CN204961679U - Kinetic energy absorbing device and kinetic energy buffering absorbing device - Google Patents

Abstract

The utility model provides a kinetic energy absorbing device and kinetic energy buffering absorbing device relates to buffer tool field, and wherein kinetic energy absorbing device includes first stiff end, second stiff end and the bar portion of blocking, arbitrary two adjacent the interval sets up between the bar portion of blocking, every two tip of the bar portion of blocking do not with first stiff end with the second stiff end is connected. Kinetic energy absorbing device that this embodiment provided makes and is taken place energy loss by the speed reduction thing, is reduced by the kinetic energy of speed reduction thing is corresponding, simultaneously, learns according to the momentum principle, reduced by the kinetic energy of speed reduction thing, and the corresponding reduction of speed, and then by the impact force of speed reduction thing with regard to also corresponding decline.

Description

A kind of dynamic energy absorber and kinetic energy snubber device

Technical field

The utility model relates to buffer mechanism field, in particular to a kind of dynamic energy absorber and kinetic energy snubber device.

Background technique

The energy that object has due to motion, is called the kinetic energy of object.Its size definition is the half of mass of object and velocity squared product.Therefore, object identical in quality, movement velocity is larger, and its kinetic energy is larger; The object that movement velocity is identical, quality is larger, and the kinetic energy had is larger.As can be seen here, even if the object of very little quality, under high speed, also high energy can be had.

On the one hand, we can utilize kinetic energy, such as nail gun, by utilizing nail gun to give inner nail one high speed, making nail have high kinetic energy, can head in fitting structure, realize connecting fast, substantially increase installation efficiency.

But more situation is that kinetic energy can bring inconvenience to us, wherein maximum problem is exactly that the change of kinetic energy can bring huge momentum, produce huge impact force, the structure that we use is damaged, use some structures and such as a counterweight one rhizoid line is fixed, then counterweight height is thrown and allow its freely falling body, when counterweight falls to silk thread limiting length, counterweight speed bust is zero, kinetic energy is all converted into the potential energy of silk thread, huge momentum and impact force are produced to silk thread, silk thread is easy to break, especially to the silk thread that some elasticity are poor.The impact force produced in order to avoid kinetic energy change damages the structure that we use, the strength of materials improving structure is mostly adopted to resist impact force in prior art, avoid structure to produce to destroy, but the R&D cycle is long while that research and development high-strength material being with high costs, is not suitable for spread and uses.

Model utility content

In view of this, the utility model provides a kind of dynamic energy absorber and kinetic energy snubber device, to improve the problems referred to above.

A kind of dynamic energy absorber that the utility model provides, comprise the first fixed end, the second fixed end and bar shaped blocking unit, many described bar shaped blocking unit set gradually along kinetic energy direction, between any two adjacent described bar shaped blocking unit, interval is arranged, and two ends of bar shaped blocking unit described in every root are connected with described first fixed end and described second fixed end respectively.

Above-described dynamic energy absorber, preferably, many described bar shaped blocking unit are all positioned at same plane with kinetic energy direction.Many described bar shaped blocking unit are all positioned at same plane with the kinetic energy direction being decelerated thing, bar shaped blocking unit be subject to being decelerated thing kinetic energy impact deformation in, bar shaped blocking unit produces a reaction force acts and is being decelerated on thing.Because power is directive vector, many described bar shaped blocking unit are all positioned at same plane with the kinetic energy direction being decelerated thing, residing for the direction of reaction force and bar shaped blocking unit at grade, be decelerated reaction force can be increased like this on thing the acting of offsetting kinetic energy, the kinetic energy consumption being decelerated thing is faster, more be conducive to being decelerated thing deceleration buffer, reduce impact force.

Above-described dynamic energy absorber, preferably, many described bar shaped blocking unit be arranged in parallel, and between any two adjacent described bar shaped blocking unit, the distance at interval is equal.The equal bar shaped blocking unit that makes of the distance at interval is more prone to when arranging installation and facilitates, substantially increase dynamic energy absorber installation efficiency, simultaneously, the distance at interval is equal, error during installation also more easily detects, be convenient to timely adjustment, greatly reduce alignment error, improve the assembly precision of dynamic energy absorber.

Above-described dynamic energy absorber, preferably, described in every root, bar shaped blocking unit comprises fracture portion, and described fracture portion is the middle part of bar shaped blocking unit described in every root, for be decelerated thing and contact and rupture, described fracture portion is mutually vertical with kinetic energy direction.The fracture portion of bar shaped blocking unit is arranged on middle part, the portion of fracture simultaneously and kinetic energy reverse vertical are arranged, when thing ought be decelerated to be contacted with fracture portion, stressed direction is corresponding with kinetic energy direction contrary, and stressed average to fracture portion, middle part of two ends being subject to bar shaped blocking unit, the reaction force being decelerated thing that most of bar shaped fracture portion is subject to can be derived from is decelerated in the dynamic transformation of energy of thing, realizes carrying out deceleration buffer to being decelerated thing fast.

Above-described dynamic energy absorber, preferably, the length of many described bar shaped blocking unit increases successively along kinetic energy direction, and two end correspondences of any two described bar shaped blocking unit connect.Adopt the set-up mode of the bar shaped blocking unit of this structure, two ends due to any two described bar shaped blocking unit are corresponding connections, like this, two ends of many bar shaped blocking unit are all corresponding, do not need to take a large amount of volumes just two of a many bar shaped blocking unit end to be connected with the first fixed end and the second fixed end, save the volume of dynamic energy absorber, be convenient to the installation of dynamic energy absorber in small space and use.

