CN220080788U

CN220080788U - Compensation system for attached part picking position of attached lifting scaffold

Info

Publication number: CN220080788U
Application number: CN202321316449.XU
Authority: CN
Inventors: 江均赞; 谢永超; 曾佳; 李慧莹
Original assignee: GUANGZHOU HENGSHENG CONSTRUCTION ENGINEERING CO LTD
Current assignee: GUANGZHOU HENGSHENG CONSTRUCTION ENGINEERING CO LTD
Priority date: 2023-05-29
Filing date: 2023-05-29
Publication date: 2023-11-24
Anticipated expiration: 2033-05-29

Abstract

The compensation system comprises a horizontal compensation seat arranged at a main balcony part, a vertical compensation seat arranged at a sinking position of a hollowed-out grille, a first compensation device arranged at a bay window and a shear wall part, and a second compensation device arranged at an unconventional layer part with the height of 3.5 m. The compensation system can enable the attached outer scaffold to carry out attachment construction on the local picking position, and enable the unconventional attachment structure at a special position to be changed into a conventional attachment structure, thereby playing a role in compensation, reducing the construction difficulty of the attached outer scaffold, improving the attachment construction efficiency of the attached outer scaffold and shortening the attachment construction period.

Description

Compensation system for attached part picking position of attached lifting scaffold

Technical Field

The utility model relates to the technical field of scaffold construction, in particular to a compensation system for an attached lifting scaffold attached local picking position.

Background

The attached lifting scaffold is an outer scaffold which is erected to a certain height and attached to an engineering structure, can climb or descend layer by layer along with the engineering structure by means of lifting equipment and devices of the attached lifting scaffold, and is provided with an anti-overturning and anti-falling device, and the aim of high-rise construction is generally achieved through the attached lifting scaffold in the building process along with the increasing of high-rise and super-high-rise buildings in cities.

In the existing high-rise construction engineering construction process, for some local special positions of a building, for example: the distance between the balcony and the bay window is 750mm and 800mm respectively, the highest distance between the structure unconventional layer and the wall is 3.5m, the height of the common floor is 3m, and as the positions are selected locally, the attached outer scaffold cannot be attached and constructed, more construction time is required to be consumed, the conventional layer can only be installed by adopting a special attached wall, and the special flap plate is also required to be used for sealing, so that the attaching construction step of the attached outer scaffold of a building is increased, the time for attaching and constructing the attached outer scaffold to the local special position of the building is prolonged, and the attaching construction of the attached outer scaffold is inconvenient.

Disclosure of Invention

In view of the above, the present utility model provides a compensating system for solving the technical problems of the prior art, wherein the compensating system is provided with a horizontal compensating seat arranged at a main balcony part, a vertical compensating seat arranged at a hollow grating with a sinking position, a first compensating device arranged at a bay window and a shear wall part, a second compensating device arranged at a non-conventional layer part with a height of 3.5m, and a compensating device designed for the main balcony part, the bay window, the shear wall position, the non-conventional layer with a height of 3.5m and other local special parts, and is convenient for attaching an attached lifting scaffold, and can reduce the difficulty of attaching construction of the attached lifting scaffold, reduce the attaching construction period and improve the attaching construction efficiency.

The utility model solves the technical problems by the following technical proposal:

the compensating system comprises a compensating system for the attached local picking position of the attached lifting scaffold, wherein the local picking position comprises a main balcony part, a main balcony beam position, a hollow grating with a sinking position part, a floating window and a shear wall part and an unconventional layer part with the height of 3.5m, and the compensating system comprises a horizontal compensating seat arranged at the main balcony part, a vertical compensating seat arranged at the hollow grating with the sinking position part, a first compensating device arranged at the floating window and the shear wall part and a second compensating device arranged at the unconventional layer part with the height of 3.5 m;

the upper part of the horizontal compensation seat is provided with a first connecting lug plate, the horizontal compensation seat is connected with a first diagonal draw bar through the first connecting lug plate, the left side of the horizontal compensation seat is connected with a structural beam, the left side of the horizontal compensation seat is connected with the structural beam through a group of wall penetrating bolts, the left side of the horizontal compensation seat is connected with a wall attaching device, the main balcony beam is connected with a diagonal crane with a rotating handle, one end of the diagonal crane is connected with the main balcony beam, and the other end of the diagonal crane is connected with the horizontal compensation seat;

