CN211923574U - Construction device for constructing top floor of building - Google Patents

Abstract

The utility model provides a construction equipment who is under construction to building top layer belongs to construction technical field. The building comprises two main building structures, a frame grid layer and a top layer, wherein the frame grid layer and the top layer are respectively connected with the two main building structures; the construction device comprises a traction system, a sliding system and an operation frame body, wherein the traction system is connected with the sliding system, and the operation frame body is arranged on the sliding system; the traction system is arranged on any main building structure or frame grid layer; the sliding system is arranged on the frame grid layer; the traction system is used for driving the sliding system to slide so as to enable the operation frame body to move relative to the top layer; the operation support body is used for being under construction to the top layer. The device can be installed in the frame net layer of big space building, can construct major structure, the electromechanical pipeline of complete set and the finish decoration furred ceiling etc. of the top layer of big space building through the device. The device has the advantages of easy installation and disassembly, safety, construction cost saving and the like.

Description

Construction device for constructing top floor of building

Technical Field

The utility model relates to a construction technical field, in particular to construction equipment who carries out construction to building top layer.

Background

With the increasing development of the building construction technology level, the concept of large building function space is applied more and more. In order to meet the functional requirements of the buildings, the main structure of the building is also designed into a large-space structure with multiple floors, high altitude, large span and the like, for example, one floor in a room in a super high-rise building is a full floor layer, the full floor layer completely isolates the upper floor and the lower floor where the full floor layer is located, and local floors and floor beams can be arranged on the upper floors or the lower floors of the full floor layer, so that the large-space structure is realized on the building, and the functional requirements are met. When the building is constructed, the main structure of the top layer, the matched electromechanical pipeline, the finish-decorated suspended ceiling and the like need to be operated at high altitude and super high altitude.

At present, construction devices such as full framing scaffolds, high-altitude hanging baskets and the like are usually erected for high-altitude and super-high-altitude operation. When the full framing scaffold is used for construction, the scaffold has the advantages of large construction range, good structural stability, safe construction and the like; however, the full framing scaffold is easily limited by the erection height, and has long erection period and poor economical efficiency. When the high-altitude hanging basket is adopted, the high-altitude hanging basket has the advantages of high construction height, convenience in installation, simplicity in operation and the like; but the high-altitude hanging basket has poor safety and stability and small construction range of a single position. When the top floor of a large-space building is high and only a frame grid layer consisting of local floor slabs and floor beams is arranged below the large-space building, the traditional mode cannot be applied.

SUMMERY OF THE UTILITY MODEL

The utility model provides a construction equipment who is under construction to building top layer to solve the technical problem of the construction demand when the top layer height that current construction equipment is not applicable to big space building is higher, and its below only has the frame net layer of local floor and floor roof beam.

In order to solve the technical problem, the utility model provides a construction device for constructing the top floor of a building, the building comprises two main building structures, and a frame grid layer and a top floor which are respectively connected with the two main building structures, and the top floor is positioned above the frame grid layer;

the construction device comprises a traction system, a sliding system and an operation frame body, wherein the traction system is connected with the sliding system, and the operation frame body is installed on the sliding system;

the traction system is arranged on any one of the two main building structures or the frame grid layer;

the sliding system is arranged on the frame grid layer;

the traction system is used for driving the sliding system to slide so that the sliding system drives the operation frame body to move relative to the top layer;

the operation support body is used for constructing the top layer.

Optionally, the top floor is a full-floor layer, the frame grid layer includes floor beams and local floor slabs which are arranged in parallel, and two ends of the floor beams and two ends of the local floor slabs are respectively connected with the two main building structures;

the sliding system is installed on the floor beam and the local floor.

Optionally, the traction system comprises a steel wire rope, a traction device and a guide pulley;

one end of the steel wire rope is connected with the sliding system, and the other end of the steel wire rope is connected with the traction equipment;

the guide pulleys are installed on any one of the two main building structures, and the steel wire rope penetrates through the guide pulleys to be respectively connected with the sliding system and the traction equipment.

Optionally, the sliding system includes a sliding chassis, a pulley block and a sliding track, the sliding chassis is located above the sliding track, and the sliding track is located above the pulley block;

the traction system is connected with the sliding chassis;

the sliding rail is installed above the frame grid layer.

Optionally, the number of the sliding tracks is two, the two sliding tracks are respectively arranged on two adjacent floor beams and local floor slabs along a first direction, and the first direction is a direction pointing from one main building structure to another main building structure.