Above-described dynamic energy absorber, preferably, many described bar shaped blocking unit are n+1 root, n≤1 and be positive integer, described bar shaped blocking unit is fiber tuft, and described in n+1 root, the length of fiber tuft increases successively along kinetic energy direction, and described in n+1 root, the length of fiber tuft is respectively L, L ₁, L ₂l _n-1and L _n, wherein L, L ₁, L ₂l _n-1and L _nmeet following relationship,

L ₁＝ΔL×∮％

L ₂＝(L+ΔL ₁)×∮％

…

L _n＝(L+ΔL ₁+…+ΔL _n-1)×∮％

Wherein Δ L ₁, Δ L ₂Δ L _nbe respectively the extended length after fiber failure, coincidence formula W=F (Δ L ₁+ Δ L ₂+ ... + Δ L _n)

In formula, F is constant force and F=E × S × ∮ %,

Wherein, E is the stretch modulus of the material of fiber tuft

∮ % is the elongation at break of the material of fiber tuft

S is the cross sectional area of fiber tuft

L is the length of the shortest fiber tuft

W is kinetic energy, W=mv ²

M is the quality of measured object

V is the speed of object being measured.

Adopt and arrange like this, can Exact Design and control kinetic energy damping device when adopting fiber tuft as bar shaped blocking unit, the length of required fiber tuft radical and every root fiber tuft, improves accuracy of manufacturing, reduces manufacture cost simultaneously.

The most importantly adopt the bar shaped blocking unit that this length is arranged, the continuous fracture of adjacent bar shaped blocking unit can be realized and realize adjacent bar shaped blocking unit slitless connection, when last bar shaped blocking unit will rupture and not rupture, be decelerated thing and moved to next adjacent root bar shaped blocking unit and will start stressed and not start stressed place.During last bar shaped blocking unit fracture, in negligible very short time, be decelerated the obstruction power that thing is subject to adjacent bar shaped blocking unit at once, make like this to be decelerated the stop acting that thing is subject to the continuous force of many bar shaped blocking unit, lasting consumption is decelerated the kinetic energy of thing and can not makes to be decelerated thing and single bar shaped blocking unit produces larger momentum, thus makes to be decelerated thing and bar shaped blocking unit is all subject to larger impact force.

Above-described dynamic energy absorber, preferably, described bar shaped blocking unit is fiber.

Above-described dynamic energy absorber, preferably, described bar shaped blocking unit is for blocking band.

Above-described dynamic energy absorber, preferably, described bar shaped blocking unit is bending in " U " shape, and the two ends of the opening end of the described bending bar shaped blocking unit in " U " shape are connected with described first fixed end and described second fixed end respectively.The bending bar shaped blocking unit in " U " shape is better compared with the stress of the bar shaped blocking unit of other shapes, Impact direction and the kinetic energy direction of the opening end of the bending bar shaped blocking unit in " U " shape are close, the power being subject to being decelerated thing is mainly the power along kinetic energy direction, the deformation achieving the bending bar shaped blocking unit in " U " shape is mainly tensile deformation, reduce the shearing that the bending bar shaped blocking unit in " U " shape is subject to, ensure that the bending bar shaped blocking unit in " U " shape realizes the consumption to the kinetic energy being decelerated thing by the cooperation of tensile deformation and reaction force, thus reach being decelerated the better buffer function of thing.

Above-described dynamic energy absorber, preferably, described dynamic energy absorber also comprises fiber tuft fixed structure, described fiber tuft fixed structure comprises base, round platform and end cap, the end face of described base is provided with the groove holding described round platform, the bottom surface of described base is provided with the through hole for holding described fiber tuft, described through hole is communicated with described groove, the conical surface of described round platform is inserted in described groove, fit in the conical surface of described round platform and the surface of described groove, described end cap cover is buckled in outside the end face of described base, described round platform is arranged between described end cap and described base, described round platform stretches between the end face of groove and the bottom surface of described groove has gap, described round platform can be avoided to be broken by fiber tuft by gap, described end cap is connected with described whorl of base, described fiber tuft fixed structure is oppositely arranged on described first fixed end and described second fixed end respectively.

Above-described dynamic energy absorber, preferably, described dynamic energy absorber also comprises rotary clamp connection structure, described rotary clamp connection structure comprises ratchet and fixture block, described fixture block comprise cover plate and two hold pawl, the side of described cover plate arranges two and holds pawl, described pawl of holding is disposed adjacent, described holding outside pawl is circular arc, described holding inside pawl is plane, described plane is oppositely arranged, described plane is provided with multiple irregular fin and groove, described fin and groove are mutually corresponding, the overall sizes of pawl away from cover plate one end is held described in described overall sizes of holding close cover plate one end of pawl is greater than, hold the overall sizes gradual change of pawl, described ratchet is provided with multiple ratchet, described ratchet offers the through hole run through along ratchet radial direction, the middle part of described ratchet is provided with axial hole, described through hole and described holding outside pawl match, pawl is held described in holding.

Two described rotary clamp connection structures are separately positioned on described first fixed end and described second fixed end, and described first fixed end and described second fixed end are provided with the internal gear matched with described ratchet.