at least two vertical compensation seats are arranged in parallel and are provided with sinking positions on the hollowed-out grille;

the upper part of the vertical compensation seat is connected with a supporting frame beam, the upper part of the supporting frame beam is connected with a second connecting lug plate, the supporting frame beam is connected with a first diagonal draw bar through the second connecting lug plate, the end part of the supporting frame beam is connected with a frame body of the attached lifting scaffold, and the supporting frame Liang Hedi and the diagonal draw bar are together so as to support the attached lifting scaffold;

the first compensation device comprises a second diagonal draw bar and a sleeve drawer type telescopic adjusting pin, the sleeve drawer type telescopic adjusting pin is horizontally arranged on the second diagonal draw bar, the second diagonal draw bar comprises a screw tap sleeve, the second diagonal draw bar and the sleeve drawer type telescopic adjusting pin are both provided with a third connecting lug plate, one ends of the second diagonal draw bar and the sleeve drawer type telescopic adjusting pin are connected with a first pair of pull bolts of a bay window beam and a shear wall through the third connecting lug plate, and the other ends of the second diagonal draw bar and the sleeve drawer type telescopic adjusting pin are connected with a frame body of the attached lifting scaffold;

the second compensation device comprises double diagonal draw bars, the lower parts of the double diagonal draw bars are connected with second connecting lug plates on the upper parts of supporting frame beams, the supporting frame beams are arranged on the next layer of beam positions of the unconventional layers, one ends of the supporting frame beams are located between the Liang Wei second pair of draw bolts, and the other ends of the supporting frame beams are connected with the attached lifting scaffold body.

As a further improvement aiming at the technical scheme, the horizontal compensation seat consists of a first steel bottom plate, a first steel panel and a group of first splayed angle steels, wherein the first steel bottom plate is arranged below the first steel panel, and the group of first splayed angle steels are arranged between the first steel bottom plate and the first steel panel.

As a further improvement aiming at the technical scheme, the two sides of the horizontal compensation seat are also provided with first side plates, and each first side plate is provided with a third pair of pull bolt holes.

As a further improvement aiming at the technical scheme, the vertical compensation seat consists of a second steel bottom plate, a second steel panel and a group of second splayed angle steels, wherein the second steel bottom plate is arranged below the second steel panel, and the group of second splayed angle steels are arranged between the second steel bottom plate and the second steel panel.

As a further improvement aiming at the technical scheme, the two sides of the vertical compensation seat are also provided with second side plates, and each second side plate is provided with a fourth opposite-pull bolt hole.

As a further improvement aiming at the technical scheme, the second diagonal draw bar is provided with a tap head, the second diagonal draw bar is made of phi 100 x 8 steel pipes, a rotating handle is arranged in the middle of the second diagonal draw bar, and the rotating handle is made of phi 48 x 3mm steel pipes.

As a further improvement to the technical scheme, the sleeve drawer type telescopic adjusting pin is composed of an inner telescopic rod, an outer sleeve and a reinforced steel plate, wherein a first thread is arranged on the outer surface of the inner telescopic rod, a second thread is arranged on the inner wall of the outer sleeve, the inner telescopic rod is connected with the second thread of the outer sleeve through the first thread so that the inner telescopic rod stretches into the outer sleeve, and the reinforced steel plate is sleeved on the outer sleeve.

Compared with the prior art, the technical scheme of the utility model has at least the following beneficial effects:

