are to be interpreted openly as referring to atleast one instance of said element, device, component, means, step, etc.,unless explicitly stated otherwise.

BRIEF DESCRIPTION OF THE DRAWINGS These and other features and advantages of the present invention willnow be further clarified and described in more detail, with reference to theappended drawings showing different embodiments of a magnetic insolearrangement and a magnetic insole kit according to the present invention.

Figure 1a is an exploded perspective view of a magnetic insole kitaccording to one aspect of the present invention, Figure 1b is a perspective view of a magnetic insole arrangementassembled using the magnetic insole kit of Figure 1a, Figure 2a is an exploded perspective view of a magnetic insole kitaccording to one aspect of the present invention, Figure 2b is a perspective view of a magnetic insole arrangementassembled using the magnetic insole kit of Figure 2a, Figure 3a is an exploded perspective view of a magnetic insole kitaccording to one aspect of the present invention, Figure 3b is a perspective view of a magnetic insole arrangementassembled using the magnetic insole kit of Figure 3a, and Figure 4 is a schematic view of an insole member and two positioningmembers according to one aspect of the present invention.

DETAILED DESCRIPTION OF EMBODIMENTSln the following detailed description, some embodiments of the present invention will be described. However, it is to be understood that features ofthe different embodiments are exchangeable between the embodiments andmay be combined in different ways, unless anything else is specificallyindicated. Even though in the following description, numerous specific detailsare set forth to provide a more thorough understanding of the presentinvention, it will be apparent to one skilled in the art that the present inventionmay be practiced without these specific details. ln other instances, well knownconstructions or functions are not described in detail, so as not to obscure thepresent invention.Figure 1a is an exploded perspective view of a magnetic insole kit 1 according to one aspect of the present invention. ln the following, the termmagnetic insole kit 1 will be used to denote the entire kit, with at least two positioning units 103 configured to allow adaptability in the placement of themagnetic member 105. The term magnetic insole arrangement 100 will beused when referring to the arrangement achieved when assembling the partsof the kit, choosing one of the two or more positioning units 103 and fittingthis/these to the insole member 101.

The magnetic insole kit 1 comprises an insole member 101, shaped tobe fitted inside a rider's boot or shoe, either permanently or removably. Themagnetic insole kit 1 further comprises a magnetic member 105 that isconfigured to magnetically engage a magnetic stirrup arrangement. Thisallows for safe and precise positioning of a rider's boot in relation to thestirrup. The positioning and orientation of the magnetic member 105 inrelation to the magnetic stirrup with which the magnetic insole arrangement100 is to be used determines the position in which the boot of a ridermagnetically engages the stirrup. As such, reconfiguring the position ororientation of the magnetic member 105 in the magnetic insole arrangement100 is beneficial as it allows for adaptability in feet placement.

The insole member 101 comprises a cavity 107, in which the magneticmember 105 is to be placed. The cavity 107 is located in the front portion 109of the insole member 101, around the area corresponding to the ball of arider's foot. The cavity 107 extends from one lateral side 111 of the insolemember to the opposite side 113, and is open from a top side 115 of theinsole member 101. The cavity 107 is significantly larger than the magneticmember 105, so a plurality of positioning units 103, 103' are provided forallowing the magnetic member 105 to be fitted inside the cavity 107. ln theillustrated embodiment, two different positioning units 103, 103' are provided.Each one of these positioning units 103, 103' comprises two respectivepositioning members 117, 117', 119, 119' that are dimensioned such that theymay be press fitted into the cavity 107. The positioning members 117, 117',119, 119' of either positioning unit 103, 103' define a magnet positioningspace 121, 121' of substantially the same size as the magnetic member 105,such that the magnetic member 105 may be fitted to either one of thepositioning units 103, 103”. The magnet positioning space 121 of the firstpositioning unit 103 differs from the magnet positioning space 121' of the second positioning unit 103' in that the first magnet positioning space 121 islocated further towards the front portion 109 of the insole member 101 thanthe second magnet positioning space 121”. Thus, the two positioning units103, 103' define two different magnet positioning spaces 121, 121', therebyallowing adaptabiiity in feet placement of a rider using the magnetic insolearrangement 100 together with a magnetic stirrup.

