CN1135079C - Multi-hinged-joint-point rear support device for ski-boots - Google Patents

Abstract

A back support structure for a snowboard boot includes a back support member for supporting a back surface of an ankle and a linking mechanism coupled to the back support member for coupling the back support member to a leg member of the snowboard boot. The linking mechanism includes a first pivot coupling and a second pivot coupling so that the back support member may pivot relative to the leg member around multiple axes to accommodate complex sideways inclinations of the leg.

Description

Many pin joints rear support device of ski boots

Technical field

The present invention relates to ski boots, more particularly, relate to a kind of ski boots that can move along two direction of principal axis.

Background technology

Skis is the various sled that slides on snow, and the slider steps on sled, with along the longitudinal direction of sled towards the place ahead of sled, so the slider normally steps on the skis of skis side, usually towards becoming a low-angle direction with the strict side of skis.The slider will bend his knee usually on the skis in order will the power of scrunching to be applied to, and tilts ankle not only slider's (side of skis) the place ahead but also slider's side (front of skis) inclination relatively relatively always so simultaneously to skis the place ahead.

For handling skis effectively, the ski boots of slider's dress should adapt to desired ankle angle of inclination.Be disclosed in DE3,622,746 for satisfying some trials of doing at the ankle angle of inclination; FR2,719,197; EP6,463,34; EP7,729,82 and IT1, in 255,752 patent documentations such as grade.In these lists of references, the top of boots is connected with lower hinge ground, to rotate around a longitudinal axis that is positioned at boots heel top.Although this structure helps the lateral tilt of ankle, people know that human pin is difficult for lateral tilt, unless ankle also turns forward simultaneously.Can satisfy lateral tilt in the prior art like this but do not satisfy the ski boots turn forward and just can not work very effectively.In addition, the ski boots that only rotates around an axis can not always adapt to the lateral tilt of ankle effectively.

Summary of the invention

The present invention aims to provide a kind of ski boots, and the complexity that it can satisfy shank tilts forward and to side direction, and the slider just can be not tired like this, and skis also can be controlled effectively.In one embodiment of the invention, support member after the back supporting construction of ski boots comprises is to support the rear surface of ankle; And an articulated link mechanism that links to each other with the back support member, to connect the boot leg spare of back support member and ski boots.Articulated link mechanism comprises that one first hinge connects and is connected with second hinge, makes afterwards that support member can rotate around many axis relative to boot leg spare, with the lateral tilt of the complexity that adapts to shank.Articulated link mechanism comprises a first connecting rod more specifically among the embodiment at one, and its first section is hinged on the support member of back in first hinge connection, and its second section can be hinged on the boot leg spare.In a kind of alternative embodiment, also have a second connecting rod, its first section is hinged in second hinge connection on second section of first connecting rod, and second section of this second connecting rod is hinged on the boot leg spare in the 3rd hinge connection.In all cases, back support member all is hinged on the heel cup, just direction rotation forwards, backwards of back support member like this.This ski boots can have blocking mechanism, too rotates backward to stop boot leg spare.

In embodiment more specifically, second connecting rod can be fixed on the boot leg spare, and first section of third connecting rod can be on the 3rd hinge connection be hinged on second section of second connecting rod, and second section of third connecting rod can be hinged on the support member of back in the 4th hinge connection.This structure forms a quadric chain, makes the energy horizontal movement of boot leg portion, and can not rotate around the back support member, to be used for the occasion of this motion of requirement.

