CN218912287U - Hydraulic self-climbing spreader device in super high-rise hoistway - Google Patents

Abstract

The utility model provides a hydraulic self-climbing spreader device in an ultra-high-rise hoistway, which comprises a plurality of support sections and lifting platform guide rails, wherein the support sections and the lifting platform guide rails are arranged in the hoistway; the top of the support section positioned at the highest position is provided with a construction upper truss, the inside of the plurality of support sections is provided with a spreader upright post, and the top of the spreader upright post is provided with a spreader distributing arm; each support section is provided with a protective turning plate. According to the hydraulic self-climbing spreader device in the super high-rise well, the whole spreader is arranged in the well, a special fixed channel is not required to be arranged in a floor, the subsequent secondary pouring of the fixed channel is avoided, meanwhile, the guard turning plate for the gap between the support joint and the well is arranged on the spreader, the problem that a traditional spreader climbs on a floor to leave a hole is solved, the risk of falling objects at a high place of a reserved hole is solved, the labor cost is saved conveniently and quickly, and the potential safety hazard in the construction process is avoided.

Description

Hydraulic self-climbing spreader device in super high-rise hoistway

Technical Field

The utility model relates to the technical field of concrete pouring, in particular to a hydraulic self-climbing spreader device in an ultra-high-rise well.

Background

The distributing machine is concrete distributing equipment and is matched with a concrete pump to complete concrete pouring operation in building construction. In the construction process of high-rise buildings, the spreader has become a main transportation mode for conveying concrete.

The installation of the distributing machine in the prior art needs to be provided with a fixed channel in the floor for installing the distributing machine, such as the self-climbing distributing machine in the prior utility model patent CN216109774U, a fixed channel is provided in the floor for fixedly installing the distributing machine, and after the construction of the main structure is completed, the distributing machine needs to be dismantled, so that the subsequent secondary pouring of the floor is caused, the pouring quality of concrete is difficult to be ensured for the post-pouring floor, the engineering quantity is large, and the requirement of the post-repairing floor on the pouring quality is extremely high. The cloth machine is fixed and stays fixed passageway on the floor and have the eminence thing risk of weighing down, has adverse effect to guaranteeing constructor's safety.

Disclosure of Invention

The utility model provides a hydraulic self-climbing spreader device in an ultra-high-rise hoistway, aiming at the problems in the prior art, and solves the problem that a fixed channel is required to be formed in a floor slab when the existing spreader is fixedly installed, so that the subsequent secondary casting of the floor slab and the high falling risk of the fixed channel are required.

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

the hydraulic self-climbing spreader device in the super high-rise well comprises a plurality of support sections arranged in the well, wherein the support sections are mutually spliced and arranged along the height direction of the well, the well is provided with a plurality of additional walls, the plurality of additional walls are provided with lifting platform guide rails along the height direction of the additional walls, and the side walls of the support sections are fixedly connected with the lifting platform guide rails;

the top of the support section positioned at the highest position is provided with a construction upper truss, and the height of the construction upper truss is higher than that of the attached wall;

a spreader upright post fixedly connected with the lifting platform guide rail is arranged in the plurality of support sections, the top of the spreader upright post exceeds the top of the construction upper truss, and a spreader distributing arm is arranged at the top of the spreader upright post;

the side wall of the bottom of each support joint is hinged with a protective turning plate for covering the gap between the support joint and the well. The basic principle of the hydraulic self-climbing spreader device in the super high-rise well is as follows: through setting up whole cloth machine in the well, need not to offer fixed passage in the floor specially, just also avoided follow-up secondary to pour fixed passage, be provided with the protection that covers the space between support festival and the well on the cloth machine simultaneously and turn over the board, not only solved traditional cloth machine and climbed and reserved the hole on the floor, solved the risk of keeping somewhere the overhead thing of hole moreover, convenient and fast has practiced thrift the cost of labor, avoided the potential safety hazard that exists in the work progress.

Further, each support section comprises a construction upright post, two ends of the construction upright post are provided with a spreader lifting platform beam, two adjacent support sections share one spreader lifting platform beam, and two sides of the spreader lifting platform beam are fixedly connected with the construction upright post and the lifting platform guide rail respectively;

and an inclined stay bar is further arranged between the spreader lifting platform cross beam and the lifting platform guide rail, and two ends of the inclined stay bar are fixedly connected with the spreader lifting platform cross beam and the lifting platform guide rail respectively.

