CN209482679U - Tub brace type integral steel platform suitable for sloping core construction - Google Patents

Abstract

The tub brace type integral steel platform for being suitable for sloping core construction of the utility model, is related to construction equipment technology field.It can not be aiming at the problem that the oblique wall safe and efficient construction of Core Walls Structure shear wall existing tub brace type integral steel platform.It includes: main frame body, including steel platform, support system and climbing system；Divide frame body, it is supported including being set to wait pour tub at least one between oblique wall and main frame body, divide at the top of frame body and is connected to steel platform bottom, the bottom beam of frame body is divided to be flexibly connected with the bottom beam of main frame body, divide frame body bottom that at least one hydraulic cylinder is installed, the width of frame body is divided to be equal to or more than the width wait pour oblique wall vertical projection；Outstanding anchor scaffold, is erected on the outside of Core Walls Structure shear wall, and the bottom of outstanding anchor scaffold is connected to the bottom for having poured oblique wall, and top is connected to the top beam end of steel platform.

Description

Tub brace type integral steel platform suitable for sloping core construction

Technical field

The utility model relates to high-rise, construction of super highrise building equipment technology fields, in particular to a kind of to be suitable for sloping core The tub brace type integral steel platform of construction.

Background technique

Nowadays, high-rise, super high-rise building development increasingly accelerates, and along with the increasingly diversity of building structure, fills to mould bases Standby adaptability proposes increasingly higher demands, and tub replaces supporting type hydraulic jacking integral steel platform mould bases equipment and is used as one The novel construction equipment of kind passes through the height that the power built-in climbing technology that tub support system alternately supports realizes Core Walls Structure shear wall Effect is built, and is widely used in high-rise, construction of super highrise building, however, the facade of Core Walls Structure shear wall often has Oblique wall, and existing mould bases equipment does not have safe height to oblique wall often appropriate only to the construction of vertical wall Imitate the ability of construction；Moreover, the appearance of oblique wall often means that the contracture variation of structure, corresponding mould bases equipment is equally needed High-altitude fractionation is carried out, there are construction safety risks.

Summary of the invention

Core Walls Structure shear wall can not be directed to for existing tub alternating supporting type hydraulic jacking integral steel platform mould bases equipment The safe and efficient construction of oblique wall the problem of, the purpose of the utility model is to provide a kind of suitable for oblique wall construction Tub brace type integral steel platform can be adaptively adjusted, to pacify according to the variation in moulding of Core Walls Structure shear wall facade The construction of each stage Core Walls Structure shear wall is efficiently completed entirely, and safe operation is reliable, flexibly and easily.

The technical scheme adopted by the utility model to solve the technical problem is as follows: being suitable for the tub brace type of sloping core construction Integral steel platform, it includes:

Main frame body, including steel platform, support system and climbing system, the steel platform are prolonged along Core Walls Structure shear wall cross section It stretches；The support system includes being fixed on the multiple interior tub supports and the support of outer tub of the steel platform bottom, the inner cylinder Frame support is supported in the preformed hole of the Core Walls Structure shear wall by being located at the telescopic steel corbel of its bottom；Described climb be System includes climbing boots, hydraulic system and the column that climbs being arranged in the steel platform, and the column that climbs vertically is fixed on core The concreting finished surface of heart cylinder shear wall, the climbing boots are set in the steel platform and are firmly connected with it, and institute Climbing boots are stated to connect with the hydraulic system；

Divide frame body, supported including being set to wait pour tub at least one between oblique wall and the main frame body, The steel platform bottom is connected at the top of described point of frame body, the bottom beam activity of the bottom beam for dividing frame body and the main frame body connects It connects, it is described to divide frame body bottom that at least one hydraulic cylinder is installed, and the hydraulic cylinder is connect with the hydraulic system, described point The width of frame body is equal to or more than the width wait pour oblique wall vertical projection；

Outstanding anchor scaffold, is erected on the outside of the Core Walls Structure shear wall, the bottom of the outstanding anchor scaffold is connected to The bottom of oblique wall is poured, the top beam end of steel platform is connected at the top of the outstanding anchor scaffold.