the compensation system comprises a horizontal compensation seat arranged at a main balcony position, a vertical compensation seat arranged at a hollow grating with a sinking position, a first compensation device arranged at a bay window and a shear wall position, and a second compensation device arranged at an unconventional layer position with the height of 3.5 m; the upper part of the horizontal compensation seat is provided with a first connecting lug plate, the horizontal compensation seat is connected with a first diagonal draw bar through the first connecting lug plate, the left side of the horizontal compensation seat is connected with a structural beam, the left side of the horizontal compensation seat is connected with the structural beam through a group of wall penetrating bolts, the left side of the horizontal compensation seat is connected with a wall attaching device, the main balcony beam is connected with a diagonal crane with a rotating handle, one end of the diagonal crane is connected with the main balcony beam, the other end of the diagonal crane is connected with the horizontal compensation seat, and at least two hollow gratings with sinking positions are arranged in parallel on the vertical compensation seat; the upper portion at vertical compensation seat is connected with the braced frame roof beam, the upper portion and the second of braced frame roof beam link to each other with the second link lug, the braced frame roof beam is connected with first diagonal draw bar through the second link lug, the tip and the support body of attached lift scaffold of braced frame roof beam are connected, braced frame Liang Hedi a diagonal draw bar together so that attached lift scaffold has been supported, first compensation arrangement includes second diagonal draw bar and sleeve drawer type flexible regulation round pin, sleeve drawer type flexible regulation round pin is installed on the second diagonal draw bar in the form of horizontal, the second diagonal draw bar includes the screw tap sleeve, second diagonal draw bar and sleeve drawer type flexible regulation round pin all are equipped with the third link lug, the first pair of draw bolts of second diagonal draw bar and sleeve drawer type flexible regulation round pin and bay roof beam, the other end and second diagonal draw bar, sleeve type flexible regulation round pin handing-over and department are connected with the support body of attached lift scaffold, second compensation arrangement includes two diagonal draw bars, the lower part and the second link lug of braced frame roof beam upper portion are installed on the second diagonal draw bar in the form, second link lug is connected at the second link lug of the support frame roof beam upper portion, the other end of a pair of support roof beam is located between the support body 37bolt of the second support layer, the opposite to the other end of the support frame roof beam is located between the second support body 37. The compensation system can enable the attached outer scaffold to carry out attachment construction on the local picking position, enable the unconventional attachment structure at the special position to be changed into a conventional attachment structure, and play a role in compensation, thereby reducing the construction difficulty of the attached outer scaffold, improving the attachment construction efficiency of the attached outer scaffold, and shortening the attachment construction period.

The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the teachings of the present utility model, as well as to provide further clarity and understanding of the above and other objects, features and advantages of the present utility model, as described in the following detailed description of the preferred embodiments, taken in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a side elevation view of an attached lift scaffold at a main balcony of the present utility model.

FIG. 2 is an enlarged schematic view of a detail of FIG. 1 in accordance with the present utility model;

FIG. 3 is a side elevational view of an attached lift scaffold with a hollowed-out grille in accordance with the present utility model;

FIG. 4 is an enlarged schematic view of a detail of FIG. 3 in accordance with the present utility model;

FIG. 5 is a side elevational view of the attached lift scaffold at the bay window of the present utility model;

FIG. 6 is an enlarged schematic view of a detail of FIG. 5 in accordance with the present utility model;

FIG. 7 is a side elevational view of an attached lift scaffold at a shear wall in accordance with the present utility model;

FIG. 8 is an enlarged schematic view of a detail of FIG. 7 in accordance with the present utility model;

FIG. 9 is a side elevational view of an attached lift scaffold at an unconventional floor in accordance with the present utility model;

FIG. 10 is a schematic view of a horizontal compensating seat according to the present utility model;

FIG. 11 is a schematic view of a vertical compensation seat according to the present utility model;

FIG. 12 is a schematic view of a second diagonal draw bar of the present utility model;

fig. 13 is a schematic structural view of a telescopic drawer type telescopic adjusting pin according to the present utility model.

In the figure: the frame body 1, the main balcony 2, the main balcony beam 21, the hollowed grille 3, the bay window 4, the shear wall 5, the unconventional layer 6, the horizontal compensation seat 7, the first connection lug plate 71, the first steel bottom plate 72, the first steel panel 73, the first splayed angle steel 74, the first side plate 75, the third diagonal bolt hole 76, the vertical compensation seat 8, the second steel bottom plate 81, the second steel panel 82, the second splayed angle steel 83, the second side plate 84, the fourth diagonal bolt hole 85, the first compensation device 9, the second diagonal draw bar 91, the tap head 911, the rotating handle 912, the sleeve drawer type telescopic adjusting pin 92, the inner telescopic rod 921, the outer sleeve 922, the reinforced steel plate 923, the third connection lug plate 93, the second compensation device 10, the double diagonal draw bar 101, the second diagonal draw bolt 102, the first diagonal draw bar 11, the structural beam 12, the wall attaching device 13, the diagonal draw crane 14, the supporting frame beam 15 and the second connection lug plate 151.

Detailed Description

The present utility model is described in detail below with reference to the accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate the principles of the utility model by way of example, and, together with the description, serve to explain the principles of the utility model. In the drawings to which reference is made, the same or similar components in different drawings are denoted by the same reference numerals.

