CN209224839U - A kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel - Google Patents
A kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel Download PDFInfo
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- CN209224839U CN209224839U CN201822075349.8U CN201822075349U CN209224839U CN 209224839 U CN209224839 U CN 209224839U CN 201822075349 U CN201822075349 U CN 201822075349U CN 209224839 U CN209224839 U CN 209224839U
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- 238000005452 bending Methods 0.000 claims abstract description 19
- 238000013016 damping Methods 0.000 claims abstract description 12
- 238000005381 potential energy Methods 0.000 claims abstract description 11
- 230000002093 peripheral effect Effects 0.000 claims abstract description 8
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- 230000007774 longterm Effects 0.000 claims description 3
- 230000000694 effects Effects 0.000 abstract description 12
- 230000035939 shock Effects 0.000 abstract description 9
- 238000006073 displacement reaction Methods 0.000 abstract description 5
- 230000009467 reduction Effects 0.000 abstract description 4
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- 238000005096 rolling process Methods 0.000 description 3
- 239000000243 solution Substances 0.000 description 3
- 238000003860 storage Methods 0.000 description 3
- 230000005489 elastic deformation Effects 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000021715 photosynthesis, light harvesting Effects 0.000 description 2
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- 230000003068 static effect Effects 0.000 description 2
- 239000013589 supplement Substances 0.000 description 2
- 238000010146 3D printing Methods 0.000 description 1
- 238000005266 casting Methods 0.000 description 1
- 239000002131 composite material Substances 0.000 description 1
- 239000012141 concentrate Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
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Abstract
The utility model discloses a kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel, and wheel rim forms carrying peripheral surface, and multiple elastic supporting member for supporting optical member are distributed between wheel hub and wheel rim, and elastic supporting member for supporting optical member can generate deformation under load effect;At least the two is integrally formed in wheel hub, wheel rim and elastic supporting member for supporting optical member, and normality lower hub and wheel rim are concentric;When the radial force that load acts on wheel rim is greater than bending resistance torque threshold greater than the rotating torque that damping threshold value or pivoting friction act on elastic supporting member for supporting optical member, elastic supporting member for supporting optical member generates deformation, so that the center of circle of wheel rim generates radial elastic displacement relative to the center of circle of wheel hub.Structure of coupling hardness with softness is converted by traditional structure by structure optimization, the load impacting for generation of jolting can be weakened when quickly jolting, it can be ensured that wheel is fast and safely advanced in the road conditions for fluctuating of jolting;After shock loading reduction, which forms the torque for pushing wheel hub to continue normal rotation of advancing for elastic potential energy is discharged, and can take into account good walking performance and user experience.
Description
Technical field
The utility model relates to mechanical wheel technical fields, and in particular to one kind couple hardness with softness elastic wheel and have the elastic wheel
Equipment.
Background technique
Traditional wheel reduces the friction system with contact surface in actual use, using the rolling of outer ring, in turn
Obtain good actuation performance.Such as, but not limited to, wheel or driving wheel etc..In general, the impact generated in wheel rotation process
Load directly affects it and runs ride comfort.
By taking wheel as an example, walk when on rough road surface, the impact forces of generation of jolting can by wheel and
The components such as car body are transferred to occupant, and user experience is poor.In the case of more serious, the vibration which generates is also resulted on vehicle
Other components loosen or even the damage of vehicle carried article.In order to obtain good user experience, the prior art proposes different dampings
Wheel scheme, still, upper mostly relatively complicated due to designing, component tie point forms more severe stress collection under impact
In, it is easily damaged, wide popularization and application can not be able to.In addition, the shock-damping structure of the prior art increases to a certain extent
The running resistance of wheel.
In view of this, it would be highly desirable to look for another way and be optimized for wheel structure, to obtain good damping effect
On the basis of, effectively evading structure is that component tie point stress is avoided to concentrate the defect for influencing wheel service life.
