CN106263262A - Rigidity adjustable ankle orthopedic insoles - Google Patents

Abstract

A kind of rigidity adjustable ankle orthopedic insoles, this orthopedic insoles is provided with the arch support curved surface for ankle longitudinal arch carries out vertical supporting, and lower section or the lower section of heel position at this orthopedic insoles arch support surface location are provided with rigidity adjustable apparatus.The vertical supporting rigidity of ankle orthopedic insoles arch support curved surface can be adjusted by user of the present invention as required, meets ankle rigidity requirement in the case of different motion or/and under different degree of impairment.

Description

Rigidity adjustable ankle orthopedic insoles

Technical field

The present invention relates to the technology of one way of life daily necessities field, a kind of rigidity by changing rigidity tunable arrangement Regulate the device of orthopedic insoles arch support curved surface vertical rigidity.

Background technology

Plantar fasciitis is one of most commonly seen sufficient disease of person in middle and old age colony, has a strong impact on the healthy of person in middle and old age colony and life Quality.Ankle surgeon generally use arch support/ankle orthopedic insoles to treat plantar fasciitis, by arch support/ankle Arch support curved surface on orthopedic insoles carries out vertical supporting and reaches the purpose that foot is suffered from treatment/rectification the arch of foot of patient.Along with trouble Recovery/the enhancing of person's ankle function, the height of patient's arch of foot changes or/and the intensity of arch of foot is strengthened further, it is therefore desirable to no Same bearing height and rigidity are with the support suitable to arch of foot offer.But traditional arch support/ankle orthopedic insoles is according to trouble The shape moulding of person's ankle bottom surface is fabricated by, and the height of arch support curved surface and rigidity all determine that；So in different recoveries Phase needs to manufacture different orthopedic insoles, with satisfied foot of suffering from for arch support height and the different demands of rigidity.

Through the retrieval of prior art is found, U.S. Patent number US5,903,985, open (bulletin) day 1999.5.18, open A kind of adjustable arch support and there is the boot for sports that this adjustable arch supports, boot for sports includes the sole with upper of a shoe, Region on sole is divided into vola supporting zone and arch support region, and arch support is that adjustable list of elastic deformation can occur Unit, is arranged between sole arch support region and upper of a shoe sidewall, and arch support has volume-tunable joint mechanism, by arch of foot Support and be adjusted changing the height of arch support, and then adapt to the height of arch of foot.

U.S. Patent number US6,804,902, open (bulletin) day 2004.10.19, disclose orthopedic of a kind of adjustable arch of foot Support, its principle is to use to be arranged on the tensioning equipment below arch support arch support curved surface carries out pre-stretch-draw, and by regulation The length of drawing device changes the upper pitch of arch of arch support curved surface, meets trouble foot high for different arch support at different treatment stages The demand of degree.

Above-mentioned prior art all use different mechanism/devices to change the height of arch support, the height different to adapt to arch of foot Demand.Do not find that any technology meets, by the rigidity changing arch support, the rigidity requirement that arch of foot is different.It is therefore desirable to design A kind of arch support/ankle orthopedic insoles, has rigidity scalable mechanism, to provide arch of foot different propping up by changing its rigidity Support rigidity, to meet ankle rigidity requirement in the case of different motion or/and under different degree of impairment.

Summary of the invention

The present invention is directed to deficiencies of the prior art, propose a kind of rigidity adjustable ankle orthopedic insoles, user Ke Gen The vertical supporting rigidity of ankle orthopedic insoles arch support curved surface is adjusted according to needing, meet ankle in the case of different motion or / and different degree of impairments under rigidity requirement.

The present invention is achieved by the following technical solutions:

Orthopedic insoles of the present invention is provided with the arch support curved surface for ankle longitudinal arch carries out vertical supporting, this orthopedic insoles arch of foot The lower section supporting the lower section at surface location or heel position is provided with rigidity adjustable apparatus.

Described rigidity adjustable apparatus at least one end is connected by connecting rod is fixing with bottom described orthopedic insoles.

When described rigidity adjustable apparatus is positioned at the position of corresponding heel member bottom orthopedic insoles, its side and orthopedic insoles The bottom of heel position is fixed connection and end and is connected by connecting rod is fixing with the bottom of orthopedic insoles forefoot position.

When described rigidity adjustable apparatus is positioned at the lower section at orthopedic insoles arch support surface location, connecting rod is all passed through at its two ends It is connected with fixing bottom the initiating terminal/clearing end of orthopedic insoles arch support curved surface.