Description of drawings

Fig. 1 is the side view of a kind of specific embodiment of ski boots of the present invention;

Fig. 2 A is the thin portion of the connection view between high-order back support shown in Figure 1 and the heel cup, and Fig. 2 B is the cutaway view along 2B-2B line intercepting among Fig. 2 A;

Fig. 3 is a rearview, high-order back shown in Figure 1 is shown supports and articulated link mechanism;

Fig. 4 is the sectional elevation of high-order back support shown in Figure 3 and articulated link mechanism;

Fig. 5 is the thin portion view of articulated link mechanism shown in Figure 4;

Fig. 6 is the rearview of a kind of alternate embodiment of high-order back support of the present invention and articulated link mechanism;

Fig. 7 is the sectional elevation of high-order back support shown in Figure 6 and articulated link mechanism;

Fig. 8 is the rearview of the another kind of alternate embodiment of high-order back support of the present invention and articulated link mechanism;

Fig. 9 is the sectional elevation of high-order back support shown in Figure 8 and articulated link mechanism;

Figure 10 is the sectional elevation of another alternate embodiment of high-order back support of the present invention and articulated link mechanism;

Figure 11 is the rearview of another alternate embodiment of high-order back support of the present invention and articulated link mechanism; With

Figure 12 is the cutaway view along XII-XII line intercepting among Figure 11.

Specific embodiment

Fig. 1 is the side view of a kind of specific embodiment of ski boots of the present invention, comprises on this ski boots outline that boots bottoms divides 1, and boots toe portion 2 and boots heel divide 3 and boot leg part 4.Divide 1 in boots bottoms, boots toe portion 2 and boots heel are divided 3 inside, are configured as on one whole heel cup 5 is arranged at the bottom of the boots with the compound resin core.This class heel cup is known, and its CONSTRUCTED SPECIFICATION repeats no more.

Support fixation hole, three high-order backs 7 is formed on the both sides on top 6 of the back segment of heel cup 5.The through hole that gets out is arranged and formed in support fixation hole 7, these three high-order backs along a horizontal linear.Belt 10 usefulness axle bolts 12 in hinged way with each sides of boots on support fixation holes, three high-order backs 7 in one be connected.Belt 10 leads to opposite side from a side of boots along the joint portion of boot leg part 4 and boots toe portion 2.When boot leg part 4 turned forward, it was in this joint portion bending, the inclination that location and the clamping of belt 10 in this joint portion helps boots.

Belt 10 is provided with clamping device 13, clamps belt 10 with the length of adjustment belt 10 with required rate of tension.Because the 26S Proteasome Structure and Function of clamping device is known, no longer it is discussed.Another strap 11 is arranged on the boot leg part 4 in the same way, and by this belt 11 of operation, makes boot leg part 4 and ankle tighten and be tightened to one.Shoestring 8 passes each shoe hook 9 in the mode of intersecting, and cosily boots and pin is combined together with known manner.

Axle bolt 12 on the ski boots both sides also is connected on the heel cup 5 supporting 15 after the high position in hinged way.When ankle receded, high-order back was supported 15 and is born the power that ankle applies and pass to heel cup 5.Position-limit mechanism 20 is arranged on high-order back and supports 15 lower central end, and this position-limit mechanism 20 supports 15 the effect of receding after limiting this high position, and this will discuss in more detail below.

Fig. 2 A be high-order back shown in Figure 1 support 15 and heel cup 5 between the thin portion of connection view, and Fig. 2 B be the cutaway view that intercepts along 2B-2B line among Fig. 2 A.As noted above, support fixation hole, three high-order backs 7 forms along a horizontal linear, and the periphery in support fixation hole, these three high-order backs 7 forms the oval depressions part 31 of a constant depth, with around these holes.The inner rim of each sunk part 31 forms a plurality of corrugated projections 32 by the fixed knot distance with the concavo-convex style that replaces, and inserts pad 33 in the inside of each sunk part 31.Form a plurality of corrugated projections 34 with the concavo-convex style that replaces on the outer surface of pad 33.Because the shape complementarity of corrugated projection 32 and corrugated projection 34, this pad 33 can insert this sunk part 31 by fit system.Two positions on the pad 33 are formed with bolt hole 35, by changing the position of pad 33 in sunk part 31, can change the position of bolt hole 35.

