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CN-121989011-A - Auxiliary installation equipment for building electromechanical engineering

CN121989011ACN 121989011 ACN121989011 ACN 121989011ACN-121989011-A

Abstract

The invention relates to auxiliary installation equipment for building electromechanical engineering, and belongs to the technical field of auxiliary installation equipment for engineering. The butt joint assembly comprises a frame, a supporting frame, a lifting mechanism, a butt joint assembly, a positioning frame, an auxiliary mounting unit and an auxiliary mounting unit, wherein the supporting frame is provided with an accommodating space and is covered on the periphery of a mounting structure, the lifting mechanism is mounted on the frame and is provided with a lifting part and a bottom plate, the bottom plate moves along the lifting part, the butt joint assembly comprises a main rail and an auxiliary rail, the main rail is mounted on the bottom plate, the auxiliary rail is slidably mounted on the main rail, the mounting plate is fixedly mounted on the auxiliary rail, the positioning frame is mounted on the mounting plate and is provided with a fixing clamping block for abutting against the outer surface of a workpiece, the auxiliary frame is mounted on the mounting plate and is provided with a plurality of mounting grooves, the auxiliary mounting unit is detachably mounted in the mounting grooves and is used for carrying out auxiliary mounting on the workpiece based on the fixing standard of the positioning frame. The method is used for solving the technical problem that levelness and butt joint precision of rack installation of a cabinet in the prior art are difficult to guarantee.

Inventors

  • LIU QI
  • Du Zhenghang
  • LUO HAO
  • HE QIANSHENG
  • WANG AIMING
  • ZHU PENG
  • LIU ZHENG
  • MA XINHUI
  • LI YUN
  • HAN QILONG

Assignees

  • 成都建工第八建筑工程有限公司
  • 雄安雄商置业有限公司
  • 中建二局安装工程有限公司
  • 中建三局第一建设工程有限责任公司

Dates

Publication Date
20260508
Application Date
20260403

Claims (9)

  1. 1. An auxiliary installation device for building electromechanical engineering, comprising: A frame (11); a support frame (21) having an accommodation space, the support frame (21) being provided on the peripheral side of the mounting structure; A lifting mechanism (30) mounted on the frame (11), the lifting mechanism (30) having a lifting portion and a bottom plate (31), the bottom plate (31) moving along the lifting portion; the butt joint assembly (40) comprises a main rail (41) and a secondary rail (42), wherein the main rail (41) is arranged on the bottom plate (31), the secondary rail (42) is slidably arranged on the main rail (41), and a limiting block is arranged between the main rail (41) and the secondary rail (42); A mounting plate (51) fixedly mounted on the sub rail (42); The positioning frame (52) is arranged on the mounting plate (51), and a fixed clamping block (53) is arranged on the positioning frame (52) and used for abutting against the outer surface of the workpiece (70); an auxiliary frame (54) mounted on the mounting plate (51), wherein a plurality of mounting grooves are formed in the auxiliary frame (54); the auxiliary mounting unit (55) is detachably mounted in the mounting groove, and the auxiliary mounting unit (55) is used for carrying out auxiliary mounting on the workpieces (70) based on the fixed reference of the positioning frame (52).
  2. 2. The auxiliary installation device for the building electromechanical engineering according to claim 1, wherein the supporting frame (21) is of a rectangular frame structure, the supporting frame (21) is erected on the periphery of the workpiece (70), and a travelling mechanism A (22) and a locking supporting leg (23) are arranged at the bottom of the supporting frame (21).
  3. 3. A building electro-mechanical engineering auxiliary installation device according to claim 2, wherein the lifting mechanism (30) comprises: a lifting frame (32) arranged on the side surface of the frame (11); two groups of lifting chain plates (33) are respectively arranged at two sides of the lifting frame (32); A plurality of guide rods (34) installed in the lifting frame (32) and arranged along the distribution direction of the lifting frame (32); a drive rod (35) arranged between the two lifting link plates (33); lifting installation seat (36), both ends fixed mounting are in lifting chain plate (33), just lifting installation seat (36) is last to have seted up guide holder (37) and drive seat (38), guide holder (37) are used for corresponding wears to establish guide bar (34), drive seat (38) with screw thread fit between guide bar (34), the drive rotation of guide bar (34) and the motion of link joint, thereby drive lifting installation seat (36) are followed the direction of distribution displacement of guide bar (34).
  4. 4. A building electromechanical engineering auxiliary installation device according to claim 3, characterized in that the main rail (41) is provided with a limit bar (43) along the distribution direction, the auxiliary rail (42) is provided with a first limit groove (44) and a second limit groove (45), the first limit groove (44) and the main rail (41) are clamped, the second limit groove (45) is matched with the limit bar (43), a travelling mechanism B (46) is arranged between the two auxiliary rails (42), the travelling mechanism B (46) is fixedly connected with the auxiliary rails (42), and the bottom plate (31) is provided with a groove body for guiding the travelling mechanism B (46).
  5. 5. The auxiliary installation device for building electromechanical engineering according to claim 4, wherein a positioning sensor (61) is arranged on the bottom plate (31), a receiving sensor (62) is arranged on the supporting frame (21), and the positioning sensor (61) corresponds to the receiving sensor (62) and is used for detecting the butting levelness between the workpieces (70).
  6. 6. A building electro-mechanical engineering auxiliary installation device according to claim 5, wherein the auxiliary installation unit (55) comprises: the auxiliary mounting frame (551) is mounted in the auxiliary mounting groove, a plurality of sliding grooves (552) are formed in the inner wall of the auxiliary mounting frame (551), and an auxiliary mounting plate (553) is arranged on the auxiliary mounting frame (551); A plurality of mounting positioning blocks (554) which are arranged in the sliding groove (552) in a sliding manner, wherein the mounting positioning blocks (554) are provided with guide surfaces (555); And a servo unit fixedly installed in the auxiliary installation plate (553) and used for assembling the parts fixed by the installation positioning blocks (554).
  7. 7. The auxiliary installation device for building electromechanical engineering according to claim 6, wherein the servo unit is a servo pressing system, a sensor type servo tightening system or a servo nailing system, and the installation actions of pressing, tightening and nailing are correspondingly realized.
  8. 8. The auxiliary installation device for the building electromechanical engineering according to claim 7, wherein an auxiliary energy supply assembly is further arranged on the frame (11), the auxiliary energy supply assembly comprises a photovoltaic panel and an energy storage battery, the photovoltaic panel is installed on the top of the frame (11) and the supporting frame (21), the energy storage battery is arranged in the frame (11), the photovoltaic panel is electrically connected with the energy storage battery, and the energy storage battery is electrically connected with the lifting mechanism (30) and the pre-installation assembly.
  9. 9. The auxiliary installation device for the building electromechanical engineering according to claim 8, wherein the supporting frame (21) is further provided with a height adjusting member (24), the height adjusting member (24) is provided with the receiving sensor (62), the height adjusting member drives the receiving sensor (62) to a preset height, so that the lifting mechanism (30) is guided to drive the positioning frame (52) to perform height calibration, and after the positioning sensor (61) and the receiving sensor (62) complete the adaption and the height check, the auxiliary rail (42) is driven to drive the workpiece (70) to move to complete auxiliary assembly.