Utility model content
In order to solve the above technical problems, the utility model provides a kind of couple hardness with softness elastic wheel and the dress with the elastic wheel
It is standby, structure of coupling hardness with softness is converted for traditional structure by structure optimization, on the basis of obtaining good walking performance, Neng Gouyou
Effect evades influence of the severe use environment to wheel service life.
Elastic wheel provided by the utility model of coupling hardness with softness, including wheel hub, wheel rim and multiple elastic supporting member for supporting optical member;Wherein, institute
Wheel hub is stated for being adapted to wheel shaft, the wheel rim is used to form carrying peripheral surface;Multiple elastic supporting member for supporting optical member, it is circumferential to be successively spaced
It is distributed between the wheel hub and the wheel rim, each elastic supporting member for supporting optical member, which can be pressurized, to be generated the first deformation or tension and generate the
Two deformation;In the wheel hub, the wheel rim and the elastic supporting member for supporting optical member, at least the two is integrally formed, and is configured that under normality,
The wheel hub and the wheel rim are concentric;Load act on the wheel rim radial force be greater than damping threshold value when or rotating torque
When acting on the rotating torque of the elastic supporting member for supporting optical member and being greater than bending resistance torque threshold, at least one in multiple elastic supporting member for supporting optical member
Person generates the first deformation and at least another one generates the second deformation, so as to the center of circle of the center of circle relative to the wheel hub of the wheel rim
Radial elastic is generated to be displaced to form elastic potential energy;And the elastic wheel is when turning to the radial force less than the damping threshold value,
Or the rotating torque generates the bullet of first deformation and second deformation when being less than the bending resistance torque threshold
Property supporting element discharge the elastic potential energy and form the normal traveling active force for pushing the hub rotation.
Preferably, the stress and deformation region of the elastic supporting member for supporting optical member is by its ontology rotary disk around formation.
Preferably, the stress and deformation region of the elastic supporting member for supporting optical member is formed by its ontology detour bending.
Preferably, the ontology in the stress and deformation region of the elastic supporting member for supporting optical member has leads to along what its ontology extending direction opened up
Slot.
Preferably, in axis projection face, each elastic supporting member for supporting optical member is integrally in bending shape, and itself and the wheel rim
Linkage section extend to the adjacent elastic supporting member for supporting optical member of its bending direction deformation region radial outside.
Preferably, the wheel hub, the wheel rim and the elastic supporting member for supporting optical member are integrally formed, the elastic supporting member for supporting optical member with institute
The cross-sectional area for stating the linkage section of wheel rim has the variation tendency being gradually increased from the inside to the outside.
Preferably, the linkage section outer end of each elastic supporting member for supporting optical member all has circumferential through slot, and the circumferential perforation
The installing of slot interpolation is equipped with supporting block, is tight fit between the supporting block and corresponding circumferential through slot.
Preferably, the wheel hub and the elastic supporting member for supporting optical member are integrally formed, the elastic supporting member for supporting optical member with the wheel rim
The cross-sectional area of linkage section has the variation tendency being gradually increased from the inside to the outside, and forms sliding block in end;The wheel rim it is corresponding
Position is provided with the sliding block inserting groove circumferentially opened up, to circumferentially-spaced space between the adjacent sliding block inserting groove, and
It is configured that in axis projection face, the circumferentially-spaced space can accommodate the corresponding sliding block, the slot of the sliding block inserting groove
Radial offset is formed between bottom and the peripheral surface of the corresponding sliding block and is adapted to pair, and the secondary distance away from core wheel of the adaptation is along week
To the Long-term change trend to taper off from middle part to two sides.
Preferably, it is in evagination orphan shape that the adaptation is secondary.
The utility model also provides a kind of equipment with aforementioned wheel.