The utility model also provides a kind of kinetic energy snubber device, comprise slip inserted part and above-described dynamic energy absorber, described slip inserted part is provided with the interface arrangment coordinated with the described bar shaped blocking unit of above-described dynamic energy absorber, described slip inserted part be decelerated thing and be connected, described bar shaped blocking unit is crossing with the kinetic energy direction being decelerated thing.Adopt the kinetic energy snubber device that provides of the utility model can utilize slip inserted part and be decelerated thing and be connected, when being decelerated thing high-speed motion, time between the first fixed end and the second fixed end, interface arrangment meeting on slip inserted part contacts with the bar shaped blocking unit between the first fixed end and the second fixed end intersects, then interface arrangment pulls bar shaped blocking unit generation tensile deformation, until the fracture of bar shaped blocking unit, in this process, consume the kinetic energy being decelerated thing, realize the deceleration being decelerated thing fast and stable, reduce the impact force being decelerated thing.

Relative to prior art, a kind of dynamic energy absorber that the utility model provides and kinetic energy snubber device comprise following beneficial effect: the dynamic energy absorber that the utility model provides utilizes between the first fixed end and the second fixed end and sets up bar shaped blocking unit, the erection direction of bar shaped blocking unit is crossing with the kinetic energy direction being decelerated thing, therefore when be decelerated thing between the first fixed end and the second fixed end time, can through bar shaped blocking unit, bar shaped blocking unit can stop and is decelerated thing, when being decelerated after thing contacts with bar shaped stop part, cause the tensile deformation of bar shaped blocking unit, even exceed the limit of stretch of bar shaped stop part and rupture, in this process of tensile deformation of bar shaped blocking unit, be decelerated thing to do work to bar shaped blocking unit, be decelerated thing generation energy loss, be decelerated the corresponding reduction of kinetic energy of thing, simultaneously, learn according to impulse principle, the kinetic energy being decelerated thing reduces, the corresponding minimizing of speed, and then be decelerated the impact force also just corresponding decline of thing.

Accompanying drawing explanation

In order to clearer explanation the utility model embodiment or technological scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is that the axle of the dynamic energy absorber that the utility model first embodiment provides measures intention;

Fig. 2 is the schematic top plan view of the dynamic energy absorber that the utility model second embodiment provides;

Fig. 3 is the schematic top plan view of the dynamic energy absorber that the utility model the 3rd embodiment provides;

Fig. 4 is the schematic top plan view of the dynamic energy absorber that the utility model the 4th embodiment provides;

Fig. 5 is the cross-sectional schematic of the part-structure of the rotary clamping mechanism of the dynamic energy absorber that the utility model the 5th embodiment provides;

Fig. 6 is the cross-sectional schematic of the rotary clamping mechanism of the dynamic energy absorber that the utility model the 5th embodiment provides;

Fig. 7 is the schematic side view of the kinetic energy snubber device that the utility model the 6th embodiment provides;

Fig. 8 is the fiber tuft fixed mechanism cross-sectional schematic of the dynamic energy absorber that the utility model the 7th embodiment provides.

Wherein, the corresponding relation between reference character and component names is as follows: the first fixed end 101, second fixed end 102, bar shaped blocking unit 103, fixture block comprises cover plate 104, holds pawl 105 for two, ratchet 106, radial direction through hole 107, axial hole 108, base 109, round platform 110, end cap 111, slip inserted part 201, interface arrangment 202.

Arrow in accompanying drawing represents the kinetic energy direction being decelerated thing.

Embodiment

Mostly adopt the strength of materials improving structure to resist impact force in prior art, avoid structure to produce and destroy, but the while that research and development high-strength material being with high costs the R&D cycle long, be not suitable for spread use.

The utility model provides a kind of dynamic energy absorber and kinetic energy snubber device to improve the problems referred to above.

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

In the utility model, first, second, third, etc. are difference signal, are not limit.

Fig. 1 is that the axle of the dynamic energy absorber that the utility model first embodiment provides measures intention; As shown in Figure 1, the dynamic energy absorber that the utility model first embodiment provides comprises the first fixed end 101, second fixed end 102 and bar shaped blocking unit 103, many bar shaped blocking unit 103 set gradually along kinetic energy direction, between any two adjacent bar shaped blocking unit 103, interval is arranged, and two ends of every root bar shaped blocking unit 103 are connected with the first fixed end 101 and the second fixed end 102 respectively.

The dynamic energy absorber that the present embodiment provides utilizes between the first fixed end 101 and the second fixed end 102 and sets up bar shaped blocking unit 103, the erection direction of bar shaped blocking unit 103 is crossing with the kinetic energy direction being decelerated thing, therefore when be decelerated thing between the first fixed end 101 and the second fixed end 102 time, can through bar shaped blocking unit 103, bar shaped blocking unit 103 can stop and is decelerated thing, when being decelerated after thing contacts with bar shaped stop part, cause the tensile deformation of bar shaped blocking unit 103, even exceed the limit of stretch of bar shaped stop part and rupture, in this process of tensile deformation of bar shaped blocking unit 103, be decelerated thing to do work to bar shaped blocking unit 103, be decelerated thing generation energy loss, be decelerated the corresponding reduction of kinetic energy of thing, simultaneously, learn according to impulse principle, the kinetic energy being decelerated thing reduces, the corresponding minimizing of speed, and then be decelerated the impact force also just corresponding decline of thing.

