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CN-116084569-B - Steel construction antidetonation equipment that assembled building was used

CN116084569BCN 116084569 BCN116084569 BCN 116084569BCN-116084569-B

Abstract

The invention relates to the field of assembled buildings, in particular to steel structure anti-seismic equipment for an assembled building, which comprises four support plates, sliding plates and the like, wherein each support plate is connected with one sliding plate in a sliding manner. The invention realizes the damping through the sleeve and the first elastic piece, converts kinetic energy into elastic potential energy to absorb shock, thereby playing a role of slowing down the vibration of the assembled type board room and the air conditioner outdoor unit, enabling the assembled type board room to keep horizontal through the movement of the two fixing rods, avoiding the inclination, strengthening the assembled type board room through the four first fixing blocks, enabling the assembled type board room to keep stable, locking the two pulleys at the left through the two round rods, and avoiding the problem that the assembled type board room is laterally moved due to the fact that the two movable parts at the left are suddenly opened under the influence of external force, thereby avoiding influencing the normal use of the assembled type board room.

Inventors

  • Dong Zaocheng
  • ZHANG JIANCHENG
  • CAI RUI
  • HUANG HAIBING
  • LU CHUNHUA

Assignees

  • 江苏十晟建筑工程有限公司

Dates

Publication Date
20260512
Application Date
20230107

Claims (7)

