CN218843398U - Building-based damping support - Google Patents

Abstract

The utility model relates to a shock attenuation technical field is used in the room construction, and discloses a establish and use shock mount based on room, including the base, base top surface fixed mounting has the shock attenuation frame, and shock attenuation frame two has been placed to shock attenuation frame bottom surface inner wall middle-end, and two top surface fixed mounting of shock attenuation frame have limiting plate two. This shock mount is used based on building in room, through at damping spring plate group both ends respectively fixed mounting fixture block, damping spring plate group passes through fixture block and spout and shock attenuation frame inner wall joint, damping spring plate group passes through the clamp and installs with the shock attenuation frame peripheral face, utilize damping spring plate group to install inside shock attenuation frame two, when taking place vibrations, damping spring plate group receives the power deformation of vibrations, the fixture block slides in the spout, the power that produces during damping spring plate group's elastic buffer vibrations, make damping frame two horizontal displacement in the shock attenuation frame, thereby make damping mount can deal with vibrations and produce horizontally power, damping capacity of damping mount has been promoted.

Description

Building-based damping support

Technical Field

The utility model relates to a shock attenuation technical field is used in the room construction, specifically is a building and uses damping support based on room.

Background

The building refers to an asset formed by artificial construction, belongs to the category of fixed assets, and comprises two categories of houses and structures. A house is an engineered building for people to live, work, study, produce, manage, entertain, store goods, and perform other social activities. The difference from buildings is structures, which refer to engineering buildings other than houses, such as enclosing walls, roads, dams, wells, tunnels, water towers, bridges, chimneys, and the like. However, after the house is built, in order to reduce the vibration brought to the building under natural disasters or other circumstances, so will use shock-absorbing support to carry out the shock attenuation to the building, current shock-absorbing support mostly is the displacement about only can carrying out the shock attenuation, can't be along with the displacement of vibrations horizontal direction to shock-absorbing support's shock attenuation effect has been reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To prior art not enough, the utility model provides a building uses damping bearing based on room possesses and to reply vibrations and produce horizontally power, has promoted damping bearing's shock-absorbing capacity and simple structure, and the above-mentioned technical problem has been solved to advantages such as the manufacturing of being convenient for.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a shock mount for building based on room, includes the base, base top surface fixed mounting has the shock attenuation frame, shock attenuation frame two has been placed to shock attenuation frame bottom surface inner wall middle-end, shock attenuation frame inner wall top fixed mounting has the limiting plate, and the limiting plate middle-end has seted up the displacement hole, two top surface fixed mounting of shock attenuation frame have limiting plate two, just two top surfaces of limiting plate and the laminating of limiting plate bottom surface, shock attenuation frame inner wall bottom is provided with the spout, shock attenuation spring plate group both sides are provided with the fixture block, the fixture block is connected with the spout, shock attenuation spring plate group outer wall is provided with the clamp, the clamp is connected with two peripheral faces of shock attenuation frame, two inner walls of shock attenuation frame have the spacing groove, the backup pad is connected with the spacing groove, backup pad bottom surface middle-end is provided with buffer spring, buffer spring installs with two bottom surface inner wall middle-ends of shock attenuation frame, telescopic link bottom surface and two bottom surface inner walls of shock attenuation frame middle-end installation, two outer walls of shock attenuation spring plate group are provided with clamp two, two bottom surfaces of clamp are installed, two tops of shock attenuation spring group are connected with the backup pad bottom surface.

Preferably, damping spring plate group both sides one end fixed mounting respectively has the fixture block, damping spring plate group passes through fixture block and spout and shock attenuation frame inner wall joint, damping spring plate group outer wall symmetry joint respectively has the clamp, clamp top surface and the peripheral fixed mounting of shock attenuation frame periphery.

Through the technical scheme, through at damping spring plate group both ends respectively fixed mounting fixture block, damping spring plate group passes through fixture block and spout and shock attenuation frame inner wall joint, damping spring plate group passes through clamp and the installation of shock attenuation frame peripheral face, utilize damping spring plate group to install inside the shock attenuation frame damping frame two, when taking place vibrations, damping spring plate group receives the power deformation of vibrations, the fixture block slides in the spout, the power that produces during damping spring plate group's elastic buffer vibrations, make damping frame two horizontal displacement in the shock attenuation frame, thereby make shock-absorbing support can deal with vibrations and produce horizontally power, shock-absorbing support's shock-absorbing capacity has been promoted.

Preferably, the backup pad passes through the spacing groove joint inside two shock attenuation frames, backup pad bottom surface middle end and telescopic link top surface fixed mounting, two bottom surface inner walls middle end fixed mounting of telescopic link bottom surface and shock attenuation frame, buffer spring top and backup pad bottom surface middle end fixed mounting, buffer spring bottom and two bottom surface inner walls middle end fixed mounting of shock attenuation frame, just the telescopic link is located inside buffer spring.