As shown in fig. 1 to 13, the utility model provides a compensating system for an attached lifting scaffold attached local picking position, which comprises a compensating system for the attached lifting scaffold attached local picking position, wherein the local picking position comprises a main balcony 2 part, a main balcony beam 21 position, a hollowed-out grille 3 with a sinking position part, a bay window 4 and a shear wall 5 part and a position of an unconventional layer 6 with the height of 3.5m, and the compensating system comprises a horizontal compensating seat 7 arranged at the main balcony 2 part, a vertical compensating seat 8 arranged at the hollowed-out grille 3 with the sinking position part, a first compensating device 9 arranged at the bay window 4 and the shear wall 5 part and a second compensating device 10 arranged at the position of the unconventional layer 6 with the height of 3.5 m; the upper portion at horizontal compensation seat 7 installs first connection otic placode 71, and horizontal compensation seat 7 is connected with first diagonal brace 11 through first connection otic placode 71, and the left side of horizontal compensation seat 7 is connected with structural beam 12 through a set of wall bolt that wears, and the left side of horizontal compensation seat 7 is connected with attaches wall device 13, and main balcony roof beam 21 is connected with the cable-stayed suspension 14 of taking the rotation handle, and cable-stayed suspension 14's one end is connected with main balcony roof beam 21, and the other end is connected with horizontal compensation seat 7. In concrete implementation, a steel pipe can be used at the position of the main balcony beam 21, and a diagonal crane 14 with a rotating handle is arranged at the position close to the top surface of the attached lifting scaffold; the vertical compensation seat 8 is at least provided with two sinking positions on the hollowed-out grille 3 in parallel; the upper part of the vertical compensation seat 8 is connected with a supporting frame beam 15, the upper part of the supporting frame beam 15 is connected with a second connecting lug plate 151, the supporting frame beam 15 is connected with a first diagonal draw bar 11 through the second connecting lug plate 151, the end part of the supporting frame beam 15 is connected with the frame body 1 of the attached lifting scaffold, and the supporting frame beam 15 and the first diagonal draw bar 11 are together used for supporting the attached lifting scaffold; in particular, the first diagonal member 11 is a long diagonal member with a rotatable handle 912; the first compensation device 9 comprises a second diagonal draw bar 91 and a sleeve drawer type telescopic adjusting pin 92, the sleeve drawer type telescopic adjusting pin 92 is horizontally arranged on the second diagonal draw bar 91, the second diagonal draw bar 91 comprises a screw tap sleeve, the second diagonal draw bar 91 and the sleeve drawer type telescopic adjusting pin 92 are both provided with a third connecting lug 93, one end of the second diagonal draw bar 91 and one end of the sleeve drawer type telescopic adjusting pin 92 are connected with a first pair of pull bolts of a bay window 4 beam and a shear wall 5 through the third connecting lug 93, and the other end of the second diagonal draw bar 91 and the sleeve drawer type telescopic adjusting pin 92 are connected with a scaffold body 1 of an attached lifting scaffold; the second compensation device 10 of the utility model comprises a double diagonal draw bar 101, the lower part of the double diagonal draw bar 101 is connected with a second connecting lug plate 151 at the upper part of a supporting frame beam 15, the supporting frame beam 15 is arranged at the beam position of the next layer of the unconventional layer 6, one end of the supporting frame beam 15 is positioned between Liang Wei two second pair of draw bolts 102, and the other end is connected with the attached lifting scaffold body 1.

The horizontal compensation seat 7 of the utility model is composed of a first steel bottom plate 72, a first steel panel 73 and a group of first splayed angle steels 74, wherein the first steel bottom plate 72 is arranged below the first steel panel 73, and the group of first splayed angle steels 74 is arranged between the first steel bottom plate 72 and the first steel panel 73. The first steel bottom plate 72 is a 10mm thick steel bottom plate, the first steel panel 73 is a 16mm thick steel panel, the first splayed L63 angle steel is the splayed L63 angle steel, when the concrete implementation is realized, the height of the horizontal compensation seat 7 is 400mm, an I-shaped steel beam is arranged between the horizontal compensation seats 7, the I-shaped steel beam is used as a connecting beam between the main balcony 2 and the attached lifting scaffold, and the compensation stress of the horizontal compensation seat 7 is transmitted into the connecting beam. The utility model also installs the first side plate 75 on both sides of the horizontal compensation seat 7, the first side plate 75 is composed of 10mm thick steel side plates, each first side plate 75 is provided with the third pair of bolt holes 76.

