CN219992780U - Building damping damper for high-rise building - Google Patents

Abstract

The utility model relates to the technical field of building equipment and discloses a building damping damper for a high-rise building. According to the utility model, after pouring connection of the device is completed, the air supply hose is communicated with the rubber pressure sleeve, the air valve is unscrewed to enable compressed air to pass through the air valve, then pass through the one-way valve and then enter the rubber taper sleeve, so that the rubber taper sleeve is enlarged, then the air valve is closed, after air tightness is checked to be qualified, the initial value of the pressure sensor at the moment is set in a remote control mode, and the pressure relief threshold value is set.

Description

Building damping damper for high-rise building

Technical Field

The utility model relates to the technical field of building equipment, in particular to a building damping damper for high-rise buildings.

Background

The existing building damper is provided with a section of telescopic rod exposed to the outside, the damper is easily scratched by external machinery in the subsequent building construction process, the expansion of the damper is not smooth, the protection effect of the existing protective shell made of plastics is limited, and the damage is not easily found in time due to the external structure of the plastic protective shell after the small flystones pass through the surface of the telescopic rod of the plastic protective shell to scratch the surface of the damper, so that hidden danger is caused.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to overcome the problems presented above, a building body damper for high-rise buildings is provided, which solves the problems presented above.

The utility model solves the technical problems by adopting the following technical scheme:

the utility model provides a building body shock attenuation attenuator for high-rise building, includes a sleeve and a bulb cover piston rod that the tip has the piston, telescopic tail end fixed be equipped with a pressure sensor, telescopic front end is sealed through inlaying the sliding seal end cover, and bulb cover piston rod is in the middle part back-and-forth sliding of sliding seal end cover and realize sealedly through rubber seal, telescopic tail end suit is fixed and is equipped with the compressed air tube fixed be equipped with on the sleeve with the response portion of the outer bleeder path intercommunication of compressed air tube, compressed air is stored in the compressed air tube, and the fixed pneumatic valve that is equipped with control in the compressed air tube the outer bleeder path of compressed air is stopped, have a sealed cavity in the response portion and be equipped with a pressure sensor and this cavity respectively in compressed air tube and external in the air feed hose intercommunication on the response portion still be equipped with in the response portion receive pressure sensor changes the threshold trigger and be for pressure sensor and buzzer battery's response portion is equipped with in the compressed air tube, the pressure sensor's the pressure sensor is equipped with the pressure sensor and the bulb cover piston rod is equipped with in the pressure sensor's the pressure sensor is equipped with in the pressure sensor sleeve, the piston rod is connected with the piston rod is in the front of the piston rod, the piston rod is fixed to be connected to the sleeve.

Preferably, the rubber pressure sleeve comprises two end rings with different diameters, which are respectively fixed at the ends of the sleeve and the ball sleeve piston rod, and further comprises a rubber taper sleeve fixed between the end rings, wherein an air tap is fixedly arranged on the rubber taper sleeve, and a threaded tap sleeve connected with the air tap is fixedly arranged at the front end of the air supply hose.

Preferably, a one-way valve is connected in series in the leakage air path of the compressed air cylinder.

Preferably, the connector comprises a wall-mounted plate propped against the end face of the wall column and a twisted steel welded and fixed on the wall-mounted plate, the twisted steel is poured and fixed in the wall column, a flagpole with a ball head at the front end is welded and fixed on the other end face of the wall-mounted plate, and the ball head at the front end of the flagpole is embedded at the front end of the piston rod of the ball head sleeve.

Preferably, the end ring is internally provided with screw teeth, the front end of the sleeve and the neck part of the ball head sleeve piston rod are provided with screw teeth in threaded connection with the end ring, and the end ring is internally embedded with an O-shaped sealing ring.

The utility model has the advantages and positive effects that: when the device is used for construction, after the connection is poured, the air supply hose is communicated with the rubber pressure sleeve, the air valve is unscrewed, so that compressed air passes through the air valve and then enters the rubber taper sleeve after passing through the one-way valve, the rubber taper sleeve is further widened, then the air valve is closed, after the air tightness is checked to be qualified, the initial value of the pressure sensor at the moment is set by remote control, the pressure release threshold value is set, the rubber taper sleeve protects the exposed part of the piston rod of the ball sleeve in the subsequent building construction process, and when the rubber taper sleeve is damaged by larger mechanical force, the rubber taper sleeve leaks air to trigger the pressure sensor to enable the buzzer to send an alarm, so that the device is convenient to overhaul and good in protection effect when the engineering is carried out.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the structure of the present utility model (with the rubber pressure cuff 10 removed);

FIG. 2 is a schematic view of the structure of the present utility model (with the rubber pressure cuff 10 removed);

fig. 3 is a schematic view of the installation structure of the present utility model (the rubber pressure jacket 10 is omitted).