Preferably, the outstanding anchor scaffold includes: support frame, several diagonal braces, scaffold frame body and safety net, the support Frame is the frame structure as made of several fashioned iron welding being arranged in a crisscross manner, one end anchoring of horizontally disposed support frame as described above In having poured the intracorporal built-in fitting of oblique wall；Several diagonal braces are set to support frame as described above bottom, one end of the diagonal brace and support Frame it is affixed far from the one end for having poured oblique wall, the other end of the diagonal brace and poured the intracorporal built-in fitting anchor of oblique wall It is solidly connected；The scaffold frame body includes the transverse bar member being erected on support frame as described above and longitudinal bar member and multiple pull rods One, the transverse bar member is connect by the pull rod one with the intracorporal built-in fitting of oblique wall has been poured；The safety net is installed on On the outside of the scaffold frame body, support frame and diagonal brace.

Preferably, it further includes several pull rods two, and one end of the pull rod two is flexibly connected with the top beam of the steel platform, The other end of the pull rod two is flexibly connected with the transverse bar member of the outstanding anchor scaffold.

Preferably, the junction of the outstanding anchor scaffold and steel platform distance has poured the height on oblique wall top More than or equal to the height of the outer tub support.

Preferably, being flexibly connected between the bottom beam for dividing frame body and the bottom beam of the main frame body can be bolted or Pin connection.

Preferably, the bottom beam for dividing frame body and poured between oblique wall be equipped with fully closed protective net.

The effect of the utility model is: the tub brace type overall steel for being suitable for sloping core construction of the utility model is flat Platform including main frame body, is set between Core Walls Structure shear wall and main frame body and what is be flexibly connected with main frame body divides frame body, and sets up Outstanding anchor scaffold on the outside of Core Walls Structure shear wall, and the width W of frame body is divided to be equal or slightly larger than oblique wall vertical projection Width；It is constructed using the tub brace type integral steel platform of the utility model to one top of vertical structure, preparatory partial dismantling point At the top of frame body and wait pour the oblique conflicting rod piece in wall position, poured outside the oblique wall of first layer using being installed on Outstanding anchor scaffold and internal divide frame body successively to set up large form and pour oblique wall, after the completion of oblique wall is all constructed, Dismounting divides frame body and its top beam, carries out local repacking to tub brace type integral steel platform, the Core Walls Structure after adapting it to contracture The size of shear wall, and each layer vertical structure two above oblique wall of successively constructing, the tub brace type of the utility model are whole Steel platform, due to considering the factors such as oblique wall angle, height, specifying main frame body and dividing the partitioning boundary of frame body, so that Tub brace type integral steel platform can be adaptively adjusted according to the variation in moulding of Core Walls Structure shear wall facade, thus safety The construction of each stage Core Walls Structure shear wall is efficiently completed, safe operation is reliable, flexibly and easily；Moreover, tub brace type is whole Each component of steel platform is assembly type, and dismounting, installation are convenient and efficient, and can recycle, and improves work efficiency, reduces Construction cost.

Detailed description of the invention

Fig. 1 to Figure 11 is respectively being walked using the construct method of oblique wall of tub brace type integral steel platform for the utility model Rapid schematic diagram.

Figure label is as follows:

Vertical structure 1；The oblique wall 2 of first layer；The oblique wall 2' of the second layer；Vertical structure 23；

Main frame body 11；The bottom beam 11a of main frame body；Divide frame body 12；Divide the bottom beam 12a of frame body；Assist scaffold 12b；

Outer tub support 14；Hydraulic cylinder 15；Steel platform 16；Outrigger platform 17；

Outstanding anchor scaffold 18；Support frame 181；Diagonal brace 182；Scaffold frame body 183；Safety net 184；Pull rod 1；Pull rod 2 186；

Protective net 19；Template 20.

Specific embodiment

The utility model is described in further detail below in conjunction with the drawings and specific embodiments.It should be noted that attached drawing It is all made of very simplified form and uses non-accurate ratio, only to facilitate, lucidly aid in illustrating the utility model The purpose of embodiment.For sake of convenience, "upper" described below, "lower" are consistent with the upper and lower direction of attached drawing, but this cannot Limitation as technical solutions of the utility model.

