CN201621220U - Shock absorber - Google Patents

Abstract

The utility model discloses a shock absorber comprising two pipe bodies which can sheathed with each other, and a resetting device. The two pipe bodies can slide relatively and internally and respectively provided with a runner which is internally provided with a high-elasticity valve plate and is filled with liquid; the liquid is squeezed when the two pipe bodies slide relatively, and flows in the runner; and the resetting device provides an elastic force so as to lead the two pipe bodies to reset the released position at any time. Therefore, when the shock absorber encounters shocks with different forces, the liquid can push the elastic valve plate to be opened up automatically, and the flowing resistance of the liquid is changed by utilizing the design that the valve plate is opened and closed by the external force elastic warpage, thus being capable of generating different damping values automatically and correspondingly.

Description

Shock absorber

Technical field

The utility model relates to a kind of shock absorber, refers to more neither too hard, nor too soft and the full of elasticity and travelling comfort shock absorber of a kind of shock-proof effect especially.

Background technique

Locomotive is in response to various road surfaces demand, and obtains the more comfortable effect that drives, and all can install shock absorber at front fork, offsets the road surface reaction that car body bears by this.

And the existing shock absorber structure known to us just, taking off as TaiWan, China TWM367991 patent, mainly is to utilize a pin member with section size variation to be extended through an endoporus, adjusts this pin member and can adjust the endoporus aperture, obtain different using effect, adjust use voluntarily for the user.

Though above-mentioned traditional shock absorber has possessed the adjustment effect of damping, allow the user must comply with the harder damping value of handling requirements set, perhaps set gentle damping value effect according to driving travelling comfort; But, the liquid of above-mentioned shock absorber is at the indoor mobile means of two grooves, end runs through a runner by the axle center of shock absorber, utilize runner for liquid directly in the indoor displacement of two grooves, this kind tradition is by axle center runner design shock absorber, though have the adjustment function of vigour and soft concurrently, but can't reach the boundary in degree sense neither too hard, nor too soft and full of elasticity soft, the vigour intermediate value, so that after the locomotive damping is adjusted, be not really up to the mark promptly be soft tonality, therefore with regard to Consumer's position, the adjustment tonality of existing shock absorber still has improved space.

The model utility content

Main purpose of the present utility model is to provide a kind of shock absorber soft, the vigour performance that has concurrently.

In order to reach above-mentioned purpose, shock absorber provided by the utility model, it comprises one first body and second body, this first body tool, one closed end and an opening, this opening, makes and forms first containing space and second containing space in first, second body respectively with compressible mode combination for second body; Wherein be provided with the interior pipe of a tool damping hole in this first body, pipe is provided with flexible first valve block of a tool near opening one end in this, pipe and this first containing space intercepted out the inside and outside groove that can flow mutually for liquid, be communicated with in this; Second containing space of this second body then has been installed with a resetting means, and this second body, interior pipe are separated from this water jacket with this first valve block and enclosed the liquid storage space that structure goes out to be communicated with damping hole; And one first valve block, flexible first valve block of this tool, pipe was near opening one end in it was arranged on, making under this first valve block normality is this liquid storage space of sealing, fluid pressure in the liquid storage space is greater than this first valve block predefined value, then can break through first valve block, make the first valve block elasticity warpage, make liquid that the first valve block direction towards warpage flows out from the liquid storage space.

Guan Yiduan is provided with a piston conducting element and a projection in described, this piston conducting element is provided with a perforation, this perforation is connected with this inside groove, this piston conducting element is provided with at least one axially extended pod apertures, this pod apertures also is communicated with this liquid storage space, this first valve block then is folded between this piston conducting element and this projection, makes this first valve block cover in this pod apertures respectively.

Described first valve block is to be built up by plural pieces high elasticity sheet metal.

The closed end side of the different opening of described first body offers a slotted eye at least, and this slotted eye also is communicated with this first containing space.

The closed end of described first body is to form by an affixed fixing head, and this fixing head side is then offered the slotted eye that is communicated with first containing space.

