CN208280703U - A kind of architectural vibration-insulation device - Google Patents

Abstract

The utility model discloses a kind of architectural vibration-insulation devices, including the first support plate and the second support plate, second support plate is movably arranged on the top side of the first support plate, first support plate and the second support plate side close to each other offer mounting groove along the vertical direction, first sliding groove is offered on the two sides inner wall of mounting groove, being slidably installed in two first sliding grooves, there are two the first sliding blocks, two sliding bars are movably installed in two mounting grooves, the one end of two sliding bars being located remotely from each other is respectively and fixedly installed on two the first sliding block sides close to each other.The utility model structure is simple, can be carried out effectively shock insulation, and be easily installed, while first support bar and the second support bar stability arranged in a crossed manner that can reinforce building ensure that the safety of people to weaken influence of the earthquake to building.

Description

A kind of architectural vibration-insulation device

Technical field

The utility model relates to technical field of buildings more particularly to a kind of architectural vibration-insulation devices.

Background technique

Shock-insulation building refers to using seismic isolation technology, the basal part of building or some position setting earthquake isolating equipment formed every Layer is shaken, superstructure and infrastructure are kept apart, earthquake energy is come with this, avoids or reduces seismic energy to top Transmission can more effectively ensure the safety of superstructure and internal staff, equipment.Ya'an Sichuan province on April 20 occurs within 2013 After 7.0 grades of earthquakes, the Lushan county people's hospital complete appearance built using seismic isolation technology and impaired smaller people is caused to pay close attention to.

With the rapid development of science and technology, earthquake isolating equipment has also obtained the promotion of technology, but present device shock insulation Effect is poor, and installation is not firm enough, brings great inconvenience to user.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of architectural vibration-insulation dress proposed It sets.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of architectural vibration-insulation device, including the first support plate and the second support plate, second support plate are located at first The top of fagging, the first support plate and the second support plate side close to each other offer mounting groove along the vertical direction, install First sliding groove is offered on the two sides inner wall of slot, being slidably installed in two first sliding grooves, there are two the first sliding block, two installations Two sliding bars are movably installed in slot, the one end of two sliding bars being located remotely from each other is respectively and fixedly installed to two first cunnings On block side close to each other, it is outer and be fixedly installed with the respectively that two sliding bar one end close to each other all extend to mounting groove One support rod and second support bar, first support bar and second support bar intersect setting, and the side of first support bar opens up There is the first rotation hole, second support bar side offers the second rotation hole, the setting corresponding with the second rotation hole of the first rotation hole, The same rotation axis is rotatably equipped in first rotation hole and the second rotation hole, the both ends of rotation axis extend respectively to the first rotation Outside hole and the second rotation hole, the two sides of the rotation axis, which are equipped with, is fixedly mounted on first support bar and second support bar is mutually leaned on One end of the telescopic rod and loop bar of close side, the separate second support bar of loop bar offers telescopic chute along the vertical direction, stretches Second sliding slot is offered on the two sides inner wall of slot, and same second sliding block, telescopic rod are slidably fitted in two second sliding slots One end far from first support bar extends in telescopic chute and is fixedly mounted on the second sliding block.

Preferably, the side of second sliding block is fixedly installed with one end of the first spring, and the other end of the first spring is solid Dingan County is mounted in second sliding slot far from the side inner wall of the second support plate.

Preferably, it is socketed with the same second spring on the telescopic rod and loop bar, the both ends of second spring are fixed respectively It is mounted in first support bar and second support bar side close to each other.

Preferably, the bottom side of first support plate and the second support plate top side are fixedly installed with mounting plate, mounting plate On open up there are two mounting hole, be movably installed with fixing bolt in mounting hole.

Preferably, the both ends of the rotation axis are movably installed with nut, and the both ends of rotation axis are equipped with external screw thread, nut Inner wall on offer internal screw thread, two nuts are threadably mounted on the both ends of rotation axis.

Preferably, rolled on first rotation hole and the second rotation hole inner wall and ball be installed, two balls with Rotation axis rolls connection.

Compared with prior art, the utility model has the beneficial effects that

In the utility model, slided by the first support plate, the second support plate, mounting groove, first sliding groove, sliding bar, first Block, first support bar, second support bar, the first rotation hole, the second rotation hole, mounting plate, cap rotation axis are used cooperatively, can So that first support bar and second support bar intersect movement, pass through loop bar, telescopic chute, second sliding slot, the second sliding block, telescopic rod Be used cooperatively, can telescopic rod be slided in second sliding slot；

The utility model structure is simple, can be carried out effectively shock insulation, and be easily installed, while first support bar and The two support rods stability arranged in a crossed manner that can reinforce building ensure that people to weaken influence of the earthquake to building Safety.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of architectural vibration-insulation device structural schematic diagram；

Fig. 2 be the utility model proposes a kind of architectural vibration-insulation device side structure schematic view；

Fig. 3 be the utility model proposes a kind of architectural vibration-insulation device Fig. 2 in part A structural schematic diagram.