Through too much root bar shaped blocking unit 103 to the consumption being decelerated thing kinetic energy, the kinetic energy being decelerated thing consumes through a large amount of, greatly reduce, and then make to be decelerated the speed of thing and impact force also reduces greatly, reach quickly and efficiently to the effect being decelerated thing and carrying out deceleration buffer.Carrying out in deceleration buffer process, coordinate owing to adopting many bar shaped blocking unit 103, progressively abatement is decelerated the kinetic energy of thing, instead of a large amount of kinetic energy of instantaneous disposable reduction, reduce the momentum be decelerated when thing in the end stops, momentum reduces corresponding impact force and also reduces, and ensure that being decelerated thing and connected structure is not impacted damage by instantaneous enormous impact power.

In dynamic energy absorber actual production process, first fixed end 101 and the second fixed end 102 there is no given shape, can be arranged on any architecture basics, can integratedly with architecture basics manufacture simultaneously, be convenient to the soundness improving architecture basics and dynamic energy absorber.

Fig. 2 is the schematic top plan view of the dynamic energy absorber that the utility model second embodiment provides; As shown in Figure 2, the dynamic energy absorber that the utility model second embodiment provides is on the basis of the first embodiment, and further, many bar shaped blocking unit 103 are all positioned at same plane with kinetic energy direction.

Many bar shaped blocking unit 103 are all positioned at same plane with the kinetic energy direction being decelerated thing, bar shaped blocking unit 103 be subject to being decelerated thing kinetic energy impact deformation in, bar shaped blocking unit 103 produces a reaction force acts and is being decelerated on thing.Because power is directive vector, many bar shaped blocking unit 103 are all positioned at same plane with the kinetic energy direction being decelerated thing, residing for the direction of reaction force and bar shaped blocking unit 103 at grade, be decelerated reaction force can be increased like this on thing the acting of offsetting kinetic energy, the kinetic energy consumption being decelerated thing is faster, more be conducive to being decelerated thing deceleration buffer, reduce impact force.

Meanwhile, many bar shaped blocking unit 103 be arranged in parallel, and between any two adjacent bar shaped blocking unit 103, the distance at interval is equal.Between any two adjacent bar shaped blocking unit 103, the distance at interval is less than or equal to l _min, wherein subscript n≤1.

Wherein, any two adjacent bar shaped blocking unit 103 are respectively L along kinetic energy direction length _nand L _n+1.

L _minfor the distance at interval between any two bar shaped blocking unit 103.

∮ % is the elongation at break of bar shaped blocking unit 103.

Between any two adjacent bar shaped blocking unit 103 distance at interval equal make bar shaped blocking unit 103 setting, install in be more prone to and facilitate, substantially increase dynamic energy absorber manufacturing efficiency, simultaneously, the distance at interval is equal, error during installation also more easily detects, be convenient to timely adjustment, greatly reduce dynamic energy absorber alignment error, improve the assembly precision of dynamic energy absorber.

Meanwhile, between any two adjacent bar shaped blocking unit 103, the distance at interval is less than or equal to l _mincan ensureing that every root bar shaped blocking unit 103 is when being subject to the impact being decelerated thing, complete tensile deformation, before the fracture that is stretched, adjacent bar shaped blocking unit 103 can not be touched.Can ensure that every root bar shaped blocking unit 103 is stretched to the limit completely like this, then rupture, can not be subject to the External Force Acting of other adjacent bar shaped blocking unit 103 in this drawing process, every root bar shaped blocking unit 103 is stretched to, and energy that fracture consumes is derived from the dynamic transformation of energy being decelerated thing all as much as possible.

Between any two adjacent bar shaped blocking unit 103, the distance at interval equals l _mintime, kinetic energy damping device effect is best, the continuous fracture of adjacent bar shaped blocking unit 103 can be realized and realize adjacent bar shaped blocking unit 103 slitless connection, when last bar shaped blocking unit 103 will rupture and not rupture, be decelerated thing and moved to next adjacent root bar shaped blocking unit 103 and will start stressed and not start stressed place.When last bar shaped blocking unit 103 ruptures, in negligible very short time, be decelerated the obstruction power that thing is subject to adjacent bar shaped blocking unit 103 at once, make like this to be decelerated the stop acting that thing is subject to the continuous force of many bar shaped blocking unit 103, lasting consumption is decelerated the kinetic energy of thing and can not makes to be decelerated thing and single bar shaped blocking unit 103 produces larger momentum, thus makes to be decelerated thing and bar shaped blocking unit 103 is all subject to larger impact force.

If the gap length between adjacent two bar shaped blocking unit 103 is less than design load, bar shaped blocking unit 103 can be made at the resistance for being just subject to the adjacent bar shaped blocking unit 103 of next root before not rupturing, make to be decelerated the resistance that thing is subject to increase, be decelerated thing and be still subject to larger momentum; If the gap length between adjacent two bar shaped blocking unit 103 is greater than design load, can make bar shaped blocking unit 103 after rupturing completely, the stressed of next adjacent root bar shaped blocking unit 103 is subject to again after motion a period of time, making to be decelerated the time that thing is subject to the stop of bar shaped blocking unit 103 is like this interrupted, cause being decelerated the momentum that thing is subject to increase, be unfavorable for the buffering being decelerated thing.

Under the parameter the same terms being decelerated thing kinetic energy and bar shaped blocking unit 103, ensure l _mindistance the tension failure of every root bar shaped blocking unit 103 can be allowed more complete, reduce the quantity of required bar shaped blocking unit 103, thus reduce and manufacture difficulty of processing and cost of production, be convenient to the mass production of dynamic energy absorber.