Through above-mentioned technical scheme, through at two inside spacing grooves of seting up of shock attenuation frame, the backup pad passes through spacing groove and two inside joints of shock attenuation frame, backup pad bottom surface middle-end installation buffer spring, and telescopic link is installed to backup pad bottom surface middle-end, when receiving the vertical shaking force that vibrations produced, utilizes buffer spring's elastic buffer to shake the vertical shaking force that produces.

Preferably, two outer wall symmetry joints of damping spring plate group have clamp two, two bottom surfaces of clamp and two bottom surface inner wall one end fixed mounting of shock attenuation frame, two tops of damping spring plate group and backup pad bottom surface joint, just two bottom surface inner wall both ends of shock attenuation frame all have damping spring plate group two through two fixed mounting of clamp.

Through above-mentioned technical scheme, through two bottom surface inner walls both ends installation damping spring plate group two at the shock attenuation frame, two tops of damping spring plate group and backup pad bottom surface joint, when damping spring plate group two received decurrent power, two atress of damping spring plate group warp, two tops of damping spring plate group are at backup pad bottom surface displacement to buffering to decurrent power, cooperation buffer spring, thereby promoted the shock attenuation effect of the vertical vibrations power that shock mount produced to vibrations.

Preferably, the middle end of the top surface of the support plate is fixedly mounted with the bottom surface of the support column, and the diameter of the support column is smaller than that of the displacement hole.

Through the technical scheme, the mounting plate is supported through the support column, the diameter of the support column is smaller than that of the displacement hole formed in the limiting plate, and therefore the limiting plate is prevented from interfering with the horizontal displacement of the damping frame.

Preferably, the top surface of the supporting column is fixedly provided with a mounting plate.

Through above-mentioned technical scheme, through at support column top surface installation mounting panel, utilize the mounting panel to support the building.

Compared with the prior art, the utility model provides a building based on damping support uses possesses following beneficial effect:

1. the utility model discloses an at damping spring plate group both ends difference fixed mounting fixture block, damping spring plate group passes through fixture block and spout and shock attenuation frame inner wall joint, damping spring plate group passes through the clamp and the installation of the outer global of shock attenuation frame, utilize damping spring plate group to install inside shock attenuation frame two, when taking place vibrations, damping spring plate group receives the power deformation of vibrations, the fixture block slides in the spout, the power that produces when damping spring plate group's elastic buffer shakes, make damping frame two horizontal displacement in the shock attenuation frame, thereby make shock-absorbing support can deal with vibrations and produce horizontally power, shock-absorbing support's shock-absorbing capacity has been promoted.

2. The utility model discloses a damping spring plate group installs damping frame two inside the damping frame, when taking place vibrations, damping spring plate group receives the power deformation of vibrations, the fixture block slides in the spout, the power that produces when damping spring plate group's elastic buffer shakes, make damping frame two horizontal displacement in the damping frame, through installing damping spring plate group two at two bottom surface inner wall both ends of damping frame, two tops of damping spring plate group and backup pad bottom surface joint, when damping spring plate group two receives decurrent power, damping spring plate group two atress warp, two tops of damping spring plate group are at backup pad bottom surface displacement, cooperation buffer spring, thereby the power of subtend decline cushions, its shock-absorbing structure is simple, be convenient for manufacture.

Drawings

FIG. 1 is a perspective view of the whole structure of the present invention;

FIG. 2 is a schematic top cross-sectional view of the structural support column of the present invention;

FIG. 3 is a schematic top view of the shock-absorbing frame of the present invention;

fig. 4 is a schematic cross-sectional view of the whole side of the structure of the present invention.