In figure: 1 first support plate, 2 second support plates, 3 mounting grooves, 4 first sliding grooves, 5 sliding bars, 6 first sliding blocks, 7 One support rod, 8 second support bars, 9 first rotation holes, 10 second rotation holes, 11 mounting plates, 12 nuts, 13 loop bars, 14 are stretched Slot, 15 second sliding slots, 16 second sliding blocks, 17 telescopic rods, 18 rotation axis.

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.

Referring to Fig.1-3, a kind of architectural vibration-insulation device, including the first support plate 1 and the second support plate 2, the second support plate 2 In the top of the first support plate 1, the first support plate 1 and the second support plate 2 side close to each other offer along the vertical direction Mounting groove 3 offers first sliding groove 4 on the two sides inner wall of mounting groove 3, and being slidably installed in two first sliding grooves 4, there are two the One sliding block 6 is movably installed with two sliding bars 5, one end difference of two sliding bars 5 being located remotely from each other in two mounting grooves 3 It is fixedly mounted on two the first sliding block 6 sides close to each other, two one end close to each other of sliding bar 5 all extend to installation Slot 3 is outer and is fixedly installed with first support bar 7 and second support bar 8 respectively, and first support bar 7 and second support bar 8 are mutually handed over Fork setting, the side of first support bar 7 offer the first rotation hole 9, and 8 side of second support bar offers the second rotation hole 10, It is rotatably equipped in the setting corresponding with the second rotation hole 10 of first rotation hole 9, the first rotation hole 9 and the second rotation hole 10 same A rotation axis 18, the both ends of rotation axis 18 extend respectively to outside the first rotation hole 9 and the second rotation hole 10, the two sides of rotation axis 18 It is equipped with the telescopic rod 17 and loop bar 13 for being fixedly mounted on first support bar 7 and the side close to each other of second support bar 8, loop bar One end of 13 separate second support bar 8 offers telescopic chute 14 along the vertical direction, opens up on the two sides inner wall of telescopic chute 14 There is second sliding slot 15, same second sliding block 16 is slidably fitted in two second sliding slots 15, telescopic rod is far from first support bar 7 One end extend in telescopic chute 14 and be fixedly mounted on the second sliding block 16, pass through the first support plate 1, the second support plate 2, peace Tankage 3, first sliding groove 4, sliding bar 5, the first sliding block 6, first support bar 7, second support bar 8,9, second turns of the first rotation hole Dynamic hole 10, mounting plate 11,12 rotation axis 18 of nut are used cooperatively, and can make the first support bar 7 and second support bar 8 to intersect It is mobile, it is used cooperatively by loop bar 13, telescopic chute 14, second sliding slot 15, the second sliding block 16, telescopic rod 17, can to stretch Contracting bar slides in second sliding slot 15, and the utility model structure is simple, can be carried out effectively shock insulation, and be easily installed, together When the first support bar 7 and stability arranged in a crossed manner that can reinforce building of second support bar 8, to weaken earthquake to building The influence built ensure that the safety of people.

The side of second sliding block 16 is fixedly installed with one end of the first spring, and the other end of the first spring is fixedly mounted on On side inner wall of two sliding slots 15 far from the second support plate 2, the same second spring is socketed on telescopic rod 17 and loop bar 13, the The both ends of two springs are respectively and fixedly installed in first support bar 7 and the side close to each other of second support bar 8, the first support plate 1 bottom side and 2 top side of the second support plate are fixedly installed with mounting plate 11, are opened up on mounting plate 11 there are two mounting hole, are installed Fixing bolt is movably installed in hole, the both ends of rotation axis 18 are movably installed with nut 12, and the both ends of rotation axis 18 are equipped with External screw thread offers internal screw thread on the inner wall of nut 12, and two nuts 12 are threadably mounted on the both ends of rotation axis 18, and first It is rolled on 10 inner wall of rotation hole 9 and the second rotation hole and ball is installed, two balls are rolled with rotation axis 18 and connected, and are passed through First support plate 1, the second support plate 2, mounting groove 3, first sliding groove 4, sliding bar 5, the first sliding block 6, first support bar 7, second Support rod 8, the first rotation hole 9, the second rotation hole 10, mounting plate 11,12 rotation axis 18 of nut are used cooperatively, and can make One support rod 7 and second support bar 8 intersect movement, by loop bar 13, telescopic chute 14, second sliding slot 15, the second sliding block 16, stretch Bar 17 is used cooperatively, and telescopic rod can be made to slide in second sliding slot 15, and the utility model structure is simple, can be effective Shock insulation is carried out, and is easily installed, while first support bar 7 and second support bar 8 is arranged in a crossed manner can reinforce building Stability ensure that the safety of people to weaken influence of the earthquake to building.