Described fixing it be connected by but be not limited to bolt, bolt and pad or bolt and mode that connector combines.

Described rigidity adjustable apparatus includes: housing, elastic component and regulating part, wherein: elastic component is positioned at enclosure interior and End is connected with housing, realizes stiffness tuning in regulating part is movably set in housing and by the effective active length changing elastic component.

The other end of described elastic component is provided with end fitting.

Described regulating part is provided with rotating shaft, and any one part that this rotating shaft is positioned at elastic component and rotating shaft is solid with regulating part or housing Determine or be flexibly connected.

Described rotating shaft is provided with the revolving part contacted therewith, by revolving part rotating shaft and drive regulating part realize rigidity adjust Joint.

Described contact can be, but not limited to the modes such as gear engagement, screw threads for fastening and realizes.

Described elastic component is at least helical spring.

Described housing is helical spring or inwall sets threaded container.

Described orthopedic insoles is provided with opening, and this opening is for extend at orthopedic insoles 2/3 length or front in forefoot front end Extend to inside sole at orthopedic insoles 2/3 width.

The end of described opening is set to smooth-shaped, to avoid stress herein to concentrate, the phenomenon of tear occurs.

Technique effect

Compared with prior art, present invention accomplishes user under different motion state/different degree of impairments under rigidity requirement, Be conducive to the motion of ankle and stress, it is to avoid need different orthopedic insoles at different treatment stages, save material and the energy, Economy is high；Additionally, apparatus of the present invention are simple, stiffness tuning is convenient, it is to avoid need the ankle surgeon each is treated in the past The orthopedic insoles that stage needs carries out selecting/preparing, and saves time/manpower；User/patient as required, can be by rigidity scalable Ankle orthopedic insoles take out from a pair of shoes place into another a pair of shoes use, it is possible to by adjustable for rigidity ankle orthopedic insoles and spy Fixed footwear form a whole and use, convenient, flexible, meet the different custom of user/patient and demand.

Accompanying drawing explanation

Fig. 1 is the top view of the present invention；

Fig. 2 is the side view of Fig. 1, it is illustrated that shape before arch support deformation；

Fig. 3 is the side view of Fig. 1, it is illustrated that shape after arch support deformation；

Fig. 4 is the partial enlarged drawing of Fig. 1, it is illustrated that the details of rigidity adjustable apparatus, and in Fig. 4 a, rigidity adjustable apparatus includes: Housing, helical spring and regulating part, in Fig. 4 b, rigidity adjustable apparatus includes: housing, the helical spring that two rigidity is different And regulating part；

Fig. 5 is another kind ankle orthopedic insoles side view of the present invention, and rigidity adjustable apparatus is arranged on below arch support curved surface；

Fig. 6 is the partial enlarged drawing of Fig. 5, it is illustrated that rigidity adjustable apparatus and the joint detail with orthopedic insoles thereof；

Fig. 7 is another kind ankle orthopedic insoles side view of the present invention, and rigidity adjustable apparatus is arranged under ankle orthopedic insoles heel Side；

Fig. 8 is the partial enlarged drawing of Fig. 7, it is illustrated that rigidity adjustable apparatus and the joint detail with orthopedic insoles thereof；

Fig. 9 is the details of another kind stiffness tuning part of the present invention, uses bevel gear to drive regulating part；

Figure 10 is the partial enlarged drawing of Fig. 9, it is illustrated that rigidity adjustable apparatus and the joint detail with orthopedic insoles thereof；

Figure 11 is the detail view of rigidity adjustable apparatus in Fig. 5, Fig. 7 and Fig. 9；

Figure 12 is the another kind of ankle orthopedic insoles of the present invention, has opening in the middle of shoe pad；

Figure 13 is the another kind of ankle orthopedic insoles of the present invention, has opening inside shoe pad；

Figure 14 is that the present invention uses schematic diagram；

Figure 15 is the stress deformation curve synoptic diagram 1 of embodiment spring；

Figure 16 is the stress deformation curve synoptic diagram 2 of embodiment spring；

Figure 17 is the stress deformation curve synoptic diagram 3 of embodiment spring；

Figure 18 is embodiment simplified model schematic diagram；

Figure 19 is elongation and the situation of change schematic diagram of arch support curved surface summit decline degree of embodiment spring；

Figure 20 is the situation of change schematic diagram that embodiment arch support curved surface can bear vertical force.