Be assembled component, axle bolt 12 is inserted in the fixing hole 37 of belt 10, insert the bolt hole 35 of pad 33 then, pass in the support fixation hole, three high-order backs 7 at last, and screw in the nut 36 on the inner surface that has been placed on heel cup 5.As a result, high-order back support 15 just can around axle bolt 12 along forwards to the rear to rotation, and, might select six positions by selecting in the bolt hole 35 and selecting in the support fixation hole, high-order back 7 one.

Shown in Fig. 3 and 4, a plurality of rectangle locator protrusions 40 are formed in the rear surface of the core of high-order back support 15 with fixed knot distance and the modes of lining up two row, and are formed with a hole 41 that supplies bolt to pass between two row locator protrusions 40.By set bolt 43 and nut 44, clamp 42 is fixed on high-order back supports on 15.Because each locator protrusions 40 of high-order back support 15 and each locator protrusions 45 of clamp 42 have same pitch, clamp 42 can mesh and be fixed on desired position by fit system.

Clamp 42 internal shapings go out a spill and cut 46, and by axle 48 position limit arm 47 are installed in this in hinged way and cut in 46.Position limit arm 47 supports by 49 pairs of high-order backs of spring and applies bias voltage.The blocking surface 50 of position limit arm 47 contact with blocking surface 16 on the upper surface that is formed on heel cup 5, rotates backward around axle bolt 12 to limit high-order back support 15.

Articulated link mechanism 25 is arranged on high-order back and supports 15 upper edge.This articulated link mechanism 25 helps to support 15 for high-order back the sweptback force transmission of boot leg part 4, and the latter should sweptback force transmission give heel cup 5.This articulated link mechanism 25 also is fit to ankle forward with to the composite inclined of side direction.

Fig. 4 is the sectional elevation of high-order back support 15 shown in Figure 3 and articulated link mechanism 25, and Fig. 5 is the thin portion view of articulated link mechanism 25.Illustrate as these, through hole 55 is formed in high-order back and supports 15 top edge, and a flanged (FLGD) nut 56 is inserted in this through hole 55.One first axle bolt 58 screws in this flange nut 56, and an end of first connecting rod 57 hingedly is connected on this first axle bolt 58.The other end of first connecting rod 57 is formed with another through hole 59, and inserts a sleeve in this through hole 59, is inserted with one second axle bolt 60 in this sleeve.The top of second axle bolt 60 is threaded in the screw 62 of an end that is formed in second connecting rod 61.The other end of second connecting rod 61 is formed with a through hole 63, and inserts a sleeve (not shown) in this through hole 63.One the 3rd axle bolt 64 is inserted in this sleeve, and inserts in the through hole 66 of an end that is formed in fixed head 65.Two ball pad 67 sleeves and are arranged to make second connecting rod 61 to be clamped between two ball pad on the 3rd axle bolt 64.By lock nut 68 two ball pad 67 are locked on the 3rd axle bolt 64.Because second connecting rod 61 is clamped between two ball pad 67, so second connecting rod 61 might rotate and do small arcuate movement around the 3rd axle bolt 64.

Sleeve 71 is arranged on the periphery of the 3rd axle bolt 64, and the 3rd axle bolt 64 is threaded in the nutplate 70.Rear bearing sheet 72 usefulness toughness compound resins are made, and are clamped between nutplate 70 and the fixed head 65.In an identical manner, set bolt 75 is arranged on the other end of fixed head 65, sleeve 76 is arranged on the periphery of set bolt 75, and set bolt 75 also is threaded into nutplate 70.Fixed head 65 and the 3rd axle bolt 64 just are fixed on the rear bearing sheet 72 like this.

On the whole, one end of second connecting rod 61 is supported on the 3rd axle bolt 64 that has been fixed in hinged way, one end of first connecting rod 57 is supported on second axle bolt 60 on the other end that is fixed to second connecting rod 61 in hinged way, and the other end of first connecting rod 57 is supported in hinged way and is fixed to high-order back and supports on first axle bolt 58 on 15.This mechanism comprises double link three contact articulated link mechanisms 25 in essence.