The index marks in the drawings are as follows: 10. a rubber pressure sleeve; 11. rubber taper sleeve; 12. an air tap; 13. an end ring; 14. the ball head is sleeved with a piston rod; 15. a sleeve; 16. a response unit; 17. an air valve; 18. a compressed air cylinder; 19. a pressure sensor; 20. a buzzer; 21. a battery module; 22. a gas supply hose; 23. a threaded mouth sleeve; 24. a flagpole; 25. pasting a wallboard; 26. screw-thread steel bar; 27. a connecting body; 28. a one-way valve; 29. and sliding the sealing end cover.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiments of the utility model are described in further detail below with reference to the attached drawing figures:

as shown in fig. 1-3, the shock absorber for high-rise building comprises a sleeve 15 and a ball sleeve piston rod 14 with a piston at the end, wherein a pressure sensor 19 is fixedly arranged at the tail end of the sleeve 15, the front end of the sleeve 15 is sealed by an embedded sliding sealing end cover 29, the ball sleeve piston rod 14 slides back and forth in the middle of the sliding sealing end cover 29 and is sealed by a rubber sealing ring, a compressed air cylinder 18 is fixedly sleeved at the tail end of the sleeve 15, a response part 16 communicated with an external leakage path of the compressed air cylinder 18 is fixedly arranged on the sleeve 15, compressed air is stored in the compressed air cylinder 18, a pneumatic valve 17 for controlling the external leakage path of the compressed air in the compressed air cylinder 18 to be stopped is fixedly arranged in the compressed air cylinder 18, the response part 16 is internally provided with a sealed cavity, a pressure sensor 19 is fixedly arranged in the cavity and is respectively communicated with the compressed air tube 18 and an air supply hose 22 externally connected to the response part 16, a buzzer 20 triggered by the change threshold value of the pressure sensor 19 and a battery module 21 for supplying power to the pressure sensor 19 and the buzzer 20 are also fixedly arranged in the response part 16, a rubber pressure sleeve 10 is fixedly arranged between the end part of the sleeve 15 and the front end of the ball sleeve piston rod 14, the rubber pressure sleeve 10 surrounds and is sleeved outside the part of the ball sleeve piston rod 14, which is exposed out of the sleeve 15, the air supply hose 22 is communicated with the inner cavity of the rubber pressure sleeve 10 and supplies air to the same, a connector 27 hinged at the front ends of the pressure sensor 19 and the ball sleeve piston rod 14 is also included, the connector 27 is fixed in the column body in a pouring way.

Preferably, the rubber pressure sleeve 10 includes two end rings 13 with different diameters, which are respectively fixed at the ends of the sleeve 15 and the ball sleeve piston rod 14, and a rubber taper sleeve 11 fixed between the end rings 13, an air tap 12 is fixed on the rubber taper sleeve 11, and a threaded tap sleeve 23 connected with the air tap 12 is fixed at the front end of the air supply hose 22.

Preferably, a check valve 28 is connected in series in the leakage path of the compressed air tube 18.

Preferably, the connector 27 comprises a wall-attaching plate 25 abutted against the end face of the wall column and a screw-thread reinforcing bar 26 welded and fixed on the wall-attaching plate 25, the screw-thread reinforcing bar 26 is poured and fixed in the wall column, a flag pole 24 with a ball head at the front end is welded and fixed on the other end face of the wall-attaching plate 25, and the ball head at the front end of the flag pole 24 is embedded in the front end of the ball head sleeve piston rod 14.

Preferably, screw teeth are arranged in the end ring 13, screw teeth in threaded connection with the end ring 13 are arranged at the front end of the sleeve 15 and the neck of the ball head sleeve piston rod 14, and an O-shaped sealing ring is further embedded in the end ring 13.