Compared with prior art, the utility model is changed by taking turnsThe fixed conventional wheel shape with wheel rim relative position
Thus formula by the service load in Structure adaptation use process of coupling hardness with softness, and eliminates wheel cover tire.Using this programme,
With following advantageous effects:
Firstly, elastic supporting member for supporting optical member can produce corresponding tension deformation or compression deformation under service load effect, in the process two
Continuous decentraction variation occurs for the person center of circle namely wheel rim is generated under the action of external applied load relative to the radial bullet for rotating the center of circle
Property displacement, main deformation component elastic supporting member for supporting optical member therein and wheel rim or wheel hub be integrally formed, and can effectively evade and rush reducing
The generation that stress is concentrated during load is hit, provides technical guarantee to improve wheel service life, and manufacturing cost can obtain
Effectively to control.Meanwhile elastic supporting member for supporting optical member can fully absorb biggish shock loading when quickly jolting, and jolt so as to weaken
And reduce load impacting, also, wheel move ahead or fall back during, it is directly proportional to rotating torque that above-mentioned deformation has structure
Rigidity, composition avoid the ability of structural instability from having to can ensure that wheel is fast and safely advanced in the road conditions for fluctuating of jolting
Good user experience.In addition, the change in location generated in deformation process forms elastic potential energy, and after shock loading reduction, the bullet
Property supporting element will discharge elastic potential energy, in normal traveling process, formed and push the torque that continues to rotate of wheel hub, namely push wheel
The active force of hub rotation, can provide power-assisted for the rotation of wheel.The elastic wheel of coupling hardness with softness that this programme provides, has effectively taken into account and has kept away
The promotion for shaking effect and handling capacity, ensure that the stability and balance of operation.In addition, overcoming turning for frictional force in wheel
During dynamic, when rotating torque acts on elastic supporting member for supporting optical member and is greater than the threshold value of its bending resistance torque, amount of elastic deformation and rigidity
It is directly proportional, it is similarly formed elastic yield, is absorbed, the energy of storage can be equally hair in the threshold value that rotating torque is less than bending resistance torque
Raw release.
Secondly, the ontology in the stress and deformation region of elastic supporting member for supporting optical member has edge in the preferred embodiment of the utility model
The through slot that its ontology extending direction opens up, so set, size of the stress and deformation region from body elasticity can quickly be adjusted, quickly
The variation of load under operating condition is responded, there is preferable adaptability.
Again, in another preferred embodiment of the utility model, elastic supporting member for supporting optical member extends to it with the linkage section of wheel rim
The radial outside of the deformation region of the adjacent spring supporting element of bending direction, the adjacent spring orderly interlaced arrangement of supporting element, so that wheel
Sub- rolling process forms relatively reliable pulsed continuous rotation, further increases its kinetic stability.
4th, in the another preferred embodiment of the utility model, the linkage section outer end of each elastic supporting member for supporting optical member all has week
To through slot, wherein being fitted with the supporting block with its tight fit.The geometric shape shape constituted on wheel rim using supporting block as a result,
At required rigid supplement, wheel rim rigidity can be changed according to carrying demand, namely have adjusted the rigidity of wheel rim.On this basis,
The material of different rigidity feature can be used in the wheel rim of this preferred embodiment, and is not limited to protect only in accordance with the quality redundancy of structure static state
Hinder it and uses function, the match selection more maneuverability of material and structure.
Detailed description of the invention
Fig. 1 is the stereoscopic schematic diagram of elastic wheel of coupling hardness with softness described in embodiment one;
Fig. 2 is the front view of elastic wheel of coupling hardness with softness described in embodiment one;
Fig. 3 shows the use state deformation schematic diagram of the elastic wheel of coupling hardness with softness;
Fig. 4 by A in Fig. 2 to view elastic supporting member for supporting optical member partial schematic diagram;
Fig. 5 is the schematic diagram of elastic wheel of coupling hardness with softness described in embodiment two;
Fig. 6 is the schematic diagram of elastic wheel of coupling hardness with softness described in embodiment three;
Fig. 7 is the schematic diagram of wheel hub and elastic supporting member for supporting optical member described in embodiment three;
Fig. 8 is the schematic diagram of wheel rim described in embodiment three;
Fig. 9 is the B-B sectional view of Fig. 6.