The magnetic insole kit 1 further comprises an upper cover member123, having substantially the same out|ine as the insole member 101 andbeing arranged to cover the positioning unit 103, 103' once placed inside thecavity 107, such that a smooth and continuous surface is achieved at the topside 115 of the magnetic insole arrangement 100.

Figure 1b is a perspective view of a magnetic insole arrangement 100assembled using the magnetic insole kit 1 of Figure 1a. Here, one positioningunit 103, with its two positioning members 117, 119, has been placed insidethe cavity 107 of the insole member 101. The two positioning members 117,119 define a magnet positioning space 121, into which the magnetic member105 has been placed.

Figure 2a is an exploded perspective view of a magnetic insole kit 2according to one aspect of the present invention. ln contrast with themagnetic insole kit 1 of figure 1a, the kit 2 comprises three positioning units203, 203', 203", each of which comprising a single positioning member 217,217', 217" for arrangement in the cavity 207 of the insole member 201.Furthermore, the cavity 207 of the insole member 201 is a through-holeextending from an upper side 215 to a lower side 227 of the insole member201. Also, in addition to the upper cover member 223 that is arranged tocover an upper side 215 of the insole member 201, there is provided a lowercover member 229 arranged to cover a lower side 227 of the insole member201. Thus, the positioning unit 203, 203', 203" held in the through-hole cavity207 of the insole member 201 and the magnetic member 205 held thereinmay be secured between the upper and the lower cover members 223, 229.

The kit of figure 2a comprises three positioning units 203, 203' 203",each defining a different magnet positioning space 221, 221 ', 221 Themagnet positioning space 221 defined by one of the three positioning units 203 is angled to allow for an angled positioning of the rider's boots to thestirrups. The magnet positioning space 221' defined by another one of thethree positioning units 203' is straight, thus allowing a straight positioning ofthe rider's boots. The third magnet positioning space 221 " is also straight, i.e.extending in a direction that is perpendicular to the longitudinal extension ofthe insole member 201, but arranged slightly closer to the front portion 209 ofthe insole member 201 than the first magnet positioning space 221.

Figure 2b is a perspective view of a magnetic insole arrangement 200assembled using the magnetic insole kit 2 of Figure 2a. Here, one of the threepositioning units 203 has been placed inside the cavity 207 of the insolemember 201. The upper and the lower sides 215, 227 of the insole member201 has been covered by a respective cover member 223, 229, such that thepositioning unit 203 and the magnetic member 205 is held in placetherebetvveen.

Figure 3a is an exploded perspective view of a magnetic insole kit 3according to one aspect of the present invention. ln contrast with themagnetic insole kit 1, 2 of figures 1a and 2a, the cavity 307 of the insolemember 301 extends from one lateral side 311 of the insole member 301 andpartway towards the opposite lateral side 313 of the insole member 301.Thus, the cavity 307 is neither a through-hole cavity 207 as in the kit 2 offigure 2a, nor a double-sided open cavity 107 as in the kit 1 of figure 1a.lnstead, the cavity 307 of the insole member 301 of this kit 3 is open from anupper side 315 of the insole member 301, and from one lateral side 311 of theinsole member 301. Thus, the positioning units 303, 303', 303" of this kit 3are inserted from a lateral side 311 of the insole member 301, and the top ofthe cavity 307 is covered by an upper cover member 323 as in the kits 1, 2illustrated above. The kit 3 of figure 3a comprises three positioning units 303,303', 303", each of which comprises a single positioning member 317, 317',317" for arrangement in the cavity 307 of the insole member 301.

Figure 3b is a perspective view of a magnetic insole arrangement 300assembled using the magnetic insole kit 3 of Figure 3a. Here, one of the threepositioning units 303 has been placed inside the cavity 307 of the insolemember 301. The upper side 315 of the insole member 301 has been 11 covered by an upper cover member 323, such that the positioning unit 303and the magnetic member 305 are held in place inside the cavity 307.