Detailed description of the invention

Elaborating embodiments of the invention below, the present embodiment is implemented under premised on technical solution of the present invention, Give detailed embodiment and concrete operating process, but protection scope of the present invention is not limited to following embodiment.

Embodiment 1

As shown in Figure 1, it is shown that the form of orthopedic insoles 1, orthopedic insoles 1 arranges arch support curved surface 10, be used for propping up Support arch of foot, this arch support curved surface is preferably customized according to the vola shape of user；Can also be rule of thumb to set arch support The geomery of curved surface, user is by trying the arch support curved surface selecting to be suitable for my arch shape on.Two are had on orthopedic insoles 1 Bolt 5 and 5 ' is used for coupling stiffness adjustable apparatus.

As in figure 2 it is shown, be the side view of the present invention.Described rigidity adjustable apparatus 2 is positioned at arch support on orthopedic insoles 1 The lower section of curved surface 10, the two ends of rigidity adjustable apparatus 2 are fixed on connecting rod 3, then are fixed on orthopedic shoe by bolt 5 and 5 ' Pad the initiating terminal/clearing end inside arch support curved surface on 1.Regulated just by rigidity adjustable apparatus 2 regulating part 20 above The vertical rigidity of arch support curved surface 10 in the rigidity of degree adjustable apparatus 2, and then regulation orthopedic insoles 1.

After orthopedic insoles is subject to power straight down, deformation pattern such as Fig. 3.The height reduction of arch support curved surface, rigidity scalable Device 2 is by horizontal pull, and the horizontal range between bolt 5 and 5 ' becomes big.Increasing the rigidity of rigidity adjustable apparatus, arch of foot props up The vertical rigidity of support curved surface increases, and by under identical vertical force, the degree of arch support curved surface height reduction reduces, otherwise also So.After vertical force above orthopedic insoles 1 disappears, the shape of arch support curved surface 10 returns to the state before stress.

Fig. 4 a is the partial enlarged drawing of Fig. 2, it is shown that the details of rigidity adjustable apparatus 2 and rigidity adjustable apparatus 2 with The joint detail of orthopedic insoles 1, this rigidity adjustable apparatus 2 includes: housing 200, elastic component 201 and regulating part 20, Wherein: the right-hand member of elastic component 201 is fixing with housing 200 to be connected, and elastic component 201 left end is free end and has end fitting 210。

In the present embodiment, described elastic component 201 is realized by helical spring, can also use different tools in other cases Resilient device realizes.

Elastic part between described end fitting 210 and regulating part 20 is effective working portion.

In the present embodiment, the sidewall of described housing 200 has a helical spring form, and pitch and the spiral shell of elastic component 201 Away from identical.

Rigidity adjustable apparatus 2 is fixedly connected on connecting rod 3, is then fixed on arch of foot on orthopedic insoles 1 by bolt 5 and 5 ' Support the initiating terminal inside curved surface 10 and clearing end.By regulating part 20 is rotated, promote regulating part 20 at housing 200 Inside move to left or move to right, changing effective number of effective coils of elastic component 201, and then the elastic stiffness of change rigidity adjustable apparatus 2, from And change the vertical rigidity of arch support curved surface 10 on orthopedic insoles 1.

Fig. 4 b is the partial enlarged drawing of Fig. 2, it is shown that the another kind of composition of rigidity adjustable apparatus 2.Fig. 4 b and Fig. 4 a's Difference is, in Fig. 4 b, to replace with two elastic stiffnesss different and be sequentially connected in series for the elastic component 201 in rigidity adjustable apparatus 2 First elastic component 201 and the second elastic component 202.In this case, the elastic stiffness adjustable extent of rigidity adjustable apparatus is more Greatly, elastic component 201 and 202 can use helical spring or other resilient devices to realize.

Embodiment 2

As it is shown in figure 5, the rigidity adjustable apparatus 2 in the present embodiment is positioned at below arch support curved surface 10 and respectively with main company Bar the 3, first auxiliary connecting rod 31 and the second fixing connection of auxiliary connecting rod 32, i.e. end fitting 201 is fixing with master connecting-rod 3 is connected, Housing 200 is fixed be connected with the first auxiliary connecting rod 31 and the second auxiliary connecting rod 32 the most respectively；The most further by two connectors 4 and 4 ' are fixed on the initiating terminal inside arch support curved surface 10 and clearing end with described bolt 5 and 5 '.