The Core Walls Structure shear wall of the present embodiment has contracture structure, i.e., by the oblique wall of two layer high height, positioned at oblique Vertical structure 23 to the vertical structure 1 below wall, and above oblique wall is formed by connecting, extremely below with reference to Fig. 1 Figure 11 illustrates that the utility model is suitable for the tub brace type integral steel platform of oblique wall construction, it includes:

Main frame body 11, including steel platform 16, support system and climbing system, the steel platform 16 are horizontal along Core Walls Structure shear wall Section extends；The support system includes being fixed on the multiple interior tub supports and outer tub support 14 of 16 bottom of steel platform, interior Tub support is supported in the preformed hole of Core Walls Structure shear wall by being located at the telescopic steel corbel of its bottom；The climbing system Including climbing boots, hydraulic system and the column that climbs being arranged in steel platform 16, the column that climbs vertically is fixed on Core Walls Structure The concreting finished surface of shear wall, the climbing boots are set in steel platform 16 and are firmly connected with it, and climbing boots with Hydraulic system connection；

Divide frame body 12, supported including being set to wait pour tub at least one between oblique wall and main frame body 11, Divide at the top of frame body 12 and be connected to 16 bottom of steel platform, divides the bottom beam 12a of frame body to be flexibly connected with the bottom beam 11a of main frame body, divide frame At least one hydraulic cylinder 15 is installed in 12 bottom of body, and the hydraulic cylinder 15 is connect with hydraulic system, as shown in fig. 6, dividing frame body 12 width W is equal or slightly larger than the width of oblique wall vertical projection；

Outstanding anchor scaffold 18, is erected on the outside of Core Walls Structure shear wall, and the bottom of outstanding anchor scaffold 18, which is connected to, have been poured The top of oblique wall bottom, outstanding anchor scaffold 18 is connected to the top beam end of steel platform 16.

The tub brace type integral steel platform 16 for being suitable for sloping core construction of the utility model, including main frame body 11, setting Divide frame body 12 between Core Walls Structure shear wall and main frame body 11 and with what main frame body 11 was flexibly connected, and is erected on Core Walls Structure shearing Outstanding anchor scaffold 18 on the outside of wall, and the width for dividing the width W of frame body 12 to be equal or slightly larger than oblique wall vertical projection；It utilizes The construction of tub brace type integral steel platform 16 of the utility model to one 1 top of vertical structure, preparatory partial dismantling divides frame body 12 Top has poured hanging outside the oblique wall 2 of first layer using being installed on wait pour the oblique conflicting rod piece in wall position Anchor scaffold 18 divides frame body 12 successively to set up large form 20 and pours oblique wall with internal, and oblique wall all complete by construction Afterwards, it removes and divides frame body 12 and its top beam, local repacking is carried out to tub brace type integral steel platform 16, after adapting it to contracture The size of Core Walls Structure shear wall, and each layer vertical structure 23 above oblique wall of successively constructing, the tub support of the utility model Formula integral steel platform 16, due to considering the factors such as oblique wall angle, height, specifying main frame body 11 and dividing point of frame body 12 Cut edge circle enables tub brace type integral steel platform 16 to carry out adaptability according to the variation in moulding of Core Walls Structure shear wall facade Adjustment, to safely and efficiently complete the construction of each stage Core Walls Structure shear wall, safe operation is reliable, flexibly and easily；Moreover, cylinder Each component of frame brace type integral steel platform 16 is assembly type, and dismounting, installation are convenient and efficient, and can recycle, and is improved Working efficiency reduces construction cost.The tub brace type integral steel platform 16 of the utility model is particularly suitable for facade The construction of the complicated Core Walls Structure shear wall of contracture structure.