Fig. 3 is the schematic top plan view of the dynamic energy absorber that the utility model the 3rd embodiment provides; As shown in Figure 3, the utility model the 3rd embodiment is on the basis of the first embodiment, and further, the length of many bar shaped blocking unit 103 increases successively along kinetic energy direction, and two end correspondences of any two bar shaped blocking unit 103 connect.

Because the length of many bar shaped blocking unit 103 is all different, increase progressively successively, and all corresponding connection in two ends of any two bar shaped blocking unit 103, after many bar shaped blocking unit 103 are connected, form " U " structure.

Two ends due to any two bar shaped blocking unit 103 are corresponding connections, like this, two end points are only had after all corresponding connection in two ends of many bar shaped blocking unit 103, do not need to take a large amount of volumes just two of many bar shaped blocking unit 103 end and the first fixed end 101 and the second fixed end 102 to be coupled together, save the volume of dynamic energy absorber, be convenient to the installation of dynamic energy absorber in small space and use.

In order to ensure the kinetic energy absorption effect of dynamic energy absorber, setting many bar shaped blocking unit 103 is n+1 root, n≤1 and be positive integer, bar shaped blocking unit 103 is fiber tuft, fiber tuft can be monfil bundle, also can be multi-filament tow, the length of n+1 root fiber tuft increases successively along kinetic energy direction, and the length of n+1 root fiber tuft is respectively L, L ₁, L ₂l _n-1and L _n, wherein L, L ₁, L ₂l _n-1and L _nmeet following relationship,

L ₁＝ΔL×∮％

L ₂＝(L+ΔL ₁)×∮％

…

L _n＝(L+ΔL ₁+…+ΔL _n-1)×∮％

Wherein Δ L ₁, Δ L ₂Δ L _nbe respectively the extended length after fiber failure, coincidence formula W=F (Δ L ₁+ Δ L ₂+ ... + Δ L _n)

In formula, F is constant force and F=E × S × ∮ %,

Wherein, E is the stretch modulus of the material of fiber tuft

∮ % is the elongation at break of the material of fiber tuft

S is the cross sectional area of fiber tuft

L is the length of the shortest fiber tuft

W is kinetic energy, W=mv ²

M is the quality of measured object

V is the speed of object being measured.

Adopt and arrange like this, can Exact Design and control kinetic energy damping device when adopting fiber tuft as bar shaped blocking unit 103, the length of required fiber tuft radical and every root fiber tuft, improves accuracy of manufacturing, reduces manufacture cost simultaneously.

Meanwhile, the every root bar shaped blocking unit 103 in the present embodiment comprises fracture portion, and fracture portion is the middle part of every root bar shaped blocking unit 103, for be decelerated thing and contact and rupture, fracture portion is mutually vertical with kinetic energy direction.The fracture portion of bar shaped blocking unit 103 is arranged on middle part, the portion of fracture simultaneously and kinetic energy reverse vertical are arranged, when thing ought be decelerated to be contacted with fracture portion, force bearing point is fracture portion, being decelerated thing, to be subject to the direction of the reaction force in fracture portion corresponding with kinetic energy direction contrary, the component in other directions can not be produced, and the pulling force of two ends to the fracture portion at middle part being subject to bar shaped blocking unit 103 is also average, the energy of the bar shaped blocking unit 103 tension failure overwhelming majority is made to stem from the dynamic transformation of energy being decelerated thing, realize utilizing the energy needed for the tensile deformation of bar shaped blocking unit 103 to consume the kinetic energy being decelerated thing, realize carrying out deceleration buffer to being decelerated thing.

The most importantly adopt the bar shaped blocking unit 103 that this length is arranged, the continuous fracture of adjacent bar shaped blocking unit 103 can be realized and realize adjacent bar shaped blocking unit 103 slitless connection, when last bar shaped blocking unit 103 will rupture and not rupture, be decelerated thing and moved to next adjacent root bar shaped blocking unit 103 and will start stressed and not start stressed place.When last bar shaped blocking unit 103 ruptures, in negligible very short time, be decelerated the obstruction power that thing is subject to adjacent bar shaped blocking unit 103 at once, make like this to be decelerated the stop acting that thing is subject to the continuous force of many bar shaped blocking unit 103, lasting consumption is decelerated the kinetic energy of thing and can not makes to be decelerated thing and single bar shaped blocking unit 103 produces larger momentum, thus makes to be decelerated thing and bar shaped blocking unit 103 is all subject to larger impact force.

If the length of every root bar shaped blocking unit 103 is greater than design load, bar shaped blocking unit 103 can be made at the resistance for being just subject to the adjacent bar shaped blocking unit 103 of next root before not rupturing, make to be decelerated the resistance that thing is subject to increase, be decelerated thing and be still subject to larger momentum; If the length of every root bar shaped blocking unit 103 is less than design load, can make bar shaped blocking unit 103 after rupturing completely, the stressed of next adjacent root bar shaped blocking unit 103 is subject to again after motion a period of time, making to be decelerated the time that thing is subject to the stop of bar shaped blocking unit 103 is like this interrupted, cause being decelerated the momentum that thing is subject to increase, be unfavorable for the buffering being decelerated thing.

In order to verify the effect of the present embodiment, research staff carries out long-term experiment, following experiment all with above-mentioned formula for reference, consider the situation such as fiber slippage, monofilament unbalance stress, increase fiber consumption, experimental result value is bigger than normal compared with theoretical value, and the impact of removing measurement error, experimental result meets expection.