Further, the top of every cloth machine promotes the platform crossbeam all is provided with a protection platform board, and protection platform board bottom is provided with a plurality of platform beams, and a plurality of platform beams and cloth machine promote the top fixed connection of platform crossbeam, and protection platform board is close to the well and faces the limit and all is provided with the protection and turns over the board.

Further, a plurality of rail attaching pieces and wall attaching pieces are uniformly arranged on the spreader upright post at intervals along the height direction of the spreader upright post, and the spreader upright post is fixedly connected with the lifting platform guide rail and the shear wall through the plurality of rail attaching pieces and the wall attaching pieces respectively; each of the rail attaching piece and the wall attaching piece comprises a connecting rod and a fixing screw rod arranged at the end part of the connecting rod; the connecting rod is fixedly connected with the upright post of the distributing machine, and the fixing screw is fixedly connected with the lifting platform guide rail or the wall attaching piece.

Further, a plurality of wall-attached hanging seats are uniformly arranged on the side wall of the lifting platform guide rail along the height direction at intervals, and the lifting platform guide rail is fixedly connected with the shear wall in the well through the plurality of wall-attached hanging seats.

Further, a hand pulling block is arranged on the construction upper truss and used for hanging the aluminum template.

Further, the bottom of the lifting platform guide rail is provided with a guide rail suspender, the top of the guide rail suspender is fixedly connected with the bottom of the lifting platform guide rail, and the bottom of the guide rail suspender is fixedly connected with the top of the protection platform plate.

Further, an operation platform is arranged at the top of the vertical column of the material distributor.

The beneficial effects of the utility model are as follows: the whole distributing machine is arranged in the hoistway, so that a fixed channel does not need to be specially formed in a floor, the subsequent secondary pouring of the fixed channel is avoided, the influence of the distributing machine on one-step forming of a floor slab is reduced, good construction benefits are brought to building construction, meanwhile, the construction quality is improved, and the construction progress is accelerated; meanwhile, the protection turning plate covering the gap between the supporting joint and the well is arranged on the distributing machine, so that the risk of falling objects at high positions is avoided, and the safety in the construction process is reduced.

Drawings

Fig. 1 is a schematic structural view of a hydraulic self-climbing spreader device in an ultra-high-rise hoistway.

Fig. 2 is a schematic view of the structure of a single support section.

Fig. 3 to 6 are flow charts of casting of the spreader apparatus.

Wherein, 1, a support section; 101. a column; 102. lifting the platform beam by the spreader; 103. a diagonal brace; 104. a protective platform plate; 105. a platform beam; 2. attaching a wall; 3. lifting the platform guide rail; 4. constructing an upper truss; 5. a cloth machine upright post; 6. a distributing arm of the distributing machine; 7. a protective turning plate; 8. a rail attachment piece; 9. wall attaching pieces; 10. attaching a wall hanging seat; 11. chain block; 12. an aluminum template; 13. a guide rail boom; 14. and (5) operating the platform.

Detailed Description

The following description of the embodiments of the present utility model is provided to facilitate understanding of the present utility model by those skilled in the art, but it should be understood that the present utility model is not limited to the scope of the embodiments, and all the utility models which make use of the inventive concept are protected by the spirit and scope of the present utility model as defined and defined in the appended claims to those skilled in the art.

As shown in fig. 1, the hydraulic self-climbing spreader device in the super high-rise well provided by the utility model comprises a plurality of support sections 1 arranged in the well, wherein the support sections 1 are mutually spliced and arranged along the height direction of the well, a plurality of auxiliary walls 2 are arranged in the well, lifting platform guide rails 3 are arranged on the auxiliary walls 2 along the height direction of the auxiliary walls, and the side walls of the support sections 1 are fixedly connected with the lifting platform guide rails 3;

the top of the support joint 1 positioned at the highest position is provided with a construction upper truss 4, and the height of the construction upper truss 4 is higher than that of the attached wall 2;

the inside of the plurality of support joints 1 is provided with a spreader upright 5 fixedly connected with the lifting platform guide rail 3, the top of the spreader upright 5 exceeds the top of the construction upper truss 4, and the top of the spreader upright 5 is provided with a spreader distributing arm 6 and an operating platform 14; the distributing arm 6 of the distributing machine is used for pumping concrete to realize pouring of the wall attaching 2; the operator platform 14 provides a support platform for an operator.