In figure:
Wheel hub 1, elastic supporting member for supporting optical member 2, through slot 21, linkage section 22, circumferential through slot 23, sliding block 24, peripheral surface 241, wheel
Enclose 3, sliding block inserting groove 31, supporting block 4.
Specific embodiment
It is with reference to the accompanying drawing and specific real in order to make those skilled in the art more fully understand technical solution of the present invention
Applying example, the present invention is described in further detail.
Embodiment one:
Referring to Figure 1 and Fig. 2, wherein Fig. 1 is the stereoscopic schematic diagram of elastic wheel of coupling hardness with softness described in the present embodiment, and Fig. 2 is
The front view of the elastic wheel of coupling hardness with softness.
The elastic wheel mainly include the wheel hub 1 being adapted to for the wheel shaft (not shown) with equipment, elastic supporting member for supporting optical member 2 and
Wheel rim 3.The elastic wheel of coupling hardness with softness that this programme provides eliminates conventional external tire, and wheel rim 3 has certain carrying rigidity simultaneously
Form carrying peripheral surface;Wherein, multiple elastic supporting member for supporting optical member 2 are circumferential successively uniformly at intervals between wheel hub 1 and wheel rim 3.Here,
Multiple elastic supporting member for supporting optical member 2 have both the spoke function of conventional wheel, while the characteristics of be based on its compression deformation and compression deformation, should
Wheel rim 3 can under the action of external applied load relative to 1 elastic displacement of wheel hub namely elastic yield, and make a concession process absorb, storage
The impact energy of external applied load, and the change in location generated in deformation process forms elastic potential energy, the elastic potential energy is in external applied load threshold
Value discharges when being less than elastic yield threshold value, makes supporting element power-assisted in the rotation of normal traveling wheel.Meanwhile wheel move ahead or
During retroversion, above-mentioned deformation makes structure have the rigidity directly proportional to rotating torque, has the structural rigidity coupled hardness with softness
It continues to increase, constitutes the ability for avoiding structural instability, be consequently adapted to the rotating torque load change of wheel rotation process.It is worked
Cheng Zhong, elastic supporting member for supporting optical member 2 can quickly jolt when fully absorb biggish shock loading, so as to substantially reduce load impacting,
Reduction is jolted, and this programme can ensure that wheel is fast and safely advanced in the road conditions for fluctuating of jolting, and has good user experience.And it passes
The effect of system damping is only to make energy dissipation, and conventional damper power is directly proportional to shock loading speed, and energy dissipation mode is thick
Cruelly.Therefore, it is difficult to adapt to quickly jolt in wheel traveling process.
In addition, acting on 2 rotating torque of elastic supporting member for supporting optical member greater than its bending resistance in the rotation process that wheel overcomes frictional force
When torque threshold, amount of elastic deformation is directly proportional to rigidity, is similarly formed elastic yield, absorb, the energy of storage equally can be
The threshold value that rotating torque is less than bending resistance torque is to discharge.
As shown, this programme, using five elastic supporting member for supporting optical member 2 as exemplary illustration, wheel hub 1, wheel rim 3 and each elasticity are propped up
Support member 2 is integrally formed, and can effectively evade the generation that stress is concentrated during reducing shock loading, uses the longevity to improve wheel
Life provides technical guarantee.Each elastic supporting member for supporting optical member 2 between wheel hub 1 and wheel rim 3 can generate the first deformation when being pressurized,
Or the second deformation is generated in tension.Please also refer to Fig. 3, the figure is to be to be illustrated the elastic wheel in the wheel of road traveling
Use state deformation signal, for the mechanism of action of clear expression this programme, Fig. 3 with three elastic supporting member for supporting optical member 2 illustrated with
Simplify drawing.
