CN216336266U - Assembled building element hoist and mount construction platform structure - Google Patents

Abstract

The utility model discloses an assembled building component hoisting construction platform structure which comprises a building structure, wherein two groups of self-climbing devices are arranged on the building structure, two truss guide rails are fixedly arranged at the tops of the two groups of self-climbing devices in parallel, and a single-beam crane is erected between the two truss guide rails. According to the self-climbing type self-climbing assembly, the self-climbing device is utilized to support the two truss guide rails, and the single-beam crane is erected between the two truss guide rails, so that the single-beam crane can flexibly move above a construction plane to hoist the assembly type building component, the assembly type building component can be accurately and quickly installed by flexibly walking the single-beam crane, the labor is reduced, the construction safety is ensured, and the construction efficiency is greatly improved; meanwhile, the truss guide rail can climb upwards layer by layer along with floors through the self-climbing device, and the installation work of the assembled building components of all the floors can be completed.

Description

Assembled building element hoist and mount construction platform structure

Technical Field

The utility model relates to a fabricated building component hoisting construction platform structure, and belongs to the technical field of building construction.

Background

The existing assembly type building component hoisting is mainly completed by a tower crane, the assembly type building component in the working process is transported to a project site by an automobile, then the component is hoisted to a position needing to be installed on a construction layer by the tower crane, the installation process mainly comprises the steps that a tower crane commander feeds back the installation condition of the site component and a tower crane driver to adjust a tower crane swing arm through an interphone, the site component installer finely adjusts the component through manpower, and the tower crane is loosely bound after the position adjustment and reinforcement are completed. And the steps are circulated in such a way until all the assembled components are hoisted.

The existing technical scheme needs to occupy a tower crane for operation and construction for a long time, because a tower crane driver is far away from a hoisting construction floor, and the fine adjustment of a tower crane swing arm is difficult, in order to overcome the two problems, a tower crane commander and a plurality of field component installers need to be matched; the coordination command of tower crane commanders and tower crane drivers is often imperfect and needs to be adjusted repeatedly, resulting in low on-site construction benefit; in the process of adjustment, a tower crane driver is easy to swing the component to accidentally injure installation personnel, and the potential safety hazard is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a fabricated building component hoisting construction platform structure which is high in construction efficiency, convenient to operate, safe and reliable, and overcomes the defects in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides an assembly type building element hoist and mount construction platform structure, includes building structure, installs two sets ofly from climbing device on building structure, has two truss guide rails at two sets ofly from climbing device's top fixed mounting parallelly, has erect the monospar driving between two truss guide rails.

Further, the self-climbing device comprises a group of wall-attached supports fixedly connected with the building structure, a climbing frame guide rail is fixedly connected to the wall-attached supports, the upper end of each climbing frame guide rail is fixedly connected with the truss guide rail, an electric hoist is installed on the upper portion of the building structure, and a hook of the electric hoist is connected with the lower end of the climbing frame guide rail.

Furthermore, each truss guide rail is fixedly connected with more than two climbing frame guide rails.

Furthermore, a small platform for operation of a person is fixedly arranged on the climbing frame guide rail.

Due to the adoption of the technical scheme, the utility model has the following advantages: according to the self-climbing type self-climbing assembly, the self-climbing device is utilized to support the two truss guide rails, and the single-beam crane is erected between the two truss guide rails, so that the single-beam crane can flexibly move above a construction plane to hoist the assembly type building component, the assembly type building component can be accurately and quickly installed by flexibly walking the single-beam crane, the labor is reduced, the construction safety is ensured, and the construction efficiency is greatly improved; meanwhile, the truss guide rail can climb upwards layer by layer along with floors through the self-climbing device, and the installation work of the assembled building components of all the floors can be completed.

Drawings

FIG. 1 is a top view of a schematic of the structure of the present invention;

fig. 2 is a vertical view of a schematic of the structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

The embodiment of the utility model comprises the following steps: referring to fig. 1 and 2, an assembled building component hoisting construction platform structure includes a building structure 1, two self-climbing devices 2 are installed on the building structure 1, two truss guide rails 3 are fixedly installed on the tops of the two self-climbing devices 2 in parallel, and a single-beam crane 4 is erected between the two truss guide rails 3. The self-climbing device 2 comprises a group of wall-attached supports 2.1 fixedly connected with the building structure 1, a climbing frame guide rail 2.2 is fixedly connected to the wall-attached supports 2.1, the upper end of each climbing frame guide rail 2.2 is fixedly connected with a truss guide rail 3, an electric hoist 2.3 is installed on the upper portion of the building structure 1, and a hook of the electric hoist 2.3 is connected with the lower end of the climbing frame guide rail 2.2. Each truss guide rail 3 is fixedly connected with more than two climbing frame guide rails 2.2, so that the truss guide rails 3 are stably supported. The climbing frame guide rail 2.2 is fixedly provided with a small platform 2.4 for operating by a person, so that manual operation is facilitated.

According to the self-climbing construction method, the self-climbing device 2 is used for supporting the two truss guide rails 3, and the single-beam crane 4 is erected between the two truss guide rails 3, so that the single-beam crane 4 can flexibly move above a construction plane to hoist the assembled construction member, the assembled construction member can be ensured to flexibly move through the single-beam crane 4 to realize accurate and rapid installation, the labor is reduced, the construction safety is ensured, and the construction efficiency is greatly improved; meanwhile, the truss guide rail 3 can climb upwards along with floors layer by layer through the self-climbing device 2, and the installation work of the assembled building components of all floors can be completed.

When lifting from climbing device 2, at first need dismantle attach wall support 2.1 and climb the connecting bolt between the frame guide rail 2.2, then start electric block 2.3, drive through electric block 2.3 and climb frame guide rail 2.2 and slowly upwards promote to the upper strata construction floor, then rethread attach wall support 2.1 and climb frame guide rail 2.2 fixed connection, will fix like this and also promote to the upper strata construction floor at the truss guide rail 3 that climbs frame guide rail 2.2 top, and then continue to adopt monospar driving 4 to hoist assembled building component. And repeating the process until the assembly type building components of all floors are installed.

Claims (4)

1. The utility model provides an assembled building element hoist and mount construction platform structure, includes building structure (1), its characterized in that: two groups of self-climbing devices (2) are installed on a building structure (1), two truss guide rails (3) are fixedly installed on the tops of the two groups of self-climbing devices (2) in parallel, and a single-beam traveling crane (4) is erected between the two truss guide rails (3).

2. The fabricated building element hoisting construction platform structure of claim 1, wherein: from climbing device (2) including with building structure (1) fixed connection a set of attach wall support (2.1), on attaching wall support (2.1) fixedly connected with climb a guide rail (2.2), every upper end and truss guide rail (3) fixed connection of climbing a guide rail (2.2), install electric block (2.3) on the upper portion of building structure (1), and the couple of electric block (2.3) is connected with climbing a guide rail (2.2) lower extreme.

3. The fabricated building element hoisting construction platform structure of claim 2, wherein: each truss guide rail (3) is fixedly connected with more than two climbing frame guide rails (2.2).

4. The fabricated building element hoisting construction platform structure of claim 2, wherein: and a small upper operating platform (2.4) is fixedly arranged on the climbing frame guide rail (2.2).

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