Control experiment 1

Do the movement of falling object with the weights (with the steel cable of φ 2mm, the specified pulling force of steel cable is 200Kg) that quality is 3.28Kg, elevation is 10 meters, and experimental result is that steel cable breaks, the maximum impact force 1100Kg recorded.

Experiment 2

It is 50 that dynamic energy absorber discal patch form drag is broken, wherein every root bar shaped blocking unit 103 is 1000 monfil compositions, wherein the most short fibre Shu Changdu of L is that (often bundle is 1000 monofilament for the pbo fiber bundle of 110mm, E is 280Gpa, ∮ % is 2.5, and monofilament diameter is 17 microns), plurality of fibers interfascicular is every layout, in " U " shape, between any two adjacent fiber bundles, interval 2.5mm arranges, and receipts Gansu Province, fiber tuft two ends also compresses (making monofilament without Relative sliding).

Dynamic energy absorber is erected on the device of control experiment 1, first fixed end 101 is connected with control experiment group with the second fixed end 102, the position of the dynamic energy absorber of adjustment the present embodiment, make the impact force action being decelerated thing at the center of fiber tuft, the path by steel cable is arranged on the center of " U " shape, repetition control experiment is tested, counterweight freely falling body, steel cable impacts fiber tuft, is all broken by 50 groups of fiber tufts, steel cable is continuous, and the maximum impact force recorded is 98Kg.The kinetic energy now still having a small amount of freely falling body to produce does not consume, but oneself reaches Expected Results.

Experiment 3

By pbo fiber Shu Gaiwei 60, all the other experimental conditions are constant, repeat experiment 2, and experimental result is that steel cable is continuous, and not entirely disconnected (8 groups do not break), the maximum impact force recorded is 55Kg to 60 groups of fiber tufts.Now counterweight freely falling body produce kinetic energy oneself all run out of, be converted to the potential energy of pbo fiber bundle, oneself reaches Expected Results.

Experiment 4

It is 50 that dynamic energy absorber discal patch form drag is broken, wherein every root bar shaped blocking unit 103 is 1000 monfil compositions, wherein the most short fibre Shu Changdu of L is that (often bundle is 1000 monofilament for the para-aramid fiber bundle of 110mm, E is 109Gpa, ∮ % is 2.4 monofilament diameters is 17 microns), plurality of fibers interfascicular, every layout, is " U " shape, every bundle fiber interval 2.5mm arranges, and receipts Gansu Province, fiber tuft two ends also compresses (making monofilament without Relative sliding).

Dynamic energy absorber is erected on the device of control experiment 1, first fixed end 101 is connected with control experiment group with the second fixed end 102, the position of adjustment dynamic energy absorber, make the impact force action being decelerated thing at the center of fiber tuft, the path by steel cable is arranged on the center of " U " shape, repeats check experiment experiment, counterweight freely falling body, steel cable impacts fiber tuft, and 50 groups of fiber tufts break entirely, and the maximum impact force recorded is 290Kg.The kinetic energy now still having a large amount of freely falling body to produce does not consume.

Experiment 5

By para-aramid fiber Shu Gaiwei 100, all the other experimental conditions are constant, repeat experiment 4, and experimental result is that steel cable is continuous, and not entirely disconnected (10 groups do not break), the maximum impact force recorded is 30Kg to 100 groups of fiber tufts.Now freely falling body produce kinetic energy oneself all run out of, oneself reaches Expected Results.

Can draw by experiment, the present embodiment has good kinetic energy absorption effect, and structure is simple simultaneously, easily manufactured with low cost.Can be widely used in every field, have obvious deceleration buffer effect, can reduce the kinetic energy of moving object fast, its impact force of corresponding minimizing, is particularly useful for the buffering of high-speed object, has great economic value.

Fig. 4 is the schematic top plan view of the dynamic energy absorber that the utility model the 4th embodiment provides; As shown in Figure 4, the utility model the 4th embodiment is on the basis of the first embodiment, further,

In order to improve the kinetic energy absorption effect of the present embodiment, bar shaped blocking unit 103 is bending in " U " shape, is connected respectively with the two ends of the opening end of the bending bar shaped blocking unit in " U " shape with the first fixed end 101 and the second fixed end 102.The bending bar shaped blocking unit in " U " shape is better compared with the stress of the bar shaped blocking unit 103 of other shapes, when be decelerated thing impact in the bending bar shaped blocking unit in " U " shape time, Impact direction and the kinetic energy direction of the opening end of the bending bar shaped blocking unit in " U " shape are close, two the end deformation achieving the bending bar shaped blocking unit in " U " shape are mainly tensile deformation, the shearing that two ends of reducing the bending bar shaped blocking unit in " U " shape are subject to, ensure that the bending bar shaped blocking unit in " U " shape by tensile deformation to the consumption of kinetic energy being decelerated thing, thus reach being decelerated the better buffer function of thing.