Under normality, wheel hub 1 and wheel rim 3 are concentric, specific center of circle O as shown in the figure;When load acts on the radial force of wheel rim 3
When greater than damping threshold value, the elastic supporting member for supporting optical member 2 for being located at least in lower section, which is pressurized, generates the first deformation, has the wheel rim 3 of certain rigidity
Therewith pull be located at least in upper right side 2 tension of elastic supporting member for supporting optical member generate the second deformation, in this way, the center of circle O ' of wheel rim 3 relative to
The center of circle O of wheel hub 1 generates radial elastic displacement, that is to say, that the center of circle occurs continuously not both in wheel rotation process
Variation namely wheel rim 3 generate the elastic displacement that relativeatoeterahub 1 rotates the center of circle under the action of external applied load with one heart.Shown in Fig. 3,
The component that corresponding deformation occurs, which is adopted, to be represented by dashed line, and region shown in 45 ° of sections is 3 area Nei Shou of wheel rim, region shown in casting mesh
Area is extended out for wheel rim 3.
It should be noted that " damping threshold value " here refers to the proposed energy-absorbing response condition of master-plan, it specifically can root
It is set according to the practical application operating condition of the elastic wheel;Such as, but not limited to, when external load function power is greater than 50kg, then accordingly
Elastic supporting member for supporting optical member 2 starts the function of energy-absorbing damping when generating the first deformation and the second deformation.
As elastic wheel continues to rotate, road surface becomes flat, when radial force caused by external applied load is less than the damping threshold value,
The elastic supporting member for supporting optical member 2 for generating the first deformation and the second deformation discharges the active force that formation is pushed wheel hub 1 to rotate by elastic potential energy,
That is the elastic supporting member for supporting optical member 2 forms turn for pushing wheel hub 1 to continue to rotate for the elastic potential energy is discharged after shock loading reduction
Square, namely the normal traveling active force for pushing wheel hub 1 to rotate, can provide power-assisted for the rotation of wheel.So set, this is hard and soft simultaneously
Resilient wheelset material help without particularity requirement, meets the light-weighted designer trends of product, has effectively taken into account shock-proof effect and has led to
Cross the promotion of ability.
It should be appreciated that " stress and deformation region " herein refers to the region that flexible deformation occurs under external load function,
The expression in " stress and deformation region " is only used for clearly showing the mechanism of action of this programme, not constitutes and works elastic supporting member for supporting optical member 2
The absolute division in region limits;That is, the elastic supporting member for supporting optical member 2 can locally generate flexible deformation, elasticity can also be integrally generated
Deformation needs within the scope of the present application as long as meeting aforementioned function.Such as, but not limited to, elastic supporting member for supporting optical member 2
Stress and deformation region as illustrated in the drawing by its ontology rotary disk around formation, can also be formed by its ontology detour bending.Wherein,
For using by ontology rotary disk, by the way of formation, the flexible deformation of elastic supporting member for supporting optical member 2 is stopped at structure intersection, that is,
It says, deformation is located in restriction range, it can be ensured that maximum rotation torque is transmitted between wheel shaft and wheel rim.
In order to further increase the quick adjustment capability of the elastic wheel, preferably, can be in the stress of elastic supporting member for supporting optical member 2
The ontology of deformation region has the through slot 21 that opens up along its ontology extending direction, please also refer to Fig. 4, should by Fig. 2 A to regarding
2 partial schematic diagram of elastic supporting member for supporting optical member.
So set, size of the stress and deformation region from body elasticity can be quickly adjusted, load under quick response operating condition
Variation has preferable adaptability.Specifically, it is blind slot which, which can penetrate through elastic supporting member for supporting optical member 2 also, and its specific ruler
Very little and setting quantity can be set according to actual needs, and repeats no more herein.
