CN107217815B - Resistance to compression, safe type assembled steel construction elevartor shaft - Google Patents

Abstract

The invention discloses a pressure-resistant and safe assembled steel structure elevator shaft, which comprises: the elevator comprises frame columns, a floor slab and an elevator shaft, wherein the frame columns are connected with the floor slab through embedded parts, the frame columns and the roof slab are directly welded to a top beam through a head sealing plate, an elevator beam and a frame beam are arranged in the elevator shaft, the position, located on the elevator beam, of the elevator beam is provided with a first ring beam according to the height of the elevator door, one side, located on a non-elevator door, of the elevator beam is provided with a second ring beam, and a light steel keel gypsum board is arranged on the wall of the elevator shaft. The assembled steel structure replaces the original concrete cast-in-place constructional column and ring beam, and the brick wall of the well is built to form a way of closing the well, so that the construction speed is greatly improved, the workload of workers is reduced, the first ring beam is arranged on the elevator beam at the position of the elevator beam according to the height of the elevator door, the second ring beam is arranged on one side of the elevator beam, which is not the elevator door, so that the structure of the elevator shaft is optimized, and the gypsum board is arranged on the wall of the well, so that the effect of a partition wall can be achieved, the sealing effect can be achieved, and the wind resistance and the compression resistance of the well can be improved.

Description

Resistance to compression, safe type assembled steel construction elevartor shaft

Technical Field

The invention belongs to the field of production and manufacturing, and particularly relates to a pressure-resistant and safe assembly type steel structure elevator shaft.

Background

With the rapid development of social economy, the living standard and the living quality of people are continuously improved, and the rhythm of people is continuously accelerated in both production and life, as well as the construction industry. At present, people are most of concrete buildings no matter in office places or houses, people know that the construction period of the concrete buildings is long, the construction period is seriously influenced by weather, particularly in winter, people can see that after the buildings are below zero in winter, a plurality of construction sites stop working, so that the period of the whole building is long, meanwhile, the labor required by the concrete building construction is complicated, and large workers, small workers, woodworkers, tile workers and the like have high requirements on personnel, and along with the continuous increase of materials and labor cost, the cost of the whole building is high, and the input cost is higher and higher; with the increasing requirements of people on life and work, the generation of steel structure buildings is promoted due to the fact that more and more young people do not want to engage in the building industry and other factors;

the elevator is the indispensable part in the current building, so will set up the elevartor shaft at the in-process of construction, and the elevartor shaft of ordinary building mostly all adopts cast-in-place constructional column of concrete, collar beam, and the wall of a well is built to the brick again, forms the way of a closed well, and this construction method is comparatively loaded down with trivial details, and is long consuming time, and in case a certain link goes wrong at the in-process of construction, the quality of influence elevartor shaft that will be serious.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the invention aims to provide the pressure-resistant safety assembly type steel structure elevator shaft which is simple in structure, reasonable in design and easy to produce, greatly improves the construction speed, reduces the workload of workers, and can achieve the sealing effect and improve the wind resistance and the pressure resistance due to the gypsum board arranged on the shaft wall.

The technical scheme is as follows: in order to try to achieve the above object, the present invention provides a pressure-resistant safety fabricated steel structure elevator shaft, comprising: the elevator comprises frame columns, floor slabs and an elevator shaft, wherein the frame columns are connected with the floor slabs through embedded parts, the frame columns and the top slabs are directly welded to top beams through end sealing plates, elevator beams and frame beams are arranged in the elevator shaft, a first ring beam and a second ring beam are arranged in the frame beams, the position, located on the elevator beams, of the elevator beams is provided with the first ring beam according to the height of the elevator door, the side, located on the non-elevator door, of the elevator beam is provided with the second ring beam, and gypsum boards are arranged on the wall of the elevator shaft.

According to the pressure-resistant safety assembly type steel structure elevator shaft, the assembly type steel structure replaces an original concrete cast-in-place constructional column and a ring beam, and a brick well wall is added to form a way of closing the elevator shaft, so that the construction speed of the elevator shaft is greatly improved, the workload of workers is reduced, meanwhile, a first ring beam is arranged at the position, located on the elevator beam, of the elevator shaft according to the height of the elevator door, a second ring beam is arranged at one side, located on the non-elevator door, of the elevator shaft, the structure of the elevator shaft is optimized, the elevator shaft can better meet the requirements of an elevator, a gypsum board is arranged on the well wall, the effect of a partition wall can be achieved, meanwhile, the sealing effect can be achieved, the wind resistance and the pressure resistance of the elevator shaft can be improved, and the requirements of construction and developers can be better met.

The second ring beam is provided with lifting lugs, and the lifting lugs can facilitate the installation of some parts.

According to the invention, the elevator shaft is positioned in the shaft wall area of a non-elevator door, and the frame beam is arranged at the elevation of the elevator slide rail connecting piece in the machine room-free elevator, so that the frame beam is better matched with the elevator, and the requirement of the elevator can be better met.

