CN100436725C - Shock-absorbing and energy-dissipating device - Google Patents

Abstract

The present invention relates to a shock-isolation energy-dissipation device which comprises more than two long sliding units which are respectively combined in a mode that an upper and a lower layers are stacked and staggered. Each long sliding unit comprises a concave base and an embedded base, wherein the concave base and the embedded base are vertically matched in scarf joint, one of the bases is provided with horizontal positioning holes, and the other base is provided with arc-shaped tracks corresponding to the horizontal positioning holes; a rotary shaft is simultaneously limited and positioned by the arc-shaped tracks and the positioning holes, and penetrates through the concave base and the embedded base, and at least one of the concave seat, the embedded seat and the rotary shaft is provided with an energy dissipating member. Therefore, the design of the relative motion of each concave base and the respective embedded base has the advantages that relative motion in the horizontal direction and in the perpendicular direction can be generated when the whole device shocks to isolate shock transmission, and the added energy dissipating members can simultaneously and effectively absorb the transmitted shock in the horizontal direction and the perpendicular direction, achieving the efficacy of effective shock reduction and energy dissipation.

Description

Shock-absorbing and energy-dissipating device

Technical field

The present invention relates to a kind of shock-absorbing and energy-dissipating device, refer to a kind of shock-absorbing and energy-dissipating device especially with vibrational energy of absorption or elimination of level and vertical direction transmission.

Background technology

Modern metropolitan cities is because the area in soil is limited, make the height of building constantly upwards develop to increase floor, even the quantity of skyscraper and become the important pointer of city development highly already, with first-class reason make modern metropolitan cities everywhere high building tower, but this kind high building upwards phenomenon of development is not have secret worry, earthquake promptly is an example to the influence of building, such as Taiwan, Japan is on the earthquake zone of continental plate and the formation of extra large plate intersection owing to the position, the number of times that makes earthquake take place is frequent, thereby frequent the shockproof of its high building of area of this kind earthquake generation more seems important.

And; the protection of important history relic, hospital and disaster relief centers' important instrument equipment; make electronic component or precision optical machinery; perhaps assemble in its process of producing board; in order to produce the required precision that board installs and the yield of production; on producing board or in the factory building of device, must have the design or the device of vibration damping, the influence that must do not shaken.

For the foregoing reasons, the control of vibration has become an important job at present, on the cushion technique that is applied to different field, and main dual mode, a transmission for isolated vibrational energy, one for absorbing vibrational energy.

In the existing isolator, mainly to completely cut off the transfer mode of vibrational energy, on the whole it include a footstock, a carriage and a base, be provided with carriage between footstock and base, carriage can be spin, thus, base can be produced with the relative of footstock to move horizontally, simultaneously, base is incorporated on floor, building or the ground, and footstock is incorporated into board basis or basis, building.

When vibration is passed to isolator by floor, building or ground, by carriage base is produced and move horizontally with the relative of footstock, transmit to lower and to completely cut off vibration, reach the effect of vibration damping.

Yet, existing isolator only lowers by carriage and isolated vibration is transmitted, such design only has a little effect for the vibration that transmit in the horizontal direction path, but also can't intercept the transmission of vertical vibration energy effectively, high building can't be provided, therefore important history relic and plant and instrument or produce board stable assurance when earthquake, have the necessity of improvement really.

Summary of the invention

For improving the existing problem of above-mentioned existing isolator, main purpose of the present invention is to provide a kind of shock-absorbing and energy-dissipating device, can reach the transmission of obstruct level and vertical vibration energy simultaneously, and can absorb vibrational energy, to improve effectiveness in vibration suppression, improve the existing problem of existing isolator.

For reaching above-mentioned purpose, the invention provides a kind of shock-absorbing and energy-dissipating device, it comprises the microscler sliding unit that can reset more than two after the slip of staggering relatively, each sliding unit is to be divided into two-layer above staggered folded mutually mode in conjunction with setting, and each sliding unit comprises that a dimple, inlays an embedding seat and a rotating shaft that cooperates with this dimple, wherein:

Described dimple is microscler and in wherein forming groove one, form a pair of arc track in this dimple, this is arcuate socket and the protruding direction of inlaying towards this dimple to this embedding seat that is positioned at the both sides of this road groove to arc track, described embedding seat is microscler and is partially submerged into this road groove and to should being provided with a locating hole to arc track, and described rotating shaft is passed this is subjected to this locating hole to arc track and this locating hole location and this restraint to arc track with rotatable kenel.

