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CN-122007843-A - Portable anti-seismic bracket mounting system

CN122007843ACN 122007843 ACN122007843 ACN 122007843ACN-122007843-A

Abstract

The invention discloses a portable anti-seismic bracket mounting system, which relates to the technical field of anti-seismic brackets, wherein a top hollow integration plate is arranged at the top end of a double-support middle concave frame, a counter-rotating motor is arranged at one side of the bottom end of the top hollow integration plate through a motor seat, a counter-rotating motor output shaft is clamped with a counter-rotating gear, a self-protection gear frame is rotatably arranged at the top end of the top hollow integration plate corresponding to the position of the counter-rotating gear, a plurality of self-repairing electric sliding rails are equidistantly arranged at the top end of the self-protection gear frame, and self-repairing sliding blocks are arranged at the top end of the plurality of self-repairing electric sliding rails through a sliding rail seat.

Inventors

  • ZHOU XIAOPING
  • MEI XIANG
  • Ma Zhihan
  • ZHOU KEYU
  • Pei Zeming
  • REN JINXI
  • WU XINYE
  • ZHAO RONG
  • WANG XIAOLI
  • WANG GUOJI
  • YAN HECHUN
  • Bo Shuang

Assignees

  • 德成建设集团有限公司

Dates

Publication Date
20260512
Application Date
20260413

Claims (10)

