CN205948294U - Nonlinear elasticity spring shoes - Google Patents
Nonlinear elasticity spring shoes Download PDFInfo
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- CN205948294U CN205948294U CN201620054715.XU CN201620054715U CN205948294U CN 205948294 U CN205948294 U CN 205948294U CN 201620054715 U CN201620054715 U CN 201620054715U CN 205948294 U CN205948294 U CN 205948294U
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Abstract
The utility model discloses a nonlinear elasticity spring shoes, including dress the device and with dress the resilient means of device hookup, resilient means's elasticity is non -linear, and resilient means's coefficient of elasticity K changes promptly, and coefficient of elasticity K is less earlier stage in the compression, in the increase of compression later stage, resilient means compresses earlier stage, and elastic restoring force F increases slowly to realize that the spring shoes cushion softly when falling to the ground resilient means compresses the later stage, and elastic restoring force F increases rapidly to realize that the spring shoes rebound powerfully when the take -off. Compared with the prior art, the utility model discloses the non -linear resilient means's of shoes the coefficient of elasticity K of obviously bouncing changes, and earlier stage is little, and the later stage is big, and the user touches the in -process on ground when the whereabouts, and the resiliency is good, reduces user's the anti - intensity of shaking, and when jumping out of ground, obtaining rebounds more powerfully breaks out power.
Description
Technical field
The utility model is related to a kind of bouncing shoes, particularly to a kind of nonlinear elasticity bouncing shoes.
Background technology
Bouncing shoes are a kind of new sports articles for use, integrate amusement, body-building, fashion.The elasticity of strength can be produced, push away
Dynamic user jumps get Geng Gao, farther, laborsaving traveling.
As shown in figure 1, existing bouncing shoes are mainly made up of object wearing device 1 and elastic device 2, object wearing device 1 can be
The shoe body that is directly worn on pin or bandage for fixing pin etc. is provided with the pedal placing pin.Elastic device 2
Generally adopt cambered plate or spring, elastic-restoring force produced by elastic device compressive deformation can give user's effect upwards
Power, thus user is popped up.
In above prior art, bouncing function to be realized, bouncing shoes will use elastic device, thus by compressing bullet
Property device, make elastic device store elastic potential energy, during take-off release potential energy user is upspring.The maximum flexibility potential energy of storage
NmaxBigger, the height upspring is higher.And the size positive correlation of the size of elastic potential energy N and elastic device reduction length L,
Coefficient of elasticity K (elastic-restoring force that i.e. unit reduction length is increased) positive correlation with elastic device.Meanwhile, bouncing shoes land
When comfortableness and coefficient of elasticity K inverse correlation, that is, coefficient of elasticity K is more little, buffers softer;Bouncing shoes take-off moment sudden and violent
Have an effect and the positive correlation of coefficient of elasticity K, that is, coefficient of elasticity K is bigger, elastic-restoring force during take-off is bigger.Above to coefficient of elasticity
The requirement of K, is conflicting, and how both take into account, and are difficult points of prior art.
All there is following defect in the elastic device of existing bouncing shoes:
Elastic device employs cambered plate or spring, due to material nature restriction, allow compression curvature restriction
(curvature is excessive to there is a possibility that cambered plate or spring lose restoring force, or even fracture), in order to ensure certain jumping height, its bullet
Property coefficient K all ratios are larger, and compression set is longer;Another is elasticity system in thermal energy storage process because cambered plate elements characteristic determines it
Count K nonlinear elasticity device from large to small that is to say, that landing in thermal energy storage process in bouncing shoes, unit elasticity deformation length Δ
The elastic-restoring force Δ F that L increases lands moment maximum in bouncing shoes, and take-off moment is minimum, even if using as spring or others
Linear elasticity device, that is, coefficient of elasticity K of elastic device is constant, the elastic recovery that unit elasticity deformation length Δ L increases
Power Δ F is constant, namely lands energy storage or upspring in exoergic process in bouncing shoes, and increasing or decreasing of energy is all linear
, equably store or release elastic potential energy, thus being also linear, equably to the elastic-restoring force of user.Above-mentioned
Situation leads to land moment when bouncing shoes, and buffering is weaker, and user is caused with larger anti-shake, so both uncomfortable, and makes for a long time
Healthy with being also unfavorable for, and reduce excitant and fast due to lacking more aggressive breaking out force in bouncing shoes take-off moment
Sense.
Utility model content
The purpose of this utility model is to provide a kind of bouncing shoes with preferable resiliency, makes bouncing shoes further in take-off
Moment has stronger breaking out force, further provides a kind of safety coefficient height, is suitable for the extensive bouncing shoes of crowd.
Above-mentioned purpose of the present utility model is to be realized by following technical scheme:A kind of nonlinear elasticity spring
Footwear, the elastic device couple including object wearing device and with described object wearing device it is characterised in that:The elasticity of described elastic device is
Nonlinear, that is, coefficient of elasticity K of elastic device be change, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase
Greatly;Compress early stage in described elastic device, elastic-restoring force F increase slow, thus realize bouncing shoes buffer when landing soft,
Compress the later stage in described elastic device, elastic-restoring force F increase rapid, thus realize bouncing shoes rebound in take-off powerful
Principle of the present utility model is:As shown in Fig. 2 schematic diagram, it is linear elasticity device (as shown in A line in Fig. 2) and non-
Plane coordinates figure between the reduction length L and elastic-restoring force F of linear elasticity device (as shown in B line in Fig. 2), abscissa is
The reduction length L of elastic device, ordinate is the elastic-restoring force F of elastic device, the area that A line or B line are surrounded with abscissa
Represent elastic device and be compressed to the elastic potential energy saved during certain length.Fig. 2 shows in the fixing situation of maximum flexibility potential energy
Under:First, the A line of linear elasticity device, because its coefficient of elasticity Ka is constant, elastic-restoring force uniformly increases, nonlinear elasticity
The B line of device, because coefficient of elasticity Kb is change, early stage is little, and the later stage is big, and elastic-restoring force early stage is slowly increased, and the later stage is fast
Speed increases;Second, before L1, Kb is less than Ka to reduction length, the speed that is, elastic-restoring force of nonlinear elasticity device increases
The speed increasing less than the elastic-restoring force of linear elasticity device, which dictates that bouncing shoes are good in the early stage shock-absorbing capacity that lands;The
Three, in L1, Kb is equal to Ka to reduction length, and reduction length is after L1, because Kb is more than Ka and is gradually increased, nonlinear elasticity
The gathering way more than the gathering way of elastic-restoring force of linear elasticity device of the elastic-restoring force of property device, and reduction length
After L2, during identical reduction length, Fb is more than Fa, and that is, the elastic-restoring force of nonlinear elasticity device is more than linear elasticity device
Elastic-restoring force, this just determines the moment that user is upspring by bouncing shoes, and elastic device is provided that bigger elastic recovery
Power, so that take-off has more breaking out force and excitement.