Preferable, wherein at least one is provided with the energy dissipation piece that adjoining this dimple, this embedding seat and this rotating shaft are wherein appointed both in this dimple, this embedding seat and this rotating shaft, and can be in the sliding unit top of the superiors in conjunction with a top board, in conjunction with a base plate, form one deck sticky stuff coating layer respectively in undermost sliding unit bottom in this top board end face and this base plate bottom surface.

This shows that the effect of specifically reaching of the present invention is:

Microscler sliding unit cooperates with rotating shaft and dimple and embedding seat, after can being slided in staggering relatively, each sliding unit resets, and add between the setting of arc track and each sliding unit staggered up and down in conjunction with set-up mode, make of the present invention on, that level can be made in following two ends and relatively moving up and down, and after moving, reset, the transmission of so isolated level and vertical vibration, the setting of energy dissipation piece can absorb the energy of level and vertical vibration in addition again, and the sliding unit group number that the present invention can be crisscross arranged up and down according to the occasion change of use and the arc track of each sliding unit, the cooperation quantity of locating hole and rotating shaft reaches the occasion that adapts to various uses and all can use flexibly.

Generally speaking, the present invention can reach the effect of vibration isolation and damping by the means of above-mentioned shock insulation and energy dissipating.

Description of drawings

Fig. 1 is first preferred embodiment of the present invention;

Fig. 2 is second preferred embodiment of the present invention;

Fig. 3 is the 3rd preferred embodiment of the present invention;

Fig. 4 is the 4th preferred embodiment of the present invention;

Fig. 5 is the 5th preferred embodiment of the present invention;

Fig. 6 is the 6th preferred embodiment of the present invention;

Fig. 7 is the 7th preferred embodiment of the present invention;

Fig. 8 is the 8th preferred embodiment of the present invention;

Fig. 9 is the 9th preferred embodiment of the present invention;

Figure 10 is the tenth preferred embodiment of the present invention.

Symbol description among the figure

10A sliding unit 10B sliding unit

10C sliding unit 10D sliding unit

10E sliding unit 11A dimple

11B dimple 12A embedding seat

12B embedding seat 12C embedding seat

12D embedding seat 13A groove

13B groove 14A arc track

14B arc track 15A locating hole

15B locating hole 16A rotating shaft

16B rotating shaft 16D rotating shaft

16C rotating shaft 20 energy dissipation piece

21 sticky stuff coating layers, 22 sticky stuff coating layers

23 friction shims, 24 nuts

25 sticky stuff coating layer 30A top boards

30B top board 31A base plate

31B base plate 32A sticky stuff coating layer

32B sticky stuff coating layer

The specific embodiment

The present invention mainly is divided into two-layer above staggered folded mutually in conjunction with being provided with and constituting with whole microscler sliding units, therefore followingly described in detail embodiments of the present invention with various combination embodiment of the present invention.

Please refer to shown in Figure 1, the shock-absorbing and energy-dissipating device of the present invention's first preferred embodiment comprises that two is staggered up and down in conjunction with the sliding unit 10A that is provided with, two sliding unit 10A become vertical mutually setting the as the X-Y direction of principal axis, or also can accompany certain angle, each sliding unit 10A is microscler and comprise a dimple 11A, an embedding seat 12A and a rotating shaft 16A, wherein:

The section of this dimple 11A becomes ㄩ shape, and in wherein forming rectangular groove 13A together, form a pair of arc track 14A that is positioned at these groove 13A both sides, road in this dimple 11A, each arc track 14A is an arcuate socket, and the relative and shape of two arc track 14A is protruding in towards the opposite direction of this groove 13A opening;

The certain thickness rectangle plate body of this embedding seat 12A tool, it becomes the vertical cooperation of inlaying with the groove 13A that long leg part wherein is embedded at this dimple 11A with this dimple 11A, and this embedding seat 12A is to forming a locating hole 15A to arc track 14A;

This rotating shaft 16A passes this to arc track 14A and this locating hole 15A and establish.