Wherein: 1. a base; 2. a shock-absorbing frame; 3. a second damping frame; 4. a limiting plate; 5. a second limiting plate; 201. a damping spring plate group; 202. a clamping block; 203. clamping a hoop; 301. a limiting groove; 302. a support plate; 303. a telescopic rod; 304. a buffer spring; 305. a second damping spring plate group; 306. a second hoop; 307. a support pillar; 6. and (7) mounting the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a shock absorption support for building construction comprises a base 1, a shock absorption frame 2 is fixedly arranged on the top surface of the base 1, a shock absorption frame II 3 is arranged at the middle end of the inner wall of the bottom surface of the shock absorption frame 2, a limit plate 4 is fixedly arranged at the top end of the inner wall of the shock absorption frame 2, a displacement hole is arranged at the middle end of the limit plate 4, a limit plate II 5 is fixedly arranged on the top surface of the shock absorption frame II 3, the top surface of the limit plate II 5 is attached to the bottom surface of the limit plate 4, a sliding groove is arranged at the bottom end of the inner wall of the shock absorption frame 2, clamping blocks 202 are arranged on two sides of a shock absorption spring plate group 201, the clamping blocks 202 are connected with the sliding groove, a clamp 203 is arranged on the outer wall of the shock absorption spring plate group 201, the clamp 203 is connected with the outer peripheral surface of the second damping frame 3, the inner wall of the second damping frame 3 is provided with a limiting groove 301, the supporting plate 302 is connected with the limiting groove 301, the middle end of the bottom surface of the supporting plate 302 is provided with an expansion rod 303, the middle end of the bottom surface of the supporting plate 302 is provided with a buffer spring 304, the buffer spring 304 is installed at the middle end of the inner wall of the second damping frame 3, the bottom surface of the expansion rod 303 is installed at the middle end of the inner wall of the second damping frame 3, the outer wall of the second damping spring plate group 305 is provided with a second clamp 306, the second clamp 306 is installed at the bottom surface of the second damping frame 3, and the top end of the second damping spring plate group 305 is connected with the bottom surface of the supporting plate 302.

Specifically, damping spring plate group 201 both sides one end fixed mounting respectively has fixture block 202, and damping spring plate group 201 passes through fixture block 202 and spout and the 2 inner wall joints of shock attenuation frame, and damping spring plate group 201 outer wall symmetry joint respectively has clamp 203, clamp 203 top surface and the two 3 outer peripheral face fixed mounting of shock attenuation frame. The advantage is, through at damping spring plate group 201 both ends fixed mounting fixture block 202 respectively, damping spring plate group 201 passes through fixture block 202 and spout and the 2 inner wall joints of shock attenuation frame, damping spring plate group 201 passes through clamp 203 and the installation of the two 3 outer peripheral faces of shock attenuation frame, utilize damping spring plate group 201 to install the shock attenuation frame two 3 inside shock attenuation frame 2, when taking place vibrations, damping spring plate group 201 receives the power deformation of vibrations, fixture block 202 slides in the spout, the power that produces during damping spring plate group 201's elastic buffer vibrations, make damping frame two 3 horizontal displacement in shock attenuation frame 2, thereby make damping bearing can reply vibrations and produce horizontally power, damping capacity of damping bearing has been promoted.

Specifically, the supporting plate 302 is connected to the inside of the two 3 shock-absorbing frames through the limiting groove 301 in a clamped manner, the middle end of the bottom surface of the supporting plate 302 is fixedly mounted with the top surface of the telescopic rod 303, the middle end of the inner wall of the two 3 bottom surfaces of the shock-absorbing frames is fixedly mounted with the middle end of the bottom surface of the telescopic rod 303, the top end of the buffer spring 304 is fixedly mounted with the middle end of the bottom surface of the supporting plate 302, the bottom end of the buffer spring 304 is fixedly mounted with the middle end of the inner wall of the two 3 bottom surfaces of the shock-absorbing frames, and the telescopic rod 303 is located inside the buffer spring 304. The advantage is, through seting up spacing groove 301 in that the shock attenuation frame is two 3 insides, backup pad 302 passes through spacing groove 301 and the inside joint of shock attenuation frame is two 3, and backup pad 302 bottom surface middle-end installation buffer spring 304, backup pad 302 bottom surface middle-end installation telescopic link 303, when receiving the vertical vibrations power that vibrations produced, utilize the vertical vibrations power that the elastic buffer of buffer spring 304 vibrations produced.

Specifically, the outer wall of the second damping spring plate group 305 is symmetrically clamped with a second clamp 306, the bottom surface of the second clamp 306 is fixedly mounted with one end of the inner wall of the bottom surface of the second damping frame 3, the top end of the second damping spring plate group 305 is clamped with the bottom surface of the support plate 302, and the two ends of the inner wall of the bottom surface of the second damping frame 3 are fixedly mounted with the second damping spring plate group 305 through the second clamp 306. The advantage is, through two 305 of shock attenuation spring plate group of installation at two 3 bottom surface inner walls both ends of shock attenuation frame, two 305 tops of shock attenuation spring plate group and backup pad 302 bottom surface joint, when two 305 of shock attenuation spring plate group received decurrent power, two 305 atress of shock attenuation spring plate group warp, two 305 tops of shock attenuation spring plate group are at backup pad 302 bottom surface displacement to decurrent power is cushioned, cooperation buffer spring 304, thereby has promoted the shock attenuation effect of the vertical vibrations power that shock-absorbing support produced to vibrations.

