CN209653122U - A kind of building facility aseismatic bearing - Google Patents

Abstract

The utility model discloses a kind of building facility aseismatic bearings, including pedestal, shock-damping structure is equipped in the pedestal, the circular cavity A is four and is uniformly opened in the rectangular cavity B in lower surface, the round hole A, which runs through, is opened in upper surface in the circular cavity A, the rectangular block B movable set is in the rectangular cavity B, before the circular trough B quantity is four and is opened in the rectangular cavity C respectively, interior opposite sides surface afterwards, the damping spring C is sleeved in the circular trough B, the rectangular block C movable set is in the rectangular cavity C and damping spring C withstands on the rectangular block C Surface, the draw runner B is connected to the rectangular block C opposite sides surface and sliding is inlaid in the sliding groove B, the upper surface the rectangular block C is connected with supporting plate.The utility model shock resistance is higher, and damping effect is obvious when the transverse shifting of back and forth or left and right in vibration, effectively prevents building from collapsing or damaging in vibration.

Description

A kind of building facility aseismatic bearing

Technical field

The utility model relates to a kind of building aseismicity facility technology fields, more particularly, to a kind of building facility antidetonation branch Seat.

Background technique

Building is the general name of building and structures.It is people to meet social life needs, utilizes grasped object Matter technological means, and the artificial environment created with certain scientific law, geomantic omen theory and aesthetic principle, some classification in order to Usability is clearly expressed, the non-architectural structures object that can not occupy for a long time building and people is distinguished, in addition some building scholars Also for avoiding confusion, and deliberately " build wherein by people there is consciousness to create the building come and be subdivided into external form Build ", it should be noted that, building, which may also can be extended to, sometimes forgives " non-building structures ", such as bridge, pylon, tunnel Road etc..

Current existing construction bottom requires installation aseismatic bearing and carries out earthquake resistant construction, especially earthquake integrated distribution Area much all takes effective earthquake resistant constructions such as rigid, soft combination in civil engineering, increases the energy dissipation capacity of support, pole The big anti-seismic performance for improving support, therefore the shock resistance of building can be improved when earthquake generation.But existing antidetonation branch Seat shock resistance is lower, and anti seismic efficiency is unobvious in vibration or so or when the transverse shifting of front and back, it is therefore desirable to improve.

Utility model content

The technical problems to be solved in the utility model is to overcome existing defect, provides a kind of new building facility antidetonation branch Seat, to solve the above problems.

To achieve the above object, for first problem, the utility model is provided the following technical solutions: a kind of building facility Aseismatic bearing, including pedestal, the pedestal is interior to be equipped with shock-damping structure, and the shock-damping structure includes rectangular cavity A, sliding groove A, circle Slot A, damping spring A, rectangular block A, draw runner A, rectangular cavity B, circular cavity A, round hole A, rectangular block B, vertical bar A, damping spring B, rectangular channel A, tetrafluoro plate, rectangular cavity C, sliding groove B, circular trough B, damping spring C, draw runner B, rectangular block C and supporting plate, it is described Rectangular cavity A is opened in the base upper surface, and the sliding slot number is two and is opened in the forward and backward interior two sides table of the rectangular cavity A Face, the circular trough A quantity is four and is opened in the rectangular cavity A opposite sides inner surface respectively, and the damping spring A is set with In the circular trough A, the rectangular block A movable set is in the rectangular cavity A and the spring one end withstands on the rectangle The side surface block A, the draw runner A is connected to the rectangular block A front and rear sides surface and sliding is inlaid in the sliding groove A, institute It states rectangular cavity B and is opened in the upper surface the rectangular block A, the circular cavity A is four and is uniformly opened in lower surface in the rectangular cavity B It is interior, the round hole A through being opened in upper surface in the circular cavity A, the rectangular block B movable set in the rectangular cavity B, The vertical bar, which is connected to the lower surface the rectangular block B and passes through the round hole movable sleeve, to be turned in the circular cavity A, described Damping spring B is sleeved in the vertical bar, and the rectangular channel A is opened in lower surface in the rectangular cavity B, and the tetrafluoro plate is embedded in In the rectangular channel A, the rectangular cavity C is opened in the upper surface the rectangular block B, and the sliding groove B quantity is two and difference Be opened in the rectangular cavity C opposite sides surface, the circular trough B quantity be four and be opened in respectively the rectangular cavity C it is forward and backward in Opposite sides surface, the damping spring C are sleeved in the circular trough B, and the rectangular block C movable set is in the rectangular cavity In C and damping spring C withstands on the rectangular block C Surface, and the draw runner B is connected to the rectangular block C opposite sides surface and cunning Dynamic to be inlaid in the sliding groove B, the upper surface the rectangular block C is connected with supporting plate.