  1. 1. A steel structure anti-seismic device for an assembled building comprises four supporting plates (1), sliding plates (2), fixing rods (3), connecting plates (4), electronic level meters (5), connecting rods (6) and assembled type plate rooms (7), wherein each supporting plate (1) is connected with one sliding plate (2) in a sliding mode, the fixing rods (3) are fixedly connected with the two sliding plates (2) on the same side in a common mode, the connecting plates (4) are fixedly connected with the two supporting plates (1) on the same side in the front and rear mode, the electronic level meters (5) are installed in the middle of each fixing rod (3), the connecting rods (6) are fixedly connected with the middle of each fixing rod (3), the assembled type plate rooms (7) are arranged among the four supporting plates (1), and the assembled type plate rooms (7) are fixedly connected with the connecting rods (6), and the anti-seismic device is characterized by further comprising anti-seismic assemblies, reinforcing assemblies, protection assemblies, supporting assemblies, sliding blocks (205), second sliding plates (302) and first fixing blocks (303), the anti-seismic assembly is connected with an assembled board room (7), the lower surface of the assembled board room (7) is connected with a reinforcing assembly, the anti-seismic assembly is connected with a protection assembly, the upper surface of the assembled board room (7) is connected with a support assembly, the anti-seismic assembly is connected with four sliding blocks (205) for buffering, the reinforcing assembly is connected with four second sliding plates (302), the lower end of each second sliding plate (302) is fixedly connected with a first fixed block (303) for reinforcing, the protection assembly is connected with two buckles (405) for locking, and the support assembly is connected with a protection frame (503) for protecting; The anti-seismic component comprises connecting blocks (201), supporting plates (202), first sliding plates (203), ejector rods (204), extrusion plates (206), first electric actuators (207), sliding blocks (208), sleeves (209) and first elastic pieces (210), wherein one connecting block (201) is fixedly connected to each rectangular four corner of the outer wall of the assembled board house (7), one supporting plate (202) is fixedly connected to the lower surface of each connecting block (201), one first sliding plate (203) is fixedly connected to the lower surface of each supporting plate (202), four first sliding plates (203) are respectively connected with one supporting plate (1) in a sliding mode, one ejector rod (204) is fixedly connected to the lower surface of each first sliding plate (203), each fixed rod (3) is respectively connected with two sliding blocks (205), four sliding blocks (205) are respectively matched with one ejector rod (204), one extrusion plate (206) is fixedly connected to the lower surface of each sliding block (205), one first electric actuator (207) is fixedly connected to the lower portion of each supporting plate (1), each first electric actuator (207) is fixedly connected to the lower surface of each sliding block (208), each sliding block (208) is fixedly connected with one telescopic sleeve (209) and each sliding block (3) is fixedly connected to each sliding block (209) ) The outer sides of the two sliding blocks are respectively sleeved with a first elastic piece (210), one end of each first elastic piece (210) is fixedly connected with the corresponding fixed rod (3), and the other end of each first elastic piece (210) is fixedly connected with the corresponding sliding block (205); The reinforcement assembly comprises a base plate (301), first fixing plates (304), first sliding rods (305) and second elastic pieces (306), wherein two base plates (301) distributed left and right are fixedly connected to the lower surface of an assembled board house (7), each base plate (301) is in sliding connection with two second sliding plates (302), the middle part of each second sliding plate (302) is fixedly connected with one first fixing plate (304), each rectangular four corners of the lower surface of each base plate (301) are fixedly connected with one first sliding rod (305), each of the two first sliding rods (305) adjacent left and right is in sliding connection with one first fixing plate (304), one second elastic piece (306) is fixedly connected to the outer side of each first sliding rod (305), one end of each second elastic piece (306) is fixedly connected to the first fixing plate (304), and the other end of each second elastic piece (306) is fixedly connected to the base plate (301); The protection component comprises a second electric actuator (401), a top block (402), limiting plates (403), vertical rods (404), round rods (406), a first connecting shaft (407), a special-shaped plate (408), a second fixed plate (409), a third elastic piece (410), a second connecting shaft (411) and a fourth elastic piece (412), wherein the lower parts of two left supporting plates (1) are fixedly connected with the second electric actuator (401), the telescopic parts of each second electric actuator (401) are fixedly connected with a top block (402), the upper parts of two left supporting plates (1) are fixedly connected with one limiting plate (403), each limiting plate (403) is connected with one vertical rod (404) in a sliding manner, each vertical rod (404) is fixedly connected with one buckle (405), one round rod (406) is fixedly connected with two movable parts (81) in the left direction, the lower parts of the two vertical rods (404) are respectively and rotationally connected with one first connecting shaft (407), the upper parts of the two top blocks (402) are fixedly connected with one special-shaped plate (408), the upper parts of the two special-shaped plates (408) are respectively fixedly connected with the first elastic pieces (409) and the two special-shaped plates (410) are respectively fixedly connected with the first elastic pieces (410); the upper parts of the two deformed plates (408) are respectively and rotatably connected with a second connecting shaft (411), the upper part of each second fixing plate (409) is fixedly connected with two fourth elastic pieces (412), and the two fourth elastic pieces (412) adjacent to each other in front and back are respectively and rotatably connected with one second connecting shaft (411).
  2. 2. A steel structure earthquake-proof equipment for fabricated buildings according to claim 1, wherein, Each first fixing block (303) is arranged in a reverse triangle shape and is used for being inserted into the ground.
  3. 3. A steel structure earthquake-proof equipment for fabricated buildings according to claim 1, wherein, A pulley (8) is respectively arranged at four corners of the rectangle at the lower part of the assembled board room (7), and a movable part (81) is arranged on each pulley (8) for moving the assembled board room (7).
  4. 4. A steel structure earthquake-proof equipment for fabricated buildings according to claim 3, wherein, The lower end of each ejector rod (204) is provided with a ball head, and each sliding block (205) is provided with an arc-shaped groove for matching with the ejector rod (204).
  5. 5. A steel structure earthquake-proof equipment for fabricated buildings according to claim 4, wherein, The upper portion of each squeeze plate (206) is cut in an inclined shape, and the upper portion of each second slide plate (302) is cut in an inclined shape for cooperation with the squeeze plate (206).
  6. 6. A steel structure earthquake-proof equipment for fabricated buildings according to claim 5, wherein, Each buckle (405) is arranged in an arc shape and is used for limiting the round rod (406).
  7. 7. A steel structure earthquake-proof equipment for fabricated buildings according to claim 6, wherein, The support assembly comprises a third fixing plate (501), second sliding rods (502), fifth elastic pieces (504), second fixing blocks (505), sliding rods (506), fourth fixing plates (507) and sixth elastic pieces (508), wherein two third fixing plates (501) which are distributed front and back are fixedly connected to the upper surface of a fabricated board house (7), two second sliding rods (502) are fixedly connected to the upper surface of each third fixing plate (501), the fourth sliding rods (502) are fixedly connected with a protective frame (503), one fifth elastic piece (504) is sleeved outside each second sliding rod (502), one end of each fifth elastic piece (504) is fixedly connected to the third fixing plate (501), the other end of each fifth elastic piece (504) is fixedly connected to the protective frame (503), the second fixing blocks (505) are fixedly connected to the lower portion of the rear third fixing plate (501), the fourth fixing plates (507) are fixedly connected to the upper surface of the fabricated board house (7) in a sliding mode, the fourth fixing plates (507) are fixedly connected to the upper surface of the fabricated board house (505), one end of each fourth fixing plate (506) is fixedly connected to the other end of each fifth fixing plate (506), and the other end of each fifth fixing plate (508) is fixedly connected to the sixth elastic piece (508) fixedly connected to the other end of the sixth elastic pieces (508).