The side wall of the bottom of each support section 1 is hinged with a protective turning plate 7 for covering the gap between the support section 1 and the well. The basic principle of the hydraulic self-climbing spreader device in the super high-rise well is as follows: through setting up whole cloth machine in the well, need not to offer fixed passage in the floor specially, just avoided follow-up secondary to pour fixed passage yet, be provided with on the cloth machine simultaneously and cover the protection of supporting festival 1 and the space between the well and turn over board 7, not only solved traditional cloth machine and climbed and leave the hole on the floor, solved the risk of keeping somewhere the overhead thing of hole moreover, convenient and fast has practiced thrift the cost of labor, avoided the potential safety hazard that exists in the work progress.

As shown in fig. 2, as a specific embodiment of the support sections 1, each support section 1 includes a structural upright 101, two ends of the structural upright 101 are provided with spreader lifting platform beams 102, two adjacent support sections 1 share one spreader lifting platform beam 102, and two sides of the spreader lifting platform beam 102 are fixedly connected with the structural upright 101 and the lifting platform guide rail 3 respectively;

an inclined strut 103 is further arranged between the spreader lifting platform beam 102 and the lifting platform guide rail 3, and two ends of the inclined strut 103 are fixedly connected with the spreader lifting platform beam 102 and the lifting platform guide rail 3 respectively. The diagonal braces 103 serve to strengthen the structural strength of the support section 1.

The top of every cloth machine promotes platform crossbeam 102 all is provided with a protection platform board 104, and protection platform board 104 bottom is provided with a plurality of platform beams 105, and a plurality of platform beams 105 are fixed connection with the top of cloth machine promotes platform crossbeam 102, all are provided with a protection on the lateral wall around protection platform board 104 and turn over board 7. The guard deck boards 104 are used to block the hoistway and the guard deck boards 104 are aligned with each floor to facilitate placement of building materials.

As a specific fixing mode of the spreader upright 5, the spreader upright 5 is uniformly provided with a plurality of auxiliary rail members 8 and auxiliary wall members 9 at intervals along the height direction of the spreader upright 5, and the spreader upright 5 is fixedly connected with the lifting platform guide rail 3 and the auxiliary wall 2 through the plurality of auxiliary rail members 8 and the auxiliary wall members 9 respectively; each of the rail attaching piece 8 and the wall attaching piece 9 comprises a connecting rod and a fixed screw rod arranged at the end part of the connecting rod; the connecting rod is fixedly connected with the vertical column 5 of the distributing machine, and the fixing screw is fixedly connected with the lifting platform guide rail 3 or the attached wall 2.

As a specific fixing mode of the lifting platform guide rail 3, a plurality of wall-attached hanging seats 10 are uniformly arranged on the side wall of the lifting platform guide rail 3 along the height direction of the side wall at intervals, and the lifting platform guide rail 3 is fixedly connected with a shear wall in a hoistway through the wall-attached hanging seats 10.

The construction upper truss 4 is provided with a chain block 11, and the chain block 11 is used for hoisting an aluminum template 12.

As a specific installation mode of the lifting platform guide rail 3, a guide rail suspender 13 is arranged at the bottom of the lifting platform guide rail 3, the top of the guide rail suspender 13 is fixedly connected with the bottom of the lifting platform guide rail 3, and the bottom of the guide rail suspender 13 is fixedly connected with the top of the protection platform plate 104.

As shown in fig. 3 to 6, the pouring flow of the distributing machine device according to the scheme is as follows: as shown in fig. 3, binding the steel bars of the 4 th floor, closing the mold, and adjusting the distributing arms 6 of the distributing machine to spread and pour the concrete of the 4 th floor; as shown in fig. 4, after the concrete pouring of the building 4 is completed, the material distributing arm 6 of the material distributing machine is folded by the material distributing arm oil cylinder, and the building 5 steel bars are bound; as shown in fig. 5, after the concrete of the building 4 reaches the strength, the mould is removed, a wall-attached hanging seat 10 is installed on the building 4, the rail-attached parts 8 and the wall-attached parts 9 of the building 1-3 are removed, a hydraulic system is installed, the hydraulic system is a hydraulic cylinder, a bearing bolt on the wall-attached hanging seat 10 is pulled out, and a protective turning plate 7 is retracted to prepare a climbing support section 1; as shown in fig. 6, climbing the shaft platform to the building 4, installing a bearing bolt after positioning, resetting a turning plate, installing a spreader upright 5 wall attaching device on the building 2 to the building 4, closing the mold, adjusting a spreader arm, preparing to pour the building 5 concrete, and entering the next construction flow.