For above-mentioned Second Problem, the utility model also further provides solution party on the basis of above scheme Case, it further includes auxiliary support structure that this scheme, which is on the basis of above scheme, the auxiliary support structure include connecting rod, Arc groove, connection secondary bar, circular cavity B, round hole B, damping spring D, subplate and vertical bar B, the connecting rod quantity are two A and be connected to the rectangular block A opposite sides surface, the arc groove is opened in described connecting rod one end, the auxiliary connection In the arc groove, the circular cavity B is opened on the inside of the connection secondary bar lever pin axis connection, and the round hole B is opened in described Upper surface in circular cavity B, the damping spring D are sleeved in the circular cavity B, and the connection secondary bar upper end is equipped with subplate, institute Subplate lower surface is stated to be connected with vertical bar B and be sleeved in the circular cavity B across the round hole B.

Further, on the supporting plate and the subplate through be provided with several for fastening via hole.

Further, equal fixing sleeve is equipped with for limiting the damping spring B on the vertical bar A and vertical bar B With the limited block of the damping spring D.

Further, it is respectively connected on the rectangular block A and the rectangular block C for limiting the damping spring A and institute State the circular columns of damping spring C.

Further, opposite sides is provided with sliding slot in the rectangular cavity B.

Compared with prior art, the utility model has the beneficial effects that shock resistance is higher, and in vibration before and after or Damping effect is obvious when the transverse shifting of left and right, effectively prevents building from collapsing or damaging in vibration.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is a kind of structural schematic diagram of building facility aseismatic bearing；

It is as shown in the figure: 1, pedestal；2, rectangular cavity A；3, sliding groove A；4, circular trough A；5, damping spring A；6, rectangular block A； 7, draw runner A；8, rectangular cavity B；9, circular cavity A；10, round hole A；11, rectangular block B；12, vertical bar A；13, damping spring B；14, Rectangular channel A；15, tetrafluoro plate；16, rectangular cavity C；17, sliding groove B；18, circular trough B；19, damping spring C；20, draw runner B；21, Rectangular block C；22, supporting plate；23, connecting rod；24, arc groove；25, secondary bar is connected；26, circular cavity B；27, round hole B；28, damping Spring D；29, subplate；30, vertical bar B；31, via hole；32, limited block；33, circular columns；34, sliding slot.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment, based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

It please refers to shown in Fig. 1, the utility model provides a kind of technical solution: a kind of building facility aseismatic bearing, including Pedestal 1, the pedestal 1 is interior to be equipped with shock-damping structure, and the shock-damping structure includes rectangular cavity A2, sliding groove A3, circular trough A4, damping Spring A5, rectangular block A6, draw runner A7, rectangular cavity B8, circular cavity A9, round hole A10, rectangular block B11, vertical bar A12, damping bullet Spring B13, rectangular channel A14, tetrafluoro plate 15, rectangular cavity C16, sliding groove B17, circular trough B18, damping spring C19, draw runner B20, square Shape block C21 and supporting plate 22, the rectangular cavity A2 are opened in 1 upper surface of pedestal, and the sliding slot number is two and is opened in The forward and backward interior both side surface of rectangular cavity A2, the circular trough A4 quantity is four and to be opened in the rectangular cavity A2 respectively opposite Two sides inner surface, the damping spring A5 are sleeved in the circular trough A4, and the rectangular block A6 movable set is in the rectangle In chamber A2 and the spring one end withstands on the side surface the rectangular block A6, and it is forward and backward that the draw runner A7 is connected to the rectangular block A6 Both side surface and sliding be inlaid in the sliding groove A3, the rectangular cavity B8 is opened in the upper surface the rectangular block A6, the circle Shape chamber A9 is four and is uniformly opened in the rectangular cavity B8 in lower surface that the round hole A10, which runs through, is opened in the circular cavity Upper surface in A9, for the rectangular block B11 movable set in the rectangular cavity B8, the vertical bar is connected to the rectangular block It the lower surface B11 and passes through the round hole movable sleeve and turns in the circular cavity A9, the damping spring B13 is sleeved on described perpendicular On straight-bar, the rectangular channel A14 is opened in lower surface in the rectangular cavity B8, and the tetrafluoro plate 15 is inlaid in the rectangular channel A14 Interior, the rectangular cavity C16 is opened in the upper surface the rectangular block B11, and the sliding groove B17 quantity is two and is opened in respectively described Rectangular cavity C16 opposite sides surface, the circular trough B18 quantity are four and are opened in the forward and backward interior phase of the rectangular cavity C16 respectively To both side surface, the damping spring C19 is sleeved in the circular trough B18, and the rectangular block C21 movable set is in the square In shape chamber C16 and damping spring C19 withstands on the surface the rectangular block C21, and the draw runner B20 is connected to the rectangular block C21 phase To both side surface and sliding is inlaid in the sliding groove B17, and the upper surface the rectangular block C21 is connected with supporting plate 22.