Described shock absorber more comprises a resilience controller, this resilience controller comprises a resilience regulating device of being located in the slotted eye, and be located at inside groove and be resisted against the sliding sleeve of pipe in this, this sliding sleeve also can be by this resilience regulating device control displacement, the large and small or unlatching with the perforate of regulating damping hole, closed condition.

The slotted eye adjacent edge of described fixing head offers one second slotted eye, is provided with one second valve block in this second slotted eye, and this second valve block has elasticity, and this second valve block then intercepts between water jacket and this inside groove.

Described shock absorber more comprises a valve pipe, and this valve pipe is located in this slotted eye, and this valve pipe is provided with an axis hole and at least one axially extended tap hole, and this second valve block covers at this tap hole respectively.

Therefore, when the utility model in use meets with than smaller tremors, this two bodys extruding pressure that liquid caused is less, liquid does not promote or only promotes by a small margin valve block, resistance suffered when making flow of fluid is bigger, higher damping value is provided, when meeting with than big bang, this two bodys extruding pressure that liquid caused is bigger, and liquid can promote to open the valve block of tool resilient flexible, for liquid circulation, make the suffered resistance of flow of fluid less, and damping value more neither too hard, nor too soft and full of elasticity is provided, and the utility model shock absorber is driven on any road surface down, all can obtain best shock-proof effect neither too hard, nor too soft and full of elasticity.

The beneficial effects of the utility model are: when the resulting shock absorber of the utility model has splendid damping using effect, the damping that shock absorber obtains is to have accent characteristic soft, hard usefulness concurrently, make the rider because of the flow channel for liquids design innovation of shock absorber, and obtain the better comfortable feel that drives.

Description of drawings

Fig. 1 is a stereogram of the present utility model.

Fig. 2 is a sectional drawing of the present utility model.

Fig. 3 is a partial exploded view of the present utility model.

Fig. 3 A is another visual angle sectional drawing of sliding sleeve in the utility model.

Fig. 4 to Fig. 6 is the action schematic representation of compression controller in the utility model.

Fig. 7 and Fig. 9 are the action schematic representation of the utility model resilience controller.

Fig. 8 is the action schematic representation of first valve block in the utility model.

[primary component symbol description] 1: the first body; 11: pipe shaft; 12: fixing head; 121: the first slotted eyes; 122: the second slotted eyes; 123: endoporus; 124: fixed cover; 125: the first bearings; 126: the first ladder surfaces; 127: the second bearings; 128: the second ladder surfaces; 13: interior pipe; 131: damping hole; 14: inside groove; 15: water jacket; 16: the piston conducting element; 161: perforation; 162: pod apertures; 17: the first valve blocks; 18: projection; 2: the second bodys; 21: the liquid storage space; 3: the resilience controller; 30: the axle center joint; 31: sliding sleeve; 311: discharge orifice; 32: resilience control axle center; 33: regulating lever; 34: the first rotating components; 4: compression controller; 41: short tube; 42: supporter; 421: cone; 43: the valve pipe; 431: axis hole; 432: tap hole; 433: conduction hole; 44: the second rotating components; 45: the second valve blocks; 51: elastic component.

Embodiment

Below only with embodiment creation spirit of the present utility model being described, so is not the category in order to the desire protection of restriction the utility model institute, meets creation spirit person of the present utility model, should all be covered by within the category of the utility model institute desire protection, close chat earlier bright.

Please refer to Fig. 1, shock absorber that the utility model provides can use for being assembled in motor vehicle, more particularly, can provide the using effect of shock-absorbing or damping for being assembled in the locomotive front fork.

Please refer to Fig. 2, the utility model shock absorber includes one first body 1, one second body 2, a resilience controller 3, a compression controller 4 and a resetting means.

