CN100516395C - Hyperbolic vibrating insulating energy dissipation apparatus - Google Patents

Abstract

The hyperbolic shock insulating energy dissipater includes mainly one set of parallel separated base plates and bearing plates, and crossed tracks connected through connectors. It has hyperbolic hole and sliding shaft structures for locating and limiting in the connection parts. The present invention has shock insulating design and selective dampers, and thus can insulate horizontal and vertical vibration energy transfer and absorb vibration energy in simplified structure and reduced size.

Description

Hyperbolic vibrating insulating energy dissipation apparatus

Technical field

The present invention relates to a kind of can absorption or the shock-absorbing and energy-dissipating device of elimination of level and vertical vibration energy, refer to the hyperbolic vibrating insulating energy dissipation apparatus that a kind of height is low and apply easily especially.

Background technology

At the shockproof problem of high building building and the various demands such as vibration damping problem of precise electronic facility, the present inventor's development and Design successively goes out such as TaiWan, China patent announcement M259021 number " shock absorbing device of building ", bulletin M259087 number " isolator ", application No. 93213448 " isolator " and applies for the shock-absorbing and energy-dissipating device that No. 93129002 patent cases such as " shock-absorbing and energy-dissipating devices " is disclosed, and provides building dealer and equipment vendors effectively to solve the industry demand of various shockproof and vibration dampings.

Wherein, as the disclosed shock-absorbing and energy-dissipating device of No. 93129002 " shock-absorbing and energy-dissipating device " patent of invention of TaiWan, China case (to call in the following text) with reference to case, it comprises more than two respectively mode with two-layer stacked mistake up and down in conjunction with the microscler sliding unit that is provided with, each microscler sliding unit comprises a dimple and an embedding seat, dimple is that vertical inlaying cooperates with the embedding seat, and be provided with the locating hole of a level in one of them, be provided with and the corresponding arc slide opening in horizontal location hole in another person, be subjected to the restriction of each arc slide opening and each locating hole more simultaneously with a rotating shaft, locate and pass dimple and embedding seat, the while is in dimple, at least one of embedding seat and rotating shaft is provided with damping unit; So, utilize the design that dimple and embedding seat can relative motion, allow wholely when being vibrated, can produce relative level and vertical moving and isolated transfer of vibration, and absorb the vibration energy that level and vertical direction are transmitted effectively with damping unit, reach the practical effect of vibration damping and energy dissipating.

Though with reference to the disclosed shock-absorbing and energy-dissipating device of case, can provide shock insulation, effect such as vibration damping and energy dissipating, but as with reference to the disclosed shock-absorbing and energy-dissipating device of case, owing to only be provided with the arc slide opening in one of them of dimple or embedding seat, not only Zheng Ti composition member is more, structure is comparatively complicated, equipment cost is higher, and if reach certain cushioning stroke and energy dissipating usefulness, the height that the length of each arc slide opening must be made as than elongated attitude and each sliding unit can't reduce, cause the whole device can't miniaturization, cause shock-absorbing and energy-dissipating device in inconvenience and the restriction implemented in the utilization.

Summary of the invention

For solving existing shock-absorbing and energy-dissipating device relevant for forming that member is more, device is highly higher and being difficult to scarce fraud and restriction such as further miniaturization, inventor's development and Design goes out the hyperbolic vibrating insulating energy dissipation apparatus of a kind of effectively simplified construction, reduction device height and volume.

Main purpose of the present invention is to provide a kind of hyperbolic vibrating insulating energy dissipation apparatus, it mainly is directly to utilize to be the frame rail that staggered attitude is provided with more than a pair of, staggered position binding in two frame rails is provided with a hookup mechanism, be provided with one group of arc slide opening that the concave arc direction is opposite in relative between hookup mechanism and each frame rail, organize corresponding arc slide opening respectively is equipped with one and is subjected to the slide-bar of arc slide opening restraint and location in each, cooperation can be optionally in substrate, slide-bar, damping unit between hookup mechanism and the board, not only can intercept the transmission of level and vertical vibration energy and absorb vibrational energy, and can reach to simplify and form structure, reduce device height and reduction device volume, effectively promote the practical usefulness of shock-absorbing and energy-dissipating device.