It further include auxiliary support structure in the present embodiment on the basis of above-mentioned, the auxiliary support structure includes connection Bar 23, arc groove 24, connection secondary bar 25, circular cavity B26, round hole B27, damping spring D28, subplate 29 and vertical bar B30, 23 quantity of connecting rod is two and is connected to the rectangular block A6 opposite sides surface, and the arc groove 24 is opened in institute 23 one end of connecting rod is stated, 25 pin shaft of connection secondary bar is connected in the arc groove 24, and the circular cavity B26 is opened in the company 25 inside of secondary bar is connect, the round hole B27 is opened in upper surface in the circular cavity B26, and the damping spring D28 is sleeved on described In circular cavity B26,25 upper end of connection secondary bar is equipped with subplate 29, and 29 lower surface of subplate is connected with vertical bar B30 and wears The round hole B27 is crossed to be sleeved in the circular cavity B26.

In the present embodiment, the supporting plate 22 on the subplate 29 through be provided with several for fastening via hole 31； Equal fixing sleeve is equipped with for limiting the damping spring B13 and the damping bullet on the vertical bar A12 and vertical bar B30 The limited block 32 of spring D28；Be respectively connected on the rectangular block A6 and the rectangular block C21 for limit the damping spring A5 with The circular columns 33 of the damping spring C19；Opposite sides is provided with sliding slot 34 in the rectangular cavity B8.

When specifically used: by pedestal 1 be placed on ground by cement bury fasten, then by via hole 31 by supporting plate 22 with Subplate 29 is fastened on the building lower end for needing antidetonation, if subtracting in circular trough A4 when generating the cross force of front and back when shaking When shake one end spring A5 makes its shaking by withstanding rectangular block A6 by and the cross force that generates offset, and rectangular block A6 connection Draw runner A7 is slided in the sliding groove A3 in rectangular cavity A2, the damping when vibration generates the cross force of left and right in circular trough B18 When the one end spring C19 makes its shaking by withstanding rectangular block C21 by and the cross force that generates offset, and rectangular block C21 connection Draw runner B20 slided in the sliding groove B17 in rectangular cavity C16, the following table in rectangular cavity B8 when vibration generates downward longitudinal force It interacts and will exert oneself thereon between the limited block 32 on damping spring B13 and vertical bar A12 being set in the circular cavity A9 in face It offsets, and the both ends rectangular block B11 are slided in sliding slot 34, the tetrafluoro plate 15 when sliding into lower end in rectangular channel A14 contacts Rectangular block B11 prevents it from damaging and offsets a part of downward power, and subplate 29 has further been consolidated between support and building Connection, circular columns 33 limit the damping spring where it.

Finally, also it should be noted that the example above and explanation are also not limited to above-described embodiment, skill of the present invention without description Art feature can realize that details are not described herein by or using the prior art；Above embodiments and attached drawing are merely to illustrate this hair Bright technical solution is not limitation of the present invention, is described the invention in detail referring to preferred embodiment, this Field it is to be appreciated by one skilled in the art that those skilled in the art are made within the essential scope of the present invention Variations, modifications, additions or substitutions without departure from spirit of the invention, also should belong to claims of the invention, Illustrate again, above-described embodiment has been merely given as random having lifted a currently used embodiment.