As shown in Figure 6, the present embodiment is with the difference of embodiment 1: the side of the regulating part 20 of rigidity adjustable apparatus 2 Being provided with stiffness tuning axle 21, there is revolving part 25 this stiffness tuning axle 21 end, by revolving part 25 is rotarily driven rigidity Regulation axle 21 rotates, and is further driven to regulating part 20 and moves to left in housing 200 or move to right, and changes having of spiral elasticity part 201 The effect number of effective coils, and then change the elastic stiffness of rigidity adjustable apparatus 2, thus change the vertical rigidity of arch support curved surface 10.

The screens hole (not shown) with stiffness tuning axle 21 cross-sections match it is provided with in described regulating part 20.

Described revolving part 25 is positioned at heel rear, and described stiffness tuning axle 21 smooth surface, user regulates just as required After degree, stiffness tuning axle 21 and revolving part 25 can be taken out or stay from housing 200 in housing 200.

Embodiment 3

As it is shown in fig. 7, the difference of the present embodiment and embodiment 2 is: rigidity adjustable apparatus 2 is fixedly installed on orthopedic insoles Below the heel member position of 1.The revolving part 25 being positioned at heel rear by rotation drives stiffness tuning axle 21 to rotate, and changes just The elastic stiffness of degree adjustable apparatus 2, and then change the vertical rigidity of arch support curved surface 10.

Fig. 8 is the partial enlarged drawing of Fig. 7, it is illustrated that the details of rigidity adjustable apparatus and rigidity adjustable apparatus and orthopedic shoe The joint detail of pad.The U-shaped connector 220 and 220 ' of housing 200 surface configuration two of rigidity adjustable apparatus 2, and pass through Corresponding bolt 51 (51 ') and 52 (52 ') are connected to orthopedic insoles 1 heel inside edge.Before being positioned at rigidity adjustable apparatus 2 The end fitting 210 of end is fixing with connecting rod 3 to be connected, then is connected to inside the forefoot of orthopedic insoles 1 by two bolts 5 and 5 ' Edge.

Described bolt 5 and 5 ' place arranges pad 300 so that rigidity adjustable connection device 2 holding level.Stiffness tuning method Identical with Fig. 6.

Embodiment 4

As it is shown in figure 9, described revolving part 25 can also be realized by bevel gear, realize rigidity adjustable apparatus equally Rigidity is adjusted.Rigidity adjustable apparatus 2 is similar with the connected mode of orthopedic insoles 1 and Fig. 6.Owing to using bevel gear, use Rigidity can be adjusted inside ankle by family.

Figure 10 is the partial enlarged drawing of Fig. 9, it is illustrated that the details of rigidity adjustable apparatus and rigidity adjustable apparatus are with orthopedic The joint detail of shoe pad.Stiffness tuning axle 21 end arranges bevel gear 22, another rotary shaft 23 arranges bevel gear 24, and bores Gear 24 mates with bevel gear 22, by rotating the revolving part 25 of rotary shaft 23 end, drives stiffness tuning axle 21 Rotate, and then change the elastic stiffness of rigidity adjustable apparatus 2.

As shown in figure 11, for the details of rigidity adjustable apparatus adoptable in Fig. 5～10.The shell of rigidity adjustable apparatus 2 Body 200 side can be closing housing or the open shells that inwall has thread forms, as shown in fig. 11a；Housing internal coiling spring Can be single helical spring or two and the different helical spring of above rigidity is in series, as shown in figure 11b；Stiffness tuning axle Can be smooth surface and the optical axis through regulating part, after stiffness tuning is well, take out, just in housing can be stayed or from housing Degree regulation axle can also be with regulating part composition entirety, as shown in fig. 11c；Stiffness tuning axle can pass from helical spring free end, Can also from the fixing end of helical spring through, as illustrated in fig. 11d.

As shown in figure 12, described orthopedic insoles 1 is provided with opening 100 in shoe pad forefoot front end, and this opening 100 is from sole Front center extends at orthopedic insoles about 2/3 length, and the end 101 of opening is smooth.This opening 100 can Allow orthopedic insoles when stress can Free Transform, will not be distorted or warpage because of limiting by upper of a shoe sidewall；Institute The end 101 stated is set to smooth-shaped, it is therefore an objective to avoid stress herein to concentrate and the phenomenon of tear occurs.

As shown in figure 13, described orthopedic insoles 1 can also be initiateing near arch support curved surface inside shoe pad forefoot End is provided with opening 100, and this opening 100 extends at orthopedic insoles about 2/3 width, and the end 101 of opening is smooth 's.The purpose arranging opening is identical with Figure 12.