Based on aforementioned purpose, the technological means that the present invention used is to provide a kind of hyperbolic vibrating insulating energy dissipation apparatus, it is provided with and is a substrate and the board that parallel interval is provided with, between the face of plate in opposite directions of this substrate and this board, be provided with and be the frame rail that staggered attitude is provided with more than one group, between the staggered position of two frame rails, be provided with a hookup mechanism, bond sites respectively at this hookup mechanism and each frame rail, each is corresponding to be provided with one group of recess and to be the arc slide opening that rightabout is provided with, and organizes corresponding arc slide opening and respectively is equipped with a slide-bar and forms location and restraint in each.

Preferable, the present invention can organize the frame rails that are latticed staggered kenel setting with relative being provided with of the face of plate in opposite directions of board in substrate more, each frame rail can be made as the staggered kenel of tool one angle, and optionally links between the staggered position of each frame rail and be provided with hookup mechanism.

Preferable, frame rail of the present invention can be provided with and be the tabular rail body of bar, is provided with the arc slide opening of a recess direction towards hookup mechanism mid-plane direction in the coupling position of rail body and hookup mechanism; Respectively be provided with a caulking groove that can be embedded in the rail body respectively relatively accordingly in the upper and lower position of hookup mechanism, hookup mechanism also is being positioned at the plate face of caulking groove both sides, respectively is provided with a recess towards the arc slide opening in contrast to hookup mechanism mid-plane direction.

Preferable, frame rail of the present invention is concaved with a rail groove, and the bond sites of hookup mechanism is embedded at the rail groove, and frame rail respectively is provided with the arc slide opening of a recess towards this hookup mechanism mid-plane direction at the plate face that is positioned at rail groove both sides.

Preferable, the present invention is provided with a damping unit more than one of them of substrate, hookup mechanism, slide-bar and board, and this damping unit can be located between plate face, slide-bar end points and the hookup mechanism of plate face, board of substrate or between frame rail and the hookup mechanism; Moreover this damping unit can be elastic rubber layer or friction shim, and this elastic rubber layer can be in conjunction with the positions such as outside of the hole wall of being located at the arc slide opening or slide-bar.

Hyperbolic vibrating insulating energy dissipation apparatus provided by the present invention, advantage that can obtain and effect enhancement comprise at least:

1, the present invention is between the frame rail that is staggered attitude setting, directly form two groups and be the hyperbolic formula binding structure that staggered direction is provided with hookup mechanism, allow board and substrate can carry out relatively moving of level and vertical direction, and after relatively moving, keep in the center automatically, the cooperation selectivity is located at the damping unit between the member, can intercept the transmission of level and vertical vibration energy effectively and absorb vibrational energy, satisfy building dealer or equipment vendors demand relevant for various shockproof and vibration dampings.

2, hyperbolic vibrating insulating energy dissipation apparatus provided by the present invention can change the cooperation quantity of interlaced frame rail group number and hookup mechanism flexibly, fully satisfies the demand of various different use occasions or environment, and it is convenient very flexibly to implement utilization.

3, the present invention is between the frame rail that is staggered attitude setting, directly form the binding structure of hyperbolic formula with hookup mechanism, not only can simplify effectively and form structure, reduce the device height and length, and can allow the easier assembling of hyperbolic vibrating insulating energy dissipation apparatus and applying.

4, hyperbolic vibrating insulating energy dissipation apparatus provided by the present invention, utilize corresponding hyperbolic formula arc slide opening structure, cooperate the slide-bar that is arranged between the two, sizable stroke that moves horizontally can be provided, under same size condition, the present invention can provide than with reference to the effect that moves about the case twice, effectively reaches the usefulness of reducing device volume.