As shown in figure 4, outstanding anchor scaffold 18 includes support frame 181, several diagonal braces 182, scaffold frame body 183 and safety net 184, support frame 181 is the frame structure being welded by several section steel materials being arranged in a crisscross manner, horizontally disposed support One end of frame 181, which is anchored in, has poured the intracorporal built-in fitting of oblique wall；Several diagonal braces 182 are set to 181 bottom of support frame, diagonal brace 182 one end, the other end of diagonal brace 182 and oblique wall affixed far from the one end for having poured oblique wall with support frame 181 Interior built-in fitting anchor connection；Scaffold frame body 183 includes the transverse bar member and longitudinal bar member being erected on support frame 181, with And multiple pull rods 1, transverse bar member are connect by pull rod 1 with the intracorporal built-in fitting of oblique wall has been poured；Safety net 184 It is installed on scaffold frame body 183, support frame 181 and the outside of diagonal brace 182, to prevent safe thing caused by due to people or object fall Therefore.The outstanding anchor scaffold 18, which is erected on, have been poured on oblique wall, frame structure can according to oblique wall tilt angle into Row is adjusted flexibly, and instead of upright outer tub support 14, after the completion of oblique wall construction, removes outstanding anchor scaffold 18 and weighs The tub brace type overall steel that the new outer tub support 14 of installation is assembled into the Core Walls Structure shear wall construction after can adapt to contracture is flat Platform 16, the subsequent construction of the Core Walls Structure shear wall after implementing contracture, it is seen then that divide frame body 12 to construct using the cooperation of outstanding anchor scaffold 18 Oblique wall is connected before realizing Core Walls Structure shear wall contracture with effective after contracture, flexible and convenient operation, improves construction effect Rate.

With continued reference to FIG. 4, it further includes several pull rods for the safety and stability for being further ensured that outstanding 18 frame body of anchor scaffold 2 186, one end of pull rod 2 186 is flexibly connected with the top beam of steel platform 16, the other end of pull rod 2 186 and outstanding anchor scaffold 18 Transverse bar member be flexibly connected, steel platform 16 promoted and outstanding anchor scaffold 18 gradually build during, pull rod 2 186 can Realize fast assembling-disassembling, above-mentioned flexible connection can be bolted, pin connection, fastener connection etc..

As shown in figure 9, the junction distance of outstanding anchor scaffold 18 and steel platform 16 has poured the height on oblique wall top More than or equal to the height H of outer tub support 14.In the present embodiment, the height H of outer tub support 14 is about 3 layers of vertical structure Highly, the junction distance for hanging anchor scaffold 18 and steel platform 16 has poured the height on oblique wall top more than or equal to outer cylinder The height H of frame support 14 completes the pouring construction of 3 layers of vertical structure 23 convenient for hanging anchor scaffold 18 with the cooperation of main frame body 11, so Afterwards, part is removed from top to bottom and hang anchor scaffold 18, so that outer tub support 14 and top beam are installed on by construction personnel again 16 lower section of steel platform, and utilize Core Walls Structure shear wall after the implementation contracture of tub brace type integral steel platform 16 after re-assemblying Pouring construction.

More preferably, dividing being flexibly connected between the bottom beam 12a of frame body and the bottom beam 11a of main frame body can be to be bolted or sell Connection, it is convenient for disassembly and assembly, it can be realized the rapid deformation of tub brace type integral steel platform, and be conducive to main frame body 11 and divide frame body 12 recycle.

To guarantee to divide construction safety in 12 demolishing process of frame body, divide the bottom beam 12a of frame body and poured oblique wall it Between fully closed protective net 19 is installed, to prevent safety accident caused by due to people or object fall.

Illustrate that the tub brace type integral steel platform using the utility model is constructed the mistake of oblique wall in conjunction with Fig. 1 to Figure 11 Journey, the specific steps are as follows:

S1: as shown in Figure 1, being set up using tub brace type integral steel platform wait pour oblique wall lower part vertical structure one 1 large form 20 and casting concrete, after concrete reaches the intensity of design requirement, demoulding simultaneously hangs large form 20；

S2: divide 12 top of frame body and wait pour the oblique conflicting rod piece in wall position, steel as shown in Fig. 2, removing in advance Platform 16 is lifted up a layer height, in outer tub support 14 close to wait pour oblique wall side setting up outrigger platform 17, benefit With outrigger platform 17 and the template and casting concrete of dividing the cooperation of frame body 12 to set up the oblique wall 2 of first layer；