Figure 4 is a schematic view of an insole member 401 and twopositioning members 417, 419. The positioning members 417, 419 arearranged in a cavity 407 of the insole member 401, similar to the positioningmembers 117, 119 shown in Figs. 1a and 1b. Each one of the two positioningmembers 417, 419 comprises a protrusion 425 for locking the positioningmembers 417, 419 in place in relation to the insole member 401. Theprotrusion 425 is wedge-shaped, and the insole member 401 has acorresponding recess into which the protrusion 425 is received as thepositioning member 417, 419 is inserted into the cavity 407. Furthermore, theprotrusions 425 of the first and second positioning members 417, 419 areelastically deformable to allow the positioning members 417, 419 to beinserted into the cavity 407 of the insole member 401.

The person skilled in the art realizes that the present invention by nomeans is limited to the embodiments described above. The features of thedescribed embodiments may be combined in different ways, and manymodifications and variations are possible within the scope of the appendedclaims. ln the claims, any reference signs placed between parentheses shallnot be construed as limiting to the claim. The word "comprising" does notexclude the presence of other elements or steps than those listed in theclaim. The word "a" or "an" preceding an element does not exclude thepresence of a plurality of such elements.

Claims (1)

1. A magnetic insole kit (1) comprising an insole member (101, 201, 301),at least one magnetic member (105, 205, 305), a first positioning unit(103, 203, 303), and a second positioning unit (103', 203', 303'),waereirfcharacteršzed in that said insole member (101, 201, 301) andsaid first positioning unit (103, 203, 303)joint|y defines a first magnetpositioning space (121, 221), wherein said insole member (101, 201, 301) and said secondpositioning unit (103', 203', 303') jointly defines a second magnetpositioning space (121 ', 221 ') that is different from said first magnetpositioning space (121, 221), wherein said insole member comprises a cavity (107, 207, 307), andwherein said cavity (107, 207, 307) is arranged to receive either of saidfirst positioning unit (103, 203, 303) and said second positioning unit(103', 203', 303'), and wherein said first magnet positioning space (121, 221) and saidsecond magnet positioning space (121', 221') are arranged to receivesaid at least one magnetic member (105, 205, 305). _ Magnetic insole kit (1) according to cäašm 1any-ane-ef-tife--piæseeding- eiašms, wherein said insole member (101, 201, 301) comprises aninsole base and at least one cover member (123, 223, 323). Magnetic insole kit (1) according to c|aim 2, wherein said cavity (107,207, 307) is formed in said insole base, and wherein said at least onecover member (123, 223, 323) covers at least one side of said cavity(107, 207, 307). _ Magnetic insole kit (1) according to any one of the preceding claims, wherein said cavity (107, 207, 307) of said insole member (101, 201,301) is open from one side. _ Magnetic insole kit (1) according to any one of the preceding claims, wherein said first positioning unit (103, 203, 303) and said secondpositioning unit (103', 203', 303') are releasably connectable to saidinsole member (101, 201, 301). _ Magnetic insole kit (1) according to any one of the preceding claims, wherein said at least one of said first positioning unit (103, 203, 303)and said second positioning unit (103', 203', 303') comprises at leastone protrusion (425) and wherein said insole member (101, 201, 301)comprises at least one recess arranged to receive said at least oneprotrusion (425) to hold said first (103, 203, 303) or second positioningunit (103', 203', 303') in place in relation to said insole member (101,201, 301). _ Magnetic insole kit (1) according to claim 6, wherein said at least one protrusion (425) is elastically deformable to allow said first (103, 203,303) or second positioning unit (103', 203', 303') to be inserted intosaid insole member (101, 201, 301). _ Magnetic insole kit (1) according to any one of the preceding claims, wherein at least one of said first positioning unit (103, 203, 303) andsaid second positioning unit (103', 203', 303') comprises at least twopositioning members (117, 117', °1?, 21? 21?"“, 31ïf, 313", 'Wífwjjg1113' 41? 41šš)jointly defining a magnet positioning space (1031--2-01,åW-121 121” 421). _ Magnetic insole kit (1) according to any one of the preceding claims, wherein said insole member (101, 201, 301) and said first (103, 203,303) and second positioning units (103', 203', 303') are made from the same material.