5, the present invention possesses the action function of damper, effectively with the vibrational energy of building, bridge, plant and instrument, wafer process equipment, converts the functional effect of the kinergety of hookup mechanism to.

Description of drawings

Fig. 1 is the perspective view of the invention process utilization.

Fig. 2 is the perspective view of the present invention's first preferred embodiment.

Fig. 3 is the perspective view of the present invention's second preferred embodiment.

Fig. 4 is the perspective view of the present invention's the 3rd preferred embodiment.

Fig. 5 is the perspective view of the present invention's the 4th preferred embodiment.

Fig. 6 is the perspective view of the present invention's the 5th preferred embodiment.

Fig. 7 is the perspective view of the present invention's the 6th preferred embodiment.

The critical element symbol description

10...... substrate 11...... frame rail

112...... rail body 114...... rail groove

20...... board 21...... frame rail

212...... rail body 214...... rail groove

40...... damping unit 41...... friction shim

22,22A...... arc slide opening 12,12A...... arc slide opening

30,30A...... hookup mechanism 31A, 31B...... caulking groove

32A, 32B...... arc slide opening 33A, 33B...... slide-bar

The specific embodiment

Being can detail knowledge technical characterictic of the present invention and practical effect, and can implement according to the content of manual, further with as the preferred embodiment shown in graphic, describes in detail as the back now:

The present invention applies to building for a kind of can the installing, bridge, plant and instrument, hyperbolic vibrating insulating energy dissipation apparatus between the bottom of wafer process equipment or the fabric structure body, the present invention does not do specific restriction, as Fig. 1, shown in 2, the present invention includes and be a substrate 10 and the board 20 that parallel interval is provided with, between the face of plate in opposite directions of this substrate 10 and this board 20, be provided with and be the frame rail 11 that staggered attitude is provided with more than one group, 21, in two corresponding frame rails 11, be provided with a hookup mechanism 30 between 21 the staggered position, respectively at this hookup mechanism 30 and each frame rail 11,21 bond sites, each is corresponding to be provided with one group of recess and to be the arc slide opening 32A that rightabout is provided with, 12,32B, 22, and organize corresponding arc slide opening 32A in each, 12,32B, 22 respectively are equipped with a slide-bar 33A, 33B and form the location and restraint, simultaneously can be optionally in substrate 10, hookup mechanism 30, slide-bar 33A, between 33B and the board 20, the damping unit 40 of tool elastic damping effect is set;

So, when earthquake taking place or be subjected to vibration does the time spent, utilize between substrate 10 and hookup mechanism 30 and hookup mechanism 30 and the board 20, utilize hyperbolic formula arc slide opening 32A, 12,32B, 22 to cooperate slide-bar 33A, the spacing formed level of 33B and height displacement, can completely cut off earthquake or transfer of vibration effectively, reach the usefulness of shock insulation, vibration damping and energy dissipating, and after external force effects such as earthquake or vibration finish, utilize hyperbolic formula arc slide opening 32A, 12,32B, 22 correspondence effect, can allow slide- bar 33A, 33B automatically revert to initial desired location.

Referring to the present invention's first preferred embodiment shown in Fig. 1,2, this hyperbolic vibrating insulating energy dissipation apparatus is provided with a substrate 10 and the board 20 that parallel interval is provided with, be the frame rail 11,21 that staggered attitude is provided with in substrate 10 more than one group with relative being provided with of the face of plate in opposite directions of board 20, and binding is provided with a hookup mechanism 30 between the staggered position of two frame rails 11,21; Wherein,

