CN210342623U - Spliced attached lifting scaffold - Google Patents

Abstract

The utility model relates to the technical field of an attached scaffold, in particular to a spliced attached lifting scaffold, which comprises a plurality of prefabricated scaffolds and a plurality of adjusting pedals for adjusting the position distance between two adjacent prefabricated scaffolds; positioning pedals are arranged on the prefabricated scaffolds, and adjacent positioning pedals are connected through the adjusting pedals to form a passageway; the both sides of adjusting the footboard are provided with a plurality of fixed knot structure along the horizontal direction, adjust the footboard and pass through fixed knot structure detachably sets up on the prefabricated scaffold frame. The utility model discloses a replace traditional inserted scaffold frame into a plurality of independent prefabricated scaffold frames and connect through adjusting the footboard each other, the both sides of adjusting the footboard are provided with a plurality of fixed knot along the horizontal direction for location footboard intercommunication on the adjacent prefabricated scaffold frame just can be close to relatively or keep away from.

Description

Spliced attached lifting scaffold

Technical Field

The utility model relates to a technical field of inserted scaffold frame, in particular to concatenation inserted lift scaffold frame.

Background

At present, most of the marker post buildings in cities in China are super high-rise buildings, the structural forms of the marker post buildings are more and more complex, and the outer vertical surface structures of part of the super high-rise buildings are changed from the traditional vertical forms into special outer vertical surfaces, such as inclined vertical surfaces, arc-shaped vertical surfaces, outer convex vertical surfaces or inner contracted vertical surfaces.

The traditional integral sectional lifting outer frame is connected into a whole when being erected, and only can crawl on a structure with an unchanged outer vertical face, and when the structure of the outer vertical face changes along with the change of the number of layers, the prefabricated scaffold connected into a whole cannot adjust the whole perimeter of the scaffold around the building structure along with the change of the outer vertical face of the building, so that the prefabricated scaffold cannot be suitable for the building with the changed outer vertical face.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a concatenation inserted lift scaffold, this prefabricated scaffold can be according to the outer facade structural change of building and adjust its girth around the outer facade of building.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a spliced attached lifting scaffold comprises a plurality of prefabricated scaffolds and a plurality of adjusting pedals for adjusting the position distance between two adjacent prefabricated scaffolds; positioning pedals are arranged on the prefabricated scaffolds, and adjacent positioning pedals are connected through the adjusting pedals to form a passageway; the both sides of adjusting the footboard are provided with a plurality of fixed knot structure along the horizontal direction, adjust the footboard and pass through fixed knot structure detachably sets up on the prefabricated scaffold frame.

Compared with the prior art, the utility model sets the traditional attached scaffold connected into a whole into a plurality of independent prefabricated scaffolds, the single prefabricated scaffolds are connected through the adjusting pedal, a plurality of fixing structures are arranged on the two sides of the adjusting pedal along the horizontal direction, and the adjusting pedal is detachably fixed on the adjacent prefabricated scaffolds through the fixing structures; when the structure of the outer vertical face of the building changes, such as the structure protrudes outwards and the perimeter of the periphery of the building is lengthened, the hanging distance of the adjusting pedal is increased by replacing the fixing structure connected with the prefabricated scaffold on the adjusting pedal, so that the adjacent prefabricated scaffolds are relatively far away, the length of the spliced attached lifting scaffold is further increased, and the spliced attached lifting scaffold is further suitable for the change of the protrusion of the outer vertical face of the building; on the contrary, when the outer facade structure of the building inclines inwards and the perimeter of the periphery of the building is shortened, the suspension distance of the adjusting pedal is reduced by replacing the fixing structure connected with the prefabricated scaffold on the adjusting pedal, so that the adjacent prefabricated scaffolds are relatively close to each other, and the overall length of the spliced type attached prefabricated scaffold is further shortened, thereby being suitable for the change of the inclination of the outer facade of the building.

Preferably, the device also comprises a plurality of connecting pieces;

the fixed structure is a first connecting hole, and a plurality of second connecting holes are formed in the prefabricated scaffold;

the adjusting pedal penetrates through the first connecting hole and the second connecting hole through the connecting piece and is fixed on the prefabricated scaffold.

Preferably, the prefabricated scaffold further comprises upright rods symmetrically arranged at two sides of the positioning pedal;

the second connecting holes are arranged on the vertical rod at intervals along the vertical direction of the vertical rod.

Preferably, the second connection holes are provided on both sides of the positioning step at intervals in a horizontal direction of the positioning step.