First body 1 includes a pipe shaft 11 and a fixing head 12, and pipe shaft 11 1 ends are installed in fixing head 12, makes the sealing of this first body, 1 one ends, and the other end forms an opening, and encloses structure one first containing space is arranged, and this first containing space also is connected with this opening.Please refer to Fig. 2 and Fig. 3, fixing head 12 offers one first slotted eye 121 and one second slotted eye, 122, two slotted eyes are connected with this first containing space respectively.Be provided with pipe 13 in addition at first body 1, interior pipe 13 1 ends are installed in fixing head 12, interior pipe 13 also is installed with at this first containing space, pipe 13 is divided into an inside groove 14 and a water jacket 15 with this first containing space in making, wherein this water jacket is to manage outside 13 in being surrounded on, and makes first slotted eye 121 be communicated with water jacket 15 and inside groove 14 respectively.In pipe 13 and in being provided with a damping hole 131 near this opening one side, damping hole 131 is communicated between water jacket 15 and the inside groove 14.Set firmly a piston conducting element 16, one first valve block 17 and a projection 18 at interior pipe 13 away from an end of fixing head 12, a perforation 161 that is communicated with inside groove 14 is run through in piston conducting element 16 axle center, piston conducting element 16 enlarged section then are provided with one or more axially extended pod apertures 162, first valve block 17 has elasticity, first valve block 17 can be folded between piston conducting element 16 and the projection 18, under the normality and cover piston pod apertures 162, the aforesaid first valve block preferably is the superimposed high elasticity sheet metal of a plural pieces.

Second body 2 has open first end and second end that seals, then be formed with one second containing space between two ends, second body, 2 first ends are in compressible mode, penetrate water jacket 15 by the first body opening direction, make first body 1 be set in second body 2, second body 2 also is set in interior pipe 13, first end of second body 2 is resisted against pipe shaft 11 inwalls and interior pipe 13 outer walls, second body 2 is separated water jacket 15, enclose structure one liquid storage space 21 with interior pipe 13 with first valve block 17, second body 2.Second body 2 also can relatively move with first body 1, can make 2 slippages of second body away from first body, 1 to one release position, maybe can make 2 slippages of second body enter first body, 1 to one compression position.

Resilience controller 3 includes a sliding sleeve 31 and a resilience regulating device, sliding sleeve 31 is installed with at inside groove 14 and pipe 13 in being resisted against, sliding sleeve 31 can be moved between an enable possition and a closed position, sealing damping hole 131 when sliding sleeve 31 moves to closed position, please refer to Fig. 3 A, sliding sleeve 31 also is provided with discharge orifice 311 and can axially circulates in sliding sleeve 31 both sides for liquid, this resilience regulating device is then adjusted sliding sleeve 31 in order to control and is moved, and it is large and small or be the complete closed shape to make sliding sleeve 31 selectivity regulate the damping hole perforate; More particularly, this resilience regulating device includes an axle center joint 30, one resilience control axle center 32, one regulating lever 33 and one first rotating component 34, resilience control axle center 32 is located in inside groove 14, resilience control axle center 32 1 ends set firmly sliding sleeve 31 by screw tightening, the other end is slidedly arranged on fixing head 12, furtherly, fixing head 12 is provided with one can be for the endoporus 123 that plugs resilience control axle center 32, endoporus 123 and with second slotted eye, 122 vertical connections, regulating lever 33 is penetrated from second slotted eye 122 be resisted against resilience control axle center 32, the regulating lever 33 and first rotating component 34 are located in second slotted eye 122, regulating lever 33 also is arranged in fixing head 12, and in the present embodiment, fixing head 12 is installed with a fixed cover 124 at second slotted eye 122, establish for regulating lever 33 spiral shells, also can directly screw thread be set in other embodiments and use in fixing head.34 of first rotating components and regulating lever 33 fasten mutually, make first rotating component become to rotate continuous action relation with regulating lever.Fixing head 12 sets firmly one first bearing 125 in addition outside first rotating component 34, in order to fasten first rotating component 34, avoid first rotating component 34 outwards to drop, more particularly, first bearing 125 generally in the form of a ring, and being formed with one first ladder surface 126 at first bearing, 125 inner peripheral surfaces, this first bearing is installed in this fixing head, makes first rotating component 34 fasten between first ladder surface 126 and fixing head 12.