In first preferred embodiment, two sliding unit 10A interconnect with the one side that dimple 11A does not form groove 13A and arc track 14A respectively, in addition, two sliding unit 10A also can be provided with in the same way, and the one side that does not form groove 13A and arc track 14A with the dimple 11A of top sliding unit 10A is connected with the embedding seat 12A outer end horizontal plane of slid underneath unit 10A respectively;

The embedding seat 12A outer end horizontal plane on the sliding unit 10A top above this is located at is in conjunction with a horizontal top plate 30A in addition, in the embedding seat 12A outer end horizontal plane of the sliding unit 10A bottom of this below in conjunction with a horizonal base plate 31A, and in this top board 30A end face formation one deck sticky stuff coating layer 32A, form one deck sticky stuff coating layer 32A in this base plate bottom surface 31A, in addition, also can only one of them be provided with corresponding sticky stuff coating layer 32A in this top board 30A end face and this base plate bottom surface 31A.

Shock-absorbing and energy-dissipating device can directly be incorporated into respectively with top and bottom desires shock insulation thing and basic fixed face, perhaps by this top board 30A and this base plate 31A combination desire indirectly shock insulation thing and basic fixed face, thus, with two staggered sliding unit 10A, the present invention can be resetted after moving horizontally, make that the transmission of horizontal vibrating can be by isolated, the effect that resets after in addition the setting of sliding unit 10A arc track 14A also has sliding unit 10A to move up and down makes the present invention have the effect of isolated level and vertical vibration simultaneously concurrently.

Please refer to shown in Figure 2, it is the present invention's second preferred embodiment, its sliding unit 10B has improved first preferred embodiment embedding seat 12B wherein, and the section of the embedding seat 12B of each improvement becomes T shape, and becomes the orthogonal cooperation of inlaying with the end that central authorities protrude out with this dimple 11A.

Please with further reference to the 3rd preferred embodiment of Fig. 3, it is for being that with the different of second preferred embodiment connection kenel of the last lower leaf setting of each sliding unit 10B is a upper strata sliding unit 10B location swap under second preferred embodiment, its two sliding unit 10B is connected with the outer end horizontal plane of two embedding seat 12B respectively, become bilevel staggered, and do not form the one side of groove 13A and arc track 14A in conjunction with a horizontal top plate 30A with the dimple 11A on sliding unit 10B top, upper strata, the one side that does not form groove 13A and arc track 14A with the dimple 11A of lower floor sliding unit 10B bottom is in conjunction with a horizonal base plate 31A, and the relative and shape of arc track 14A is protruding in towards the opposite direction of this groove 13A opening.

Below based on each first preferred embodiment, illustrate that energy dissipation piece 20 is located at the various enforcement aspects of dimple 11A and rotating shaft 16A.

Please refer to Fig. 4, it is the 4th preferred embodiment, each rotating shaft 16A in first preferred embodiment is made as the second less rotating shaft 16B of diameter, and being provided with this energy dissipation piece 20 in the arc track 14A of dimple 11A, this energy dissipation piece 20 is formed at the sticky stuff coating layer 21 of each arc track 14A place perisporium by dimple 11A for one deck in this preferred embodiment.

Please refer to Fig. 5, it is the 5th preferred embodiment, each embedding seat 12A in first preferred embodiment is made as the second embedding seat 12C of thinner thickness, and being provided with this energy dissipation piece 20 in the groove 13A of dimple 11A, this energy dissipation piece 20 is formed at the sticky stuff coating layer 22 of groove 13A place wall by dimple 11A for one deck in this preferred embodiment.

Please refer to Fig. 6, it is the 6th preferred embodiment, each rotating shaft 16A in first preferred embodiment is made as the 3rd long rotating shaft 16C, and be provided with this energy dissipation piece 20 in the 3rd rotating shaft 16C, this energy dissipation piece 20 is a friction shim 23 in this preferred embodiment, this dimple 11A outer wall is stretched out at the two ends of each the 3rd rotating shaft 16C respectively, and wear this friction shim 23 respectively in two ends, and each is locked respectively by each the 3rd rotating shaft 16C two ends with two nuts 24, each friction shim 23 is resisted against the outer wall of this dimple 11A.