In axis projection face, as shown in Fig. 2, it is in bending shape that each elastic supporting member for supporting optical member 2 is whole, do not increasing outside wheel
On the basis of diameter size, energy-absorbing cushioning ability can be obtained to greatest extent.The linkage section 22 with wheel rim 3 of the elastic supporting member for supporting optical member 2
Extend to the radial outside of the deformation region of the adjacent spring supporting element 2 of its bending direction, 2 linkage section 22 of elastic supporting member for supporting optical member
Positioned at the radial outside of the deformation region of another elastic supporting member for supporting optical member 2 adjacent thereto, so set, adjacent spring supporting element 2 has
Sequence interlaced arrangement further increases its motion stabilization so that wheel rolling process forms relatively reliable pulsed continuous rotation
Property.
As shown, preferably having with the cross section of the linkage section 22 of wheel rim 3 for elastic supporting member for supporting optical member 2 gradually increases from the inside to the outside
Big variation tendency, it is specifically, relatively large close to 22 cross section of linkage section of wheel rim 3, with improve wheel rim 3 rigidity and
The bearing stability of entire elastic wheel.
In addition, 22 outer end of linkage section of each elastic supporting member for supporting optical member 2, namely circumferentially passed through with being all had at 3 connected position of wheel rim
Through slot 23, and be equipped with and 3 have the supporting block 4 that can be plugged in the circumferential direction through slot 23, after the completion of inserting, supporting block 4 with it is corresponding
It is tight fit between circumferential through slot 23, shown in the specific partial cutaway as shown in Fig. 3.So set, being taken turns using supporting block 4
The geometric shape constituted on circle 3 is formed to 3 rigidity supplement of wheel rim, changes 4 rigidity of wheel rim according to carrying demand, that is to say, that work
When condition needs larger wheel rim rigidity, then supporting block 4 is inserted into corresponding circumferential through slot 23, and required wheel rim rigidity is smaller
When, supporting block 4 is taken out, the work rigidity of wheel rim 3 is had adjusted with this.
In addition, the material of different rigidity feature can be used in the setting based on above-mentioned supporting block 4, wheel rim 3, and it is not limited to only
Quality redundancy according to structure static state ensures that it uses function, the match selection more maneuverability of material and structure.
It illustrates, the used integral forming process of elastic wheel of coupling hardness with softness that this programme provides can be according to material
It is selected, for example, precision casting process can be used in metal material, injection molding is can be used in nonmetallic materials or composite material
Or 3D printing technological forming.In the present solution, having the carrying stress area circumferentially formed, work between linkage section 22 and wheel rim 3
The shock loading formed during making will circumferentially form overall distribution loaded state, be easily formed and answer compared to screw threads for fastening etc.
The connection type that power is concentrated has good bearing capacity.
Embodiment two:
This programme and the difference of embodiment one be, the not set supporting block 4 rigidly supplemented wheel rim 3 of this programme.
Fig. 5 is referred to, which is the schematic diagram of elastic wheel of coupling hardness with softness described in this programme, shows this programme and embodiment one for clarity
Difference and connection, identical function effect component or structure shown in figure with same label.
Similarly, the wheel hub 1 of this programme, wheel rim 3 and each elastic supporting member for supporting optical member 2 are integrally formed, and in use process, are reducing
The generation of stress concentration can be evaded during shock loading, while can effectively take into account shock-proof effect and handling capacity
It is promoted.The specific mechanism of action is the same as example 1, and details are not described herein.
Embodiment three:
This programme and the difference of embodiment one or embodiment two be, wheel hub 1 therein and 2 one of each elastic supporting member for supporting optical member at
Type is separately fitted together with wheel rim 3.Fig. 6 is referred to, which is the schematic diagram of elastic wheel of coupling hardness with softness described in this programme, in order to
Clearly the difference of this programme and embodiment one, two is shown and is contacted, the component or structure of identical function effect are in figure with same
Label is shown.
