CN215406696U - High altitude vestibule damping support - Google Patents

Abstract

The utility model relates to the field of damping supports, and particularly discloses a high-altitude corridor damping support which is characterized in that: the damping support comprises a corridor plate, a base, a side damping mechanism and an auxiliary supporting mechanism, wherein the corridor plate is fixed on the top surface of the base, the side damping mechanism comprises a plurality of side damping springs, a plurality of side damping rubbers and a side fixing frame, the side fixing frame is fixed on the top surface of the base, one ends of the side damping springs are fixedly connected to the inner surface of the side fixing frame, the other ends of the side damping springs are fixedly connected with one ends of the side damping rubbers, the other ends of the side damping rubbers are fixed on the side surface of the corridor plate, the auxiliary supporting mechanism comprises a supporting plate and a plurality of supporting frames, the supporting plate is fixed on the side surface of the base, one ends of the supporting frames are fixed on the bottom surface of the corridor plate, and the other ends of the supporting frames are fixed on the supporting plate.

Description

High altitude vestibule damping support

Technical Field

The application relates to the field of damping supports, and particularly discloses a high-altitude corridor damping support.

Background

In the definition of modern architecture, a corridor is one of complex high-rise building structural systems, and generally means that two or more high-rise buildings are connected with each other by an overhead connector so as to meet the requirements of building shape and service function. The connecting body is a corridor. The span is several meters long and also several tens of meters long. The vestibules are arranged one by one or a plurality of in the vertical direction of the building.

In the prior art, as a chinese patent with publication number CN212867068U, a high-rise building high-altitude corridor damping support comprises a corridor plate and a supporting rod, wherein the lower end of the corridor plate is provided with a supporting seat, the left side and the right side of the supporting seat are both fixed with positioning bolts, the supporting rod is arranged at the lower end of the supporting seat, the outer side of the supporting rod is provided with a titanium alloy plate, the lower end of the titanium alloy plate is provided with a positioning lug, the outer side of the positioning lug is provided with a limiting chute, the outer side of the limiting chute is provided with a rubber damping pad, the outer side of the rubber damping pad is provided with a corrugated protective layer, the lower end of the supporting seat is fixed with a limiting lug, the lower side of the limiting lug is provided with a supporting base, the outer side of the corridor plate is provided with a damping spring, the damping spring is internally provided with a hydraulic cylinder, the left side baffle is arranged at the lower end of the damping spring, and the outer surface of the supporting seat is provided with an anticorrosive layer, and a first reinforcing rod is arranged inside the supporting seat. Then this kind of high-rise building high altitude vestibule shock-absorbing support though can be in vestibule board both sides and bottom surface shock attenuation, but can not all be fine shock attenuation to the all sides of vestibule board, lead to the shock attenuation effect of vestibule board side to weaken.

The utility model provides a high-altitude corridor damping support so as to solve the problem that the high-altitude corridor damping support of a high-rise building cannot well damp all sides of a corridor plate.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-altitude corridor damping support to solve the problem that the high-altitude corridor damping support for a high-rise building in the prior art cannot well damp all side surfaces of a corridor plate.

The principle and effect of this basic scheme lie in:

in order to achieve the aim, the basic scheme of the utility model provides a high-altitude corridor damping support which comprises the following components: including the vestibule plate, a base for supporting the vestibule plate, an auxiliary stay mechanism for side damping mechanism of side damping vestibule plate and for auxiliary stay vestibule plate, the vestibule plate is fixed on the base top surface, side damping mechanism includes a plurality of side damping spring, a plurality of side damping rubber and side mount, the side mount is fixed on the base top surface, a plurality of side damping spring one end of fixed connection on the side mount internal surface, side damping spring other end fixed connection side damping rubber one end, the side damping rubber other end is fixed on the vestibule plate side, auxiliary stay mechanism includes backup pad and a plurality of support frame, the backup pad is fixed on the base side, support frame one end is fixed on vestibule plate bottom surface, the other end is fixed in the backup pad.

Compared with the prior art, the utility model has the following effects: the high-altitude corridor damping support adopts a plurality of side damping springs and a plurality of side damping rubbers, so that the vibration brought by all the side surfaces of the corridor plate can be well eliminated, and the damage of the corridor plate caused by the vibration is reduced; the side fixing frame is adopted, so that the fixed connection can be provided for the side damping spring, the free end of the side damping spring is prevented from generating larger torque, the side damping spring is damaged, and the service life of the side damping spring is shortened; adopt backup pad and support frame, can keep away from base one end to the vestibule board and provide auxiliary stay, the stability of reinforcing vestibule board.