S3: as shown in figure 3, the template of the outrigger platform 17 and the oblique wall 2 of first layer in outer tub support 14 is removed, It has poured and has set up outstanding anchor scaffold 18 on the oblique wall 2 of first layer, and outstanding anchor scaffold 18 is fixed in the oblique wall 2 of first layer Built-in fitting；

S4: as shown in figure 4, tub supports 14 and its top beam except entirety is hung, continue to remove and divide frame body 12 and wait pour tiltedly To the conflicting rod piece in wall position；As shown in Figure 5 and Figure 6, it continues to lift up steel platform 16 and sets up outstanding anchor scaffold 18, it is necessary When can divide frame body 12 close to wait pour oblique wall side set up auxiliary scaffold 12b, using outstanding anchor scaffold 18, divide frame body 12 and auxiliary scaffold 12b cooperates the template and casting concrete for setting up the oblique wall 2' of the second layer jointly；

S5: as shown in fig. 7, after the completion of oblique wall construction, continue to remove and divide frame body 12 and poured oblique wall position Conflicting rod piece simultaneously promotes steel platform 16, sets up and has poured the large form 20 of vertical structure 23 above oblique wall and poured Concrete, as shown in Figure 8 and Figure 9, when dividing 12 main frame of frame body and oblique wall to collide, overall pulling down divides frame body 12 and continues Steel platform 16 is promoted, the large form 20 and casting concrete for successively setting up vertical structure 23 pour, such bob-weight, until pouring Complete the vertical structure 23 of three layer heights；

S6: as shown in Figure 10, partial demolition hangs anchor scaffold 18 to having poured at the top of oblique wall from top to bottom, constructor Member does not remove part using outstanding anchor scaffold 18 and main frame body 11 is operating platform, reinstalls outer tub support 14 and its top Beam promotes steel platform 16 and continues 23 each layers of wall of vertical structure of constructing, until outer tub supports 14 bottoms as shown in figure 11 Higher than the junction of vertical structure 1 and oblique wall, remaining outstanding anchor scaffold 18 and safety net 184 are removed, is implemented subsequent The construction of each index bed of vertical structure 23.

To sum up, firstly, using the construction of tub brace type integral steel platform 16 to vertical structure 1 and wait pour oblique wall Top, partial dismantling divides on frame body 12 and wait pour the oblique conflicting rod piece in wall position, and outer tub is cooperated to support on 14 The outrigger platform 17 set up pours the oblique wall 2 of first layer, then, removes and supports close to the outer tub wait pour oblique wall 14, it is to rely on to set up outstanding anchor scaffold 18 with the oblique wall 2 of first layer, cooperation and point being adapted wait pour oblique wall position Frame body 12, and oblique wall is successively poured using spelling template in bulk is dissipated, divide frame body 12 finally, removing, reinstalls outer tub branch Support 14 is assembled into the tub brace type integral steel platform 16 of Core Walls Structure shear wall after adapting to contracture, implements applying for vertical structure 23 Work, this method constantly carry out walling body to be poured and mutually conflict position with 12 position of frame body is divided before steel platform 16 is successively promoted Structure of modification, before enabling tub brace type integral steel platform 16 gradually to adapt to contracture and the structure change of contracture back wall, To complete the construction of Core Walls Structure shear wall contracture structure in an orderly manner, to safely and efficiently complete each stage Core Walls Structure shear wall Construction, safe operation is reliable, flexibly and easily.

In above-mentioned steps S3, the outstanding anchor scaffold includes support frame, several diagonal braces, scaffold frame body and safety net, foot Hand cradle frame body includes the transverse bar member being erected on support frame and longitudinal bar member and multiple pull rods one, pull rod two, support frame One end, which is anchored in, has poured the intracorporal built-in fitting of oblique wall；Several diagonal braces are set to support frame as described above bottom, one end of diagonal brace with Separate one end for having poured oblique wall of support frame is affixed, and the other end connects with the intracorporal built-in fitting anchoring of oblique wall has been poured It connects；The transverse bar member of scaffold frame body is connect by the pull rod one with the intracorporal built-in fitting of oblique wall has been poured；Scaffold frame It is flexibly connected by pull rod two with the top beam of steel platform at the top of body；Safety net is installed on outside scaffold frame body, support frame and diagonal brace Side.

