CN203234119U - Trigger type sole energy storage buffering assistance device - Google Patents
Trigger type sole energy storage buffering assistance device Download PDFInfo
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- CN203234119U CN203234119U CN 201320239309 CN201320239309U CN203234119U CN 203234119 U CN203234119 U CN 203234119U CN 201320239309 CN201320239309 CN 201320239309 CN 201320239309 U CN201320239309 U CN 201320239309U CN 203234119 U CN203234119 U CN 203234119U
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Abstract
The utility model relates to a trigger type sole energy storage buffering assistance device, and belongs to the field of machinery. The trigger type sole energy storage buffering assistance device comprises a trigger mechanism, a transmission mechanism, an energy lock and a buffering energy storage mechanism. The buffering energy storage mechanism comprises an energy storage upper blocking piece, an energy storage guide rod, an energy storage spring and an energy storage lower blocking piece, wherein the energy storage upper blocking piece is fixed on a sole, the energy storage lower blocking piece vertically moves along with compression and release of the energy storage spring, the energy storage guide rod comprises two sleeves which are connected together, the two sleeves can stretch out and draw back, cannot be separated, and only can carry out axial movement, and the energy storage spring is sleeved on the energy storage guide rod. The trigger type sole energy storage buffering assistance device has the advantages of being simple and novel in structure, safe in use, convenient to use, capable of achieving controllability of buffering assistance of the sole, and capable of enabling the sole to keep an optimal buffering assistance state. Compared with a single mechanism of the prior art, the mechanical linkage mode adopted by the trigger type sole energy storage buffering assistance device is better in innovativeness and extensibility, and the technology of buffering assistance of the sole is applied to the wider field.
Description
Technical field
The utility model relates to mechanical field, and particularly a kind of trigger-type sole energy storage buffer power assisting device can be applicable to the athletic shoe sole that buffering and power-assisted require.
Background technology
At present, mostly be single soft flexible member and the force-aid buffering sole of rigid flexible member on the market.It is strong that soft flexible member is received impulse force energy effect, but it is slow to release energy, and can't reach effective power-assisted effect.Rigid flexible member has the fixing shortcoming of stiffness factor, if greatly then potential energy can be by the impede motion that quicks rebound when running for stiffness factor, if the little then better power-assisted of stiffness factor, so can't better adapt to all groups.
Summary of the invention
The purpose of this utility model is to provide a kind of trigger-type sole energy storage buffer power assisting device, and having solved soft the flexible member slow and rigid flexible member stiffness factor that releases energy has greatly obstruction power, the unconspicuous technological deficiency of the little power-assisted of stiffness factor.Make sole no matter when can both keep best buffering effect and power-assisted effect.The utility model comprises trigger mechanism 1, transmission mechanism 2, energy lock 3 and buffering accumulated energy mechanism 4 four parts, wherein buffering accumulated energy mechanism 4 releases energy for storage and cushions, energy lock 3 is used for the energy of lock buffer stored energy mechanism, transmission mechanism 2 is used for transmitting triggering signal to energy lock 3, and trigger mechanism 1 is directly controlled the energy that buffering accumulated energy mechanism 4 discharges.
Above-mentioned purpose of the present utility model is achieved through the following technical solutions:
Trigger-type sole energy storage buffer power assisting device, comprise the trigger mechanism 1, transmission mechanism 2, energy lock 3 and the buffering accumulated energy mechanism 4 that connect in regular turn, described buffering accumulated energy mechanism 4 comprises energy storage upper stop piece 41, energy storage guide post 42, energy-stored spring 43 and energy storage lower stop piece 44, described energy storage upper stop piece 41 is fixed on sole, energy storage lower stop piece 44 is along with compression and the release of spring move up and down, energy storage guide post 42 is two sleeves that connect together, can stretch but can't separate, can only axially move, energy-stored spring 43 is enclosed within on the energy storage guide post 42.
Described energy lock 3 is two guiding pillar energy locks, comprise energy lock energy storage end 31, energy lock linkage section 32, energy lock return spring 33, energy lock trigger end 34 and energy lock lead 35, described energy lock energy storage end 31 is fixed on the energy storage lower stop piece 44 and is coaxial with energy lock linkage section 32, energy lock return spring 33 is enclosed within energy lock energy storage end 31, on the axle that energy lock linkage section 32 links to each other, energy lock return spring 33 two ends ride over respectively energy lock energy storage end 31, on the energy lock linkage section 32, lock the thrust that linkage section 32 makes progress to energy, make when energy lock linkage section 32 is downward vertically, energy lock linkage section 32 resets; Energy lock trigger end 34 and 32 combinations of energy lock linkage section when energy-stored spring compresses, the different binding sites of reduction length are different; Energy lock lead 35 is fixed on sole, and energy lock trigger end 34 passes from energy lock lead 35, and can make energy lock trigger end 34 can only be along transverse movement.