In summary, according to the hydraulic self-climbing spreader device in the super high-rise hoistway, the whole spreader is arranged in the hoistway, and a special fixed channel is not required to be formed in a floor, so that the subsequent secondary pouring of the fixed channel is avoided, the influence of the spreader on one-step forming of a floor slab is reduced, good construction benefits are brought to building construction, meanwhile, the construction quality is improved, and the construction procedure is shortened; meanwhile, the protection turning plate 7 covering the gap between the support joint 1 and the well is arranged on the distributing machine, so that the risk of falling objects at high positions is avoided, and the safety and quality hidden trouble in the construction process are reduced.

Claims (8)

1. The hydraulic self-climbing spreader device in the super high-rise well is characterized by comprising a plurality of support sections arranged in the well, wherein the support sections are mutually spliced and arranged along the height direction of the well, the well is provided with a plurality of auxiliary walls, the auxiliary walls are provided with lifting platform guide rails along the height direction of the auxiliary walls, and the support sections are fixedly connected with the lifting platform guide rails;

the top of the support section positioned at the highest position is provided with a construction upper truss, and the height of the construction upper truss is higher than the height of the attached wall;

the inside of the plurality of support joints is provided with a spreader upright post fixedly connected with the lifting platform guide rail, the top of the spreader upright post exceeds the top of the construction upper truss, and the top of the spreader upright post is provided with a spreader distributing arm;

the side wall of the bottom of each support joint is hinged with a protective turning plate for covering the gap between the support joint and the well.

2. The hydraulic self-climbing spreader device in an ultra-high-rise hoistway according to claim 1, wherein each support section comprises a structural upright, spreader lifting platform beams are arranged at two ends of the structural upright, two adjacent support sections share one spreader lifting platform beam, and two sides of the spreader lifting platform beam are fixedly connected with the structural upright and the lifting platform guide rail respectively;

and inclined supporting rods are further arranged between the spreader lifting platform cross beam and the lifting platform guide rail, and two ends of each inclined supporting rod are fixedly connected with the spreader lifting platform cross beam and the lifting platform guide rail respectively.

3. The hydraulic self-climbing spreader device in an ultra-high-rise hoistway according to claim 2, wherein a protective platform plate is arranged at the top of each spreader lifting platform beam, a plurality of platform beams are arranged at the bottom of each protective platform plate, the plurality of platform beams are fixedly connected with the top of each spreader lifting platform beam, and a protective turning plate is arranged on the side walls around each protective platform plate.

4. The hydraulic self-climbing spreader device in the super high-rise hoistway according to claim 3, wherein the spreader upright is uniformly provided with a plurality of rail attaching pieces and wall attaching pieces at intervals along the height direction of the spreader upright, and the spreader upright is fixedly connected with the lifting platform guide rail and the wall attaching piece through the plurality of rail attaching pieces and the wall attaching pieces respectively; each of the rail attaching piece and the wall attaching piece comprises a connecting rod and a fixing screw rod arranged at the end part of the connecting rod; the connecting rod is fixedly connected with the upright post of the distributing machine, and the fixing screw is fixedly connected with the guide rail or the attached wall of the lifting platform.

5. The hydraulic self-climbing spreader device in a super high-rise hoistway of claim 3, wherein a plurality of wall-attached mounts are uniformly arranged on the side wall of the lifting platform guide rail along the height direction of the lifting platform guide rail at intervals, and the lifting platform guide rail is fixedly connected with the shear wall in the hoistway through the plurality of wall-attached mounts.

6. The hydraulic self-climbing spreader device in an ultra-high-rise hoistway according to claim 1, wherein a chain block is arranged on the construction upper truss, and the chain block is used for hanging an aluminum template.

7. The hydraulic self-climbing spreader device in a super high-rise hoistway of claim 3, wherein a rail boom is disposed at a bottom of the lifting platform rail, a top of the rail boom is fixedly connected to a bottom of the lifting platform rail, and a bottom of the rail boom is fixedly connected to a top of the protective platform plate.

8. The hydraulic self-climbing spreader device in an ultra-high-rise hoistway of claim 1, wherein an operating platform is provided on top of the spreader column.

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