Claims (6)

1. a kind of building facility aseismatic bearing, including pedestal (1), which is characterized in that shock-damping structure is equipped in the pedestal (1), The shock-damping structure includes rectangular cavity A (2), sliding groove A (3), circular trough A (4), damping spring A (5), rectangular block A (6), draw runner A (7), rectangular cavity B (8), circular cavity A (9), round hole A (10), rectangular block B (11), vertical bar A (12), damping spring B (13), Rectangular channel A (14), tetrafluoro plate (15), rectangular cavity C (16), sliding groove B (17), circular trough B (18), damping spring C (19), draw runner B (20), rectangular block C (21) and supporting plate (22), the rectangular cavity A (2) are opened in the pedestal (1) upper surface, the sliding groove Quantity is two and is opened in the forward and backward interior both side surface of rectangular cavity A (2), and circular trough A (4) quantity is four and difference It is opened in rectangular cavity A (2) the opposite sides inner surface, the damping spring A (5) is sleeved in the circular trough A (4), described Rectangular block A (6) movable set is in the rectangular cavity A (2) and the spring one end withstands on rectangular block A (6) side surface, institute State that draw runner A (7) is connected to rectangular block A (6) the front and rear sides surface and sliding is inlaid in the sliding groove A (3), it is described Rectangular cavity B (8) is opened in rectangular block A (6) upper surface, and the circular cavity A (9) is four and is uniformly opened in the rectangular cavity B (8) in interior lower surface, for the round hole A (10) through the interior upper surface of the circular cavity A (9) is opened in, the rectangular block B (11) is living Dynamic to be sleeved in the rectangular cavity B (8), the vertical bar is connected to (11) lower surface rectangular block B and passes through the circle Hole movable sleeve turns in the circular cavity A (9), and the damping spring B (13) is sleeved in the vertical bar, the rectangular channel A (14) it is opened in the interior lower surface of the rectangular cavity B (8), the tetrafluoro plate (15) is inlaid in the rectangular channel A (14), the rectangle Chamber C (16) is opened in rectangular block B (11) upper surface, and sliding groove B (17) quantity is two and is opened in the rectangle respectively Chamber C (16) opposite sides surface, circular trough B (18) quantity be four and be opened in respectively the rectangular cavity C (16) it is forward and backward in Opposite sides surface, the damping spring C (19) are sleeved in the circular trough B (18), rectangular block C (21) movable set In the rectangular cavity C (16) and damping spring C (19) withstands on rectangular block C (21) surface, and the draw runner B (20) is connected to Rectangular block C (21) the opposite sides surface and sliding is inlaid in the sliding groove B (17), table on the rectangular block C (21) Face is connected with supporting plate (22).

2. a kind of building facility aseismatic bearing according to claim 1, which is characterized in that it further include auxiliary support structure, The auxiliary support structure includes connecting rod (23), arc groove (24), connection secondary bar (25), circular cavity B (26), round hole B (27), damping spring D (28), subplate (29) and vertical bar B (30), connecting rod (23) quantity are two and are separately connected On rectangular block A (6) the opposite sides surface, the arc groove (24) is opened in the connecting rod (23) one end, the auxiliary connection Bar (25) pin shaft is connected in the arc groove (24), and the circular cavity B (26) is opened on the inside of the connection secondary bar (25), described Round hole B (27) is opened in the interior upper surface of the circular cavity B (26), and the damping spring D (28) is sleeved on the circular cavity B (26) Interior, the connection secondary bar (25) upper end is equipped with subplate (29), and subplate (29) lower surface is connected with vertical bar B (30) and passes through The round hole B (27) is sleeved in the circular cavity B (26).

3. a kind of building facility aseismatic bearing according to claim 2, which is characterized in that the supporting plate (22) and the pair On plate (29) through be provided with several for fastening via hole (31).

4. a kind of building facility aseismatic bearing according to claim 1 to 2, which is characterized in that the vertical bar A (12) with fixing sleeve on the vertical bar B (30) equipped with for limiting the damping spring B (13) and the damping spring D (28) limited block (32).

5. a kind of building facility aseismatic bearing according to claim 1, which is characterized in that the rectangular block A (6) with it is described The circular columns (33) for limiting the damping spring A (5) Yu the damping spring C (19) are respectively connected on rectangular block C (21).

6. a kind of building facility aseismatic bearing according to claim 1, which is characterized in that opposite in the rectangular cavity B (8) Two sides are provided with sliding slot (34).