  1. 1. The portable anti-seismic bracket mounting system comprises a double-support middle concave frame (1) and is characterized in that an inserting and installing-connecting-cutting assembly (2) is arranged at the side end of the double-support middle concave frame (1); The inserting and installing combined cutting assembly (2) comprises a head space integrated plate (201); a top space integrated plate (201) is arranged at the top end of the double-support middle concave frame (1), and a counter-rotating motor (202) is arranged at one side of the bottom end of the top space integrated plate (201) through a motor seat; an output shaft of the disrotatory motor (202) is clamped with a disrotatory gear (203); A self-protection gear frame (204) is rotatably arranged at the position, corresponding to the counter gear (203), of the top end of the head space integrated plate (201), and a plurality of self-repair sliding rails (205) are equidistantly arranged at the top end of the self-protection gear frame (204); the top ends of the self-repairing electric sliding rails (205) are provided with self-repairing sliding blocks (206) through sliding rail seats, and the top ends of the self-repairing sliding blocks (206) are clamped with opposite-plug cylinders (207); A biconvex opposite clamping frame (208) is arranged at the top end of one opposite inserting cylinder (207), and a self-opposite motor (209) is arranged at the top end of the other opposite inserting cylinder (207) through a motor seat; wherein the top end of the other opposite inserting cylinder (207) is provided with a flat card limiting frame (210); The output shaft of the self-alignment motor (209) is clamped with a continuous cutting bearing frame (211).
  2. 2. The portable anti-seismic bracket mounting system according to claim 1, wherein a drilling motor (212) is mounted at one end of the inner side of the double-convex pair clamping frame (208) through a motor base, and a fixed drill bit (213) is clamped to an output shaft of the drilling motor (212); the bottom ends of the inner sides of the biconvex pair clamping frames (208) are symmetrically provided with pressing spring rods (214), and the top ends of the two pressing spring rods (214) are provided with a sliding-closing dust collection sleeve (215); the side end of the biconvex pair clamping frame (208) is connected with a dust collection fixing pipe (216) in a penetrating way; an industrial dust collector (217) is arranged at one side of the bottom end of the head space integrated plate (201); the top end of the biconvex pair clamping frame (208) is symmetrically provided with a full-automatic laser instrument (218); The feeding opposite clamping cylinders (219) are equidistantly arranged on one side of the top ends of the flat clamping limiting frame (210) and the continuous cutting bearing frame (211), and feeding electric sliding rails (220) are arranged on the inner sides of the feeding opposite clamping cylinders (219); The counter-rotating gear (203) is in meshed connection with the self-protection gear frame (204), and the number of the self-repairing sliding blocks (206) is three.
  3. 3. A portable shock mount system according to claim 2, wherein the fixed drill bit (213) is placed inside a double-sided clamp (208) and a close slip dust suction sleeve (215), the close slip dust suction sleeve (215) being slidably engaged with the double-sided clamp (208).
  4. 4. A portable anti-seismic bracket mounting system according to claim 3, wherein the side end of the feeding electrical sliding rail (220) is provided with a feeding sliding plate (221) through a sliding rail seat; a transmission motor (222) is arranged at one side of the bottom ends of the flat clamping limiting frame (210) and the continuous cutting bearing frame (211) through a motor seat, and a transmission gear (223) is arranged on an output shaft of the transmission motor (222); The flat clamping limiting frame (210) and one side of the top end of the continuous cutting bearing frame (211) are rotatably connected with a driven gear frame (224) at positions corresponding to the transmission gear (223), and a plurality of inner clamping cylinders (225) are equidistantly arranged on the inner side of the driven gear frame (224); one end of the inner clamping cylinder (225) is clamped with an inner clamping operation plate (226); the top ends of the flat clamping limiting frame (210) and the continuous cutting bearing frame (211) are respectively provided with an observation camera (227); an impact hydraulic cylinder (228) is arranged at one end of the continuous cutting bearing frame (211), and an impact pressing plate (229) is arranged at the top end of the impact hydraulic cylinder (228); One end of the dust collection fixing pipe (216) is connected with one end of the industrial dust collector (217) through an adapter, and the feeding sliding plate (221) is slidably arranged on the inner side of the feeding opposite clamping cylinder (219).
  5. 5. The portable anti-seismic bracket mounting system according to claim 4, wherein a servo pump (230) is mounted at one end of the inner side of the double-support middle concave frame (1) through a motor base, and an output shaft of the servo pump (230) is clamped with an inserting electric push rod (231); A clamping linkage block (232) is arranged at the top end of the insertion electric push rod (231), and a cutting opposite lifting frame (233) is rotatably connected to the top end of the clamping linkage block (232); A plurality of torsion springs (234) are equidistantly arranged at the top of the side end of the cutting opposite lifting frame (233), and swing clamp brackets (235) are arranged at the side ends of the torsion springs (234); A trimming motor (236) is arranged at the top end of the inner side of the trimming opposite lifting frame (233), and a separating electromagnet (237) is arranged at the top end of the swing clamp supporting frame (235), an output shaft of the trimming motor (236) and the inner side of the trimming opposite lifting frame (233); The transmission gear (223) is connected with the driven gear frame (224) in a meshed mode, and the transmission gear (223) and the driven gear frame (224) are two.
  6. 6. The portable anti-seismic bracket mounting system according to claim 5, wherein a lifting screw (238) is mounted at a side end of one of the split electromagnets (237), and a lifting spin frame (239) is mounted at a side end of the lifting screw (238) through a screw seat; a traction cable (240) is arranged between the swing clamp support frame (235) and the lifting spin frame (239); The swing clamp support frames (235) are rotatably connected with the cutting opposite lifting frames (233), three swing clamp support frames (235) are arranged, and the lifting spin frames (239) are slidably arranged on the inner sides of the cutting opposite lifting frames (233); The input ends of the counter rotating motor (202), the self-repairing electric sliding rail (205), the counter inserting cylinder (207), the self-aligning motor (209), the drilling motor (212), the industrial dust collector (217), the full-automatic laser instrument (218), the feeding electric sliding rail (220), the transmission motor (222), the inner clamping cylinder (225), the observation camera (227), the impact hydraulic cylinder (228), the servo pump (230), the inserting electric push rod (231), the repairing motor (236) and the separating electromagnet (237) are electrically connected with the output end of the external controller; The signal output ends of the full-automatic laser instrument (218) and the observation camera (227) are electrically connected with the signal input end of the external controller; The input end of the external controller is electrically connected with the output end of the external power supply.
  7. 7. The portable anti-seismic bracket mounting system according to claim 6, wherein the bottom end of the double-support middle concave frame (1) is provided with a joint correction component (3); the joint correction assembly (3) comprises a lower supporting and fixing clamping frame (301); the bottom end of the double-support middle concave frame (1) is provided with a lower support fixing clamping frame (301), and opposite-lifting hydraulic cylinders (302) are respectively arranged at the top end and the bottom end of the double-support middle concave frame (1) and the bottom end of the lower support fixing clamping frame (301); Wherein the bottom ends of the opposite lifting hydraulic cylinders (302) are provided with supporting limiting blocks (303); a bearing limiting plate (304) is arranged at the bottom end of the opposite-lifting hydraulic cylinder (302) corresponding to the position of the lower supporting and fixing clamping frame (301), and a plurality of fine adjustment hydraulic cylinders (305) are embedded in the top end of the bearing limiting plate (304) at equal intervals; An electric universal wheel (306) is arranged at the bottom end of the fine adjustment hydraulic cylinder (305); The bottom end of the double-support middle concave frame (1) is symmetrically provided with a combined clamping frame (308) through a combined long pin (307), and the bottom end of the combined clamping frame (308) is rotationally connected with a vertical lifting frame (309); The bottom end of the vertical lifting frame (309) is connected with a butt-moving clamping frame (310) in a sliding manner, and the bottom end of the butt-moving clamping frame (310) is connected with a whole support fixing frame (311) in a sliding manner; The side end of the whole support fixing frame (311) is rotatably connected with a porous bidirectional screw rod frame (312).
  8. 8. A portable anti-seismic bracket mounting system according to claim 7, wherein a limiting pin (313) is inserted between the porous bi-directional screw mount (312) and the bracing mount (311); A reciprocating pneumatic slide rail (314) is embedded in the middle of the top end of the bearing limiting plate (304), and a reciprocating positioning block (315) is arranged at one end of the reciprocating pneumatic slide rail (314) through a slide rail seat; one end of the reciprocating positioning block (315) is provided with a hydraulic motor (316) through a motor seat, and an internal thread correction cylinder (317) is arranged at the side end of an output shaft of the hydraulic motor (316) at equal intervals; The two vertical lifting frames (309) are arranged, and the opposite-moving clamping frames (310) are sleeved and connected with the lower supporting and fixing clamping frames (301) through combined long pins (307).
  9. 9. The portable anti-seismic bracket mounting system according to claim 8, wherein a supporting screw (318) is screwed on the inner side of the internal thread correction cylinder (317), and an internal thread sleeve (319) is welded on the top end of the supporting screw (318); the inner side of the internal thread sleeve (319) is connected with a fixed clamping screw rod (320) through threads, and the top end of one fixed clamping screw rod (320) is welded with a feeding swing frame (321); The side end of the porous bidirectional screw rod frame (312) is connected with the side end of the vertical lifting frame (309) through a screw rod seat, and the reciprocating positioning block (315) is slidably arranged at the top end of the bearing limiting plate (304).
  10. 10. The portable anti-seismic bracket mounting system according to claim 9, wherein clamping spring rods (322) are symmetrically arranged at the side ends of the feeding swing frame (321), and soft fitting electromagnets (323) are arranged at one ends of the clamping spring rods (322); the soft attaching electromagnet (323) is arranged at the inner side of the feeding swing frame (321); the input ends of the opposite lifting hydraulic cylinder (302), the fine adjustment hydraulic cylinder (305), the electric universal wheel (306), the reciprocating pneumatic slide rail (314), the hydraulic motor (316) and the soft fitting electromagnet (323) are electrically connected with the input end of the external controller.