Aforesaid substrate 10 is provided with a flat type frame rail 11 that supplies hookup mechanism 30 to be assembled in the epipleural face towards board 20, be provided with one in this frame rail 11 and be the tabular rail body 112 of bar, and in the coupling position of rail body 112 with hookup mechanism 30, each corresponding arc slide opening 12 that is provided with a recess direction towards hookup mechanism 30 mid-plane directions (being board 20 directions), can be provided with the damping unit 40 of a tool elastic damping effect simultaneously in the lower side panel face combination of substrate 10, this damping unit 40 can be by elastic caoutchouc, stickiness elastomeric material (viscoelastic materials), the preferable material of frictional property material (frictional materials) or damped coefficient (Damping coefficient) is made, and damping unit 40 as shown in the figure is an elastic rubber layer;

Aforesaid board 20 is provided with a flat type frame rail 21 that supplies hookup mechanism 30 to be assembled in the lower side panel face towards substrate 10, be provided with one in this frame rail 21 and be the tabular rail body 212 of bar, and be provided with the arc slide opening 22 of a recess direction towards hookup mechanism 30 mid-plane directions (being substrate 10 directions) in the coupling position of rail body 212 and hookup mechanism 30, be provided with the damping unit 40 of a tool elastic damping effect again in the epipleural face combination of board 20, this damping unit 40 can be by elastic caoutchouc, the stickiness elastomeric material, the preferable material of frictional property material or damped coefficient is made, and damping unit 40 as shown in the figure is an elastic rubber layer;

Aforesaid hookup mechanism 30 can be made as block kenel as shown in the figure, following in hookup mechanism 30, the upper part respectively is provided with one can be embedded in frame rail 11 respectively relatively, 21 set rail bodies 112,212 caulking groove 31A, 31B, and corresponding to frame rail 11,21 set arc slide openings 12,22, hookup mechanism 30 is being positioned at caulking groove 31A, each corresponding recess that is provided with of the plate face of 31B both sides is towards rightabout arc slide opening 32A, 32B, promptly be positioned at the substrate 10 of recess direction below being positioned at of the arc slide opening 32A of below, be positioned at the board 20 of recess direction above being positioned at of the arc slide opening 32B of top;

Brought forward is described, in corresponding arc slide opening 32A, 12 and arc slide opening 32B, 22, be equipped with one respectively and be subjected to slide-bar 33A, the 33B of arc slide opening 32A, 12,32B, 22 restraints and location, allow each group form the arc slide opening 32A, 12 and arc slide opening 32B, 22 of hyperbolic formula design, can utilize the restraint of each slide- bar 33A, 33B to form relative displacement, and can be covered with the damping unit 40 of a tool elastic damping effect in the external packets of slide- bar 33A, 33B, damping unit 40 as shown in the figure is the elastic caoutchouc clad;

So, when external force effects such as earthquake or vibration take place, hyperbolic formula arc slide opening 32A, 12,32B, 22 designs between substrate 10, hookup mechanism 30 and the board 20 are located in utilization, can utilize the effect that relative horizontal movement and lifting produced of substrate 10 and board 20, isolated effectively earthquake or transfer of vibration, reach the usefulness of shock insulation, vibration damping and energy dissipating, and the present invention can further utilize the damping unit 40 of being located at substrate 10 and board 20 in time to absorb the vibrational energy of vertical direction, is provided in the shock-absorbing and the vibration damping usefulness of vertical direction.

After external force effects such as earthquake or vibration finish, utilize arc slide opening 32A, 12, the 32B, 22 and the design of slide- bar 33A, 33B of hyperbolic formula, substrate 10, board 20 and hookup mechanism 30 can automatically revert to the most stable initial, set position.

Please referring to the present invention shown in Figure 3 second preferred embodiment, this embodiment covers in the external packets of slide- bar 33A, 33B and puts damping unit, also can be provided with in the internal face of upper and lower caulking groove 31A, the 31B of hookup mechanism 30 one can for frame rail 11,21 against damping unit 40, this damping unit 40 is made of flexible material and cushioning effect can be provided.