In particular, the vertical compensation seat 8 of the present utility model is composed of a second steel bottom plate 81, a second steel panel 82, and a set of second splayed angle steels 83, wherein the second steel bottom plate 81 is installed below the second steel panel 82, and the set of second splayed angle steels 83 is installed between the second steel bottom plate 81 and the second steel panel 82. The second steel bottom plate 81 is a 10mm thick steel bottom plate, the second steel panel 82 is a 16mm thick steel panel, the second splayed L63 angle steel is a splayed L63 angle steel, the vertical compensation seat 8 is a 600 heightened seat, and the height of the vertical compensation seat 8 is 600mm. The two sides of the vertical compensation seat 8 are also provided with second side plates 84, the second side plates 84 are composed of 10mm thick steel side plates, and each second side plate 84 is provided with a fourth opposite-pull bolt hole 85.

In the embodiment of the utility model, a tap head 911 is installed on a second diagonal draw bar 91, the tap head 911 has a thickness of 30mm, the second diagonal draw bar 91 is made of phi 100 x 8 steel pipes, a rotary handle 912 is installed in the middle of the second diagonal draw bar 91, and the rotary handle 912 is made of phi 48 x 3mm steel pipes. The second diagonal draw bar 91 is tightened by the rotation of the rotary handle 912, which is convenient and quick to operate.

The sleeve drawer type telescopic adjusting pin 92 comprises an inner telescopic rod 921, an outer sleeve 922 and a reinforcing steel plate 923, wherein a first thread is arranged on the outer surface of the inner telescopic rod 921, a second thread is arranged on the inner wall of the outer sleeve 922, the inner telescopic rod 921 is connected with the second thread of the outer sleeve 922 through the first thread so that the inner telescopic rod 921 stretches into the outer sleeve 922, and the reinforcing steel plate 923 is sleeved on the outer sleeve 922, so that the outer sleeve 922 can be reinforced, and the adjustment is convenient.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims

1. A compensation system for an attached lifting scaffold attached local picking position is characterized in that: the system comprises a compensation system for an attached lifting scaffold attached local picking position, wherein the local picking position comprises a main balcony part, a main balcony beam position, a hollow grating with a sinking position part, a floating window and a shear wall part and an unconventional layer part with the height of 3.5m, and the compensation system comprises a horizontal compensation seat arranged at the main balcony part, a vertical compensation seat arranged at the hollow grating with the sinking position part, a first compensation device arranged at the floating window and the shear wall part and a second compensation device arranged at the unconventional layer part with the height of 3.5 m;

2. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 1, wherein: the horizontal compensation seat consists of a first steel bottom plate, a first steel panel and a group of first splayed angle steels, wherein the first steel bottom plate is arranged below the first steel panel, and the group of first splayed angle steels is arranged between the first steel bottom plate and the first steel panel.

3. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 2, wherein: the two sides of the horizontal compensation seat are also provided with first side plates, and each first side plate is provided with a third opposite-pull bolt hole.

4. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 1, wherein: the vertical compensation seat consists of a second steel bottom plate, a second steel panel and a group of second splayed angle steels, wherein the second steel bottom plate is arranged below the second steel panel, and the group of second splayed angle steels are arranged between the second steel bottom plate and the second steel panel.

5. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 4, wherein: the two sides of the vertical compensation seat are also provided with second side plates, and each second side plate is provided with a fourth opposite-pull bolt hole.

6. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 1, wherein: the second diagonal draw bar is provided with a tap head, the second diagonal draw bar is made of phi 100 x 8 steel pipes, a rotating handle is arranged in the middle of the second diagonal draw bar, and the rotating handle is made of phi 48 x 3mm steel pipes.

7. The compensation system for localized picking positions of attached lift scaffolds as claimed in claim 1, wherein: the telescopic drawer type telescopic adjusting pin comprises an inner telescopic rod, an outer sleeve and a reinforced steel plate, wherein a first thread is arranged on the outer surface of the inner telescopic rod, a second thread is arranged on the inner wall of the outer sleeve, the inner telescopic rod is connected with the second thread of the outer sleeve through the first thread so that the inner telescopic rod stretches into the outer sleeve, and the reinforced steel plate is sleeved on the outer sleeve.