The slider puts on the ski boots with said structure, and when stepping down on the skis (not shown), moves speed and the direction of two legs with the control skis.When leg forwards tilts because the reasons in structure of people's pin, forward be tilted near the rotation anklebone.As a result, the boot leg part 4 of ski boots turns forward.Because boot leg part 4 is flexible and can rotates around axle bolt 12 that this turns forward becomes possibility.

Similarly, during the leg tilted rearward because the reasons in structure of people's pin, backward be tilted near the rotation anklebone.As a result, the boot leg part 4 of ski boots recedes.The active force that recedes of boot leg part 4 is connected through the hinge and supports 15 after mechanism 25 passes to a high position.When the blocking surface 50 of position limit arm 47 blocking surface 16 with the upper surface that is formed on heel cup 5 comes in contact, 15 rotatablely move and just be prevented from supported in high-order back.Afterwards, the active force that recedes of leg passes to heel cup 5, and passes on the skis (not shown), and slides control stably.

Leg will 3 be discussed in conjunction with the accompanying drawings to the situation that the side tilts.When the direction of advancing is when pin is arrived upon the heels of another the direction of toe, if leg tilts to the side, the center of the 3rd axle bolt 64 is that radius begins the center O around first axle bolt 58 with R1 ₁Rotate an angle [alpha], first axle bolt 58 plays pivot.This rotational angle α is similar to the rotation of leg with the anklebone that plays pivot action.When finishing corner α, second connecting rod 61 rotates around the 3rd axle bolt 64, and first connecting rod 57 continues to rotate around first axle bolt 58 simultaneously, turns over angle beta up to first connecting rod 57.Around the 3rd axle bolt 64 with to produce with R2 around the composite rotation of first axle bolt 58 be radius, be positioned at the bottom of the boots 1 inboard near O ₂Total rotation for the center.And this motion to have simulated from being that center of rotation becomes with the heel with the anklebone be the rotation of center of rotation.Be appreciated that because articulated link mechanism 25 is equipped with double link and three pin joints that from above-mentioned explanation it can satisfy the complex rotation motion of the boot leg part 4 of ski boots.

Above-mentioned articulated link mechanism 25 is to be arranged to first axle bolt 58 to be positioned at extreme lower position, and the position of second axle bolt 60 is higher than the position of the 3rd axle bolt 64.Yet this location is also nonessential, and for example in the articulated link mechanism shown in Fig. 6 and 7 80, from the viewpoint of double link three pin joints, its articulated link mechanism 25 with above-mentioned first embodiment is identical, and the length of two connecting rods is also identical.But articulated link mechanism 80 is different from the position difference that articulated link mechanism 25 parts are the 3rd axle bolt 60.In other words, be benchmark as position with first axle bolt 58, second axle bolt 60 is positioned at the position of height H 1, and is fixed on the position that the 3rd axle bolt 64 on the boot leg part 4 of ski boots is positioned at height H 2, wherein H2＞H1.In this case, the motion of first connecting rod 57 and second connecting rod 61 dots.The motion of the 3rd axle bolt 64 is approximate to be that the center is the circular arc of radius with H2 with first axle bolt 58.

Above-mentioned first and second embodiment have illustrated double link three pin joint linkages 25 and 80.Fig. 8 and 9 illustrates a kind of parallel four connecting rod link bindiny mechanisms 85 of the 3rd embodiment.These parallel four connecting rod link bindiny mechanisms 85 do circular motion around the part of boot leg part 4, but a kind of mechanism of needing boot leg part 4 integral body to move horizontally of being used to.In this embodiment, the lower end of first connecting rod 87 is connected high-order back in hinged way by one first axle bolt 86 and supports on 15, and the lower end of third connecting rod 91 is supported after being connected a high position in hinged way by one the 4th axle bolt 92.The upper end of first connecting rod 87 is connected an end of second connecting rod 89 in hinged way by one second axle bolt 88, and this second axle bolt 88 is fixed on the boot leg part 4.The other end of second connecting rod 89 is connected the upper end of third connecting rod 91 in hinged way by one the 3rd axle bolt 90, and the 3rd axle bolt 90 is fixed on the boot leg part 4.The result just forms by supporting 15, the first axle bolts 86 after the high position, first connecting rod 87, the second axle bolts 88, second connecting rod 89, the three axle bolts 90, the parallel four connecting rod link bindiny mechanisms 85 of third connecting rod 91 and the 4th axle bolt 92 formations.Because second axle bolt 88 and the 3rd axle bolt 90 are fixed on the boot leg part 4 of ski boots, boot leg part 4 is suitable for the side direction parallel motion of shank.In other words, this motion is parallel to the in-plane of sole.