Figure 14 illustrates rigidity adjustable ankle orthopedic insoles side view in use, and the adjustable ankle of described rigidity is rectified Shape shoe pad 1 is positioned at the bottom surface of ankle 100, and the arch support curved surface 10 of orthopedic insoles 1 is positioned at below arch of foot, provides perpendicular for arch of foot To support, changed the vertical rigidity of arch support curved surface 10 by the elastic stiffness changing rigidity adjustable apparatus 2, for arch of foot Different vertical supporting rigidity is provided.

Technique effect

When using individual wire helical spring, steel wire modulus of rigidity is 8 × 10⁴MPa, its length is 38.4mm, pitch 3.84mm, spring outer diameter 10mm, line footpath 1.6mm, number of total coils 10 encloses, and the scalable number of turns is 16 circles.

The elastic stiffness computing formula of spring is:Wherein: k is the rigidity of spring, F is bullet Load suffered by spring, λ is spring produced deflection when F loaded, and G is the modulus of rigidity of spring material, and d is spring wire Footpath, D is mean diameter of coil, and n is active spring coils number, and C is that spring curls up ratio.

When effective number of effective coils of helical spring increases to 6 from 1, the stress deformation curve of spring is shown in Figure 15.Spring The excursion of elastic stiffness is 110571.2～18428.5N/m.Stiffness variation multiple is 6 times.

When the groups of springs that the helical spring that two elastic stiffnesss of employing are different is in series, the spring wire footpath of helical spring 201 is 1.6mm, a length of 19.2mm, the number of coils is 5 circles, and the scalable number of turns is 13 circles；The spring wire footpath of helical spring 202 For 0.8mm, a length of 19.2mm, the number of coils is 5 circles, and the scalable number of turns is 13 circles.Remaining parameter of spring and single steel Silk helical spring is identical.

The elastic stiffness computing formula of groups of springs is:

Wherein: k₁、k₂It it is the elastic stiffness of two helical springs.

A coarse adjustment mode on a large scale: when regulating part 3 is from helical spring 201 end, be gradually increased having of helical spring 201 The effect number of effective coils；Then regulating part and helical spring 202 are engaged, then are gradually increased effective number of effective coils of helical spring 202.

Effective number of effective coils of groups of springs from 1 increase to 6 time groups of springs stress deformation curve see Figure 16.The elasticity of spring The excursion of rigidity is 110571.2～4067.8N/m.Groups of springs stiffness variation multiple is about 27.2 times.

B little scope accurate adjustment mode: when regulating part 3 is from helical spring 202 end, be gradually increased having of helical spring 202 The effect number of effective coils；Then regulating part and helical spring 201 are engaged, then are gradually increased effective number of effective coils of helical spring 201.

Effective number of effective coils of groups of springs from 1 increase to 6 time, the stress deformation curve of groups of springs is shown in Figure 17.The bullet of spring The excursion of property rigidity is 13717.4～4067.8N/m.Groups of springs stiffness variation multiple is about 3.4 times.

After integrated to rigidity adjustable apparatus and ankle orthopedic insoles, use Simplified analysis that the adjustable ankle of rigidity is described herein The effect of orthopedic insoles.Adjustable for rigidity ankle orthopedic insoles is equivalent to an arch structure with girt, wherein, foot Ankle orthopedic insoles is equivalent to a circular arch, sagitta 15mm, and the cross section of arch is 20 × 0.25mm；The long 80mm of pull bar, such as figure 18.Ankle orthopedic insoles uses the synthetic material of glass fibre and epoxy resin (E glass Epoxy) to make, and Young's modulus of elasticity is 38.6GPa.The cross sectional radius of pull bar is 0.25mm, and the equivalent Young's modulus of elasticity of pull bar can be obtained by following formula: Wherein, k is the elastic stiffness of rigidity adjustable apparatus, and l is pull bar length, and A is the cross-sectional area of pull bar.

Assuming that human body weight is 60kg, the pressure that ankle bears is 60 × 9.8 × 0.5=294N, it is assumed that arch support curved surface Bear the 10% of single ankle stress, i.e. 29.4N, then the uniform compressive stress of arch support curved surface is 16838.3N/m²。

The elastic component of rigidity adjustable apparatus uses individual wire helical spring, and steel wire modulus of rigidity is 8 × 10⁴MPa, spring A length of 38.4mm, pitch 3.84mm, spring outer diameter 10mm, line footpath 1.6mm, number of total coils 10 encloses, and the scalable number of turns is 16 circles.

