CN218149661U - Safe operation platform for flexible falling-free support of high-altitude dome - Google Patents

Abstract

The utility model relates to a flexible safe operation platform of support of exempting from to land of high altitude dome relates to the field of shopping mall construction application research technique, it includes many horizontal cable wires, vertical cable wire, supporting platform and fixed establishment, the both ends of horizontal cable wire and vertical cable wire are fixed on thick beam through fixed establishment respectively, cross arrangement between horizontal cable wire and the vertical cable wire, and horizontal cable wire and vertical cable wire all are parallel with ground, supporting platform sets up on horizontal cable wire and vertical cable wire, supporting platform is used for supporting installer. This application passes through fixed establishment, can make and fix on thick beam crosswise between horizontal cable wire and the vertical cable wire, makes horizontal cable wire and vertical cable wire can support supporting platform, makes supporting platform can supply the installer to carry out the construction operation, can reduce to set up and demolish required time, improves the efficiency of construction, can reduce construction cost, and convenient operation, safe and reliable.

Description

High altitude dome flexible landing-free support safe operation platform

Technical Field

The application relates to the field of large-scale market construction application research technology, in particular to a high-altitude dome flexible falling-free support safe operation platform.

Background

Large-span high-altitude lighting domes are designed in central squares of superstores and are used for increasing lighting inside the superstores, and the high-altitude lighting domes are generally designed in a structural form of steel structures and toughened glass.

When steel construction and toughened glass of installation large-span high altitude daylighting dome, traditional mode need be set up from the inside subaerial full hall scaffold frame that falls to the ground of market to daylighting top bottom as work platform, and installer stands and installs the operation on the work platform at scaffold frame top.

Aiming at the related technologies, the inventor thinks that due to the high height of the daylighting roof and the large construction area, the full framing scaffold has the disadvantages of large workload, long construction period and high cost, and certain safety risk exists in the framing and dismantling processes.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the construction operation of installation personnel to the daylighting top, improve the efficiency of construction, this application provides a high altitude dome flexible exempts from to fall ground support safety operation platform.

The application provides a flexible landing-free support safe operation platform of high altitude dome adopts following technical scheme:

the utility model provides a flexible landing-free support safety operation platform of high altitude dome, includes many horizontal cable wires, vertical cable wire, supporting platform and fixed establishment, the both ends of horizontal cable wire and vertical cable wire are fixed on thick beam through fixed establishment respectively, cross arrangement between horizontal cable wire and the vertical cable wire, just horizontal cable wire and vertical cable wire all are parallel with ground, supporting platform sets up on horizontal cable wire and the vertical cable wire, supporting platform is used for supporting installer.

Through adopting above-mentioned technical scheme, when setting up supporting platform, the interval is apart from ground to run through thick beam setting with horizontal cable wire, through fixed establishment, fixes horizontal cable wire on thick beam in proper order. The two ends of the longitudinal steel cable penetrate through the thick circular beam respectively at intervals of one end distance, and the longitudinal steel cable is fixed on the thick circular beam in sequence through the fixing mechanism, so that the transverse steel cable supports the longitudinal steel cable, and the transverse steel cable and the longitudinal steel cable are distributed in a crossed mode. And laying the supporting platform on a platform formed by the transverse steel cable and the longitudinal steel cable, and moving an installer to the supporting platform to perform construction operation on the high-altitude dome. Through fixed establishment, can make and fix on thick beam crosswise between horizontal cable wire and the vertical cable wire, make horizontal cable wire and vertical cable wire can support supporting platform, make supporting platform can supply the installer to carry out the construction operation, can reduce to set up and demolish required time, improve the efficiency of construction, can reduce construction cost, the operation is convenient, safe and reliable.

Optionally, the fixing mechanism includes at least one limiting member, the transverse steel cable and the longitudinal steel cable respectively penetrate through the thick circular beam, the limiting members are respectively disposed on the transverse steel cable and the longitudinal steel cable, and the limiting members are respectively used for fixing the transverse steel cable and the longitudinal steel cable on the thick circular beam.