Specifically, the middle end of the top surface of the support plate 302 is fixedly mounted to the bottom surface of the support column 307, and the diameter of the support column 307 is smaller than the diameter of the displacement hole. The damping frame II 2 horizontal displacement device has the advantages that the mounting plate 6 is supported through the supporting column 307, and the diameter of the supporting column 307 is smaller than that of the displacement hole formed in the limiting plate 4, so that the limiting plate 4 is prevented from interfering with the horizontal displacement of the damping frame II 2.

Specifically, the mounting plate 6 is fixedly mounted on the top surface of the supporting column 307. Advantageously, the building is supported by the mounting plate 6 by mounting the mounting plate 6 on top of the support column 307.

When the earthquake-proof support is used, the base 1 is installed on a foundation, the building supporting beam is installed on the top surface of the installing plate 6, when an earthquake occurs, the damping spring plate group 201 is deformed by the vibration force, the fixture block 202 slides in the sliding groove, the damping spring plate group 201 elastically buffers the vibration force, the damping frame II 3 is horizontally displaced in the damping frame 2, the damping support can respond to the vibration force to generate the horizontal force, when the damping spring plate group II 305 is subjected to the downward force, the damping spring plate group II 305 is deformed by the force, the top end of the damping spring plate group II 305 is displaced on the bottom surface of the supporting plate 302, the damping spring 304 is matched, the downward force is buffered, and the vibration force generated by the earthquake is buffered and damped.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a use shock mount based on room is built, includes base (1), base (1) top surface fixed mounting has shock attenuation frame (2), shock attenuation frame two (3) have been placed to shock attenuation frame (2) bottom surface inner wall middle-end, shock attenuation frame (2) inner wall top fixed mounting has limiting plate (4), and limiting plate (4) middle-end has seted up the displacement hole, shock attenuation frame two (3) top surface fixed mounting has two (5) of limiting plate, just the laminating of two (5) top surfaces of limiting plate and limiting plate (4) bottom surface, its characterized in that: damping frame (2) inner wall bottom is provided with the spout, just set up damping spring plate group (201) on the inner wall of damping frame (2), damping spring plate group (201) both sides are provided with fixture block (202), fixture block (202) and spout joint, damping spring plate group (201) outer wall is provided with clamp (203), clamp (203) are connected with two (3) outer peripheral faces of damping frame, damping frame two (3) inner wall has spacing groove (301), the internal connection backup pad (302) of spacing groove (301), backup pad (302) bottom surface middle end is provided with telescopic link (303), backup pad (302) bottom surface middle end is provided with buffer spring (304), buffer spring (304) and two (3) bottom surface inner wall middle-end installations of damping frame, telescopic link (303) bottom surface and two (3) bottom surface inner wall middle-end installations of damping frame, set up damping spring plate group two (305) in spacing groove (301), damping spring plate group two (305) outer wall is provided with clamp two (306), clamp two (306) and damping frame two (3) bottom surface installation, damping spring plate group top (305) are connected with damping frame bottom surface.

2. The shock mount for building construction according to claim 1, wherein: damping spring plate group (201) both sides one end fixed mounting respectively has fixture block (202), damping spring plate group (201) is through fixture block (202) and spout and shock attenuation frame (2) inner wall joint, damping spring plate group (201) outer wall symmetry joint respectively has clamp (203), clamp (203) top surface and two (3) outer peripheral face fixed mounting of shock attenuation frame.

3. The shock mount for building construction according to claim 1, wherein: backup pad (302) are inside in shock attenuation frame two (3) through spacing groove (301) joint, backup pad (302) bottom surface middle-end and telescopic link (303) top surface fixed mounting, telescopic link (303) bottom surface and two (3) bottom surface inner walls middle-end fixed mounting of shock attenuation frame, buffer spring (304) top and backup pad (302) bottom surface middle-end fixed mounting, buffer spring (304) bottom and two (3) bottom surface inner walls middle-end fixed mounting of shock attenuation frame, just telescopic link (303) are located inside buffer spring (304).

4. The shock mount for building construction according to claim 1, wherein: damping spring plate group two (305) outer wall symmetry joint has clamp two (306), clamp two (306) bottom surfaces and two (3) bottom surface inner wall one end fixed mounting of shock attenuation frame, damping spring plate group two (305) top and backup pad (302) bottom surface joint, just damping frame two (3) bottom surface inner wall both ends all have damping spring plate group two (305) through clamp two (306) fixed mounting.

5. The shock mount for building construction according to claim 1, wherein: the middle end of the top surface of the supporting plate (302) is fixedly arranged with the bottom surface of the supporting column (307), and the diameter of the supporting column (307) is smaller than that of the displacement hole.

6. The shock mount for building construction according to claim 5, wherein: and the top surface of the supporting column (307) is fixedly provided with a mounting plate (6).

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