Please refer to Fig. 7 again, it is the 7th preferred embodiment, each rotating shaft 16A in first preferred embodiment is made as the 4th less rotating shaft 16D of diameter, and being provided with this energy dissipation piece 20 in the 4th rotating shaft 16D, this energy dissipation piece 20 coats the sticky stuff coating layer 25 of the 4th rotating shaft 16D side face for one deck in this preferred embodiment.

More than the energy dissipation piece 20 of the 4th to the 7th preferred embodiment aspect is set can applies to alternately in first preferred embodiment, and equally also can be used in second and third preferred embodiment, narrate owing to the utilization means are identical numerous and diverse, so do not give unnecessary details at this.

Please refer to shown in Figure 8, it is the 8th preferred embodiment, shock-absorbing and energy-dissipating device of the present invention comprises the aspect of three sliding units, one of them sliding unit is improved slip unit 10C, each sliding unit 10C, the setting of 10A is divided into two-layer, with a segment distance two the sliding unit 10A that be arranged in parallel of being separated by of lower floor, another improved slip unit 10C is located on the top one-tenth of below two sliding unit 10A, two-layer staggered down, the mode that below two sliding unit 10A are provided with as hereinbefore, but the set-up mode of improved slip unit 10C is slightly different with aforementioned sliding unit 10A, it is provided with a dimple 11B, one embedding seat 12C, more than one rotating shaft 16A, in the figure of this preferred embodiment, be provided with two, wherein:

The section of this dimple 11B becomes ㄩ shape, and in wherein forming groove 13B one, quantity in the corresponding rotating shaft of this dimple 11B forms a pair of arc track 14A that forms with this road, upper edge groove 13B, each is formed at the both sides of this road groove 13B and relatively by this dimple 11B respectively to arc track 14A, and each arc track 14A is shaped as protruding in towards the opposite direction of this groove 13B opening;

The certain thickness rectangle plate body of this embedding seat 12C tool, it becomes the vertical cooperation of inlaying with the groove 13B that long leg part wherein is embedded at this dimple 11B with this dimple 11B, and this embedding seat 12C is to should each respectively forming a locating hole 15A to arc track 14A;

Each rotating shaft 16A passes each to arc track 14A and each locating hole 15A and establish.

Top and each sliding unit 10C, 10A of below interconnect with the one side that each dimple 11B, 11A do not form groove 13B, 13A and arc track 14A respectively, and in the embedding seat 12C outer end of top sliding unit 10C horizontal plane in conjunction with a horizontal top plate 30B, the embedding seat 12A outer end horizontal plane of each sliding unit 10A is simultaneously in conjunction with a horizonal base plate 31B in the below, and, form one deck sticky stuff coating layer 32B in this base plate bottom surface 31B in this top board 30B end face formation one deck sticky stuff coating layer 32B;

In the 8th preferred embodiment, below two sliding unit 10A also replaceable are that two improved slip unit 10C are provided with.

In addition, the set-up mode of each sliding unit 10C, 10A also can be in the same way and to be provided with, and the embedding seat 12A outer end horizontal plane that does not form each sliding unit 10A of one side and below of groove 13B and arc track 14A with the dimple 11B of top sliding unit 10C is connected respectively; Perhaps each embedding seat 12C, 12A are also replaceable be as second preferred embodiment in the embedding seat 12B of improvement, and the combination of upper strata, lower floor each sliding unit 10C, 10A is connected with the embedding seat 12A outer end horizontal plane of each sliding unit 10A of lower floor as the embedding seat 12C outer end horizontal plane with upper strata sliding unit 10C as the 3rd preferred embodiment;

Similarly, the energy dissipation piece 20 of the 4th to seven preferred embodiment is provided with on the enforcement aspect of embedding seat 10C that aspect also can apply to the 8th preferred embodiment and replacement improvement thereof alternately.

The present invention is with each sliding unit that is crisscross arranged up and down, its each relatively level and the vertical motion of staggering reach the object of the invention, and the arc track that will be arranged at dimple is arranged at the embedding seat, and the locating hole of being located on the embedding seat is arranged on the dimple, can be effective equally, below with the embodiment explanation.