Figure 10 is the sectional elevation of the articulated link mechanism 95 among one the 4th embodiment of the present invention.In this embodiment, articulated link mechanism 95 is the two pin joint mechanisms of single connecting rod.With regard to this articulated link mechanism 95, if back support 72 is considered as rigid body, just it becomes fixedly chain mechanism.Yet because actual back support 72 as mentioned above, has certain flexibility, so it is not to be fixing chain mechanism.

As shown in figure 10, one end of one first connecting rod 96 is connected on first axle bolt 58 in hinged way, forming one first pin joint 97, and the other end of first connecting rod 96 is connected on one second axle bolt 99 that passes through hole 98 in hinged way, to form one second pin joint 100.Although not as the above-mentioned first and second embodiment precisions, this simple mechanism still can provide satisfied control in some cases.

Figure 11 and Figure 12 are respectively the high-order back support of of the present invention 1 the 5th kind of embodiment and the rearview and the sectional elevation of articulated link mechanism 110.The bottom of the one first hinged support fixation plate 101 that constitutes with Y shape metallic plate is fixed on rivet 102 on the rear surface at rear portion of heel glasss 5.The lower end of first connecting rod 103 is connected the upper end of the first hinged support fixation plate 101 in hinged way by axle 104.Axle 104 is the articulated element of first pin joint 105.

The upper end of first connecting rod 103 is supported in the back support 106 of boot leg part rotationally by axle 108.Axle 108 is the articulated element of second pin joint 107.This articulated link mechanism 110 consists essentially of the two pin joint chain bindiny mechanisms of single connecting rod of similar above-mentioned articulated link mechanism 95.First pin joint 105 can be arranged on arbitrary height, and the position of first pin joint 105 can be adjusted in its scope, because this chain bindiny mechanism 110 constitutes with the first hinged support fixation plate 101, this altitude range can strengthen.The advantage of this articulated link mechanism 110 is, is similar to heel cup 5, and the back was supported under this articulated link mechanism 110 can be arranged on one.

Although various embodiment of the present invention are described above, but under the condition that does not break away from the spirit and scope of the present invention, also can adopt more modification, for example, the size of various assemblies, shape, position and orientation also can be carried out conversion as required, a kind of multiple function of element can realize that vice versa by two elements.Scope of the present invention should not be subjected to the restriction of above-mentioned concrete structure, and actual range of the present invention should be limited by each claim.

Claims (21)

1. the rear support device of a ski boots, it comprises:

One back support member (15) is in order to the rear surface of feet heel;

One is connected to the articulated link mechanism (25,80,85,95,110) of this back support member (15), in order to this back support member (15) is connected on the boot leg spare (4) of this ski boots; With

Articulated link mechanism wherein comprises that first hinge connects (58,86,104) and is connected (60,88,99,108) with second hinge.

2. according to the described device of claim 1, it is characterized in that, first hinge connect (58,86,104) around by after its first axle (97,105) of extending forward hinged.

3. according to the described device of claim 2, it is characterized in that, second hinge connect (60,88,99,108) around by after its second axis (100,107) of extending forward hinged.