Further, still including two last damper that are used for the shock attenuation vestibule board, go up damper and include upper fixing frame and a plurality of shock attenuation rope, upper fixing frame one end is fixed on the side mount, other end fixed connection shock attenuation rope one end, shock attenuation rope other end fixed connection vestibule board.

Compared with the prior art, the utility model has the following effects: when the vestibule board shakes, the vestibule board upper portion also has vibrations, and shock attenuation rope fixed connection vestibule board can receive the vibrations of vestibule board transmission, then weakens vibrations to eliminate vibrations, two last damper can be better the vibrations of shock attenuation vestibule board upper portion.

Furthermore, the upper damping mechanisms are symmetrically arranged along the center line of the corridor plate.

Compared with the prior art, the utility model has the following effects: go up damper if not along vestibule board central line symmetrical arrangement, then can lead to the power that vestibule board side received to offset each other, make the fixed connection department of vestibule board and base receive a horizontally power to increase the pressure of the fixed connection department of vestibule board and base, so go up damper along the fixed of the increase vestibule board that vestibule board central line symmetrical arrangement can be better and base.

Further, still including the lower damper who is used for the shock attenuation vestibule board, lower damper includes base damper and a plurality of shock attenuation jar, the shock attenuation jar includes the fixed block, the damping piston rod, damping piston, jar damping spring, viscous liquid and cylinder body, the cylinder body is fixed on the backup pad top surface, jar damping spring one end is fixed on the bottom in the cylinder body, other end fixed connection damping piston one end, damping piston other end fixed connection damping piston rod one end, the damping piston rod other end is fixed on the fixed block bottom surface, fixed block top surface fixed connection vestibule board, the cylinder body is sealed, viscous liquid is full of the cylinder body, set up the intercommunicating pore on the damping piston.

Compared with the prior art, the utility model has the following effects: the shock attenuation jar is transmitted to the vibrations of vestibule board bottom surface, and the shock attenuation jar can carry out the shock attenuation through the mutual removal of piston with thick liquid, and most vibrations of vestibule board bottom surface transmission can be eliminated to a plurality of shock attenuation jars.

Further, base damper includes damping rubber, damping spring and base down, and base top surface center department sets up the damping tank, and damping spring one end is fixed on the damping tank bottom surface down, and the other end is fixed on damping rubber bottom surface down, and damping rubber top surface fixed connection vestibule board down.

Compared with the prior art, the utility model has the following effects: after the damping cylinder has eliminated most vibrations of vestibule board bottom surface, some vibrations of vestibule board can be eliminated to base damper, and lower damping rubber and damping spring can increase the direct contact shock attenuation of vestibule board in the shock attenuation inslot down to reduce the vibrations that the base received, increase the life of base.

Furthermore, the connecting device also comprises two connecting blocks, wherein the connecting blocks are fixed at one end of the side fixing frame, which is far away from the base, and the center of the connecting blocks is provided with a threaded connecting hole.

Compared with the prior art, the utility model has the following effects: if a side damper removes the shock attenuation vestibule board, then side damper's installation and transportation are all inconvenient, and remove the shock attenuation vestibule board with a plurality of side damper, then need fix a plurality of side damper, and connecting block and bolt can guarantee that a plurality of side damper can be in the same place fixed connection well.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a front view of an embodiment of a high altitude corridor damping mount of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a schematic structural view of the shock tube of FIG. 1;

fig. 5 is a schematic structural diagram of the base in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: base 1, side mount 2, bracing piece 3, connecting rod 4, bolt 5, connecting block 6, shock attenuation rope 7, support frame 8, side damping rubber 9, dead lever 10, side damping spring 11, vestibule plate 12, cylinder body 13, damping piston 14, fixed block 15, damping piston rod 16.