As a kind of embodiment of the present utility model, described elastic device includes elastic component, by described elastic component originally
To realize, the elasticity of described elastic device is nonlinear and coefficient of elasticity K is in described bullet for the change of body structure or/and raw material
Property device compression early stage less, upon compression the phase increase.
As a kind of embodiment of the present utility model, described elastic component is coiled coil shape spring or reciprocal folding shape bullet
Spring or cyclic bending shape spring, it is change that the change of described this body structure of elastic component or raw material turns to the described spring thickness of itself
Or/and described spring axial direction itself spring wire density be change or/and described spring the thickness of spring wire or/
It is change with material, described material change includes making by the ion infiltration of the heat treatment of gradual change, the doping of gradual change or gradual change
Spring wire axial stiffness changes.
As a kind of embodiment of the present utility model, described elastic component is camber member, and described camber member is lath arch
Part, post bar camber member or fence bar camber member, the change of described this body structure of elastic component or raw material turns to described camber member itself
Thickness thickness be change or/and described camber member material itself is change, described material changes and includes by gradual change
Heat treatment, the ion infiltration of the doping of gradual change or gradual change make to draw shape part material axial stiffness and change.
As a kind of embodiment of the present utility model, described elastic device includes X-shaped mechanism and elastic component, described X-shaped
Mechanism is mainly made up of with the movable part contacting ground the fixing component for support pin, described fixing component and movable part
Connected by axis of rotation, one end of described elastic component is connected in described fixing component, and the other end is then connected to described activity
On component, the elasticity of described elastic component is nonlinear so that the integral, flexible of described elastic device is nonlinear, and elasticity
COEFFICIENT K is less in described elastic device compression early stage, upon compression phase increase;When being fallen using bouncing shoes, described movable part
Rotate around the axis, described elastic component is stretched, during take-off, under the elastic-restoring force of described elastic component acts on, pull described work
Dynamic component homing is thus realize bouncing.
As a kind of embodiment of the present utility model, described elastic device includes quadrangular mechanism and elastic component, described
Quadrangular mechanism includes the connecting rod that four adjacent edges are connected by axis of rotation, horizontal or/and vertical in described quadrangular mechanism
To being provided with elastic component, the elasticity of described elastic component is the nonlinear integral, flexible making described elastic device is nonlinear, and
Coefficient of elasticity K is less in described elastic device compression early stage, upon compression phase increase;When being fallen using bouncing shoes, described four sides
Shape mechanism presses to flat, and laterally or/and longitudinally described elastic component is stretched or/and compresses, during take-off, in the bullet of described elastic component
Property restoring force effect under, described quadrangular mechanism homing thus realize bounce.
As a kind of embodiment of the present utility model, described elastic device includes at least two and starts bullet in different time
The elastic component of property deformation, thus the integral, flexible realizing described elastic device is nonlinear and coefficient of elasticity K is in described elasticity
Device compression early stage is less, upon compression phase increase.
As a kind of embodiment of the present utility model, described elastic component is at least two length difference elastic components, described
Elastic component is spring or/and camber member, thus realize different time to start elastic deformation, and then realizes described elastic device
Integral, flexible be nonlinear and coefficient of elasticity K described elastic device compression early stage less, upon compression the phase increase.
As a kind of embodiment of the present utility model, described elastic device also includes X-shaped mechanism, described X-shaped mechanism master
To be made up of with the movable part contacting ground the fixing component for support pin, described fixing component and movable part pass through to turn
Axle rotates and connects, and one end of described elastic component is connected in described fixing component, and the other end is then connected on described movable part,
Described at least two this body length of elastic component are different or set location is different, thus realize different time to start elastic shape
Become, and then make the integral, flexible of described elastic device be nonlinear, and coefficient of elasticity K is in described elastic device compression early stage relatively
Little, phase increase upon compression.
As a kind of embodiment of the present utility model, described elastic device also includes quadrangular mechanism, described quadrangle
Mechanism includes the connecting rod that four adjacent edges are connected by axis of rotation, and described elastic component is horizontal or vertical in described quadrangular mechanism
To setting, described at least two this body length of elastic component are different or set location is different, thus realize different time to start to occur
Elastic deformation, and then make the integral, flexible of described elastic device be nonlinear, and coefficient of elasticity K is compressed in described elastic device
Early stage is less, upon compression phase increase.
As a kind of embodiment of the present utility model, coefficient of elasticity K of described at least two elastic components is different and longitudinal
Subsection setup, when compressing described elastic device, the little elastic component of coefficient of elasticity is first compressed, thus realizing different time to start bullet
Property deformation, and then make the integral, flexible of described elastic device be nonlinear, and coefficient of elasticity K is before described elastic device compresses
Phase is less, upon compression phase increase.
As a kind of embodiment of the present utility model, described elastic device also includes X-shaped mechanism, described X-shaped mechanism master
To be made up of with the movable part contacting ground the fixing component for support pin, described fixing component and movable part pass through to turn
Axle rotates and connects, and one end of at least one described elastic component is connected in described fixing component, and the other end is then connected to described work
Dynamic member upper, at least one described elastic component is arranged on described movable part bottom.
As a kind of embodiment of the present utility model, described elastic device also includes quadrangular mechanism, described quadrangle
Mechanism includes the connecting rod that four adjacent edges are connected by axis of rotation, is laterally or longitudinally provided with least in described quadrangular mechanism
One described elastic component, is arranged below at least one described elastic component in described quadrangular mechanism.
As a kind of embodiment of the present utility model, described elastic device includes X-shaped mechanism and elastic component, described X-shaped
Mechanism is mainly made up of with the movable part contacting ground the fixing component for support pin, described fixing component and movable part
Connected by axis of rotation, one end of described elastic component is connected in described fixing component, and the other end is then connected to described activity
On component, it is in curved for making described elastic component by the end of described fixing component or/and described movable part or/and the projection of setting
Curved so that the integral, flexible of described elastic device is nonlinear, and coefficient of elasticity K the phase is less before compression, the phase upon compression
Increase;When being fallen using bouncing shoes, described movable part rotates around the axis, and described elastic component is stretched, during take-off, in described bullet
Property part elastic-restoring force effect under, pull described movable part homing thus realize bounce.
As a kind of embodiment of the present utility model, described fixing component includes pedal and consolidating on described pedal
Determine frame, one end that described elastic component is connected with described fixing component is connected on described fixed mount.
As a kind of embodiment of the present utility model, described fixing component and described movable part are by connecting rod even
Connect, described rotating shaft is located at one end of described connecting rod, described fixing component and movable part are realized rotating by rotating shaft and connected, by
In the effect of connecting rod, the integral, flexible of described elastic device is made non-linear to strengthen further.