Sheathed back-moving spring 5 on the described energy lock trigger end 34, the catch 6 that resets stops back-moving spring 5 with energy lock trigger end 34 one.
Described transmission mechanism 2 is the wire type transmission mechanism, comprise flexible steel wire 21 and wire rack 22, described wire rack 22 upper ends are fixed, and flexible steel wire 21 passes wire rack 22 and an end is fixed on the energy lock trigger end 34, and the other end is fixed on the company's of triggering silk post 11.
Described transmission mechanism 2 is the fluid pressure type transmission mechanism, comprises being subjected to cylinder pressure 23, helical spring 24 and connecting earthen pipe 25, and described helical spring 24 is socketed on the energy lock trigger end 34 that is subjected in the cylinder pressure 23, is subjected to cylinder pressure 23 by connecting earthen pipe 25 and going out cylinder pressure 16 and be connected.
Described trigger mechanism 1 is the mechanical type trigger mechanism, comprise the company's of triggering silk post 11, trigger lower stop piece 12, trigger spring 13, trigger guide post 14 and trigger upper stop piece 15, described triggering connects silk post 11 and is fixed on the triggering lower stop piece 12, triggering lower stop piece 12, triggering upper stop piece 15 stop that spring discharges, and trigger spring 13 and are socketed on the triggering guide post 14.
Described trigger mechanism 1 is the fluid pressure type trigger mechanism, comprise cylinder pressure 16, trigger lower stop piece 17, trigger upper stop piece 18, trigger guide post 19 and trigger spring I 110, sheathed triggering spring I 110 on the described triggering guide post 19, trigger upper stop piece 18 and trigger lower stop piece 17 and stop that triggering spring I 110 discharges, and triggers upper stop piece 18 and is fixed on sole.
Describedly go out cylinder pressure 16 and be soft casing wall.
The beneficial effects of the utility model are: simple in structure, novel, use safety, convenient.Can reach the controllability of sole buffering power-assisted, can make sole keep optimized buffer power-assisted state.Compare buffering power-assisted effect with the non-controllability of existing uncontrollable buffering power-assisted technology better.And the mechanical linkage mode that adopts of the utility model and the single institution of prior art to compare novelty stronger, extensibility is larger, and this technology of buffering power-assisted of sole is brought into a wider field.
Description of drawings
Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative example of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.
Fig. 1 is structure principle chart of the present utility model;
Fig. 2 is structural representation of the present utility model;
Fig. 3 is another structural representation of the present utility model.
The specific embodiment
Further specify detailed content of the present utility model and the specific embodiment thereof below in conjunction with accompanying drawing.
Referring to Figure 1 and Figure 2, trigger-type sole energy storage buffer power assisting device of the present utility model, trigger-type sole energy storage buffer power assisting device, comprise the trigger mechanism 1 that connects in regular turn, transmission mechanism 2, energy lock 3 and buffering accumulated energy mechanism 4, described buffering accumulated energy mechanism 4 comprises energy storage upper stop piece 41, energy storage guide post 42, energy-stored spring 43 and energy storage lower stop piece 44, described energy storage upper stop piece 41 is fixed on sole, energy storage lower stop piece 44 is along with compression and the release of spring move up and down, energy storage guide post 42 is two sleeves that connect together, can stretch but can't separate, can only axially move, energy-stored spring 43 is enclosed within on the energy storage guide post 42.
Described energy lock 3 is two guiding pillar energy locks, comprise energy lock energy storage end 31, energy lock linkage section 32, energy lock return spring 33, energy lock trigger end 34 and energy lock lead 35, described energy lock energy storage end 31 is fixed on the energy storage lower stop piece 44 and is coaxial with energy lock linkage section 32, energy lock return spring 33 is enclosed within energy lock energy storage end 31, on the axle that energy lock linkage section 32 links to each other, energy lock return spring 33 two ends ride over respectively energy lock energy storage end 31, on the energy lock linkage section 32, lock the thrust that linkage section 32 makes progress to energy, make when energy lock linkage section 32 is downward vertically, energy lock linkage section 32 resets; Energy lock trigger end 34 and 32 combinations of energy lock linkage section when energy-stored spring compresses, the different binding sites of reduction length are different; Energy lock lead 35 is fixed on sole, and energy lock trigger end 34 passes from energy lock lead 35, and can make energy lock trigger end 34 can only be along transverse movement.