Description

Portable anti-seismic bracket mounting system Technical Field The invention relates to the technical field of anti-seismic brackets, in particular to a portable anti-seismic bracket mounting system. Background The anti-seismic support limits the auxiliary electromechanical engineering facilities to generate displacement, controls the vibration of the facilities and transmits the load to various components or devices on the bearing structure, and the anti-seismic support can reliably protect the building electromechanical engineering facilities in the earthquake and bear the earthquake action from any horizontal direction. The patent with the application number of CN202020539395.3 provides a steel structure beam clamp for installing an anti-seismic bracket, and the patent solves the problems that the anti-seismic bracket of a steel structure factory building is difficult to install and can not root by using a mechanical anchor bolt, can reasonably match with the prior infrastructure such as purlines, I-steel and the like, and realizes the quick installation of the anti-seismic bracket in the steel structure factory building by a mechanical connection method. However, when the anti-vibration support is installed in the prior art, a large amount of equipment is required to be used by workers for operation, so that a large amount of manual participation is required during installation, the labor intensity and the complexity of the workers are increased, the actual installation efficiency is greatly influenced, various different installation equipment is required to be carried, the labor intensity and the time for carrying the equipment are increased, meanwhile, the size of the equipment cannot be quickly adjusted, the equipment is limited by space, and the actual working efficiency and the installation stability of the equipment are influenced. Disclosure of Invention The invention provides a portable anti-seismic bracket mounting system, which can effectively solve the problems that in the prior art, when an anti-seismic bracket is mounted, a large amount of equipment is required to be used by a worker for operation, so that a large amount of labor is required for mounting, the labor intensity and the complexity of the worker are increased, and the actual mounting efficiency is greatly influenced. In order to achieve the aim, the invention provides the technical scheme that the portable anti-seismic bracket mounting system comprises a double-support middle concave frame, wherein an inserting, installing and cutting assembly is arranged at the side end of the double-support middle concave frame; The inserting and installing combined cutting assembly comprises a headspace integrated plate; A top space integrated plate is arranged at the top end of the double-support middle concave frame, and a counter-rotating motor is arranged at one side of the bottom end of the top space integrated plate through a motor seat; The output shaft of the disrotatory motor is clamped with a disrotatory gear; the top end of the head space integration plate is rotatably provided with a self-protection gear rack corresponding to the position of the counter rotating gear, and the top end of the self-protection gear rack is equidistantly provided with a plurality of self-repair electric sliding rails; The top ends of the self-repairing electric sliding rails are provided with self-repairing sliding blocks through sliding rail seats, and the top ends of the self-repairing sliding blocks are connected with opposite air cylinders in a clamping mode; a biconvex pair clamping frame is arranged at the top end of one of the opposite inserting cylinders, and a self-pair motor is arranged at the top end of the other opposite inserting cylinder through a motor base; wherein the top end of the other opposite-inserting cylinder is provided with a flat card limiting frame; The self-alignment motor output shaft is clamped with a continuous cutting bearing frame. According to the technical scheme, a drilling motor is arranged at one end of the inner side of the biconvex pair clamping frame through a motor base, and a fixed drill bit is clamped on an output shaft of the drilling motor; the bottom ends of the inner sides of the biconvex pair clamping frames are symmetrically provided with pressing spring rods, and the top ends of the two pressing spring rods are provided with a closed sliding dust collection sleeve; the side ends of the biconvex pair clamping frames are connected with dust collection fixing pipes in a penetrating manner; an industrial dust collector is arranged at one side of the bottom end of the head space integrated plate; The top ends of the biconvex pair clamping frames are symmetrically provided with full-automatic laser instruments; The feeding opposite clamping cylinders are equidistantly arranged on one side of the top ends of the flat clamping limiting frame and the continuous cutting bearing frame, and feeding electric slidin