As a kind of embodiment of the present utility model, described elastic device includes X-shaped mechanism and elastic component, described X-shaped
Mechanism is mainly made up of with the movable part contacting ground the fixing component for support pin, described fixing component and described activity
Component is connected by connecting rod, is provided with rotating shaft in one end of described connecting rod, and described fixing component and movable part pass through rotating shaft
Realize rotating and connect, because the integral, flexible that the setting of connecting rod makes described elastic device is nonlinear, and coefficient of elasticity K exists
Compression early stage is less, upon compression phase increase;When being fallen using bouncing shoes, described movable part rotates around the axis, described elasticity
Part is stretched, and during take-off, under the elastic-restoring force of described elastic component acts on, pulls described movable part homing thus reality
Now bounce.
As a kind of embodiment of the present utility model, described fixing component includes pedal and consolidating on described pedal
Determine frame, one end that described elastic component is connected with described fixing component is connected on described fixed mount.
As a kind of embodiment of the present utility model, described elastic component, by described fixing component or/and described activity
It is in bending so that the integral, flexible of described elastic device is non-linear that the projection of the end of component or/and setting makes described elastic component
Strengthen further.
As a kind of embodiment of the present utility model, described elastic device includes quadrangular mechanism and elastic component, described
Quadrangular mechanism includes the connecting rod that four adjacent edges are connected by axis of rotation, horizontal or/and vertical in described quadrangular mechanism
To being provided with elastic component, another setting makes described elastic component lobe;Because described elastic component is in bending, so that described bullet
Property device integral, flexible be nonlinear, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase;Using spring
When footwear fall, described quadrangular mechanism presses to flat, and laterally or/and longitudinally described elastic component is stretched or/and compresses, take-off
When, under the elastic-restoring force of described elastic component acts on, described quadrangular mechanism restores thus realizing bouncing.
As a kind of embodiment of the present utility model, use front in bouncing shoes, described elastic component is in elastic deformation shape
State, uses in bouncing shoes front, described elastic component is in stress state, there is initial stress so that when using bouncing shoes, it is to avoid
The sky of stepping on that user starts to trample during bouncing shoes is felt.
As a kind of embodiment of the present utility model, described bouncing shoes also include with described elastic component interact should
Power governor motion, described stress governor motion can adjust the presence or absence of described elastic component initial stress or size.
As a kind of embodiment of the present utility model, use front in bouncing shoes, described elastic component is in elastic deformation shape
State, uses in bouncing shoes front, described elastic component is in stress state, there is initial stress so that when using bouncing shoes, it is to avoid
The sky of stepping on that user starts to trample during bouncing shoes is felt.
As a kind of embodiment of the present utility model, described bouncing shoes also include with described elastic component interact should
Power governor motion, described stress governor motion can adjust the presence or absence of described elastic component initial stress or size.
As a kind of embodiment of the present utility model, described stress governor motion include being located on described elastic component or/
And with elastic component connected components on one or more locking pieces, described elastic component passes through described locking piece and described connected components
It is detachably connected, described locking piece is hook or bolt and nut cooperation, by the locking dismounting elastic component or select diverse location
Part carrys out the initial stress of regulation elasticity part.
As a kind of embodiment of the present utility model, described stress governor motion includes being located at and elastic component connected components
On the chute of relative slip and slide block, described elastic component passed through described chute or slide block and is connected with described connected components, pass through
Chute carrys out the initial stress of regulation elasticity part with the relative slip of slide block.
As a kind of embodiment of the present utility model, described stress governor motion include located at elastic component connected components
On rotatable winding post, described elastic component is wrapped in described winding post, by rotating elastic component described in winding post folding and unfolding
Carry out the initial stress of regulation elasticity part.
As a kind of embodiment of the present utility model, include the member body of slidable connection with elastic component connected components
And fixed seat, described fixed seat is provided with mounting groove, described member body is arranged in described mounting groove, described elastic component with
Member body connects;Described stress governor motion is exactly the mechanism that is slidably connected of described member body and fixed seat, by sliding
Described member body carrys out the initial stress of regulation elasticity part.
As a kind of embodiment of the present utility model, described stress governor motion includes mutual with described elastic component stage casing
Movably moving of effect is raised, so that the degree that holds out against in described elastic component stage casing is changed by the described raised position of movement
To adjust the initial stress of described elastic component.
As a kind of embodiment of the present utility model, described movable part is the elastic bow-shaped structure of bending.
As a kind of embodiment of the present utility model, the front end of described movable part is upturned, and described tilting can be given
Give user's thrust forward.
As a kind of embodiment of the present utility model, described bouncing shoes also include half sole support force part, described half sole support force
Part acts on described pedal front end corresponding with the ball of foot of user and gives pedal front end elastic support force upwards, works as spring
When landing, partly anti-brisance can be distributed to the forefoot of user, thus mitigating the anti-brisance of heel.
As a kind of embodiment of the present utility model, described half sole support force part is compression elastic piece, be arranged on described in step on
Below front edge of board, when spring is landed, give pedal front end elastic support force upwards by compression elastic piece.
As a kind of embodiment of the present utility model, described half sole support force part is draw springs, described tensile elasticity
Part one end is connected with described pedal front end, and the other end is connected with described movable part top, when spring is landed, by stretching bullet
Property part and give described pedal front end elastic support force upwards.
As a kind of embodiment of the present utility model, described half sole support force part is lever piece, and described lever is solid with described
Determine frame and rotate connection, described lever piece one end is connected with described pedal front end, and the other end is connected with described elastic component one end, described
Elastic component one end is connected with described fixed mount by described lever piece, and when spring is landed, elastic component passes through pull lever part one
Hold and then give described pedal front end elastic support force upwards.
As a kind of embodiment of the present utility model, use front in bouncing shoes, described half sole support force part is in stress shape
State, uses in bouncing shoes front, gives described pedal front end initial stress upwards.
As a kind of embodiment of the present utility model, described bouncing shoes also include interacting with described half sole support force part
Stress governor motion, described stress governor motion can adjust the presence or absence of described half sole support force part initial stress or size.
As a kind of embodiment of the present utility model, described rotating shaft is bearing.
As a kind of embodiment of the present utility model, described bouncing shoes also include sensor data conveyer, institute
State sensor to sense the motion track of user's pin and described motion track is changed into data, described data link
Described data outwardly can be transmitted.
Compared with prior art, the utility model has as follows significantly effect:
Coefficient of elasticity K of the nonlinear elasticity device of the utility model bouncing shoes is change, and early stage is little, and the later stage is big,
At the compression initial stage, that is, user falls, from aerial, the moment that bouncing shoes contact ground after rise, and elastic-restoring force increases slow, realizes spring
Buffer soft when footwear land, with the increase of reduction length, the increase of elastic-restoring force is gradually accelerated, and maximum in reduction length
When, the moment that is, user is upspring by bouncing shoes, obtain maximum elastic-restoring force, the breaking out force of spring is higher.With existing skill
Art is compared, and during user touches ground when falling, because resiliency is good, reduces the anti-shake intensity of user.And
And, the utility model breaking out force that more strongly rebounds improves the pleasant sensation of motion, user also can be promoted to jump higher farther.