Example (b):

the specific implementation process of the utility model comprises the following steps: a high altitude corridor damping support is shown in figures 1 and 2, and comprises a corridor board, a base 1 for supporting the corridor board, a supplementary supporting mechanism that is used for side shock attenuation vestibule plate's side damper and is used for the auxiliary stay vestibule plate, vestibule plate 12 is fixed on 1 top surface of base, side damper includes a plurality of side damping spring 11, a plurality of side damping rubber 9 and side mount 2, side mount 2 is fixed on 1 top surface of base, a plurality of side damping spring 11 one ends of fixed connection on 2 internal surfaces of side mount, 11 other end fixed connection side damping rubber 9 one end of side damping spring, the 9 other ends of side damping rubber are fixed on vestibule plate 12 side, supplementary supporting mechanism includes backup pad and a plurality of support frame 8, the backup pad is fixed on 1 side of base, 8 one end of support frame is fixed on 12 bottom surfaces of vestibule plate, the other end is fixed in the backup pad.

As shown in fig. 1 and 3, the damping device comprises two upper damping mechanisms for damping the corridor plates, each upper damping mechanism comprises an upper fixing frame and a plurality of damping ropes 7, one end of each upper fixing frame is fixed on the side fixing frame 2, one end of each damping rope 7 is fixedly connected to the other end of each upper fixing frame, and the other end of each damping rope 7 is fixedly connected to the corridor plate 12.

As shown in fig. 3, the upper damping mechanism is symmetrically arranged along the center line of the vestibule plate 12.

As shown in fig. 2, fig. 4 and fig. 5, still including the lower damper who is used for the shock attenuation vestibule board, lower damper includes base damper and a plurality of shock attenuation jar, the shock attenuation jar includes fixed block 15, damping piston rod 16, damping piston 14, jar damping spring, thick liquid and cylinder body 13, cylinder body 13 is fixed on the backup pad top surface, jar damping spring one end is fixed on the internal bottom of jar 12, other end fixed connection damping piston 14 one end, damping piston 14 other end fixed connection damping piston rod 16 one end, the damping piston rod 16 other end is fixed on fixed block 15 bottom surfaces, fixed block 15 top surface fixed connection vestibule board 12, cylinder body 13 is sealed, thick liquid is full of cylinder body 13, set up the intercommunicating pore on the damping piston 14.

As shown in fig. 2, the base damping mechanism comprises lower damping rubber, a lower damping spring and a base 1, a damping groove is formed in the center of the top surface of the base 1, one end of the lower damping spring is fixed on the bottom surface of the damping groove, the other end of the lower damping spring is fixed on the bottom surface of the lower damping rubber, and the top surface of the lower damping rubber is fixedly connected with a corridor board 12.

As shown in fig. 1, the fixing device further comprises two connecting blocks 6, wherein the connecting blocks 6 are fixed at one ends of the side fixing frames 2 far away from the base 1, and threaded connecting holes are formed in the centers of the connecting blocks.

The side damping rubber 9 fixed on the side surface of the corridor plate 12 is subjected to vibration transmitted by the side surface of the corridor plate 12, then the vibration is damped in the first step, the weakened vibration is transmitted to the side damping spring 11 fixedly connected with the side damping rubber 9, and the residual vibration is eliminated by the side damping spring 11.

Go up the mount and include connecting rod 4 and a plurality of bracing piece 3, 3 one ends of bracing piece are fixed on side mount 2, and the other end is fixed on connecting rod 4, and during vestibule plate 12 vibrations, vestibule plate 12 upper portion also has vibrations, and 7 fixed connection vestibule plates 12 of shock attenuation rope can receive the vibrations of vestibule plate 12 transmission, then weaken vibrations to eliminate vibrations, two vibrations of going up the shock attenuation vestibule plate 12 upper portion that damper can be better.

Go up damper if do not follow 12 center lines of vestibule board symmetrical arrangement, then can lead to the power that vestibule board 12 side received to offset each other, make vestibule board 12 and base 1's fixed connection department receive a horizontally power to increase the pressure of vestibule board 12 and base 1's fixed connection department, so go up damper along 12 center lines of vestibule board symmetrical arrangement can be better increase vestibule board 12 and base 1's fixed.

The vibrations of vestibule board 12 bottom surface are transmitted to fixed block 15, fixed block 15 transmits damping piston rod 16 again, damping piston rod 16 drives damping piston 14 and reciprocates in thick liquid, when damping piston 14 reciprocated, thick liquid passes through the intercommunicating pore, make the thick liquid intercommunication at damping piston 14 both ends, because the viscidity of thick liquid, the speed that makes thick liquid pass through the intercommunicating pore is slower, thick liquid reciprocates damping piston 14 and produces the hindrance, reach absorbing purpose, jar damping spring can help damping piston 14 to eliminate partly vibrations, because fixed block 15 is fixed on vestibule board 12 bottom surface, so damping piston 14 can resume the normal position after the downstream.