By adopting the technical scheme, after the transverse steel cable and the longitudinal steel cable penetrate through the thick circular beam, the limiting parts are sequentially adjusted, so that the limiting parts sequentially limit and fix the transverse steel cable and the longitudinal steel cable. The fixing mechanism can improve the connection strength of the transverse steel cable and the longitudinal steel cable with the thick circular beam, and installation personnel can conveniently conduct construction operation on the daylighting roof.

Optionally, a steel gasket is arranged between the limiting member and the thick circular beam.

Through adopting above-mentioned technical scheme, the steel shim of setting can play certain guard action to back beam, can reduce and take place wearing and tearing between horizontal cable wire and vertical cable wire and the thick beam, improves the life of horizontal cable wire and vertical cable wire.

Optionally, the support platform comprises a plurality of wooden square plates, and the wooden square plates are arranged on the longitudinal steel cable.

Through adopting above-mentioned technical scheme, the flitch board of setting can reduce the gap size between horizontal cable wire and the vertical cable wire, improves installer's home range on construction platform, and the installer of being convenient for carries out the construction operation to the daylighting top on construction platform, improves the efficiency of construction.

Optionally, a wood veneer is arranged on the wood square plate.

Through adopting above-mentioned technical scheme, the wood offset plate of setting can improve the gap size between the wooden square slab, improves installer's home range on construction platform, and the installer of being convenient for carries out the construction operation to the daylighting top on construction platform, improves the efficiency of construction.

Optionally, a movable scaffold is arranged on the wood-plastic plate.

Through adopting above-mentioned technical scheme, the removal scaffold frame of setting, the installer of being convenient for carries out the processing operation to higher place, can improve installer's home range, and the installer of being convenient for carries out the construction operation to the daylighting top on construction platform, improves the efficiency of construction.

Optionally, the movable scaffold is provided with an oblique cable, one end of the oblique cable is connected with the movable scaffold, and the other end of the oblique cable is connected with the transverse steel cable.

Through adopting above-mentioned technical scheme, the slant cable of setting can strengthen the joint strength between removal scaffold frame and the horizontal cable wire, can improve the stability of certain scaffold frame.

Optionally, the adjusting assembly further comprises a tightening member for tightening the transverse steel cable and the longitudinal steel cable.

Through adopting above-mentioned technical scheme, the adjusting part that sets up can further adjust the tensioning degree of horizontal cable wire and vertical cable wire respectively, can improve the tensioning degree of horizontal cable wire and vertical cable wire respectively.

Optionally, a clamping member is arranged at the intersection of the transverse steel cable and the longitudinal steel cable.

Through adopting above-mentioned technical scheme, the joint strength between horizontal cable wire and the vertical cable wire can be strengthened to the chucking spare of setting, can reduce and take place to slide between horizontal cable wire and the vertical cable wire, can improve construction platform's security performance.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the fixing mechanism, the transverse steel cables and the longitudinal steel cables can be fixed on the thick circular beam in a crossed manner, so that the transverse steel cables and the longitudinal steel cables can support the supporting platform, the supporting platform can be used for construction operation of installation personnel, the time required by erection and removal can be reduced, the construction efficiency is improved, the construction cost can be reduced, and the device is convenient to operate, safe and reliable;

2. the fixing mechanism can improve the connection strength of the transverse steel cable, the longitudinal steel cable and the thick circular beam, and is convenient for installation personnel to carry out construction operation on the daylighting roof.

Drawings

Fig. 1 is a schematic overall structure diagram of a high altitude dome flexible landing-free support safe operation platform according to an embodiment of the application.

Fig. 2 is a sectional view of a high altitude dome flexible landing free support safety operating platform according to an embodiment of the application.

Fig. 3 is an enlarged schematic view of a portion a of fig. 2.