In the present solution, having with the cross-sectional area of the linkage section 22 of wheel rim 3 for elastic supporting member for supporting optical member 2 is gradually increased from the inside to the outside
Variation tendency, and sliding block 24 is formed in end, Fig. 7 is referred to, which is showing for the wheel hub to become one and elastic supporting member for supporting optical member
It is intended to.Correspondingly, Fig. 8 is referred to, the schematic diagram of wheel rim 3 described in the figure the present embodiment, the corresponding position of the wheel rim 3 is provided with edge
The sliding block inserting groove 31 circumferentially opened up to circumferentially-spaced space C between adjacent sliders inserting groove 31, and is configured that in axis
Into perspective plane, which can accommodate corresponding sliding block 24, the slot bottom and respective slide 24 of sliding block inserting groove 31
Peripheral surface 241 between form radial offset and be adapted to secondary C, and be adapted to the secondary distance away from core wheel O circumferentially from middle part to two sides
The Long-term change trend to taper off.
Please also refer to Fig. 9, B-B sectional view which is Fig. 6.When assembling, sliding block 24 is axially inserted from circumferentially-spaced space C
It is filled to, at the same time, to each elastic supporting member for supporting optical member 2 pressure slightly interior receive, elastic supporting member for supporting optical member 2 and wheel hub 1 opposite with sliding block inserting groove 31
Relative to the circumferentially opposed rotation of wheel rim 3, sliding block 24 can be realized and assembled with radial offset of sliding block inserting groove 31.As shown in the figure, sliding
Secondary D is adapted in evagination orphan shape between block 24 and sliding block inserting groove 31.
Under normal operating condition, the circumferential position-limiting action of the adaptation region secondary D1 formation, it can be ensured that wheel hub 1, elastic supporting member for supporting optical member 2
It is rotated synchronously with wheel rim 3.The traveling wheel of elastic wheel as walking arrangement provided in this embodiment of coupling hardness with softness, when there is emergency stop,
Sliding block 24 can have the trend for continuing Forward with elastic supporting member for supporting optical member 2 and wheel hub 1 under the action of inertia, the adaptation region secondary D2
Circumferential 23 slot bottom of through slot to receive in each elastic supporting member for supporting optical member 2, and absorbable emergency stop impacts the influence experienced user.
It should be noted that assembly and connection mode between integrally formed wheel hub 1 and each elastic supporting member for supporting optical member 2 and wheel rim 3, it can
It is adjusted according to concrete application situation needs.Certainly such design can also be used, each elastic supporting member for supporting optical member 2 is used with wheel rim 3
It is integrally formed, separately fits together (not shown) with wheel hub 1, can equally reach aforementioned applications effect.
Except what previous embodiment provided couples hardness with softness in addition to elastic wheel, present embodiment also provides a kind of application aforementioned flexible wheel
Equipment.The equipment can be bicycle or motor vehicle or other equipment, and the elastic wheel of coupling hardness with softness that this programme provides can be made
For the traveling wheel and/or driving wheel of equipment.It should be appreciated that the other function part not this Applicant's Abstract graph central inventive point institute of equipment
It can realize that therefore, this article will not repeat them here based on the prior art in, those skilled in the art.
It illustrating, the elastic supporting member for supporting optical member of wheel as shown in the figure is exemplary illustration, without loss of generality, resilient support
Part can be set as that other are a plurality of according to the specific requirement of distinct device, such as seven or nine etc., and be not limited to figure
Shown in quantity.
The above is only the preferred embodiment of the present invention, it is noted that those skilled in the art are come
It says, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications also should be regarded as
Protection scope of the present invention.