Preferably, the connecting piece comprises a first connecting sub-piece provided with a connecting rod, and the connecting rod is provided with a tightening thread.

Preferably, the first connecting part is a connecting rod bolt or a pull rod bolt.

Preferably, the connecting piece also comprises a plurality of second connecting sub-pieces;

the end part of the adjusting pedal is provided with at least two bulges, and the second connecting hole is arranged on the bulges;

the positioning pedal is hinged to the positioning pedal plate through the second connecting part.

Preferably, the second connecting sub-piece comprises a fifth side surface, a connecting surface and a sixth side surface, the fifth side surface is connected with the sixth side surface through the connecting surface, and the fifth side surface, the connecting surface and the sixth side surface are connected in a stepped manner;

at least two third connecting holes are formed in the second connecting sub-piece at intervals, and the fifth side face is provided with the third connecting holes in a penetrating mode; the third connecting hole penetrates through the sixth side face;

the adjusting pedal penetrates through the first connecting hole, the second connecting hole and the third connecting hole through the first connecting part and is fixedly connected with the positioning pedal.

Preferably, the vertical section of the second connecting part connected to the adjusting pedal and the positioning pedal is L-shaped.

Preferably, the scaffold further comprises a protective net arranged between the adjacent prefabricated scaffolds, and the protective net is positioned on the inner side of the spliced attached lifting scaffold.

Drawings

The present invention will now be further described with reference to the accompanying drawings and specific embodiments:

FIG. 1 is a schematic plan view of adjacent scaffolding when the adjustment pedal is not installed in the present invention;

FIG. 2 is a schematic plan view of adjacent scaffolds when the adjusting pedal of the present invention is installed;

fig. 3 is a schematic structural view of the scaffold of the present invention, in which one end of the positioning pedal is mounted on the vertical rod;

FIG. 4 is a schematic view of the structure of the present invention, in which one end of the adjusting pedal is mounted on the vertical rod;

FIG. 5 is a schematic view of the structure of the adjusting pedal of the present invention with one end mounted on the positioning pedal;

FIG. 6 is a schematic structural view of the positioning pedal of the present invention with protrusions;

FIG. 7 is a schematic view of the adjustment pedal with one end mounted to the positioning pedal of FIG. 6;

fig. 8 is a schematic view of the second coupling segment of fig. 7.

In the figure:

1. prefabricating a scaffold; 11. erecting a rod; 12. a second connection hole; 13. positioning a pedal; 14. a protrusion; 2. adjusting the pedal; 21. a first connection hole; 3. a connecting rod bolt; 4. a draw bar bolt; 5. a second connecting sub-assembly; 51. a third connection hole; 53. a fifth side surface; 54. a connecting surface; 55. a sixth side; 6. a standard protective net; 7. and (4) a protective net.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

As shown in fig. 1 to 8, the utility model provides a splicing attached lifting scaffold, which comprises a plurality of prefabricated scaffolds 1 and a plurality of adjusting pedals 2 for adjusting the position distance between two adjacent prefabricated scaffolds 1; positioning pedals 13 are arranged on the prefabricated scaffold 1, and adjacent positioning pedals 13 are connected with each other through the adjusting pedals 2 to form a passageway; the both sides of adjusting footboard 2 are provided with a plurality of fixed knot structure along the horizontal direction, adjusting footboard 2 passes through fixed knot constructs detachably and sets up on the prefabricated scaffold frame 1.

Compared with the prior art, the utility model discloses a set up traditional attached scaffold frame that links into an organic whole into a plurality of independent prefabricated scaffold frame 1, single through adjust footboard 2 between the prefabricated scaffold frame 1 connect, adjust footboard 2 both sides along the horizontal direction be provided with a plurality of fixed knot and construct, adjust footboard 2 through the fixed knot construct detachable fix on adjacent prefabricated scaffold frame 1; when the structure of the outer vertical face of the building changes, such as the outward bulge 14 and the perimeter of the periphery of the building is lengthened, the hanging distance of the adjusting pedal 2 is increased by replacing the fixing structure connected with the prefabricated scaffold 1 on the adjusting pedal 2, so that the adjacent prefabricated scaffold 1 is relatively far away, the length of the spliced attached lifting scaffold is further increased, and the spliced attached lifting scaffold is further suitable for changing the bulge 14 of the outer vertical face of the building; on the contrary, when the outer facade structure of the building inclines inwards and the perimeter of the periphery of the building is shortened, the suspension distance of the adjusting pedal 2 is reduced by replacing the fixing structure connected with the prefabricated scaffold 1 on the adjusting pedal 2, so that the adjacent prefabricated scaffolds 1 are relatively close to each other, and the overall length of the spliced type attached prefabricated scaffold 1 is further shortened, thereby being suitable for the change of the inclination of the outer facade of the building.