Optionally, the height of the operation frame body along the gravity direction is adjustable.

Optionally, the width of the operation frame body along the horizontal direction is adjustable.

Optionally, the traction device is an electric motor.

The utility model provides a pair of construction equipment who carries out construction to building top layer can install the frame net layer at big space building, can construct main structure, the electromechanical pipeline of complete set and the finish decoration furred ceiling etc. of the top layer of big space building through this construction equipment. Compare high altitude construction equipment among the prior art, the utility model provides a device has easy installation and dismantlement, safety, high efficiency, practices thrift advantages such as construction cost.

Drawings

Fig. 1 is an elevation view of a construction apparatus for constructing a top floor of a building provided by the present invention;

fig. 2 is a plan view of a construction apparatus for constructing a top floor of a building provided by the present invention;

fig. 3 is a plan view of a sliding system provided by the present invention;

fig. 4 is an elevation view of a slippage system provided by the present invention.

[ reference numerals are described below ]:

a-main building structure; b-main building structure; c-a top layer; d-a framework mesh layer; 10-a traction system; 20-a glide system; 30-operating the frame body; 40-floor beam; 50-a floor beam; 60-floor beam; 70-floor beam; 80-local floor slab;

101-a steel wire rope; 102-a traction device; 103-a guide pulley;

201-slipping chassis; 202-a pulley block; 203-slip track.

Detailed Description

To make the objects, advantages and features of the present invention clearer, the construction apparatus for constructing the top floor of a building according to the present invention will be described in further detail with reference to the accompanying drawings. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.

As shown in fig. 1, the present invention provides a construction apparatus for constructing a top floor of a building, the building including two main building structures A, B, and a frame grid layer D and a top floor C connected to the two main building structures a and B, respectively, the top floor C being located above the frame grid layer D; the construction device comprises a traction system 10, a sliding system 20 and an operation frame body 30, wherein the traction system 10 is connected with the sliding system 20, and the operation frame body 30 is installed on the sliding system 20; the traction system 10 is installed on any one of the two main building structures A, B or on the grid level of the framework; the slipping system 20 is installed on the frame grid layer D; the traction system 10 is used for driving the sliding system 20 to slide, so that the sliding system 20 drives the operation frame body 30 to move relative to the top layer C, and the operation frame body 30 is used for constructing the top layer C.

The utility model provides a pair of construction equipment who carries out construction to building top layer can install the frame net layer at big space building, can construct main structure, the electromechanical pipeline of complete set and the finish decoration furred ceiling etc. of the top layer of big space building through this construction equipment. Compare high altitude construction equipment among the prior art, the utility model provides a device has easy installation and dismantlement, safety, high efficiency, practices thrift advantages such as construction cost.

Alternatively, as shown in fig. 1 and 2, the top floor layer C may be a full floor layer, the frame grid layer D includes floor beams 40 and local floor slabs 80 arranged in parallel, and two ends of the floor beams 40 and two ends of the local floor slabs 80 are structurally connected to two main buildings A, B respectively; skid system 20 is mounted on floor beams 40 and partial floor 80. Wherein, the full floor layer is a floor which completely separates an upper floor from a lower floor. The frame mesh level D may also include floor beams 50, 60 and 70. The floor beam 50 and the floor beam 60 are arranged between the two main buildings A, B in parallel, and two ends of the floor beam 70 are structurally connected with the two main buildings A, B respectively.

Optionally, as shown in fig. 1 and 2, the traction system 10 includes a wire rope 101, a traction device 102, and a guide pulley 103; one end of a steel wire rope 101 is connected with the sliding system 20, and the other end of the steel wire rope 101 is connected with the traction equipment 102; a guide pulley 103 is arranged on any one of the two main building structures, and a steel wire rope 101 passes through the guide pulley 103 and is respectively connected with the sliding system 20 and the traction equipment 102. Wherein the traction device 102 may be an electric motor.

Optionally, as shown in fig. 1, fig. 3 and fig. 4, the sliding system 20 includes a sliding chassis 201, a pulley block 202 and a sliding track 203, the sliding chassis 201 is located above the pulley block 202, and the pulley block 202 is located above the sliding track 203; the traction system 10 is connected with a slip chassis 201; the glide track 203 is mounted above the frame mesh layer D.