In above-mentioned steps S5, after dividing frame body 12 to remove, with the layer-by-layer promotion of steel platform 16, in 11 bottom of main frame body and It pours successively to draw between oblique wall and sets fully closed protective net 19, safe closing measure is taken to prevent from falling because of people or object Safety accident caused by and.

In above-mentioned steps S5, the junction distance of outstanding anchor scaffold and the steel platform has poured the height on oblique wall top Degree is more than or equal to the height H of outer tub support,

Foregoing description is only the description to the utility model preferred embodiment, not to any limit of the scope of the utility model Fixed, any change, the modification that the those of ordinary skill in the utility model field does according to the disclosure above content belong to right and want Seek range.

Claims (6)

1. being suitable for the tub brace type integral steel platform of sloping core construction characterized by comprising

Main frame body, including steel platform, support system and climbing system, the steel platform extend along Core Walls Structure shear wall cross section； The support system includes being fixed on the multiple interior tub supports and the support of outer tub of the steel platform bottom, the interior tub branch Support is supported in the preformed hole of the Core Walls Structure shear wall by being located at the telescopic steel corbel of its bottom；The climbing system packet The climbing boots being arranged in the steel platform, hydraulic system and the column that climbs are included, the column that climbs vertically is fixed on Core Walls Structure The concreting finished surface of shear wall, the climbing boots are set in the steel platform and are firmly connected with it, and described climb Boots are risen to connect with the hydraulic system；

Divide frame body, is supported including being set to wait pour tub at least one between oblique wall and the main frame body, it is described Divide at the top of frame body and be connected to the steel platform bottom, the bottom beam for dividing frame body is flexibly connected with the bottom beam of the main frame body, institute It states a point frame body bottom and at least one hydraulic cylinder is installed, and the hydraulic cylinder is connect with the hydraulic system, it is described to divide frame body Width be equal to or more than width wait pour oblique wall vertical projection；

Outstanding anchor scaffold, is erected on the outside of the Core Walls Structure shear wall, the bottom of the outstanding anchor scaffold, which is connected to, have been poured The bottom of oblique wall is connected to the top beam end of steel platform at the top of the outstanding anchor scaffold.

2. the tub brace type integral steel platform according to claim 1 suitable for sloping core construction, which is characterized in that described Outstanding anchor scaffold includes: support frame, several diagonal braces, scaffold frame body and safety net, and support frame as described above is by several criss-cross Frame structure made of the fashioned iron welding of setting, one end of horizontally disposed support frame as described above, which is anchored in, have been poured in oblique wall Built-in fitting；Several diagonal braces are set to support frame as described above bottom, and one end of the diagonal brace and the separate of support frame have poured oblique One end of wall is affixed, the other end of the diagonal brace and has poured the intracorporal built-in fitting anchor connection of oblique wall；The scaffold Frame body includes the transverse bar member being erected on support frame as described above and longitudinal bar member and multiple pull rods one, and the transverse bar member is logical It crosses the pull rod one and is connect with the intracorporal built-in fitting of oblique wall has been poured；The safety net is installed on the scaffold frame body, branch On the outside of support and diagonal brace.

3. the tub brace type integral steel platform according to claim 1 suitable for sloping core construction, it is characterised in that: it is also Including several pull rods two, one end of the pull rod two is flexibly connected with the top beam of the steel platform, the other end of the pull rod two It is flexibly connected with the transverse bar member of the outstanding anchor scaffold.

4. the tub brace type integral steel platform according to claim 3 suitable for sloping core construction, it is characterised in that: described The height that the junction of outstanding anchor scaffold and steel platform distance has poured oblique wall top is more than or equal to the outer tub The height of support.

5. the tub brace type integral steel platform according to claim 1 suitable for sloping core construction, it is characterised in that: described Being flexibly connected between the bottom beam and the bottom beam of the main frame body of point frame body can be to be bolted or pin connection.

6. the tub brace type integral steel platform according to claim 1 suitable for sloping core construction, it is characterised in that: described Divide the bottom beam of frame body and poured and is equipped with fully closed protective net between oblique wall.