Brief description
The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings.
Fig. 1 is the structural representation of prior art bouncing shoes;
Fig. 2 is the utility model principle explanation schematic diagram;
Fig. 3 is the structural representation of coiled coil shape spring in the utility model embodiment 1;
Fig. 4 is the reciprocal structural representation rolling over stacking spring in the utility model embodiment 1;
Fig. 5 is the structural representation of cyclic bending shape spring in the utility model embodiment 1;
Fig. 6 is the structural representation of fence bar camber member in the utility model embodiment 1;
Fig. 7 is the structural representation of the utility model embodiment 2;
Fig. 8 is the structural representation of the utility model embodiment 3;
Fig. 9 is first structure schematic diagram in the utility model embodiment 4;
Figure 10 is the second structural representation in the utility model embodiment 4;
Figure 11 is the 3rd structural representation in the utility model embodiment 4;
Figure 12 is the 4th structural representation in the utility model embodiment 4;
Figure 13 is the 5th structural representation in the utility model embodiment 4;
Figure 14 is the 6th structural representation in the utility model embodiment 4;
Figure 15 is first structure schematic diagram in the utility model embodiment 5;
Figure 16 is the second structural representation in the utility model embodiment 5;
Figure 17 is the 3rd structural representation in the utility model embodiment 5;
Figure 18 is the 4th structural representation in the utility model embodiment 5;
Figure 19 is the 5th structural representation in the utility model embodiment 5;
Figure 20 is the structural representation of the utility model embodiment 6;
Figure 21 is first structure schematic diagram in the utility model embodiment 7;
Figure 22 is the side view of the second structural representation in the utility model embodiment 7;
Figure 23 is the front view of the second structural representation in the utility model embodiment 7;
Figure 24 is the Local map of the second structural representation in the utility model embodiment 7;
Figure 25 is the structural representation in the utility model embodiment 9.
Specific embodiment
Embodiment 1
A kind of nonlinear elasticity bouncing shoes, the elastic device couple including object wearing device and with object wearing device, elastic device
Elasticity be nonlinear, that is, coefficient of elasticity K of elastic device be change, and coefficient of elasticity K the phase is less before compression, pressure
The contracting later stage increases;Compress early stage in elastic device, elastic-restoring force F increases slow, thus realize bouncing shoes buffering when landing
Soft, compress the later stage in elastic device, elastic-restoring force F increase rapid, thus realize bouncing shoes rebound in take-off powerful.Bullet
Property device includes elastic component, realizes the elastic right and wrong of elastic device by the change of this body structure of elastic component or/and raw material
Linear and coefficient of elasticity K is less in elastic device compression early stage, upon compression the phase increase.
Elastic component is shown in the reciprocal folding stacking spring shown in coiled coil shape spring as shown in Figure 3 or Fig. 4 or Fig. 5
Cyclic bending shape spring, the thickness that the change of this body structure of elastic component or raw material turns to spring itself is change or/and spring
The density of the spring wire of axial direction itself is change or/and the thickness of spring wire of spring or/and material is change, material
Change includes making spring wire axial stiffness change by the ion infiltration of the heat treatment of gradual change, the doping of gradual change or gradual change.
Elastic component is camber member, and camber member is lath camber member, post bar camber member or fence bar arch as shown in Figure 6
The thickness thickness that the change of part, this body structure of elastic component or raw material turns to camber member itself is change or/and camber member itself
Material is change, and material change includes making to draw shape part by the ion infiltration of the heat treatment of gradual change, the doping of gradual change or gradual change
Material axial stiffness changes.
Embodiment 2
As shown in fig. 7, a kind of nonlinear elasticity bouncing shoes, the elasticity dress couple including object wearing device 1 and with object wearing device
Put, elastic device includes X-shaped mechanism and elastic component 9, X-shaped mechanism mainly by for support pin fixing component with contact ground
Movable part 6 forms, and fixing component and movable part 6 pass through rotating shaft 101 and rotate connection, and one end of elastic component 9 is connected to fixation
On component, the other end is then connected on movable part 6, and the elasticity of elastic component 9 is nonlinear so that the overall bullet of elastic device
Property be nonlinear, and coefficient of elasticity K elastic device compression early stage less, upon compression the phase increase;Fallen using bouncing shoes
When, movable part rotates around the axis, and elastic component is stretched, during take-off, under the elastic-restoring force of elastic component acts on, pulling activity
Component homing is thus realize bouncing.
Above-mentioned elastic component can be spring or rubber band.
Embodiment 3
As shown in figure 8, a kind of nonlinear elasticity bouncing shoes, the elasticity dress couple including object wearing device 1 and with object wearing device
Put, elastic device includes quadrangular mechanism and elastic component 9, quadrangular mechanism includes four adjacent edges and passes through rotating shaft 101 rotation even
The connecting rod connecing, laterally or/and is longitudinally provided with elastic component 9 in quadrangular mechanism, and the elasticity of elastic component 9 is nonlinear to make elasticity
The integral, flexible of device is nonlinear, and coefficient of elasticity K is less in elastic device compression early stage, phase increase upon compression;Make
When being fallen with bouncing shoes, quadrangular mechanism press to flat, laterally or/and longitudinal elastic element is stretched or/and compresses, during take-off,
Under the elastic-restoring force of elastic component acts on, quadrangular mechanism homing is thus realize bouncing.
Embodiment 4
A kind of nonlinear elasticity bouncing shoes, the elastic device couple including object wearing device 1 and with object wearing device, elastic device
Start elastically-deformable elastic component including at least two in different time, thus the integral, flexible realizing elastic device is non-linear
And coefficient of elasticity K elastic device compression early stage less, upon compression the phase increase.
As shown in figure 9, elastic component 2 is two length difference elastic components, elastic component is spring and camber member, thus realizing not
Start elastic deformation with the time, and then realize that the integral, flexible of elastic device is nonlinear and coefficient of elasticity K is in elasticity
Device compression early stage is less, upon compression phase increase.Elastic component 2 can be spring it is also possible to be camber member simultaneously simultaneously.
As shown in Figure 10, elastic device can also be X-shaped mechanism, and X-shaped mechanism is mainly by the fixing component for support pin
Form with the movable part 6 contacting ground, fixing component and movable part 6 are connected by axis of rotation, one end of elastic component 9 is even
Connect on the fixing element, the other end is then connected on movable part 6, three elastic component 9 body length differences, thus when realizing difference
Between start elastic deformation, and then make the integral, flexible of elastic device be nonlinear, and coefficient of elasticity K be in elastic device pressure
Contracting early stage is less, upon compression phase increase.
Can also be that the elastic component of equal length is arranged on different positions, start elastic shape to realize different time
Become.