Description

Auxiliary installation equipment for building electromechanical engineering Technical Field The invention belongs to the technical field of engineering auxiliary installation equipment, and particularly relates to auxiliary installation equipment for building electromechanical engineering. Background In the building electromechanical engineering, the rack frame is a core bearing foundation of various electromechanical devices, and the mounting accuracy, the docking accuracy and the mounting efficiency of the rack frame directly influence the assembly quality and the long-term operation stability of the subsequent electromechanical devices. In the electromechanical construction scene of building, the installation operation of rack frame always needs to go up and down, translation and accurate butt joint according to construction point position, and current auxiliary installation equipment can replace the manual work to accomplish the heavy object transport to a certain extent, has promoted the operation security in comparison with pure manual installation mode. In the using process of the prior art, at least the following problems exist: The auxiliary installation equipment of the traditional building electromechanical cabinet frame lacks an accurate lifting adjustment and butt joint positioning structure, the levelness and the butt joint precision of the cabinet frame installation are difficult to ensure, and a special modularized auxiliary assembly unit is not needed, so that the installation process has a plurality of manual intervention links, the integral installation efficiency is low, and the manual labor intensity is high. Disclosure of Invention The invention provides auxiliary installation equipment for building electromechanical engineering, which is used for solving the technical problems that the levelness and the butt joint precision of rack installation of a cabinet in the prior art are difficult to ensure. In order to achieve the above purpose, the present invention is realized by the following technical scheme: The auxiliary mounting device for the building electromechanical cabinet rack comprises a rack, a supporting frame, an auxiliary frame, a positioning frame, an auxiliary mounting unit and a positioning frame, wherein the supporting frame is provided with an accommodating space, the supporting frame is covered on the periphery of a mounting structure and is used for abutting against the outer surface of a workpiece, the lifting mechanism is mounted on the rack and is provided with a lifting part and a bottom plate, the bottom plate moves along the lifting part, the abutting assembly comprises a main rail and an auxiliary rail, the main rail is mounted on the bottom plate, the auxiliary rail is slidably mounted on the main rail, a limiting block is arranged between the main rail and the auxiliary rail, the mounting plate is fixedly mounted on the auxiliary rail, the positioning frame is mounted on the mounting plate, the positioning frame is provided with a fixing clamping block and is used for abutting against the outer surface of the workpiece, the auxiliary frame is mounted on the mounting plate, the auxiliary frame is provided with a plurality of mounting grooves, the auxiliary mounting unit is detachably mounted in the mounting grooves, and the auxiliary mounting unit is used for carrying out auxiliary mounting on the workpiece based on the fixing standard of the positioning frame. Further, the support frame is rectangular frame structure, the support frame erects in the week side of work piece, the bottom of support frame is provided with running gear A and the spike that the locking was used. The lifting mechanism comprises a lifting frame, two groups of lifting chain plates, a plurality of guide rods, a driving rod and a lifting installation seat, wherein the lifting frame is arranged on the side face of a frame, the two groups of lifting chain plates are respectively arranged on two sides of the lifting frame, the plurality of guide rods are arranged in the lifting frame and distributed along the distribution direction of the lifting frame, the driving rod is arranged between the two lifting chain plates, two ends of the lifting installation seat are fixedly arranged on the lifting chain plates, the lifting installation seat is provided with the guide rods and the driving seat, the guide rods are correspondingly arranged in a penetrating mode, and the driving seat is in threaded fit with the guide rods to drive the rotation of the guide rods and the movement of the chain plates, so that the lifting installation seat is driven to displace along the distribution direction of the guide rods. Further, the main track is provided with spacing along the distribution direction, be provided with first spacing groove and second spacing groove on the vice track, first spacing groove with main track joint sets up, the second spacing groove with spacing cooperatees, two be provided with run