Alternatively, as shown in fig. 2 and 3, the number of the sliding tracks 203 is two, and the two sliding tracks 203 are respectively disposed on two adjacent floor beams 40 and local floor slabs 80 along a first direction, which is a direction from one main building structure a to the other main building structure B. During construction, the construction may be performed in the first direction. The utility model provides an in the scheme, set up two tracks 203 that slide and can increase the stability of system 20 that slides.

Alternatively, the height of the manipulation frame 30 in the gravity direction may be adjusted. The operation frame body 30 is set to be a structure with adjustable height, so that construction requirements of different heights can be met.

Alternatively, the width of the manipulation case 30 in the horizontal direction may be adjusted. The operation frame body 30 is set to be a structure with adjustable width, so that construction requirements of different widths can be met.

Utilize the utility model provides a pair of construction equipment who carries out construction to building top layer can be under construction according to following step when concrete construction:

s101, paving a sliding track 203 on the frame grid layer D along the construction direction, wherein the height difference between the frame grid layer D and the top layer C of the large-space building can be larger;

s102, installing a pulley block 202 on a track, and then assembling a sliding chassis 201 on the pulley block 202 on site;

s103, installing a traction device 102 and a guide pulley 103 on the other side of the construction position, and connecting a traction steel wire rope 101 to a sliding chassis 201 through the guide pulley 103;

s104, erecting an operation frame body 30 on the sliding chassis 201 to the position below a top layer C of the large-space building to be constructed, and reserving an operation space height;

s105, construction is carried out at the initial position of the operation frame body 30, and then the traction device 102 pulls the sliding chassis 201 and the operation frame body 30 to move to the next construction area along the sliding rail 203;

and S106, repeating the step S105 until the construction is finished.

To sum up, the utility model provides a pair of construction equipment who carries out construction to building top layer can install the frame net layer at big space building, can construct major structure, the complete set electromechanical pipeline and the finish decoration furred ceiling etc. of the top layer of big space building through this construction equipment. Compare high altitude construction equipment among the prior art, the utility model provides a device has easy installation and dismantlement, safety, high efficiency, practices thrift advantages such as construction cost.

The above description is only for the purpose of describing the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention, and any variations and modifications made by those skilled in the art based on the above disclosure are within the scope of the claims of the present invention.

Claims (8)

1. A construction device for constructing a top floor of a building is characterized in that the building comprises two main building structures, a frame grid layer and a top floor, wherein the frame grid layer and the top floor are respectively connected with the two main building structures;

the construction device comprises a traction system, a sliding system and an operation frame body, wherein the traction system is connected with the sliding system, and the operation frame body is installed on the sliding system;

the traction system is arranged on any one of the two main building structures or the frame grid layer;

the sliding system is arranged on the frame grid layer;

the traction system is used for driving the sliding system to slide so that the sliding system drives the operation frame body to move relative to the top layer;

the operation support body is used for constructing the top layer.

2. The construction device for constructing the top floor of the building as claimed in claim 1, wherein the top floor is a full floor layer, the frame lattice layer comprises floor beams and partial floor slabs which are arranged in parallel, and both ends of the floor beams and both ends of the partial floor slabs are respectively connected with the two main building structures;

the sliding system is installed on the floor beam and the local floor.

3. The construction apparatus for constructing the top floor of a building as claimed in claim 1, wherein the traction system comprises a wire rope, a traction device and a guide pulley;

one end of the steel wire rope is connected with the sliding system, and the other end of the steel wire rope is connected with the traction equipment;

the guide pulleys are installed on any one of the two main building structures, and the steel wire rope penetrates through the guide pulleys to be respectively connected with the sliding system and the traction equipment.

4. The construction device for constructing the top floor of a building as claimed in claim 2, wherein the slip system comprises a slip chassis, a pulley block and a slip track, the slip chassis is located above the slip track, and the slip track is located above the pulley block;

the traction system is connected with the sliding chassis;

the sliding rail is installed above the frame grid layer.

5. The construction equipment for constructing the top floor of the building as claimed in claim 4, wherein the number of the slip tracks is two, and the two slip tracks are respectively provided on two adjacent floor beams and partial floors in a first direction, which is a direction from one main building structure to the other main building structure.

6. The construction apparatus for constructing the top story of a building as claimed in claim 1, wherein the height of the operation frame body in the gravity direction is adjustable.

7. The construction apparatus for constructing the top story of a building as claimed in claim 6, wherein the width of the operation frame body in the horizontal direction is adjustable.

8. A construction apparatus for constructing a building roof as claimed in claim 3, wherein the traction means is a motor.

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