Please refer to the 9th preferred embodiment of Fig. 9, it is provided with the 3rd preferred embodiment of Fig. 3 roughly the same, therefore only narrate the difference of two embodiment below, remainder repeats no more, difference is in the 9th preferred embodiment that its each sliding unit 10B is again improved slip unit 10D, and it respectively also has the embedding seat 12B and a rotating shaft 16A of a dimple 11A, an improvement, but the set-up mode of improved slip unit 10D is slightly different with aforementioned sliding unit 10B again, wherein:

The section of this dimple 11A becomes ㄩ shape, and in wherein forming groove 13A one, forms a locating hole 15B who forms for this road groove 13A in this dimple 11A, and each is formed at the both sides of this road groove 13A and relatively by this dimple 11A respectively to locating hole 15B;

The section of the embedding seat 12B of this improvement becomes the plate body of T shape, in addition, it also can be the rectangle plate body, the groove 13A that long leg part of the end that it protrudes out with central authorities is embedded at this dimple 11A becomes the vertical cooperation of inlaying with this dimple 11A, the embedding seat 12B of this improvement is to should each forming an arc track 14B to locating hole 15B, this arc track 14B is an arcuate socket, and this arc track 14B is shaped as protruding in the direction towards this groove 13A opening;

This rotating shaft 16A passes each arc track 14B and each is established locating hole 15B.

In this preferred embodiment, but the sliding unit 10D of levels also upper-lower position exchange and have a said function.

Similarly, the energy dissipation piece 20 of the 5th to seven preferred embodiment is provided with aspect and can applies in the 9th preferred embodiment alternately, and energy dissipation piece 20 is located at arc track 14A as the 4th preferred embodiment, can be used in the 9th embodiment equally, but pattern is slightly different, be provided with this energy dissipation piece 20 in the arc track 14B of embedding seat 12B, this energy dissipation piece 20 is one deck sticky stuff coating layer and the perisporium that is formed at arc track 14B place by embedding seat 12B.

Please refer to the tenth preferred embodiment, it is a shock-absorbing and energy-dissipating device of the present invention, comprise a time improved slip unit 10E and two aspect of improved slip unit 10D again, each sliding unit 10E, the setting of 10D is divided into two-layer, with a segment distance two the improved slip unit 10D again that be arranged in parallel of being separated by of lower floor, on another time improved slip unit 10E is located at below two top of improved slip unit 10D becomes again, two-layer staggered down, the set-up mode of inferior improved slip unit 10E is slightly different with the aforementioned unit 10D of improved slip again, it is provided with a dimple 11B, one embedding seat 12D and more than one rotating shaft 16A, in the figure of this preferred embodiment, be provided with two, wherein:

The section of this dimple 11B becomes ㄩ shape, and in wherein forming groove 13B one, form a pair of locating hole 15B that forms with this road, upper edge groove 13B in this dimple 11B is corresponding, each is formed at the both sides of this road groove 13B and relatively by this dimple 11B respectively to locating hole 15B;

This embedding seat 12D is the plate body that section becomes T shape, in addition, it also can be the rectangle plate body, the groove 13B that long leg part of the end that it protrudes out with central authorities is embedded at this dimple 11B becomes the vertical cooperation of inlaying with this dimple 11B, this embedding seat 12D be to should each forming an arc track 14B respectively to locating hole 15B, and each arc track 14B is that arcuate socket and shape are protruding in towards this groove 13B opening direction;

Each rotating shaft 16A passes each arc track 14B and each is established locating hole 15B;

Each sliding unit 10E, 10D are connected with the outer end horizontal plane of two embedding seat 12D, 12B respectively, and the dimple 11B on 10E top, above degree improved slip unit does not form the one side of groove 13B and locating hole 15B in conjunction with a horizontal top plate 30B, with below two again the dimple 11A of improved slip unit 10D bottom do not form the one side of groove 13A and locating hole 15B, simultaneously in conjunction with a horizonal base plate 31B.

In the tenth preferred embodiment, two of lower floor again improved slip unit 10D also replaceable be that two improved slip unit 10E are provided with, in addition, but levels sliding unit 10E, 10D also upper-lower position exchange, and have said function.