Working principle: driving the second support plate 2 to shake when building shakes, and the vibration of the second support plate 2, which drives, to be slided Dynamic two first slidings 6 being mounted in first sliding groove 4 are mobile, meanwhile, when the second support plate 2 is shaken, so that second Fagging stress pushes, and the second support plate, which pushes to drive, is movably arranged on the first support bar 7 of bottom side and second support bar 8 to moving down It is dynamic, first support bar 7 and second support bar 8 be it is arranged in a crossed manner, first support bar 7 and second support bar 8 move drive and are fixed on The sliding bar 5 of its bottom end is mobile, and the mobile drive of sliding bar 5 is fixed on its first sliding block of bottom side 4 and slides in first sliding groove 5, together When first support bar 7 and second support bar 8 is mobile drives telescopic rod 17 mobile, telescopic rod 17 is by being fixed on the second of its bottom end Sliding block 16 slides in the second sliding slot 15 being provided on 14 two sides inner wall of telescopic chute, and makes the good second spring of the first spring same When forced contraction, telescopic rod reverse movement is driven by the drawing force of the first spring and second spring at this time, to offset shaking force.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of architectural vibration-insulation device, including the first support plate (1) and the second support plate (2), which is characterized in that described second Fagging (2) is located at the top of the first support plate (1), the first support plate (1) and the second support plate (2) equal edge in side close to each other Vertical direction offers mounting groove (3), offers on the two sides inner wall of mounting groove (3) first sliding groove (4), two first sliding grooves (4) it is slidably installed in there are two the first sliding block (6), is movably installed with two sliding bars (5) in two mounting grooves (3), two The one end of sliding bar (5) being located remotely from each other is respectively and fixedly installed on two the first sliding block (6) sides close to each other, two cunnings Lever (5) one end close to each other all extends to mounting groove (3) and is fixedly installed with first support bar (7) and second outside and respectively Strut (8), first support bar (7) and second support bar (8) intersect setting, and the side of first support bar (7) offers One rotation hole (9), second support bar (8) side offer the second rotation hole (10), the first rotation hole (9) and the second rotation hole (10) corresponding setting is rotatably equipped with the same rotation axis (18) in the first rotation hole (9) and the second rotation hole (10), rotates The both ends of axis (18) extend respectively to the first rotation hole (9) and the second rotation hole (10) outside, and the two sides of the rotation axis (18) are equal Equipped with the telescopic rod (17) and loop bar for being fixedly mounted on first support bar (7) and second support bar (8) side close to each other (13), one end of the separate second support bar (8) of loop bar (13) offers telescopic chute (14) along the vertical direction, telescopic chute (14) It is offered on the inner wall of two sides second sliding slot (15), is slidably fitted with same second sliding block in two second sliding slots (15) (16), telescopic rod extends in telescopic chute (14) far from one end of first support bar (7) and is fixedly mounted on the second sliding block (16) On.

2. a kind of architectural vibration-insulation device according to claim 1, which is characterized in that the side of second sliding block (16) is solid Dingan County is equipped with one end of the first spring, and the other end of the first spring is fixedly mounted on the side inner wall of second sliding slot (15).

3. a kind of architectural vibration-insulation device according to claim 1, which is characterized in that the telescopic rod (17) and loop bar (13) On be socketed with the same second spring, the both ends of second spring are respectively and fixedly installed to first support bar (7) and second support bar (8) on side close to each other.

4. a kind of architectural vibration-insulation device according to claim 1, which is characterized in that the bottom side of first support plate (1) It is fixedly installed with mounting plate (11), is opened up on mounting plate (11) there are two mounting hole, mounting hole with the second support plate (2) top side Inside it is movably installed with fixing bolt.

5. a kind of architectural vibration-insulation device according to claim 1, which is characterized in that the both ends of the rotation axis (18) are living Dynamic to be equipped with nut (12), the both ends of rotation axis (18) are equipped with external screw thread, offer internal screw thread on the inner wall of nut (12), and two A nut (12) is threadably mounted on the both ends of rotation axis (18).

6. a kind of architectural vibration-insulation device according to claim 1, which is characterized in that first rotation hole (9) and second It is rolled on rotation hole (10) inner wall and ball is installed, two balls are rolled with rotation axis (18) and connected.