Compression controller 4 includes a valve cell and a compression regulating device, valve cell comprises a short tube 41 and a supporter 42, short tube 41 is installed with at first slotted eye 121, short tube 41 1 ends are connected with inside groove 14, the other end is connected with water jacket 15, make water jacket 15, first slotted eye 121, short tube 41, inside groove 14, damping hole 131 is communicated with formation one runner with liquid storage space 21, supporter 42 is installed with at first slotted eye 121 and can moves between a primary importance and a second place, when supporter 42 moves to the second place against the sealing short tube 41, furtherly, supporter 42 1 ends convex with a cone 421, when supporter 42 moves to the second place against short tube 41, and insert with cone 421 and to be butted on short tube 41, make short tube 41 be closed shape.This compression regulating device is then in order to adjust mobile supporter 42, more particularly, the compression regulating device includes a valve pipe 43 and one second rotating component 44, valve pipe 43 is provided with an axis hole 431, valve pipe 43 also can be provided with one or more axially extended tap hole 432 around axis hole, an and conduction hole 433 that radially extends, conduction hole 433 is connected with axis hole 431, valve pipe 43 1 sides also can be folded with one second valve block 45, second valve block 45 has elasticity, and covers at each tap hole 432, makes second valve block 45 separate between water jacket 15 and inside groove 14, wherein second valve block also can be built up by plural pieces high elasticity sheet metal similar in appearance to first valve block.Valve pipe 43 1 ends are sheathed on short tube 41, and the other end then spiral shell is provided with this supporter 42, can move along axis hole 431 screw locks when supporter 42 is rotated, and second rotating component 44 fastens in supporter 42, make second rotating component 44 and supporter rotate continuous action relation for 42 one-tenth.Fixing head 12 also can set firmly one second bearing 127 outside second rotating component 44, in order to fasten second rotating component 44, avoid second rotating component 44 outwards to drop, more particularly, second bearing 127 generally in the form of a ring, and be formed with one second ladder surface, 128, the second bearings 127 at second bearing, 127 inner peripheral surfaces and be installed in fixing head 12, make second rotating component 44 fasten between second ladder surface 128 and fixing head 12.

Please refer to Fig. 2 again, this resetting means provides an elastic force, makes second body 2 be reset to this release position at any time.More particularly, this resetting means can include one or more elastic component 51, be resisted against respectively between first body and second body, or be resisted against between the parts that are installed in first body and second body, order respectively this elastic component can provide elastic force, push against first body and second body, be reset to release position at any time.

By this, the utility model can use by filling liquid in runner.Please refer to Fig. 4, when first body 1 and second body 2 are squeezed, this second body slippage in first body, make water jacket 15 volume-diminished, liquid storage space 21 volumes increase, and the liquid in the water jacket flows into inside groove 14 promptly via conduction hole 433 and short tube 41, the liquid of pushing inside groove flows into liquid storage space 21 via damping hole 131, or please refer to Fig. 5, when the strength of pushing second body was big, the fluid pressure in the runner was bigger, can promote second valve block, 45 elasticity warpages, make tap hole 432 open, and make liquid flow into inside groove 14, reduce the suffered resistance of flow of fluid via tap hole, and the change damping value, please refer to Fig. 6, this compression controller also can utilize second rotating component 44 to move supporter 42 for adjusting, make supporter near or away from short tube, also can change liquid and flow into the suffered resistance of short tube.In addition, please refer to Fig. 7, when second body 2 stressed when release position moves, liquid storage space 21 then returns back to the volume that is originally had with the volume of water jacket 15, liquid in the liquid storage space 21 is squeezed, can be back to inside groove 14 via damping hole 131, push liquid again and move to water jacket, please refer to Fig. 8, when fluid pressure big (greater than the first valve block predefined value), also can promote first valve block 17, make liquid flow to inside groove 14 with perforation 161 via piston conducting element 162, second body 2, reduce the suffered resistance of flow of fluid, and can change damping value.Please refer to Fig. 9, this resilience controller can be for adjusting, rotate first rotating component 34, make regulating lever 33 screw locks move and be resisted against resilience and control axle center 32, further making this resilience control axle center drive this sliding sleeve 31 moves, shield or sealing are opened, are subjected to control damping hole 131, changes the suffered resistance in liquid turnover liquid storage space 21, and can change damping value.