Similarly, the energy dissipation piece 20 of the 5th to seven preferred embodiment is provided with aspect and can applies in the tenth preferred embodiment alternately, and energy dissipation piece 20 is located at arc track 14A as the 4th preferred embodiment, can be used in the tenth embodiment equally, but pattern is slightly different, each arc track 14B in embedding seat 12D, 12B is provided with this energy dissipation piece 20, and this energy dissipation piece 20 is formed at each arc track 14B place perisporium for one deck sticky stuff coating layer and by this embedding seat 12D, 12B.

Above-mentioned disclosed technological means of the present invention; only in order to preferable enforcement state of the present invention to be described; but do not represent enforcement aspect of the present invention to be limited to above-mentioned disclosed preferred embodiment; to being familiar with the personage of this technology; according to the change on external form that the present invention does or the size in fact with the identical device of the disclosed technological means of the present invention, also should not be excluded from outside claims that the present invention desires to ask for protection.

Claims (12)

1. shock-absorbing and energy-dissipating device, it comprises the microscler sliding unit that can reset more than two after the slip of staggering relatively, each sliding unit is to be divided into two-layer above staggered folded mutually mode in conjunction with setting, and each sliding unit comprises that a dimple, inlays an embedding seat and a rotating shaft that cooperates with this dimple, it is characterized in that:

Described dimple is microscler and in wherein forming groove one, form a pair of arc track in this dimple, this is arcuate socket and the protruding direction of inlaying towards this dimple to this embedding seat that is positioned at the both sides of this road groove to arc track, described embedding seat is microscler and is partially submerged into this road groove and to should being provided with a locating hole to arc track, and described rotating shaft is passed this is subjected to this locating hole to arc track and this locating hole location and this restraint to arc track with rotatable kenel.

2. shock-absorbing and energy-dissipating device as claimed in claim 1, wherein, described sliding unit is provided with two, and builds up the mode of an angle mutually in conjunction with setting to be divided into upper and lower two-layer interlocking.

3. shock-absorbing and energy-dissipating device as claimed in claim 2, wherein, the sliding unit top, upper strata in described two sliding units is in conjunction with a top board, and the lower floor sliding unit bottom in two sliding units is in conjunction with a base plate.

4. shock-absorbing and energy-dissipating device as claimed in claim 1, wherein, described sliding unit is provided with more than three, and to be divided into upper and lower two-layer staggered folded mutually mode in conjunction with setting, wherein two above sliding units are located at lower floor and are separated by a segment distance and be arranged in parallel, remaining sliding unit is that the upper strata and the segment distance of being separated by be arranged in parallel, and staggered folding mutually in the top of lower floor's sliding unit.

5. shock-absorbing and energy-dissipating device as claimed in claim 4, wherein, the sliding unit top, upper strata in described three above sliding units is simultaneously in conjunction with a top board, and the bottom of the lower floor's sliding unit in three above sliding units is simultaneously in conjunction with a base plate.

6. as claim 1 to 5 wherein arbitrary described shock-absorbing and energy-dissipating device, wherein, wherein at least one is provided with an energy dissipation piece in described dimple, described embedding seat and described rotating shaft.

7. shock-absorbing and energy-dissipating device as claimed in claim 6, wherein, described energy dissipation piece is to be located at the friction shim at described rotating shaft two ends, each pad and against the outside wall surface of described dimple.

8. as claim 6 a wherein said shock-absorbing and energy-dissipating device, wherein, described energy dissipation piece is formed at one deck sticky stuff coating layer of described dimple groove wall.

9. shock-absorbing and energy-dissipating device as claimed in claim 6, wherein, described energy dissipation piece is for being formed at one deck sticky stuff coating layer of described arc track place perisporium by described dimple.

10. shock-absorbing and energy-dissipating device as claimed in claim 6, wherein, described energy dissipation piece is one deck sticky stuff coating layer that is formed at described rotating shaft perisporium.

11., wherein, form one deck sticky stuff coating layer more than one of them in described top board end face and described base plate bottom surface as claim 3 or 5 described shock-absorbing and energy-dissipating devices.

12. as claim 4 or 5 described shock-absorbing and energy-dissipating devices, wherein, described levels sliding unit, its levels position can be changed mutually.

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