As shown in figure 11, elastic device can also be quadrangular mechanism, and quadrangular mechanism includes four adjacent edges to be passed through to turn
Axle 101 rotates the connecting rod connecting, elastic component 9 in quadrangular mechanism longitudinally disposed it is also possible to horizontally set, three elastic components 9
Length is identical but is located at diverse location it is also possible to length is different and be arranged on diverse location, can also be that length is different and is located at
Same position, thus realize different time to start elastic deformation, and then makes the integral, flexible of elastic device be nonlinear,
And coefficient of elasticity K is less in elastic device compression early stage, phase increase upon compression.
As shown in figure 12, coefficient of elasticity K of two elastic components 9 is different and longitudinal divisionses are arranged, during elasticity of compression device, bullet
The little elastic component of property coefficient is first compressed, thus realizing different time to start elastic deformation, and then makes the overall bullet of elastic device
Property be nonlinear, and coefficient of elasticity K elastic device compression early stage less, upon compression the phase increase.
As shown in figure 13, elastic device ShiXXing mechanism, X-shaped mechanism mainly by for support pin fixing component with contact
The movable part 6 on ground forms, and fixing component and movable part 6 pass through rotating shaft 101 and rotate connection, one end of an elastic component 9
Connect on the fixing element, the other end is then connected to movable part 6 top, and another elastic component 9 is arranged under movable part 6
Portion.Movable part 6 by 101 turns of rotating shaft, coefficient of elasticity K of two elastic components 9 is different.
As shown in figure 14, elastic device can also be quadrangular mechanism, and quadrangular mechanism includes four adjacent edges to be passed through to turn
Axle 101 rotates the connecting rod connecting, and is laterally or longitudinally provided with least one elastic component 9, in quadrangular mechanism in quadrangular mechanism
At least one elastic component 9 is arranged below.Coefficient of elasticity K of two elastic components is different.
Embodiment 5
As shown in figure 15, a kind of nonlinear elasticity bouncing shoes, the elasticity dress couple including object wearing device 1 and with object wearing device
Put, elastic device includes X-shaped mechanism and elastic component 9, X-shaped mechanism mainly by for support pin fixing component with contact ground
Movable part 6 forms, and fixing component and movable part 6 pass through rotating shaft 101 and rotate connection, and one end of elastic component 9 is connected to fixation
On component, the other end is then connected on movable part 6, makes elastic component 9 by the end of fixing component and the end of movable part 6
In bending so that the integral, flexible of elastic device is nonlinear, and coefficient of elasticity K the phase is less before compression, the phase upon compression
Increase;The end jack-up elastic component 9 of the end or movable part 6 that can also pass through fixing component as shown in figure 16 makes elastic component 9
In bending it is also possible to the special projection 62 jack-up elastic component 9 of setting makes elastic component 9 as shown in figure 18 is in bending.Using bullet
When leather shoes specially made for high jumping or long jumping fall, movable part rotates around the axis, and elastic component is stretched, during take-off, under the elastic-restoring force of elastic component acts on,
Pull movable part homing thus realizing bouncing.
As shown in figure 16, above-mentioned fixing component can also be the fixed mount 12 including pedal 11 and on pedal 11, bullet
One end that property part 9 is connected with fixing component is connected on fixed mount 12.
As shown in Figure 17,18 or 19, fixing component and movable part can also be connected by connecting rod 66, and rotating shaft 101 sets
In one end of connecting rod 66, fixing component and movable part 6 pass through rotating shaft 101 and realize rotating connection, due to the effect of connecting rod,
The integral, flexible of elastic device is made to become non-linear.Above-mentioned connecting rod can be various equivalent deformation, such as with fixing component or/and
The projection of movable part Integral design or arc, as long as make the main shaft of fixing component or movable part with rotating shaft 101 not same
On bar straight line.
Embodiment 6
As shown in figure 20, a kind of nonlinear elasticity bouncing shoes, the elasticity dress couple including object wearing device 1 and with object wearing device
Put, elastic device includes quadrangular mechanism and elastic component 9, quadrangular mechanism includes four adjacent edges and passes through rotating shaft 101 rotation even
The connecting rod connecing, is transversely provided with elastic component 9 it is also possible to simultaneously longitudinally or individually in longitudinally disposed elastic component in quadrangular mechanism
9, another setting makes elastic component lobe 18;Because elastic component is in bending, so that the integral, flexible right and wrong of elastic device
Linear, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase;When being fallen using bouncing shoes, quadrangular mechanism pressure
To flat, laterally or/and longitudinal elastic element is stretched or/and compresses, during take-off, under the elastic-restoring force of elastic component acts on,
Quadrangular mechanism restores thus realizing bouncing.
Embodiment 7
A kind of nonlinear elasticity bouncing shoes, the elastic device couple including object wearing device and with object wearing device, with above-mentioned each
Based on embodiment, use in bouncing shoes front, elastic component is in elastic deformation state, use in bouncing shoes front, at elastic component
In stress state, there is initial stress so that when using bouncing shoes, it is to avoid the sky of stepping on that user starts to trample during bouncing shoes is felt.
Above-mentioned bouncing shoes can also include the stress governor motion interacting with elastic component, and stress governor motion can adjust
The presence or absence of elastic component initial stress or size.
As shown in figure 21, above-mentioned elastic device be X-shaped mechanism or quadrangular mechanism embodiment in, stress governor motion
Including being located at and three locking pieces 103 on elastic component connected components, locking piece is hook, and elastic component passes through locking piece and is connected
Part is detachably connected, and locking piece can also be bolt and nut cooperation for hook, by dismounting elastic component or selecting diverse location
Locking piece carry out the initial stress of regulation elasticity part.Above-mentioned locking piece can also be provided on elastic component, or locking piece is mutual
Cooperation different parts be separately positioned on elastic component and with elastic component connected components.In X-shaped mechanism, with elastic component connected components
For fixing component or movable part, in quadrangular mechanism, it is connecting rod with elastic component connected components.
Above-mentioned stress governor motion can also be including the chute being located at the relative slip on elastic component connected components and
Slide block, elastic component is passed through chute or slide block and is connected with connected components, by the relative slip of chute and slide block come regulation elasticity part
Initial stress.
Stress governor motion can be including located at elastic component connected components on rotatable winding post, elastic component twines
It is wound in winding post, by rotating winding post folding and unfolding elastic component come the initial stress of regulation elasticity part.
As shown in Figure 22,23 and 24, elastic device is X-shaped mechanism, is fixed mount 12 and activity with elastic component connected components
Component 6, movable part 6 is made up of the member body 61 of slidable connection and fixed seat 62, is provided with mounting groove, structure in fixed seat
Part main body is arranged in mounting groove, and elastic component is connected with member body;Stress governor motion is exactly member body and fixed seat
Be slidably connected mechanism, by sliding component main body come the initial stress of regulation elasticity part.Mounting groove pierces fixed seat 62, component master
Body 61 passes through mounting groove, is provided with axial strip adjustment hole 64 in fixed seat 62, is provided through adjusting in member body 61
The fastening bolt 63 in hole 64, is provided with fastening nut in fastening bolt 63;Member body 61 slides into be passed through tightly when needing position
Member body is locked by fixing bolt 63 and fastening nut with fixed seat fastening.