Description of the reference numerals: 1. a transverse wire rope; 2. a longitudinal steel cord; 3. a support platform; 31. a wood square plate; 32. wood veneer board; 33. moving the scaffold; 34. an oblique cable; 4. a fixing mechanism; 41. a stopper; 42. a steel gasket; 5. an adjustment assembly; 51. a tightening member; 52. a clamping member; 6. a thick circular beam; 61. and (7) mounting holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a high-altitude dome flexible falling-free support safe operation platform. Referring to fig. 1, 2 and 3, the high altitude dome flexible floor-free support safe operation platform comprises a plurality of transverse steel cables 1, a plurality of longitudinal steel cables 2, a support platform 3 and a fixing mechanism 4, wherein two ends of the transverse steel cables 1 and two ends of the longitudinal steel cables 2 are respectively fixed on a thick circular beam 6 through the fixing mechanism 4, the height of the circular daylighting roof is 6.2m in the embodiment, and the inner diameter of the thick circular beam 6 is 2030cm. The transverse steel ropes 1 and the longitudinal steel ropes 2 are distributed in a cross mode, the diameters of the transverse steel ropes 1 and the longitudinal steel ropes 2 are set to be 16mm in the embodiment, the distance between every two adjacent transverse steel ropes 1 is 400mm, the distance between every two adjacent longitudinal steel ropes 2 is 1200mm, and the transverse steel ropes 1 and the longitudinal steel ropes 2 are parallel to the ground. A support platform 3 is arranged on top of the transverse steel cables 1 and the longitudinal steel cables 2, the support platform 3 being capable of supporting an installer.

Referring to fig. 3, in order to fix the transverse wire rope 1 and the longitudinal wire rope 2 on the thick circular beam 6, before the thick circular beam 6 is constructed, a mounting hole 61 is reserved on the thick circular beam 6, and the transverse wire rope 1 and the longitudinal wire rope 2 are respectively passed through the mounting hole 61. The fixing mechanism 4 includes four limiting members 41, a steel gasket 42 is disposed between the limiting members 41 and the thick circular beam 6, the ends of the transverse steel cable 1 and the longitudinal steel cable 2 respectively penetrate through the mounting holes 61, and then after penetrating through the steel gasket 42, the limiting members 41 are sequentially adjusted, so that the limiting members 41 firmly fix the transverse steel cable 1 and the longitudinal steel cable 2 on the thick circular beam 6, and in this embodiment, the limiting members 41 are configured as steel cable buckles. The transverse steel cable 1 and the longitudinal steel cable 2 are stretched by using a hydraulic jack during the stretching process, and then the transverse steel cable 1 and the longitudinal steel cable 2 are stretched.

Referring to fig. 2 and 3, in order to facilitate the construction work of the installer, the supporting platform 3 includes a plurality of wood square plates 31, the wood square plates 31 are laid on the longitudinal steel cables 2, in this embodiment, the cross-sectional dimension of the wood square plates 31 is 10 × 4cm, the distance between the wood square plates 31 is 20cm, and the wood square plates 31 are respectively fixed on the transverse steel cables 1 and the longitudinal steel cables 2 by iron wires, which are not labeled in this embodiment.

The wood square plate 31 is provided with a wood veneer 32, and the wood veneer 32 is fully paved on the wood square plate 31. The thickness of wood veneer 32 is 15mm in this embodiment, and wood veneer 32 passes through the iron nail to be fixed on wooden square plate 31, and the iron nail does not mark in this embodiment. The wood-rubber plate 32 is provided with a movable scaffold 33, the movable scaffold 33 is provided with four oblique cables 34, the tops of the oblique cables 34 are connected with the movable scaffold 33, and the bottoms of the oblique cables 34 are connected with the transverse steel cable 1 or the longitudinal steel cable 2.

Referring to fig. 3, in order to facilitate the adjustment of the tension degree of the transverse steel cable 1 and the longitudinal steel cable 2, the adjusting device 5 is further provided on the transverse steel cable 1 and the longitudinal steel cable 2, the adjusting device 5 includes a tightening member 51, in this embodiment, the tightening member 51 is provided as a U-shaped buckle, the tightening member 51 can adjust the tension degree of the transverse steel cable 1 or the longitudinal steel cable 2, and the lengths of the transverse steel cable 1 and the longitudinal steel cable 2 can also be increased, so as to facilitate the connection of the transverse steel cable 1 and the longitudinal steel cable 2 on a building with a larger size. A clamping piece 52 is arranged at the intersection point of the transverse steel cable 1 and the longitudinal steel cable 2, and the clamping piece 52 is also arranged as a U-shaped buckle in the embodiment. The clamping piece 52 can reduce slippage between the transverse steel cable 1 and the longitudinal steel cable 2, and improve safety.