During concrete implementation, when construction is performed, after the device is poured and connected, the air supply hose 22 is communicated with the rubber pressure sleeve 10, the air valve 17 is unscrewed, so that compressed air passes through the air valve 17 and then passes through the one-way valve 28 and then enters the rubber taper sleeve 11, the rubber taper sleeve 11 is further enlarged, then the air valve 17 is closed, after air tightness is checked, the initial value of the pressure sensor 19 at the moment is set by remote control, a decompression threshold value is set, the rubber taper sleeve 11 protects the exposed part of the ball end sleeve piston rod 14 in the subsequent building construction process, and when the rubber taper sleeve 11 is damaged by larger mechanical force, the air is released to trigger the pressure sensor 19, so that the buzzer 20 gives an alarm, and the engineering is convenient to overhaul and good in protection effect.

It should be emphasized that the examples described herein are illustrative rather than limiting, and therefore the utility model is not limited to the examples described in the detailed description, but rather falls within the scope of the utility model as defined by other embodiments derived from the technical solutions of the utility model by those skilled in the art.

Claims (5)

1. The utility model provides a be used for building body shock attenuation attenuator for high-rise building which characterized in that: comprises a sleeve (15) and a ball head sleeve piston rod (14) with a piston at the end part, wherein a pressure sensor (19) is fixedly arranged at the tail end of the sleeve (15), the front end of the sleeve (15) is sealed by an embedded sliding sealing end cover (29), the ball head sleeve piston rod (14) slides back and forth in the middle part of the sliding sealing end cover (29) and is sealed by a rubber sealing ring, a compressed air cylinder (18) is fixedly sleeved at the tail end of the sleeve (15), a response part (16) communicated with an external air release path of the compressed air cylinder (18) is fixedly arranged on the sleeve (15), compressed air is stored in the compressed air cylinder (18), an air valve (17) for controlling the external air release path of the compressed air cylinder (18) is fixedly arranged in the compressed air cylinder (18), a sealed cavity is arranged in the response part (16), a pressure sensor (19) is fixedly arranged in the cavity, the cavity is respectively connected with the compressed air cylinder (18) and a buzzer (16) in the response part (16) in a power supply mode, the power supply module (20) is fixedly connected with the pressure sensor (20), the ball head sleeve comprises a ball head sleeve piston rod (14) and is characterized in that a rubber pressure sleeve (10) is fixedly arranged between the end part of the sleeve (15) and the front end of the ball head sleeve piston rod (14), the rubber pressure sleeve (10) is sleeved outside the part of the ball head sleeve piston rod (14) exposed out of the sleeve (15), a gas supply hose (22) is communicated with the inner cavity of the rubber pressure sleeve (10) and supplies gas for the rubber pressure sleeve, the ball head sleeve piston rod also comprises a connecting body (27) hinged to the pressure sensor (19) and the front end of the ball head sleeve piston rod (14), and the connecting body (27) is fixedly poured in a column body.

2. A building body damper for a high-rise building according to claim 1, wherein: the rubber pressure sleeve (10) comprises two end rings (13) with different diameters, the end rings are respectively fixed at the ends of the sleeve (15) and the ball sleeve piston rod (14), the rubber pressure sleeve also comprises a rubber taper sleeve (11) fixed between the end rings (13), an air tap (12) is fixedly arranged on the rubber taper sleeve (11), and a threaded tap sleeve (23) connected with the air tap (12) is fixedly arranged at the front end of the air supply hose (22).

3. A building body damper for a high-rise building according to claim 2, wherein: a one-way valve (28) is connected in series in the leakage air path of the compressed air tube (18).

4. A building body damper for a high-rise building according to claim 3, wherein: the connecting body (27) comprises a wall-attaching plate (25) propped against the end face of the wall column and a threaded reinforcing steel bar (26) welded and fixed on the wall-attaching plate (25), the threaded reinforcing steel bar (26) is poured and fixed in the wall column, a flagpole (24) with a ball head at the front end is welded and fixed on the other end face of the wall-attaching plate (25), and the ball head at the front end of the flagpole (24) is embedded in the front end of the ball head sleeve piston rod (14).

5. A building body damper for a high-rise building according to claim 4, wherein: the end ring (13) is internally provided with screw teeth, the front end of the sleeve (15) and the neck of the ball head sleeve piston rod (14) are provided with screw teeth which are in threaded connection with the end ring (13), and the end ring (13) is internally embedded with an O-shaped sealing ring.