Above-mentioned stress governor motion can be various equivalent structures, as long as enabling dismounting or the regulation elasticity part of elastic component
Stress intensity.As stress governor motion can also be including movably dynamic convex with what elastic component stage casing interacted
Rise, changed the initial stress of regulation elasticity part by the degree that holds out against that mobile raised position makes elastic component stage casing.
Embodiment 8
As shown in Fig. 7, Figure 10 and Figure 15 to Figure 19, above-mentioned elastic device is movable part in each embodiment of X-shaped mechanism
For the elastic bow-shaped structure of bending, the front end of movable part can also be made to be upturned, tilt and can give user pushing away forward
Power.
Embodiment 9
Above-mentioned elastic device is that in each embodiment of X-shaped mechanism, bouncing shoes also include half sole support force part 13, half sole support force part
13 act on pedal 11 front end corresponding with the ball of foot of user and give pedal front end elastic support force upwards, when spring falls
During ground, partly anti-brisance can be distributed to the forefoot of user, thus mitigating the anti-brisance of heel.Without half sole support force
The bouncing shoes of part when falling, the heel of user often first stress, make power mainly by heel, sole is hardly puted forth effort or puted forth effort
Weaker, therefore elastic device act on pin elastic-restoring force uneven, so, user can feel under the weather, then bounce
Impression and experience are bad.
As shown in figure 25, above-mentioned half sole support force part 13 can be compression elastic piece, be arranged on below pedal 11 front end, work as bullet
When jump is landed, give pedal 11 front end elastic support force upwards by compression elastic piece.
Above-mentioned half sole support force part 13 is draw springs, and draw springs one end is connected with pedal 11 front end, the other end and
Movable part 6 top connects, and when spring is landed, gives pedal 11 front end elastic support force upwards by draw springs.
As shown in figure 22, half sole support force part 13 can be specially lever piece, and lever piece is rotated with fixed mount 12 and is connected, lever
Part one end is connected with pedal 11 front end, and the other end is connected with elastic component 9 one end, and lever piece and fixed mount are passed through in elastic component 9 one end
12 connections, when spring is landed, elastic component 9 passes through pull lever part one end and then gives the elasticity support upwards of pedal 11 front end
Power.
Above-mentioned bouncing shoes, use in bouncing shoes front, half sole support force part 13 is in stress state, use in bouncing shoes
Before, give pedal 11 front end initial stress upwards.
Bouncing shoes also include the stress governor motion interacting with half sole support force part 13, before stress governor motion can adjust
The presence or absence of palm support force part 13 initial stress or size, stress governor motion herein acts on elastic component as in previous embodiment
9 stress governor motion.
Embodiment 10
Above-mentioned nonlinear elasticity bouncing shoes, also include sensor data conveyer, and sensor can sense user
Motion track is simultaneously changed into data by the motion track of pin, and data can outwardly be transmitted by data link.Using moving rail
Mark data, can make various videos and appreciate for user or share to friends it is also possible to calculate the heat of activity intensity consumption
Value or the raising to user's body etc., thus improve interest and the sense of accomplishment of user.
The embodiment of above-mentioned design rotating shaft 101, rotating shaft is preferably bearing, so can eliminate stiction as much as possible,
Thus eliminating the pause and transition in rhythm or melody sense using bouncing shoes, also make bouncing shoes more durable.
Elastic component 9 uses the effect of rubber rope preferably, also can avoid the moment fracture using metal spring, improve safety
Property.The utility model when elastic device ShiXXing mechanism, due to improve compression efficiency, i.e. maximum effective deformation length and bullet
The ratio of leather shoes specially made for high jumping or long jumping free height (i.e. bouncing shoes accept the length of the position of user's sole to bouncing shoes contact surface location), this reality
With the compression efficiency of Novel bounce footwear up to 70%, such as free height is 32cm, maximum effective deformation length up to 15~21cm, and
Prior art (free height is about 45cm, and maximum compression length is 7.5cm, and efficiency is about 30%) is compared, and has obtained greatly carrying
High.Thus the safety coefficient that improve bouncing shoes is high, applicable crowd is more extensive.
Embodiment not limited to this of the present utility model, according to the above of the present utility model, general according to this area
Logical technological know-how and customary means, under the premise of without departing from the utility model above-mentioned basic fundamental thought, of the present utility model non-
Linear elasticity device, X-shaped mechanism, quadrangular mechanism, stress governor motion also have other embodiments.Therefore this practicality is new
Type can also make modification, replacement or the change of other various ways, all falls within the utility model rights protection scope.
Claims (34)
1. a kind of nonlinear elasticity bouncing shoes, the elastic device couple including object wearing device and with described object wearing device, its feature
It is:The elasticity of described elastic device is nonlinear, and that is, coefficient of elasticity K of elastic device is change, and coefficient of elasticity K exists
Compression early stage is less, upon compression phase increase;Compress early stage in described elastic device, elastic-restoring force F increases slowly, thus real
Existing bouncing shoes buffer soft when landing, and compress the later stage in described elastic device, elastic-restoring force F increases rapid, thus realizing
Bouncing shoes rebound powerful in take-off;Described elastic device includes elastic component, by the change of described this body structure of elastic component Lai
Realize described elastic device elasticity be nonlinear and coefficient of elasticity K described elastic device compression early stage less, compression
Later stage increases;Described elastic component is coiled coil shape spring or reciprocal folding stacking spring or cyclic bending shape spring, described elasticity
The thickness that the change of this body structure of part turns to the spring wire that the described spring thickness of itself is change or/and described spring is to become
Change;Or described elastic component is camber member, described camber member is lath camber member, post bar camber member or fence bar camber member, institute
State this body structure of elastic component change turn to described camber member itself thickness thickness be change.
2. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described elastic device also includes X-shaped machine
Structure, described X-shaped mechanism is mainly made up of (6) with the movable part contacting ground the fixing component for support pin, described fixation
Component and movable part (6) pass through rotating shaft (101) and rotate connection, and one end of described elastic component (9) is connected to described fixing component
On, the other end is then connected on described movable part (6), and the elasticity of described elastic component (9) is nonlinear so that described elasticity
The integral, flexible of device is nonlinear, and coefficient of elasticity K is less in described elastic device compression early stage, phase increasing upon compression
Greatly;When being fallen using bouncing shoes, described movable part rotates around the axis, and described elastic component is stretched, during take-off, in described elasticity
Under the elastic-restoring force effect of part, pull described movable part homing thus realizing bouncing.
3. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described elastic device also includes quadrangle
Mechanism, described quadrangular mechanism includes four adjacent edges and passes through the connecting rod that rotating shaft (101) rotates connection, in described quadrangular mechanism
Interior laterally or/and be longitudinally provided with elastic component (9), the elasticity of described elastic component (9) is nonlinear to make the whole of described elastic device
Body elasticity is nonlinear, and coefficient of elasticity K is less in described elastic device compression early stage, phase increase upon compression;Using bullet
When leather shoes specially made for high jumping or long jumping fall, described quadrangular mechanism presses to flat, and laterally or/and longitudinally described elastic component is stretched or/and compresses, take-off
When, under the elastic-restoring force of described elastic component acts on, described quadrangular mechanism homing is thus realize bouncing.
4. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described elastic device includes at least two
Start elastically-deformable elastic component in different time, thus the integral, flexible realizing described elastic device is nonlinear and elastic
COEFFICIENT K is less in described elastic device compression early stage, upon compression phase increase.
5. nonlinear elasticity bouncing shoes according to claim 4 it is characterised in that:Described elastic component is at least two length
Different elastic components, described elastic component is spring or/and camber member, thus realize different time to start elastic deformation, and then
Realize described elastic device integral, flexible be nonlinear and coefficient of elasticity K described elastic device compression early stage less,
The compression later stage increases.
6. nonlinear elasticity bouncing shoes according to claim 4 it is characterised in that:Described elastic device also includes X-shaped machine
Structure, described X-shaped mechanism is mainly made up of (6) with the movable part contacting ground the fixing component for support pin, described fixation
Component and movable part (6) are connected by axis of rotation, and one end of described elastic component (9) is connected in described fixing component, separately
One end is then connected on described movable part (6), and described this body length of at least two elastic components (9) difference or set location are not
With, thus realize different time to start elastic deformation, and then make the integral, flexible of described elastic device be nonlinear, and
Coefficient of elasticity K is less in described elastic device compression early stage, upon compression phase increase.
7. nonlinear elasticity bouncing shoes according to claim 4 it is characterised in that:Described elastic device also includes quadrangle
Mechanism, described quadrangular mechanism includes four adjacent edges and passes through the connecting rod that rotating shaft (101) rotates connection, and described elastic component (9) exists
Laterally or longitudinally arrange in described quadrangular mechanism, described this body length of at least two elastic components (9) difference or set location are not
With, thus realize different time to start elastic deformation, and then make the integral, flexible of described elastic device be nonlinear, and
Coefficient of elasticity K is less in described elastic device compression early stage, upon compression phase increase.
8. nonlinear elasticity bouncing shoes according to claim 4 it is characterised in that:The elasticity of described at least two elastic components
COEFFICIENT K is different and longitudinal divisionses are arranged, and when compressing described elastic device, the little elastic component of coefficient of elasticity is first compressed, thus real
Existing different time starts elastic deformation, and then makes the integral, flexible of described elastic device be nonlinear, and coefficient of elasticity K is in institute
State elastic device compression early stage less, phase increase upon compression.
9. nonlinear elasticity bouncing shoes according to claim 8 it is characterised in that:Described elastic device also includes X-shaped machine
Structure, described X-shaped mechanism is mainly made up of (6) with the movable part contacting ground the fixing component for support pin, described fixation
Component and movable part (6) are connected by axis of rotation, and one end of at least one described elastic component (9) is connected to described fixing structure
On part, the other end is then connected to described movable part (6) top, and at least one described elastic component (9) is arranged on described activity structure
Part (6) bottom.
10. nonlinear elasticity bouncing shoes according to claim 8 it is characterised in that:Described elastic device also includes four sides
Shape mechanism, described quadrangular mechanism includes the connecting rod that four adjacent edges are connected by axis of rotation, in described quadrangular mechanism
Laterally or longitudinally it is provided with least one described elastic component (9), at least one described elasticity is arranged below in described quadrangular mechanism
Part (9).
11. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described elastic device also includes X-shaped machine
Structure, described X-shaped mechanism is mainly made up of (6) with the movable part contacting ground the fixing component for support pin, described fixation
Component and movable part (6) pass through rotating shaft (101) and rotate connection, and one end of described elastic component (9) is connected to described fixing component
On, the other end is then connected on described movable part (6), by the end of described fixing component or/and described movable part (6)
Or/and the projection (62) of setting makes described elastic component (9) in bending so that the integral, flexible of described elastic device is non-linear
, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase;When being fallen using bouncing shoes, described movable part rotates
Axle rotates, and described elastic component is stretched, and during take-off, under the elastic-restoring force of described elastic component acts on, pulls described activity structure
Part homing is thus realize bouncing.
12. nonlinear elasticity bouncing shoes according to claim 11 it is characterised in that:Described fixing component includes pedal
(11) fixed mount (12) and on described pedal (11), one end that described elastic component (9) is connected with described fixing component is even
It is connected on described fixed mount (12).
13. nonlinear elasticity bouncing shoes according to claim 11 or 12 it is characterised in that:Described fixing component and described
Movable part passes through connecting rod (66) and connects, and described rotating shaft (101) is located at one end of described connecting rod (66), described fixing component
Pass through rotating shaft (101) with movable part (6) to realize rotating connection, due to the effect of connecting rod, make the entirety of described elastic device
Elastic-nonlinear is strengthened further.
14. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described elastic device also includes X-shaped machine
Structure, described X-shaped mechanism is mainly made up of (6) with the movable part contacting ground the fixing component for support pin, described fixation
Component and described movable part pass through connecting rod (66) and connect, and are provided with rotating shaft (101) in one end of described connecting rod (66), described
Fixing component and movable part (6) pass through rotating shaft (101) and realize rotating connection, because the setting of connecting rod makes described elastic device
Integral, flexible be nonlinear, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase;Fallen using bouncing shoes
When, described movable part rotates around the axis, and described elastic component is stretched, during take-off, in the elastic recovery masterpiece of described elastic component
With under, pull described movable part homing thus realize bounce.
15. nonlinear elasticity bouncing shoes according to claim 14 it is characterised in that:Described fixing component includes pedal
(11) fixed mount (12) and on described pedal (11), one end that described elastic component (9) is connected with described fixing component is even
It is connected on described fixed mount (12).
16. nonlinear elasticity bouncing shoes according to claims 14 or 15 it is characterised in that:Described elastic component (9), passes through
It is in curved that the projection (62) of the end of described fixing component or/and described movable part (6) or/and setting makes described elastic component (9)
Curved so that the integral, flexible of described elastic device is non-linear strengthens further.