Description

Steel construction antidetonation equipment that assembled building was used Technical Field The invention relates to the field of assembled buildings, in particular to steel structure anti-seismic equipment for an assembled building. Background Aiming at the problems of long time consumption, low recycling rate, poor living comfort and the like of the installation of the common movable board house, based on an assembly technology, the assembly type movable board house is provided at present so as to realize the purposes of rapid assembly, safety, stability and recycling of the assembly type movable board house; But this assembled movable board house is when using outdoors, very easily shakes because of external force, and then leads to each part to collide each other and take place deformation, cause this assembled movable board house to damage the collapse because of the vibrations that external force produced for the potential safety hazard is produced to the board house, and this assembled movable board house very easily inclines after taking place vibrations, and not timely make the adjustment, very easily influence the normal use of assembled movable board house, simultaneously assembled movable board house very easily takes place to move side when taking place vibrations, further influence the normal use of assembled movable board house, and then serious influence result of use. Disclosure of Invention The invention provides steel structure anti-seismic equipment for an assembled building, which aims to overcome the defect that the assembled movable plank house is damaged due to vibration generated by external force so as to cause potential safety hazard to the plank house. The steel structure anti-seismic equipment for the assembled building comprises four supporting plates, sliding plates, fixing rods, connecting plates, electronic level meters, connecting rods and an assembled board room, wherein one sliding plate is connected to each supporting plate in a sliding mode, the fixing rods are fixedly connected to the two sliding plates on the same side in a common mode, the connecting plates are fixedly connected to the two supporting plates on the same side in a common mode, the electronic level meters are mounted in the middle portions of the two fixing rods in a common mode, the connecting rods are fixedly connected to the middle portions of the two fixing rods in a common mode, the assembled board room is arranged between the four supporting plates, the assembled board room is fixedly connected with the connecting rods, the anti-seismic assembly, the reinforcing assembly, the first fixing blocks, the buckles and the protecting frames are further arranged on the supporting plates, the anti-seismic assembly is connected with the assembled board room, the reinforcing assembly is connected to the lower surface of the assembled board room, the upper surface of the assembled board room is connected with the supporting assembly, the four sliding blocks used for conducting shock absorption are connected to the reinforcing assembly, the reinforcing assembly is connected to the four sliding blocks used for conducting shock absorption, the second locking assembly is connected to the second locking assembly is used for conducting the first locking and the second locking assembly is used for conducting the first locking assembly. As an improvement of the above-mentioned scheme, each first fixing block is provided in a chamfer shape for insertion into the ground. As an improvement of the scheme, pulleys are respectively arranged at four corners of the rectangle at the lower part of the assembled board house, and each pulley is provided with a movable part for moving the assembled board house. The anti-vibration assembly comprises connecting blocks, supporting plates, first sliding plates, ejector rods, extrusion plates, first electric actuators, sliding blocks, sleeves and first elastic pieces, wherein one connecting block is fixedly connected to each rectangular four corners of the outer wall of an assembled board room, one supporting plate is fixedly connected to the lower surface of each connecting block, one first sliding plate is fixedly connected to the lower surface of each supporting plate, four first sliding plates are respectively and slidably connected with one supporting plate, one ejector rod is fixedly connected to the lower surface of each first sliding plate, each fixing rod is respectively and slidably connected with two sliding blocks, four sliding blocks are respectively matched with one ejector rod, one extrusion plate is fixedly connected to the lower surface of each sliding block, one first electric actuator is fixedly connected to the lower portion of each supporting plate, one sliding block is fixedly connected to each telescopic part of each first electric actuator, two sleeves are fixedly connected to each fixing rod, each sleeve is fixedly connected with one sliding block, one first