After the damping cylinder had eliminated most vibrations of vestibule board 12 bottom surface, the vibration of vestibule board 12 part can be eliminated to base damper, lower damping rubber and damping spring are in the shock attenuation inslot, can increase the direct contact shock attenuation of vestibule board 12, and reduce the vibrations that base 1 received, increase base 1's life, base 1 is last to set up four base fixed orificess along base 1 central line symmetrical arrangement, four dead lever 10 one ends are fixed on vestibule board 12 bottom surface, and corresponding with base 1 fixed orifices position, put into corresponding base fixed orificess to dead lever 10, accomplish the fixed of base 1 and vestibule board 12.

If an side damper removes shock attenuation vestibule board 1, then side damper's installation and transportation are all inconvenient, and remove shock attenuation vestibule board 12 with a plurality of side damper, then need fix a plurality of side damper, and connecting block 6 and bolt 5 can guarantee that a plurality of side damper can be together fixed connection well, and connecting block 6 is made by the stainless steel and forms.

The utility model provides a high altitude vestibule damping bearing during operation, vestibule board 12 vibrations, goes up damper and eliminates some vibrations of vestibule board 12 through shock cord 7, and side damper eliminates some vibrations of vestibule board 12 through a plurality of side damping rubber 9 and a plurality of side damping spring 11, and damper eliminates some damper of vestibule board 12 through shock attenuation cylinder and base damper down, makes the vibrations greatly reduced of vestibule board 12.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (6)

1. The utility model provides a high altitude vestibule damping support which characterized in that: including the vestibule plate, a base for supporting the vestibule plate, an auxiliary stay mechanism for side damping mechanism of side damping vestibule plate and for auxiliary stay vestibule plate, the vestibule plate is fixed on the base top surface, side damping mechanism includes a plurality of side damping spring, a plurality of side damping rubber and side mount, the side mount is fixed on the base top surface, a plurality of side damping spring one end of fixed connection on the side mount internal surface, side damping spring other end fixed connection side damping rubber one end, the side damping rubber other end is fixed on the vestibule plate side, auxiliary stay mechanism includes backup pad and a plurality of support frame, the backup pad is fixed on the base side, support frame one end is fixed on vestibule plate bottom surface, the other end is fixed in the backup pad.

2. The high altitude vestibule shock mount of claim 1, wherein: still including two last damper that are used for shock attenuation vestibule board, go up damper and include upper fixing frame and a plurality of shock attenuation rope, upper fixing frame one end is fixed on the side mount, other end fixed connection shock attenuation rope one end, shock attenuation rope other end fixed connection vestibule board.

3. The high altitude vestibule shock mount of claim 2, characterized in that: the upper damping mechanisms are symmetrically arranged along the center line of the corridor plate.

4. The high altitude vestibule shock mount of claim 3, wherein: still including the lower damper who is used for the shock attenuation vestibule board, lower damper includes base damper and a plurality of shock attenuation jar, the shock attenuation jar includes the fixed block, the damping piston rod, damping piston, jar damping spring, thick liquid and cylinder body, the cylinder body is fixed on the backup pad top surface, jar damping spring one end is fixed on the bottom in the cylinder body, other end fixed connection damping piston one end, damping piston other end fixed connection damping piston rod one end, the damping piston rod other end is fixed on the fixed block bottom surface, fixed block top surface fixed connection vestibule board, the cylinder body is sealed, thick liquid is full of the cylinder body, set up the intercommunicating pore on the damping piston.

5. The high altitude vestibule shock mount of claim 4, wherein: the base damping mechanism comprises lower damping rubber, a lower damping spring and a base, a damping groove is formed in the center of the top surface of the base, one end of the lower damping spring is fixed to the bottom surface of the damping groove, the other end of the lower damping spring is fixed to the bottom surface of the lower damping rubber, and the top surface of the lower damping rubber is fixedly connected with the corridor board.

6. The high altitude vestibule shock mount of claim 1, wherein: the connecting block is fixed at one end of the side fixing frame far away from the base, and the center of the connecting block is provided with a threaded connecting hole.

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