17. bouncing shoes according to claim 1 it is characterised in that:Described elastic device also includes quadrangular mechanism, described
Quadrangular mechanism includes four adjacent edges to be passed through rotating shaft (101) and rotates the connecting rod connecting, in described quadrangular mechanism laterally or/
It is provided with elastic component (9) with longitudinal, another setting makes described elastic component lobe (18);Because described elastic component is in bending,
So that the integral, flexible of described elastic device is nonlinear, and coefficient of elasticity K the phase is less before compression, upon compression the phase increase
Greatly;When being fallen using bouncing shoes, described quadrangular mechanism press to flat, laterally or/and longitudinally described elastic component be stretched or/and
Compression, during take-off, under the elastic-restoring force of described elastic component acts on, described quadrangular mechanism restores thus realizing bullet
Jump.
18. nonlinear elasticity bouncing shoes according to claim 1 it is characterised in that:Described bouncing shoes also include with described
Elastic component interact stress governor motion, described stress governor motion can adjust the presence or absence of described elastic component initial stress or
Size.
19. bouncing shoes according to any one of claim 2,3,6,7,9~12,14,15 or 17 it is characterised in that:In bullet
Leather shoes specially made for high jumping or long jumping use front, described elastic component (9) is in elastic deformation state, that is, nonlinear elasticity bouncing shoes use front, described elasticity
Part (9) is in stress state, there is initial stress so that when using bouncing shoes, it is to avoid user starts to trample stepping on during bouncing shoes
Empty sense;Described bouncing shoes also include the stress governor motion interacting with described elastic component (9), and described stress governor motion can
Adjust the presence or absence of described elastic component (9) initial stress or size.
20. nonlinear elasticity bouncing shoes according to claim 19 it is characterised in that:Described stress governor motion includes setting
On described elastic component or/and with elastic component connected components on one or more locking pieces (103), described elastic component pass through institute
State locking piece to be detachably connected with described connected components, described locking piece is hook or bolt and nut cooperation, by dismounting elasticity
The locking piece of part or selection diverse location carrys out the initial stress of regulation elasticity part.
21. nonlinear elasticity bouncing shoes according to claim 19 it is characterised in that:Described stress governor motion includes setting
In chute and slide block with the relative slip on elastic component connected components, described elastic component pass through described chute or slide block with described
Connected components connect, by the relative slip of chute and slide block come the initial stress of regulation elasticity part.
22. nonlinear elasticity bouncing shoes according to claim 19 it is characterised in that:Described stress governor motion includes setting
In with elastic component connected components on rotatable winding post, described elastic component is wrapped in described winding post, is twined by rotation
Carry out the initial stress of regulation elasticity part around elastic component described in post folding and unfolding.
23. nonlinear elasticity bouncing shoes according to claim 19 it is characterised in that:Include can with elastic component connected components
The member body (61) being slidably connected and fixed seat (62), are provided with mounting groove in described fixed seat, and described member body is installed
In described mounting groove, described elastic component is connected with member body;Described stress governor motion is exactly described member body and consolidates
The mechanism that is slidably connected of reservation, by described member body of sliding come the initial stress of regulation elasticity part.
24. nonlinear elasticity bouncing shoes according to claim 19 it is characterised in that:Described stress governor motion include with
What described elastic component stage casing interacted movably moves projection, makes described elastic component stage casing by the described raised position of movement
The degree that holds out against change to adjust the initial stress of described elastic component.
25. nonlinear elasticity bouncing shoes according to any one of claim 2,6,9,11,12,14 or 15 it is characterised in that:
Described movable part is the elastic bow-shaped structure of bending.
26. nonlinear elasticity bouncing shoes according to claim 25 it is characterised in that:The front end of described movable part is upwards
Tilt, described tilting can give user thrust forward.
27. nonlinear elasticity bouncing shoes according to claim 12 or 15 it is characterised in that:Before described bouncing shoes also include
Palm support force part (13), described half sole support force part (13) acts on described pedal (11) front end corresponding with the ball of foot of user simultaneously
Give pedal front end elastic support force upwards, when spring is landed, partly anti-brisance can be distributed to the forefoot of user,
Thus mitigating the anti-brisance of heel.
28. nonlinear elasticity bouncing shoes according to claim 27 it is characterised in that:Described half sole support force part (13) is
Compression elastic piece, is arranged on below described pedal (11) front end, when spring is landed, is given pedal by compression elastic piece
(11) front end elastic support force upwards.
29. nonlinear elasticity bouncing shoes according to claim 27 it is characterised in that:Described half sole support force part (13) is to draw
Stretch elastic component, described draw springs one end is connected with described pedal (11) front end, the other end and described movable part (6) top
Connect, when spring is landed, give described pedal (11) front end elastic support force upwards by draw springs.
30. nonlinear elasticity bouncing shoes according to claim 27 it is characterised in that:Described half sole support force part (13) is thick stick
Rod member, described lever piece is rotated with described fixed mount (12) and is connected, and described lever piece one end is connected with described pedal (11) front end,
The other end is connected with described elastic component (9) one end, and described lever piece and described fixed mount (12) are passed through in described elastic component (9) one end
Connect, when spring is landed, elastic component (9) passes through pull lever part one end and then gives described pedal (11) front end bullet upwards
Property support force.
31. nonlinear elasticity bouncing shoes according to claim 27 it is characterised in that:Bouncing shoes use front, described before
Palm support force part (13) is in stress state, uses in bouncing shoes front, gives described pedal (11) front end initial stress upwards.
32. according to claim 31 nonlinear elasticity bouncing shoes it is characterised in that:Described bouncing shoes also include with described before
The stress governor motion that palm support force part (13) interacts, described stress governor motion can adjust described half sole support force part (13) and rises
The presence or absence of beginning stress or size.
The 33. nonlinear elasticity bouncing shoes according to any one of claim 2,3,6,7,9~12,14,15 or 17, its feature
It is:Described rotating shaft (101) is bearing.
The 34. nonlinear elasticity bouncing shoes according to any one of claim 1~12,14,15,17,18,20~24 or 26,
It is characterized in that:Described bouncing shoes also include sensor data conveyer, and described sensor can sense user's pin
Described motion track is simultaneously changed into data by motion track, and described data can outwardly be transmitted by described data link.
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CN201620054715.XU CN205948294U (en) | 2016-01-20 | 2016-01-20 | Nonlinear elasticity spring shoes |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105498169A (en) * | 2016-01-20 | 2016-04-20 | 石利平 | Nonlinear elastic bouncing shoe |
CN112169272A (en) * | 2020-10-31 | 2021-01-05 | 徐荣华 | High-elasticity bouncing shoe |
-
2016
- 2016-01-20 CN CN201620054715.XU patent/CN205948294U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105498169A (en) * | 2016-01-20 | 2016-04-20 | 石利平 | Nonlinear elastic bouncing shoe |
CN112169272A (en) * | 2020-10-31 | 2021-01-05 | 徐荣华 | High-elasticity bouncing shoe |
CN112169272B (en) * | 2020-10-31 | 2022-04-12 | 江苏玉人服装有限公司 | High-elasticity bouncing shoe |
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