Fig. 5 is the cross-sectional schematic of the part-structure of the rotary clamping mechanism of the dynamic energy absorber that the utility model the 5th embodiment provides, Fig. 6 is the cross-sectional schematic of the rotary clamping mechanism of the dynamic energy absorber that the utility model the 5th embodiment provides, as seen in figs. 5-6, the dynamic energy absorber that the utility model the 5th embodiment provides is on the basis of the first embodiment, further, also comprise rotary clamp connection structure, rotary clamp connection structure comprises ratchet 106 and fixture block, fixture block comprise cover plate 104 and two hold pawl 105, the side of cover plate 104 arranges two and holds pawl 105, hold pawl 105 to be disposed adjacent, hold outside pawl 105 is circular arc, hold inside pawl 105 is plane, plane is oppositely arranged, plane is provided with multiple irregular fin and groove, fin and groove are mutually corresponding, the overall sizes of holding close cover plate 104 one end of pawl 105 is greater than holds the overall sizes of pawl 105 away from cover plate 104 one end, hold the overall sizes gradual change of pawl 105, ratchet 106 is provided with multiple ratchet, ratchet 106 offers the radial direction through hole 107 run through along ratchet 106 radial direction, the middle part of ratchet 106 is provided with axial hole 108, through hole matches with holding outside pawl 105, pawl 105 is held for holding.

Two rotary clamp connection structures are separately positioned on the first fixed end 101 and the second fixed end 102, and the first fixed end 101 and the second fixed end 102 are provided with the internal gear matched with ratchet 106.First bar shaped blocking unit 103 is passed in the radial direction through hole 107 of rotary clamp connection structure when using, then, what utilize fixture block holds pawl 105, alignment bars shape blocking unit 103, two planes of holding pawl 105 are allowed to clamp bar shaped blocking unit 103, fixture block is inserted in the axial hole 108 of ratchet 106, bar shaped blocking unit 103 is fixed by the Tenon mechanism utilizing fixture block and ratchet 106 to be formed, then along usable rotational direction rotating ratchet 106, the end of bar shaped blocking unit 103 is wrapped on ratchet 106, frictional force is utilized bar shaped blocking unit 103 again to be fixed, when bar shaped blocking unit 103 is subject to tensile force time, due to the characteristic of ratchet 106, ratchet 106 can not rotate backward, the bar shaped blocking unit 103 be wrapped in outside ratchet 106 is tightened up, bar shaped blocking unit 103 increases with the frictional force of ratchet 106, ensure that bar shaped blocking unit 103 can not be slided, simultaneously in conjunction with the clamping of fixture block, realize dual fixing, fixed effect is more obvious, and conveniently install and change, reduce the installation and maintenance cost of dynamic energy absorber.

Fig. 7 is the schematic side view of the kinetic energy snubber device that the utility model the 6th embodiment provides; As shown in Figure 7, the utility model the 6th embodiment provides a kind of kinetic energy snubber device, comprise the dynamic energy absorber that slip inserted part 201 and the utility model provide, be preferably the dynamic energy absorber that the 3rd embodiment provides, the interface arrangment 202 that the bar shaped blocking unit 103 that slip inserted part 201 is provided with the dynamic energy absorber provided with the 3rd embodiment coordinates, slip inserted part 201 be decelerated thing and be connected, bar shaped blocking unit 103 is crossing with the moving direction being decelerated thing.

Adopt the kinetic energy snubber device that provides of the utility model can utilize slip inserted part 201 and be decelerated thing and be connected, when being decelerated thing high-speed motion, time between the first fixed end 101 and the second fixed end 102, interface arrangment 202 meeting on slip inserted part 201 contacts with the bar shaped blocking unit 103 between the first fixed end 101 and the second fixed end 102 intersects, so then interface arrangment 202 pulls bar shaped blocking unit 103 that tensile deformation occurs, until bar shaped blocking unit 103 ruptures, in this process, by consuming to bar shaped blocking unit 103 acting the kinetic energy being decelerated thing, realize the deceleration being decelerated thing fast and stable, and then reduce the impact force being decelerated thing.

Preferably, the interface arrangment 202 of slip inserted part 201 is groove, and groove can coordinate with bar shaped blocking unit 103, is decelerated thing and is connected with fixture block.

Fig. 8 is the fiber tuft fixed mechanism cross-sectional schematic of the dynamic energy absorber that the utility model the 7th embodiment provides.As shown in Figure 8, the dynamic energy absorber that the utility model the 7th embodiment provides is on the basis of the 3rd embodiment, further, also comprise fiber tuft fixed structure, described fiber tuft fixed structure comprises base 109, round platform 110 and end cap 111, the end face of described base 109 is provided with the groove holding described round platform 110, the bottom surface of described base 109 is provided with the through hole for holding described fiber tuft, described through hole is communicated with described groove, the conical surface of described round platform 110 is inserted in described groove, fit in the conical surface of described round platform 110 and the surface of described groove, described end cap 111 cover is buckled in outside the end face of described base 109, described round platform 110 is arranged between described end cap 111 and described base 109, described round platform 110 stretches between the end face of groove and the bottom surface of described groove has gap, described round platform 110 can be avoided to be broken by fiber tuft by gap, described end cap 111 is threaded with described base 109, described fiber tuft fixed structure is oppositely arranged on described first fixed end 101 and described second fixed end 102 respectively.

When using, fiber tuft is penetrated in groove by the through hole on base 109, the surface uniform of root cellosilk every in fiber tuft along groove is spread out, every root cellosilk in fiber tuft is spread out along the conical surface of round platform 110, round platform 110 is embedded in the groove of base 109, make the surface of the groove of the conical surface of round platform 110 and base 109 bonded to each other, every root cellosilk is all compressed, avoid occurring stripped thread phenomenon, then end cap 111 cover is buckled in the outside of round platform 110, end cap 111 cover is buckled in the outside of base 109 simultaneously, end cap 111 and base 109 are threaded connection, the edge of end cap 111 is provided with internal thread, the outside of base 109 is provided with corresponding outside thread, by screwing end cap 111, under the effect be threaded, end cap 111 extrudes round platform 110 in groove, make round platform 110 tightr with the laminating of groove, make the fixing more firm of fiber tuft.