Sheathed back-moving spring 5 on the described energy lock trigger end 34, the catch 6 that resets stops back-moving spring 5 with energy lock trigger end 34 one.
Described transmission mechanism 2 is the wire type transmission mechanism, comprise flexible steel wire 21 and wire rack 22, described wire rack 22 upper ends are fixed, and flexible steel wire 21 passes wire rack 22 and an end is fixed on the energy lock trigger end 34, and the other end is fixed on the company's of triggering silk post 11.
Described trigger mechanism 1 is the mechanical type trigger mechanism, comprise the company's of triggering silk post 11, trigger lower stop piece 12, trigger spring 13, trigger guide post 14 and trigger upper stop piece 15, described triggering connects silk post 11 and is fixed on the triggering lower stop piece 12, triggering lower stop piece 12, triggering upper stop piece 15 stop that spring discharges, and trigger spring 13 and are socketed on the triggering guide post 14.
Referring to Fig. 1 and shown in Figure 3, described trigger mechanism 1 is the fluid pressure type trigger mechanism, comprise cylinder pressure 16, trigger lower stop piece 17, trigger upper stop piece 18, trigger guide post 19 and trigger spring I 110, sheathed triggering spring I 110 on the described triggering guide post 19, trigger upper stop piece 18 and trigger lower stop piece 17 and stop that triggering spring I 110 discharges, and triggers upper stop piece 18 and is fixed on sole.
Describedly go out cylinder pressure 16 and be soft casing wall.
Described transmission mechanism 2 is the fluid pressure type transmission mechanism, comprises being subjected to cylinder pressure 23, helical spring 24 and connecting earthen pipe 25, and described helical spring 24 is socketed on the energy lock trigger end 34 that is subjected in the cylinder pressure 23, is subjected to cylinder pressure 23 by connecting earthen pipe 25 and going out cylinder pressure 16 and be connected.
The utility model machinery triggers, the course of work of steel wire drive is: energy-stored spring 43 is compressed vertically when heel acts on the energy storage upper stop piece 41, drive energy lock energy storage end 31, energy lock linkage section 32, energy lock return spring 33 move upward, when energy lock linkage section 32 touch energy lock trigger end 34 in conjunction with tooth the time downward vertically, then energy lock return spring 33 resets energy lock linkage section 32, until the heel active force finishes energy lock linkage section 32 and energy lock return spring 33 combines.When the sole heel of will exerting oneself can touch will be liftoff the time and triggers lower stop piece 12, trigger spring 13 along axially upwards being compressed, trigger lower stop piece 12 and drive the company's of triggering silk post 11 upwards, the company's of triggering silk post 11 drives flexible steel wire 21, flexible steel wire 21 drives energy lock trigger end 34 to left movement, and energy lock trigger end 34 separates with energy lock linkage section 32.Energy-stored spring 43 releases energy to the thrust of heel to make progress, and triggers spring 13 and discharge when the another pin lands, and triggering lower stop piece 12, a triggering silk post 11, energy lock trigger end 34 also reset the one action end simultaneously.
The utility model hydraulic pressure triggers, the hydraulicdriven course of work is: energy-stored spring 43 is compressed vertically when heel acts on the energy storage upper stop piece 41, drive energy lock energy storage end 31, energy lock linkage section 32, energy lock return spring 33 move upward, when energy lock linkage section 32 touch energy lock trigger end 34 in conjunction with tooth the time downward vertically, then energy lock return spring 33 resets energy lock linkage section 32, until the heel active force finishes energy lock linkage section 32 and energy lock return spring 33 combines.When the sole heel of will exerting oneself can touch will be liftoff the time and triggers lower stop piece 17, trigger that spring I 110 is compressed to go out hydraulic oil in the cylinder pressure 16 along connecting earthen pipe 25 to being subjected to cylinder pressure 23 diffluences, give and be subjected to 23 1 pressure of cylinder pressure, hydraulic oil can promote 8 and was moved to the left this moment, this moment, energy lock trigger end 34 separated with energy lock linkage section 32, and energy-stored spring 43 releases energy to thrust that makes progress of heel.Trigger spring I 110 and discharge when the another pin lands, triggering lower stop piece 17, energy lock trigger end 34 reset, and one action finishes.
The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All any modifications that the utility model is done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.