As shown in fig. 3 to 7, the splicing attached lifting scaffold of the present invention further comprises a plurality of connecting members; the fixed structure is a first connecting hole 21, and a plurality of second connecting holes 12 are formed in the prefabricated scaffold 1; the adjusting pedal 2 is fixed on the prefabricated scaffold 1 by the connecting piece passing through the first connecting hole 21 and the second connecting hole 12. The connecting piece comprises a first connecting sub-piece provided with a connecting rod, and the connecting rod is provided with a screwing thread; preferably, the first connecting part is a connecting rod bolt 3 or a draw rod bolt 4.

As shown in fig. 3 and 4, the prefabricated scaffold 1 further includes upright posts 11 symmetrically disposed on both sides of the positioning step 13, and the second connecting holes 12 are disposed on the upright posts 11 at intervals along the vertical direction of the upright posts 11.

Two sides of the adjusting pedal 2 pass through the first connecting part (connecting rod bolt 3 or pull rod bolt 4) to pass through the first connecting hole 21 on the adjusting pedal 2 and the second connecting hole 12 on the upright rod 11 to be fixed on the prefabricated scaffold 1.

When the interval of prefabricated scaffold 1 is adjacent in needs adjustment, through selecting the difference of adjusting 2 both sides of footboard first connecting hole 21, the adjustment is adjacent prefabricated scaffold 1 is in between the unsettled length of adjusting footboard 2, can adjust adjacent distance between prefabricated scaffold 1.

As shown in fig. 3 to 7, the second connecting holes 12 are arranged on both sides of the positioning pedal 13 at intervals along the horizontal direction of the positioning pedal 13; the connecting piece also comprises a plurality of second connecting sub-pieces 5; at least two third connecting holes 51 are arranged on the second connecting component 5 at intervals, wherein the second connecting component 5 is preferably in a plate shape.

The second connecting component 5 is fixedly connected with the positioning pedal 13 through a third connecting hole 51 formed in the first connecting component (a connecting rod bolt 3 or a pull rod bolt 4) and the second connecting hole 12 formed in the positioning pedal 13; the second connecting sub-part 5 is connected to both sides of the positioning pedal 13;

two sides of the adjusting pedal 2 are fixedly connected with the second connecting sub-piece 5 through a first connecting hole 21 on the first connecting sub-piece (a connecting rod bolt 3 or a pull rod bolt 4) and a third connecting hole 51 on the second connecting sub-piece 5; thereby realizing the detachable connection of the adjusting pedal 2 and the positioning pedal 13.

As shown in fig. 6 and 7, at least two protrusions 14 are arranged at the end of the adjusting pedal 2, and the second connecting hole 12 is arranged on the protrusion 14; the adjusting pedal 2 is hinged with the positioning pedal 13 through the second connecting part 5.

The second connecting component 5 comprises a fifth side surface 53, a connecting surface 54 and a sixth side surface 55, the fifth side surface 53 passes through the connecting surface 54 and the sixth side surface 55, and the fifth side surface 53, the connecting surface 54 and the sixth side surface 55 are connected in a stepped manner; preferably, when the second connecting part 5 is connected to the adjusting pedal 2 and the positioning pedal 13, the vertical section of the second connecting part is L-shaped;

at least two third connecting holes 51 are formed in the second connecting component 5 at intervals, and the third connecting holes 51 are formed in the fifth side surface 53 and the sixth side surface 55 in a penetrating manner;

the adjusting pedal 2 is fixedly connected with the positioning pedal 13 through the first connecting part passing through the first connecting hole 21, the second connecting hole 12 and the third connecting hole 51.

Specifically, the first connecting component (the connecting rod bolt 3 or the pull rod bolt 4) passes through the third connecting hole 51 on one fifth side surface 53, the second connecting hole 12 (on the protrusion 14) on the positioning pedal 13, and the third connecting hole 51 on the other fifth side surface 53, so that the positioning pedal 13 is hinged to the second connecting component 5;

the first connecting part (the connecting rod bolt 3 or the pull rod bolt 4) passes through the corresponding third connecting hole 51 on the sixth side surface 55, the first connecting hole 21 on the adjusting pedal 2 and the third connecting hole 51 on the other sixth side surface 55, so that the adjusting pedal 2 is hinged with the second connecting part 5; thereby realizing the hinged connection of the adjusting pedal 2 and the positioning pedal 13.