Knowable to analysis above, the rigidity of rigidity adjustable apparatus increases, and the vertical rigidity of arch support curved surface increases, same Deng under stressing conditions, the decline degree of arch support curved surface reduces, and vice versa.Figure 19 illustrates under equal stressing conditions, Effective number of effective coils of helical spring from 1 increase to 6 time, the elongation of spring and arch support curved surface summit decline the change of degree Change situation.As can be seen from Figure 19, effective number of effective coils of helical spring from 1 increase to 6 time, arch support curved surface summit slippage Increasing to 11.2mm from 6.8mm, the elongation of spring increases to 6.7mm from 5mm.

On the other hand, when the slippage on arch support curved surface summit is identical, along with rigidity adjustable apparatus elastic stiffness Being gradually increased, the vertical force that arch support curved surface can bear also increases, and vice versa.Figure 20 illustrates arch support curved surface summit Slippage when being maintained at 8mm, along with effective number of effective coils of helical spring increases to 6 from 1, arch support curved surface can bear The situation of change of vertical force.As can be seen from Figure 20, when effective number of effective coils of helical spring increases to 6 from 1, arch support is bent Face can be born vertical force and be dropped to 345N from 950N.This thought is highly useful when treatment/alleviation ankle pathological changes, because doctor/ Patient can set the Reasonable Rigidity of rigidity adjustable apparatus according to the resonable degree that arch of foot declines.Additionally, user also dependent on In the case of different motion, the rigidity of rigidity adjustable apparatus is adjusted by the difference of stress, promotes the slippage of arch of foot to be in a conjunction The scope of reason.

Claims (11)

1. rigidity adjustable ankle orthopedic insoles, it is characterised in that this orthopedic insoles is provided with for entering ankle longitudinal arch The arch support curved surface of row vertical supporting, lower section or the lower section of heel position at the arch support surface location of this orthopedic insoles set There is rigidity adjustable apparatus.

Rigidity the most according to claim 1 adjustable ankle orthopedic insoles, is characterized in that, described rigidity scalable dress Put at least one end to be connected by connecting rod is fixing with bottom described orthopedic insoles.

Rigidity the most according to claim 1 and 2 adjustable ankle orthopedic insoles, is characterized in that, when described rigidity is adjustable When regulating device is positioned at the lower section of orthopedic insoles heel position, by connector fixing with bottom orthopedic insoles heel position be connected and End is connected by connecting rod is fixing with bottom orthopedic insoles forefoot.

Rigidity the most according to claim 1 and 2 adjustable ankle orthopedic insoles, is characterized in that, when described rigidity is adjustable When regulating device is positioned at below at orthopedic insoles arch support surface location, its two ends are all connected by connecting rod is fixing with bottom orthopedic insoles.

5. according to the rigidity adjustable ankle orthopedic insoles described in any of the above-described claim, it is characterized in that, described rigidity can Adjusting means includes: housing, elastic component and regulating part, wherein: elastic component is positioned at enclosure interior and one end is connected with housing, regulation Stiffness tuning is realized in part is movably set in housing and by the effective active length changing elastic component.

Rigidity the most according to claim 5 adjustable ankle orthopedic insoles, is characterized in that, described regulating part is provided with Rotating shaft, this rotating shaft is positioned at that any one part of elastic component and rotating shaft is fixed or movable with regulating part or housing to be connected.

Rigidity the most according to claim 6 adjustable ankle orthopedic insoles, is characterized in that, described rotating shaft be provided with The revolving part contacted, by revolving part rotating shaft and drive regulating part to realize stiffness tuning.

Rigidity the most according to claim 5 adjustable ankle orthopedic insoles, is characterized in that, described elastic component is at least A piece helical spring.

Rigidity the most according to claim 5 adjustable ankle orthopedic insoles, is characterized in that, described housing is spiral bullet Spring or inwall set threaded container.

Rigidity the most according to claim 1 adjustable ankle orthopedic insoles, is characterized in that, described orthopedic insoles sets Having opening, this opening for extending to extend at orthopedic insoles 2/3 length or inside forefoot orthopedic insoles in forefoot front end At 2/3 width.

11. rigidity according to claim 10 adjustable ankle orthopedic insoles, is characterized in that, the end of described opening It is set to smooth-shaped, to avoid stress herein to concentrate, the phenomenon of tear occurs.