Please referring to the present invention shown in Figure 4 the 3rd preferred embodiment, this embodiment is made as the bolt kenel with slide- bar 33A, 33B, and in the two ends of each slide- bar 33A, 33B, respectively be provided with damping unit 40, in this preferred embodiment, this damping unit 40 is a friction shim 41, the outer wall of this arc slide opening 32A, 32B is stretched out at the two ends of each slide- bar 33A, 33B respectively, and in two ends respectively in conjunction with being provided with a friction shim 41, and each screws togather fixingly respectively by the two ends of each slide- bar 33A, 33B with two nuts, allows each friction shim 41 be resisted against the outer wall of arc slide opening 32A, 32B.

Please referring to the present invention shown in Figure 5 the 4th preferred embodiment, this embodiment is the enforcement kenel that frame rail 11,21 is made as the T font.

Please referring to the present invention shown in Figure 6 the 5th preferred embodiment, this embodiment is with frame rail 11,21 are made as tool rail groove 114,214 microscler frame rail kenel, and frame rail 11,21 are being positioned at rail groove 114, the plate face of 214 both sides respectively is provided with an arc slide opening 12A in order to link with hookup mechanism 30,22A, and in each frame rail 11,21 hole wall is in conjunction with the damping unit 40 that is provided with the effect of one deck tool elastic damping, this damping unit 400 can be by elastic caoutchouc, the stickiness elastomeric material, the preferable material of frictional property material or damped coefficient is made, and damping unit 40 as shown in the figure is an elastic rubber layer;

This embodiment is made as the block kenel with hookup mechanism 30A, and corresponding to frame rail 11,21 set arc slide opening 12A, 22A, hookup mechanism 30A is being embedded at rail groove 114,214 following, the upper part, each corresponding recess that is provided with is towards rightabout arc slide opening 32A, 32B, promptly be positioned at the substrate 10 of recess direction below being positioned at of the arc slide opening 32A of below, be positioned at the board 20 of recess direction above being positioned at of the arc slide opening 32B of top, again in corresponding arc slide opening 32A, 12A and arc slide opening 32B, 22A is equipped with one respectively and is subjected to arc slide opening 32A, 12A, 32B, the slide-bar 33A of 22A restraint and location, 33B.

Please referring to the present invention shown in Figure 7 the 6th preferred embodiment, the structure kenel of this embodiment is approximately identical to aforementioned embodiment as shown in Figure 6, this embodiment directly adopts to be same as the hookup mechanism 30 of embodiment as shown in Figure 2, and promptly the upper and lower part in hookup mechanism 30 is provided with caulking groove 31A, 31B.

But the above only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, have in the technical field under any and know the knowledgeable usually, if in the scope that does not break away from technical solution of the present invention, utilize disclosed technology contents to do the local equivalent embodiment that changes or modify, and do not break away from technical scheme content of the present invention, all still belong in the scope of technical solution of the present invention.

Claims (31)

1, a kind of hyperbolic vibrating insulating energy dissipation apparatus, it is characterized in that: be provided with the substrate and the board that are the parallel interval setting, between the face of plate in opposite directions of this substrate and this board, be provided with and be the frame rail that staggered attitude is provided with more than one group, between the staggered position of two frame rails, be provided with a hookup mechanism, and respectively at the bond sites of this hookup mechanism and each frame rail, each is corresponding to be provided with one group of recess and to be the arc slide opening that rightabout is provided with, and organizes corresponding arc slide opening and respectively is equipped with a slide-bar and forms location and restraint in each.

2, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 1, it is characterized in that: be provided with many groups and be the described frame rail that latticed staggered kenel is provided with in the face of plate in opposite directions of described substrate and board is relative, and optionally between the staggered position of each frame rail, link and be provided with described hookup mechanism.

3, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 2 is characterized in that: described frame rail is made as the staggered kenel of tool one angle.

4, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 3, it is characterized in that: be provided with one in described frame rail and be the tabular rail body of bar, be provided with the arc slide opening of a recess direction towards this hookup mechanism mid-plane direction in the coupling position of this rail body and described hookup mechanism.

5, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 4, it is characterized in that: described hookup mechanism is made as the block kenel, respectively be provided with a caulking groove that is embedded in the set rail body of corresponding frame rail respectively relatively in the upper and lower position of this hookup mechanism, this hookup mechanism respectively is provided with a recess towards the arc slide opening in contrast to this hookup mechanism mid-plane direction accordingly at the plate face that is positioned at described caulking groove both sides.

6, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 5 is characterized in that: described frame rail is made as T font attitude.

7, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 5 is characterized in that: described slide-bar is made as the bolt kenel.

8, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 3, it is characterized in that: described frame rail is concaved with a rail groove, the bond sites of described hookup mechanism is embedded at this rail groove, and this frame rail respectively is provided with the arc slide opening of a recess towards this hookup mechanism mid-plane direction at the plate face that is positioned at these rail groove both sides.

9, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 8 is characterized in that: described slide-bar is made as the bolt kenel.

10, as claim 1 to 9 each described hyperbolic vibrating insulating energy dissipation apparatus wherein, it is characterized in that: more than one of them of described substrate, hookup mechanism, slide-bar and board, be provided with a damping unit.

11, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 10 is characterized in that: the plate face combination in described substrate is provided with described damping unit.

12, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 10 is characterized in that: the plate face combination in described board is provided with described damping unit.

13, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 10 is characterized in that: be provided with described damping unit in combining between described frame rail and the hookup mechanism.

14, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 10 is characterized in that: be provided with damping unit between the outer wall of at least one end of described slide-bar and arc slide opening.

15, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 10 is characterized in that: described damping unit is an elastic rubber layer.

16, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 15 is characterized in that: the hole wall combination in described arc slide opening is provided with described elastic rubber layer.

17, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 15 is characterized in that: the external packets in described slide-bar is covered with described elastic rubber layer.

18, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 1, it is characterized in that: be provided with one in described frame rail and be the tabular rail body of bar, be provided with the arc slide opening of a recess direction towards this hookup mechanism mid-plane direction in the coupling position of this rail body and described hookup mechanism.

19, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 18, it is characterized in that: described hookup mechanism is made as the block kenel, respectively be provided with a caulking groove that is embedded in the set rail body of corresponding frame rail respectively relatively in the upper and lower position of this hookup mechanism, this hookup mechanism respectively is provided with a recess towards the arc slide opening in contrast to this hookup mechanism mid-plane direction accordingly at the plate face that is positioned at described caulking groove both sides.

20, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 19 is characterized in that: described frame rail is made as T font attitude.

21, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 19 is characterized in that: described slide-bar is made as the bolt kenel.

22, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 1, it is characterized in that: described frame rail is concaved with a rail groove, the bond sites of described hookup mechanism is embedded at this rail groove, and this frame rail respectively is provided with the arc slide opening of a recess towards this hookup mechanism mid-plane direction at the plate face that is positioned at these rail groove both sides.

23, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 22 is characterized in that: described slide-bar is made as the bolt kenel.

24, as claim 18 to 23 each described hyperbolic vibrating insulating energy dissipation apparatus wherein, it is characterized in that: more than one of them of described substrate, hookup mechanism, slide-bar and board, be provided with a damping unit.

25, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 24 is characterized in that: the plate face combination in described substrate is provided with described damping unit.

26, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 24 is characterized in that: the plate face combination in described board is provided with described damping unit.

27, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 24 is characterized in that: be provided with described damping unit in combining between described frame rail and the hookup mechanism.

28, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 24 is characterized in that: be provided with damping unit between the outer wall of at least one end of described slide-bar and arc slide opening.

29, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 24 is characterized in that: described damping unit is an elastic rubber layer.

30, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 29 is characterized in that: the hole wall combination in described arc slide opening is provided with described elastic rubber layer.

31, hyperbolic vibrating insulating energy dissipation apparatus as claimed in claim 29 is characterized in that: the external packets in described slide-bar is covered with described elastic rubber layer.

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