Claims (10)
1. elastic wheel of coupling hardness with softness characterized by comprising
Wheel hub, for being adapted to wheel shaft;
Wheel rim is used to form carrying peripheral surface;With
Multiple elastic supporting member for supporting optical member, circumferential successively uniformly at intervals between the wheel hub and the wheel rim, each resilient support
Part, which can be pressurized, generates the first deformation or tension the second deformation of generation;In the wheel hub, the wheel rim and the elastic supporting member for supporting optical member, until
It is both few to be integrally formed, and be configured that
Under normality, the wheel hub and the wheel rim are concentric;When the radial force that load acts on the wheel rim is greater than damping threshold value, or
When the rotating torque that person's pivoting friction acts on the elastic supporting member for supporting optical member is greater than bending resistance torque threshold, multiple elastic supporting member for supporting optical member
At least one of generate the first deformation and at least another one generate the second deformation, so as to the wheel rim the center of circle relative to described
The center of circle of wheel hub generates radial elastic and is displaced to form elastic potential energy;And the elastic wheel turns to the radial force and is less than described subtract
When shaking threshold value or when the rotating torque is less than the bending resistance torque threshold, first deformation and second shape are generated
The elastic supporting member for supporting optical member become discharges the elastic potential energy and forms the normal traveling active force for pushing the hub rotation.
2. elastic wheel according to claim 1 of coupling hardness with softness, which is characterized in that the stress and deformation area of the elastic supporting member for supporting optical member
Domain is by its ontology rotary disk around formation.
3. elastic wheel according to claim 1 of coupling hardness with softness, which is characterized in that the stress and deformation area of the elastic supporting member for supporting optical member
Domain is formed by its ontology detour bending.
4. elastic wheel according to claim 2 or 3 of coupling hardness with softness, which is characterized in that the stress shape of the elastic supporting member for supporting optical member
The ontology for becoming region has the through slot opened up along its ontology extending direction.
5. elastic wheel according to claim 4 of coupling hardness with softness, which is characterized in that in axis projection face, each bullet
Property supporting element is integrally in bending shape, and it extends to the adjacent resilient support of its bending direction with the linkage section of the wheel rim
The radial outside of the deformation region of part.
6. elastic wheel according to claim 5 of coupling hardness with softness, which is characterized in that the wheel hub, the wheel rim and the bullet
Property supporting element be integrally formed, having with the cross-sectional area of the linkage section of the wheel rim for the elastic supporting member for supporting optical member gradually increases from the inside to the outside
Big variation tendency.
7. elastic wheel according to claim 6 of coupling hardness with softness, which is characterized in that the linkage section of each elastic supporting member for supporting optical member
Outer end all has circumferential through slot, and the circumferential through slot interpolation installing is equipped with supporting block, the supporting block with it is corresponding all
To between through slot be tight fit.
8. elastic wheel according to claim 5 of coupling hardness with softness, which is characterized in that the wheel hub and the elastic supporting member for supporting optical member one
Body formed, the elastic supporting member for supporting optical member has the variation being gradually increased from the inside to the outside to become with the cross-sectional area of the linkage section of the wheel rim
Gesture, and sliding block is formed in end;The corresponding position of the wheel rim is provided with the sliding block inserting groove circumferentially opened up, the adjacent cunning
It to circumferentially-spaced space between block inserting groove, and is configured that in axis projection face, the circumferentially-spaced space can accommodate
The corresponding sliding block, formation radial direction offsets suitable between the slot bottom of the sliding block inserting groove and the peripheral surface of the corresponding sliding block
With pair, and the Long-term change trend for being adapted to the secondary distance away from core wheel and circumferentially tapering off from middle part to two sides.
9. elastic wheel according to claim 8 of coupling hardness with softness, which is characterized in that the secondary adaptation is in evagination orphan shape.
10. a kind of equipment has wheel, which is characterized in that the wheel elasticity as claimed in any one of claims 1 to 9
Wheel.
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CN201822075349.8U CN209224839U (en) | 2018-12-11 | 2018-12-11 | A kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109353165A (en) * | 2018-12-11 | 2019-02-19 | 苏冀 | A kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel |
-
2018
- 2018-12-11 CN CN201822075349.8U patent/CN209224839U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109353165A (en) * | 2018-12-11 | 2019-02-19 | 苏冀 | A kind of couple hardness with softness elastic wheel and the equipment with the elastic wheel |
CN109353165B (en) * | 2018-12-11 | 2024-06-25 | 苏冀 | Elastic wheel with hardness and softness and equipment with same |
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