When the adjustment is adjacent during distance between the prefabricated scaffold 1, loosen regulation footboard 2 with one prefabricated scaffold 1's connection, regulation footboard 2 winds first connection divides piece (connecting rod bolt 3 or draw bar bolt 4) rotation and stack in another prefabricated scaffold 1 on the location footboard 13, and then avoided regulation footboard 2 is totally dismantled with the technical problem of the collection in addition of spare part is preserved, improve the concatenation formula adhere to lift scaffold with the convenience of regulation footboard 2 installation.

As shown in fig. 2, the scaffold further comprises a protective net 7 arranged between adjacent prefabricated scaffolds 1, wherein the protective net 7 is positioned at the inner side of the splicing attached lifting scaffold.

Specifically, the protection net 7 is detachably fixed to the adjacent upright rods 11 and is located on the inner side of the spliced type attached lifting scaffold.

Standard protection network 6 of scaffold frame among the prior art is installed in the scaffold frame outside, when the scaffold frame has installed on the building and need to adjust the length that concatenation formula adheres to lifting scaffold frame, leads to above-mentioned arbitrary mode setting earlier regulation footboard 2, recycles the support nature installation of regulation footboard 2 protection network 7 is in the inboard that concatenation formula adheres to lifting scaffold frame, so that when concatenation formula adheres to lifting scaffold frame accord with national safety standard, improve the security and the convenience of protection network 7 installation.

The present invention is not limited to the above embodiment, and various modifications and variations of the present invention are intended to be included within the scope of the claims and the equivalent technology if they do not depart from the spirit and scope of the present invention.

Claims (10)

1. A spliced attached lifting scaffold is characterized by comprising a plurality of prefabricated scaffolds and a plurality of adjusting pedals for adjusting the position distance between two adjacent prefabricated scaffolds;

positioning pedals are arranged on the prefabricated scaffolds, and adjacent positioning pedals are connected through the adjusting pedals to form a passageway;

the both sides of adjusting the footboard are provided with a plurality of fixed knot structure along the horizontal direction, adjust the footboard and pass through fixed knot structure detachably sets up on the prefabricated scaffold frame.

2. The splicing attachment lifting scaffold of claim 1, further comprising a plurality of connectors;

the fixed structure is a first connecting hole, and a plurality of second connecting holes are formed in the prefabricated scaffold;

the adjusting pedal penetrates through the first connecting hole and the second connecting hole through the connecting piece and is fixed on the prefabricated scaffold.

3. Splicing attached lifting scaffold according to claim 2,

the prefabricated scaffold also comprises upright rods symmetrically arranged at two sides of the positioning pedal;

the second connecting holes are arranged on the vertical rod at intervals along the vertical direction of the vertical rod.

4. The splicing attachable lifting scaffold according to claim 2, wherein said second coupling holes are provided on both sides of said positioning step plate at intervals in a horizontal direction of said positioning step plate.

5. Splicing adhesion lifting scaffold according to claim 2, characterized in that the connecting piece comprises a first connecting part provided with a connecting rod on which a tightening thread is provided.

6. The splicing attachable lifting scaffold according to claim 5, wherein said first connecting part is a connecting rod bolt or a stay bolt.

7. The splicing attachable lifting scaffold according to claim 5 or 6, wherein said connecting members further comprise a plurality of second connecting sub-members;

the end part of the adjusting pedal is provided with at least two bulges, and the bulges are provided with second connecting holes;

the adjusting pedal is hinged to the positioning pedal through the second connecting part.

8. The splicing attachable lifting scaffold according to claim 7, wherein said second connecting sub-assembly comprises a fifth side, a connecting surface, a sixth side, said fifth side being connected to said sixth side through said connecting surface, and said fifth side, said connecting surface, said sixth side being connected in a stepped fashion;

at least two third connecting holes are formed in the second connecting sub-piece at intervals, and the fifth side face is provided with the third connecting holes in a penetrating mode; the third connecting hole penetrates through the sixth side face;

the adjusting pedal penetrates through the first connecting hole, the second connecting hole and the third connecting hole through the first connecting part and is fixedly connected with the positioning pedal.

9. The splicing attachable lifting scaffold according to claim 8, wherein said second coupling parts connected to said adjustment and positioning steps have an L-shaped vertical cross-section.

10. The splicing attachable lifting scaffold according to claim 1, further comprising a protective mesh disposed between adjacent prefabricated scaffolds, said protective mesh being located inside said splicing attachable lifting scaffold.

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