4. according to the described device of claim 1, it is characterized in that articulated link mechanism (25,80,85,95,110) comprise a first connecting rod (57,87,96,103), its first section in first hinge connection (58,86,104) be hinged on back support member (15), and its second section comprise second hinge and connect (60,88,99,108).

5. according to the described device of claim 4, it is characterized in that it also comprises the boot leg spare (4) that is arranged on back support member (15) top, wherein first connecting rod (57,87,98,103) second section in second hinge connection (60,88,98,108) be hinged on the boot leg spare (4).

6. according to the described device of claim 5, it is characterized in that, first hinge connect (58,86,104) around by after its first axle (97,105) of extending forward hinged.

7. according to the described device of claim 6, it is characterized in that, second hinge connect (60,88,99,108) around by after its second axis (, 100,107) of extending forward hinged.

8. according to the described device of claim 4, it is characterized in that articulated link mechanism (25,80,85) also comprises a second connecting rod (61,89), its first section connects (60,88) at second hinge and locates to be hinged on second section of first connecting rod (57,87).

9. according to the described device of claim 8, it is characterized in that it also comprises the boot leg spare (4) that is arranged on back support member (15) top, wherein second section of second connecting rod (61,89) connects (64,90) at the 3rd hinge and locates to be hinged on the boot leg spare (4).

10. according to the described device of claim 9, it is characterized in that, first hinge connect (58,86) around from after its first axle of extending forward hinged.

11. according to the described device of claim 10, it is characterized in that, second hinge connect (60,88) around from after its second axis of extending forward hinged.

12. according to the described device of claim 11, it is characterized in that, the 3rd hinge connect (64,90) around from after its 3rd axis of extending forward hinged.

13., it is characterized in that second hinge connects (60,88) and is arranged on the top that the 3rd hinge connects (64,90) according to the described device of claim 9.

14., it is characterized in that second hinge connects (60,88) and is arranged on the below that the 3rd hinge connects (64,90) according to the described device of claim 9.

15., it is characterized in that it also comprises heel cup part (5) according to the described device of claim 8, it is hinged on the back support member (15), with the rear surface of feet heel, its medium butt cup spare (5) is arranged on the below of back support member (15).

16., it is characterized in that back support member (15) heel cup part (5) forward and backward directions relatively pivots according to the described device of claim 15.

17., it is characterized in that it also comprises a position-limit mechanism (47) according to the described device of claim 16, rearward pivot in order to limit back support member (15).

18. according to the described device of claim 8, it is characterized in that, articulated link mechanism (85) also comprises third connecting rod (91), its first section connects (90) at the 3rd hinge and locates to be hinged on second section of second connecting rod (89), and its second section connect (92) at the 4th hinge and locate to be hinged on the support member of back.

19. according to the described device of claim 18, it is characterized in that, first hinge connect (86) around by after its first axle of extending forward hinged, second hinge connect (88) around by after its second axis of extending forward hinged, the 3rd hinge connect (90) around by after its 3rd axis of extending forward hinged, the 4th hinge connect (92) around by after its four axistyle of extending forward hinged.

20. according to the described device of claim 18, it is characterized in that, its also comprise be arranged on the back support member (15) top boot leg spare (4), wherein second connecting rod (89) relatively this boot leg spare (4) firmly fix.

21. a ski boots, it comprises:

(1) is divided in one boots bottom;

One boots toe portion (2), it is arranged on the place ahead of boots;

One boots heel branch (3), it is arranged on the rear of boots;

One boot leg part (4), it divides (1) to extend upward from the boots bottom;

One heel cup (5), it is arranged in the boots heel branch (3), with the rear surface of feet heel;

One back support member (15), it is arranged on heel cup (5) top, to support the rear surface of ankle;

Wherein back support member (15) pivots in the forward and backward directions;

One articulated link mechanism (25,80,85,95,110), it is connected between back support member (15) and the boot leg part (4); With

Wherein articulated link mechanism comprises that first hinge connects (58,86,92,104) and is connected (60,88,99,108) with second hinge.

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