The implementation principle of the safe operating platform of the high-altitude dome flexible falling-free support is as follows: before the thick circular beam 6 is constructed, a mounting hole 61 is reserved on the thick circular beam 6 directly, and the transverse steel cable 1 and the longitudinal steel cable 2 respectively penetrate through the mounting hole 61. The transverse steel cable 1 and the longitudinal steel cable 2 are sequentially tensioned by using a hydraulic jack, and the limiting piece 41 is adjusted, so that the transverse steel cable 1 and the longitudinal steel cable 2 are firmly fixed on the thick circular beam 6. The transverse steel cable 1 supports the longitudinal steel cable 2, the transverse steel cable 1 and the longitudinal steel cable 2 are distributed in a cross mode, the U-shaped buckles are adjusted, and the transverse steel cable 1 and the longitudinal steel cable 2 are firmly fixed.

A square wood plate 31 is laid on a platform formed by the transverse steel cables 1 and the longitudinal steel cables 2, and the square wood plate 31 is fixed by iron wires. The wood veneer 32 is adjusted, and the wood veneer 32 is fixed on the wood square plate 31 by using iron nails. The movable scaffold 33 is erected on the wood-plastic plate 32, the oblique cables 34 are fixed in sequence, and the movable scaffold 33 is fixed on the wood-plastic plate 32, so that construction operation of an installer on the daylighting roof is facilitated.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a high altitude dome flexibility exempts from to fall support safe operation platform which characterized in that: including many horizontal cable wire (1), vertical cable wire (2), supporting platform (3) and fixed establishment (4), the both ends of horizontal cable wire (1) and vertical cable wire (2) are fixed on thick beam (6) through fixed establishment (4) respectively, cross arrangement between horizontal cable wire (1) and the vertical cable wire (2), just horizontal cable wire (1) and vertical cable wire (2) all are parallel with ground, supporting platform (3) set up on horizontal cable wire (1) and vertical cable wire (2), supporting platform (3) are used for supporting installer.

2. The aerial dome flexible floor-free support safe operation platform as claimed in claim 1, wherein: the fixing mechanism (4) comprises at least one limiting piece (41), the transverse steel cable (1) and the longitudinal steel cable (2) penetrate through the thick circular beam (6) respectively and are arranged, the limiting pieces (41) are arranged on the transverse steel cable (1) and the longitudinal steel cable (2) respectively, and the limiting pieces (41) are used for fixing the transverse steel cable (1) and the longitudinal steel cable (2) on the thick circular beam (6) respectively.

3. The aerial dome flexible landing-free support safe operation platform as claimed in claim 2, wherein: and a steel gasket (42) is arranged between the limiting piece (41) and the thick circular beam (6).

4. The aerial dome flexible landing-free support safe operation platform as claimed in claim 1, wherein: the supporting platform (3) comprises a plurality of wooden square plates (31), and the wooden square plates (31) are arranged on the longitudinal steel cable (2).

5. The aerial dome flexible landing-free support safe operation platform as claimed in claim 4, wherein: and a wood veneer (32) is arranged on the wood square plate (31).

6. The aerial dome flexible floor-free support safe operation platform as claimed in claim 5, wherein: and a movable scaffold (33) is arranged on the wood veneer (32).

7. The aerial dome flexible floor-free support safe operation platform as claimed in claim 6, wherein: an inclined cable (34) is arranged on the movable scaffold (33), one end of the inclined cable (34) is connected with the movable scaffold (33), and the other end of the inclined cable is connected with the transverse steel cable (1).

8. The aerial dome flexible landing-free support safe operation platform as claimed in claim 1, wherein: the steel cable adjusting device is characterized by further comprising adjusting assemblies (5) arranged on the transverse steel cable (1) and the longitudinal steel cable (2), wherein each adjusting assembly (5) comprises a tightening piece (51), and the tightening pieces (51) are respectively used for tightening the transverse steel cable (1) and the longitudinal steel cable (2).

9. The aerial dome flexible landing-free support safe operation platform as claimed in claim 1, wherein: and a clamping piece (52) is arranged at the intersection of the transverse steel cable (1) and the longitudinal steel cable (2).

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