Manner of execution during by above-mentioned use can find that the advantage effect that the utility model is got everything ready comprises:

The first, when the utility model in use meets with than smaller tremors, the pressure that second body extruding liquid causes is littler, liquid does not promote or only promotes by a small margin valve block, mainly only circulate in runner via short tube and damping hole, resistance suffered when making liquid flow is bigger, and higher damping value is provided; When meeting with than big bang, the pressure that this two bodys extruding liquid causes is bigger, liquid can promote to open first valve block and second valve block, producing extra passage circulates for liquid, make the suffered resistance of liquid flow littler, and lower damping value is provided, the utility model can be varied in size when vibrations in experience, corresponding different damping value is provided, and has splendid damping result of use.

Second, moreover, the flow channel for liquids design of shock absorber of the present utility model, change traditional axle center and open the direct flow-through design of passing through damping hole, change and adopt particulate metal thin slice and implement the valve block of aspect as the current gate of liquid, but the elasticity warping characteristic by laminar valve block tool softness, allow the liquid that breaks through valve block obtain a buffering, steady flow result, the damping that shock absorber obtains is soft for having concurrently, the Q of hard usefulness transfers characteristic, so that the rider is because of the flow channel for liquids design innovation of shock absorber, and the better comfortable riding sense of acquisition, in fact be one handy, practical creation, worth industry extensively pushes away energetically.

Claims (8)

1. shock absorber, it is characterized in that: it comprises one first body and second body, this first body tool, one closed end and an opening, this opening, makes and forms first containing space and second containing space in first, second body respectively with compressible mode combination for second body; Wherein be provided with the interior pipe of a tool damping hole in this first body, pipe is provided with flexible first valve block of a tool near opening one end in this, pipe and this first containing space intercepted out the inside and outside groove that can flow mutually for liquid, be communicated with in this; Second containing space of this second body then has been installed with a resetting means, and this second body, interior pipe are separated from this water jacket with this first valve block and enclosed the liquid storage space that structure goes out to be communicated with damping hole; And one first valve block, flexible first valve block of this tool, pipe was near opening one end in it was arranged on, making under this first valve block normality is this liquid storage space of sealing, fluid pressure in the liquid storage space is greater than this first valve block predefined value, then can break through first valve block, make the first valve block elasticity warpage, make liquid that the first valve block direction towards warpage flows out from the liquid storage space.

2. shock absorber according to claim 1, it is characterized in that: Guan Yiduan is provided with a piston conducting element and a projection in described, this piston conducting element is provided with a perforation, this perforation is connected with this inside groove, this piston conducting element is provided with at least one axially extended pod apertures, this pod apertures also is communicated with this liquid storage space, and this first valve block then is folded between this piston conducting element and this projection, makes this first valve block cover in this pod apertures respectively.

3. shock absorber according to claim 1 and 2 is characterized in that: described first valve block is to be built up by plural pieces high elasticity sheet metal.

4. shock absorber according to claim 2 is characterized in that: the closed end side of the different opening of described first body offers a slotted eye at least, and this slotted eye also is communicated with this first containing space.

5. shock absorber according to claim 4 is characterized in that: the closed end of described first body is to form by an affixed fixing head, and this fixing head side is then offered the slotted eye that is communicated with first containing space.

6. shock absorber according to claim 5, it is characterized in that: it more comprises a resilience controller, this resilience controller comprises a resilience regulating device of being located in the slotted eye, and be located at inside groove and be resisted against the sliding sleeve of pipe in this, this sliding sleeve also can be by this resilience regulating device control displacement, the large and small or unlatching with the perforate of regulating damping hole, closed condition.

7. shock absorber according to claim 6, it is characterized in that: the slotted eye adjacent edge of described fixing head offers one second slotted eye, be provided with one second valve block in this second slotted eye, this second valve block has elasticity, and this second valve block then intercepts between water jacket and this inside groove.

8. shock absorber according to claim 7 is characterized in that: it more comprises a valve pipe, and this valve pipe is located in this slotted eye, and this valve pipe is provided with an axis hole and at least one axially extended tap hole, and this second valve block covers at this tap hole respectively.

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