In the utility model, bar shaped blocking unit 103 can be fiber tuft.Wherein the material of fiber tuft can be preferably pbo fiber, para-aramid fiber, super high strength PE fiber etc.

In the utility model, bar shaped blocking unit 103 can also for blocking band.The material blocking band is preferably other macromolecular materials such as pbo fiber, para-aramid fiber, super high strength PE fiber.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a dynamic energy absorber, it is characterized in that, comprise the first fixed end, the second fixed end and bar shaped blocking unit, between any two adjacent described bar shaped blocking unit, interval is arranged, and two ends of bar shaped blocking unit described in every root are connected with described first fixed end and described second fixed end respectively.

2. dynamic energy absorber according to claim 1, is characterized in that, many described bar shaped blocking unit are all positioned at same plane with kinetic energy direction.

3. dynamic energy absorber according to claim 2, is characterized in that, many described bar shaped blocking unit be arranged in parallel, and between any two adjacent described bar shaped blocking unit, the distance at interval is equal.

4. dynamic energy absorber according to claim 1, it is characterized in that, described in every root, bar shaped blocking unit comprises fracture portion, and described fracture portion is the middle part of bar shaped blocking unit described in every root, for be decelerated thing and contact and rupture, described fracture portion is mutually vertical with kinetic energy direction.

5. dynamic energy absorber according to claim 1, is characterized in that, the length of many described bar shaped blocking unit increases successively along kinetic energy direction, and two end correspondences of any two described bar shaped blocking unit connect.

6. dynamic energy absorber according to claim 5, is characterized in that, many described bar shaped blocking unit are n+1 root, n≤1 and be positive integer, described bar shaped blocking unit is fiber tuft, and described in n+1 root, the length of fiber tuft increases successively, and described in n+1 root, the length of fiber tuft is respectively L, L ₁, L ₂l _n-1and L _n, wherein L, L ₁, L ₂l _n-1and L _nmeet following relationship,

L ₁＝ΔL×∮％

L ₂＝(L+ΔL ₁)×∮％

…

L _n＝(L+ΔL ₁+…+ΔL _n-1)×∮％

Wherein Δ L ₁, Δ L ₂Δ L _nbe respectively the extended length after fiber failure, coincidence formula W=F (Δ L ₁+ Δ L ₂+ ... + Δ L _n)

In formula, F is constant force and F=E × S × ∮ %,

Wherein, E is the stretch modulus of the material of fiber tuft

∮ % is the elongation at break of the material of fiber tuft

S is the cross sectional area of fiber tuft

L is the length of the shortest fiber tuft

W is kinetic energy, W=mv ²

M is the quality of measured object

V is the speed of object being measured.

7. dynamic energy absorber according to claim 1, is characterized in that, described bar shaped blocking unit is fiber tuft.

8. dynamic energy absorber according to claim 1, it is characterized in that, described dynamic energy absorber also comprises fiber tuft fixed structure, described fiber tuft fixed structure comprises base, round platform and end cap, the end face of described base is provided with the groove holding described round platform, the bottom surface of described base is provided with the through hole for holding described fiber tuft, described through hole is communicated with described groove, the conical surface of described round platform is inserted in described groove, fit in the conical surface of described round platform and the surface of described groove, described end cap cover is buckled in outside the end face of described base, described round platform is arranged between described end cap and described base, described round platform stretches between the end face of groove and the bottom surface of described groove has gap, described round platform can be avoided to be broken by fiber tuft by gap, described end cap is connected with described whorl of base, described fiber tuft fixed structure is oppositely arranged on described first fixed end and described second fixed end respectively.

9. dynamic energy absorber according to claim 1, it is characterized in that, described dynamic energy absorber also comprises rotary clamp connection structure, described rotary clamp connection structure comprises ratchet and fixture block, described fixture block comprise cover plate and two hold pawl, the side of described cover plate arranges two and holds pawl, described pawl of holding is disposed adjacent, described holding outside pawl is circular arc, described holding inside pawl is plane, described plane is oppositely arranged, described plane is provided with multiple irregular fin and groove, described fin and groove are mutually corresponding, the overall sizes of pawl away from cover plate one end is held described in described overall sizes of holding close cover plate one end of pawl is greater than, hold the overall sizes gradual change of pawl, described ratchet is provided with multiple ratchet, described ratchet offers the through hole run through along ratchet radial direction, the middle part of described ratchet is provided with axial hole, described through hole and described holding outside pawl match, pawl is held described in holding,

Two described rotary clamp connection structures are separately positioned on described first fixed end and described second fixed end, and described first fixed end and described second fixed end are provided with the internal gear matched with described ratchet.

10. a kinetic energy snubber device, it is characterized in that, comprise slip inserted part and the dynamic energy absorber described in claim 1-9 any one, described slip inserted part is provided with the interface arrangment coordinated with the described bar shaped blocking unit of the dynamic energy absorber described in claim 1-9 any one, described slip inserted part be decelerated thing and be connected, described bar shaped blocking unit is crossing with the kinetic energy direction being decelerated thing.