Claims (7)
1. trigger-type sole energy storage buffer power assisting device, comprise the trigger mechanism (1) that connects in regular turn, transmission mechanism (2), energy lock (3) and buffering accumulated energy mechanism (4), it is characterized in that: described buffering accumulated energy mechanism (4) comprises energy storage upper stop piece (41), energy storage guide post (42), energy-stored spring (43) and energy storage lower stop piece (44), described energy storage upper stop piece (41) is fixed on sole, energy storage lower stop piece (44) is along with compression and the release of spring move up and down, energy storage guide post (42) is two sleeves that connect together, and energy-stored spring (43) is enclosed within on the energy storage guide post (42);
Described energy lock (3) is two guiding pillar energy locks, comprise energy lock energy storage end (31), energy lock linkage section (32), energy lock return spring (33), energy lock trigger end (34) and energy lock lead (35), it is upper and coaxial with energy lock linkage section (32) that described energy lock energy storage end (31) is fixed on energy storage lower stop piece (44), energy lock return spring (33) is enclosed within energy lock energy storage end (31), on the axle that energy lock linkage section (32) links to each other, energy lock lead (35) is fixed on sole, energy lock trigger end (34) passes from energy lock lead (35), and making energy lock trigger end (34) can only be along transverse movement.
2. trigger-type sole energy storage buffer power assisting device according to claim 1, it is characterized in that: the upper sheathed back-moving spring (5) of described energy lock trigger end (34), the catch that resets (6) stops back-moving spring (5) with energy lock trigger end (34) one.
3. trigger-type sole energy storage buffer power assisting device according to claim 1, it is characterized in that: described transmission mechanism (2) is the wire type transmission mechanism, comprise flexible steel wire (21) and wire rack (22), described wire rack (22) upper end is fixing, flexible steel wire (21) passes wire rack (22) and an end is fixed on the energy lock trigger end (34), and the other end is fixed on and triggers on the Lian Sizhu (11).
4. trigger-type sole energy storage buffer power assisting device according to claim 1, it is characterized in that: described transmission mechanism (2) is the fluid pressure type transmission mechanism, comprise and be subjected to cylinder pressure (23), helical spring (24) and connect earthen pipe (25), described helical spring (24) is socketed on the energy lock trigger end (34) that is subjected in the cylinder pressure (23), be subjected to cylinder pressure (23) by company's earthen pipe (25) with go out cylinder pressure (16) and be connected.
5. trigger-type sole energy storage buffer power assisting device according to claim 1, it is characterized in that: described trigger mechanism (1) is the mechanical type trigger mechanism, comprise and trigger Lian Sizhu (11), trigger lower stop piece (12), trigger spring (13), trigger guide post (14) and trigger upper stop piece (15), described triggering Lian Sizhu (11) is fixed on and triggers on the lower stop piece (12), triggering lower stop piece (12), triggering upper stop piece (15) stop that spring discharges, and trigger spring (13) and are socketed on the triggering guide post (14).
6. trigger-type sole energy storage buffer power assisting device according to claim 1, it is characterized in that: described trigger mechanism (1) is the fluid pressure type trigger mechanism, comprise cylinder pressure (16), trigger lower stop piece (17), trigger upper stop piece (18), trigger guide post (19) and trigger spring I (110), the upper sheathed triggering spring I (110) of described triggering guide post (19), trigger upper stop piece (18) and trigger lower stop piece (17) and stop that triggering spring I (110) discharges, and triggers upper stop piece (18) and is fixed on sole.
7. trigger-type sole energy storage buffer power assisting device according to claim 6 is characterized in that: described to go out cylinder pressure (16) be soft casing wall.
Priority Applications (1)
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CN 201320239309 CN203234119U (en) | 2013-05-07 | 2013-05-07 | Trigger type sole energy storage buffering assistance device |
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CN 201320239309 CN203234119U (en) | 2013-05-07 | 2013-05-07 | Trigger type sole energy storage buffering assistance device |
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CN203234119U true CN203234119U (en) | 2013-10-16 |
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CN 201320239309 Expired - Fee Related CN203234119U (en) | 2013-05-07 | 2013-05-07 | Trigger type sole energy storage buffering assistance device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105055132A (en) * | 2015-04-29 | 2015-11-18 | 重庆市喜植机械设备有限公司 | Walking function restorer |
-
2013
- 2013-05-07 CN CN 201320239309 patent/CN203234119U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105055132A (en) * | 2015-04-29 | 2015-11-18 | 重庆市喜植机械设备有限公司 | Walking function restorer |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131016 Termination date: 20160507 |
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CF01 | Termination of patent right due to non-payment of annual fee |