The elevator sliding rail connecting piece is internally provided with a group of supporting plates, a fixing piece and a group of I-shaped steel, the supporting plates and the fixing piece are arranged on the frame column, and the upper end and the lower end of the I-shaped steel are respectively connected with the supporting plates and the fixing piece, so that the supporting performance of the I-shaped steel is improved, and the connection stability of the I-shaped steel is also effectively improved.

According to the invention, the I-shaped steel is provided with the support frame, and the support frame is connected with the frame column or the supporting plate through the connecting plate, so that the support performance of the I-shaped steel is improved.

The gypsum board adopts a light steel keel gypsum board.

The construction process of the pressure-resistant safety assembly type steel structure elevator shaft comprises the following specific steps:

(1): firstly, mounting a frame column and a floor slab according to construction drawings of floors, and reserving the position of an elevator shaft at a specified position;

(2): then installing an elevator beam in the elevator shaft according to a drawing;

(3): after the elevator beam is installed, arranging a transverse frame beam at the position of the elevator beam on one side of the elevator door according to the specified elevator height;

(4): in the process of arranging the transverse frame beam, one side of the elevator door is arranged firstly, namely a first ring beam is arranged at the position, positioned on the elevator beam, of the elevator beam according to the height of the elevator door;

(5): then, setting the well wall area on one side of the non-elevator door according to the elevation arrangement requirement of the slide rail connecting piece of the elevator without the elevator door, namely setting a second ring beam at the elevation where the slide rail connecting piece needs to be arranged;

(6): when the second ring beam is arranged, lifting lugs which can be conveniently positioned and welded by a chain block, a winch and some simple equipment in the construction process are arranged on the second ring beam;

(7): then, sealing the wall of the elevator shaft by adopting light steel keel gypsum boards, arranging gypsum boards on the inner side and the outer side, and keeping the gypsum boards flush with the ring beam and the constructional column after the gypsum board construction is finished;

(8): after the gypsum board is closed, the lifting lugs on the second ring beam in the elevator shaft are wrapped inside, and the lifting lugs do not need to be removed;

(9): then the elevator is installed in the elevator shaft, and an elevator sliding rail, an elevator sliding rail connecting piece and an elevator accessory are arranged according to the positions of the first ring beam and the second ring beam;

(10): and finally, arranging the elevator door according to the door head steel beam.

The technical scheme shows that the invention has the following beneficial effects: . 1. According to the pressure-resistant safety assembly type steel structure elevator shaft, the assembly type steel structure replaces the original concrete cast-in-place constructional columns and ring beams, and the well wall is built by bricks, so that a way of sealing the well is formed, the construction speed is greatly improved, and the workload of workers is reduced.

2. Still lie in elevator roof beam position on the elevator roof beam and be equipped with first circle roof beam according to the lift-cabin door height in this application, its one side that lies in non-lift-cabin door is equipped with the second circle roof beam, has optimized the structure of elevartor shaft, lets its better demand that satisfies the elevator.

3. This application has still set up the gypsum board on the wall of a well, not only can play sealed effect, can also improve its anti-wind, compressive property, and then let its better demand that satisfies construction and developer.

Drawings

Fig. 1 is a schematic structural view of a pressure-resistant safety fabricated steel structure elevator shaft according to the present invention;

fig. 2 is a schematic view showing a specific structure of an elevator shaft according to the present invention;

in the figure: the elevator comprises a frame column-1, a floor-2, an elevator shaft-3, a top plate-4, an elevator beam-5, a frame beam-6, a first ring beam-7, a second ring beam-8, a lifting lug-81, a supporting plate-9, a fixing part-10 and I-shaped steel-11.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Examples

As shown in the figure, a resistance to compression, safe assembled steel construction elevator well includes: a frame column 1, a floor 2 and an elevator shaft 3;

the relationship between the above components is as follows:

frame post 1 is connected through the built-in fitting with floor 2, just frame post 1 adopts the head board direct welding to the back timber with roof 4, be equipped with elevator roof beam 5 and frame roof beam 6 in the elevartor shaft 3, wherein, be equipped with first circle roof beam 7 and second circle roof beam 8 in the frame roof beam 6, it is equipped with first circle roof beam 7 according to the elevator door height to lie in the elevator roof beam position on the elevator roof beam 5, and its one side that lies in the non-elevator door is equipped with second circle roof beam 8, be equipped with lug 81 on the second circle roof beam 8, be equipped with the gypsum board on the wall of a well of elevartor shaft 3, the gypsum board adopts the light gauge steel gypsum board.

In this embodiment, the elevator shaft 3 is located in a shaft wall area of a non-elevator door, and the frame beam 5 is arranged at an elevation of an elevator slide rail connecting piece in a machine-room-less elevator.

In this embodiment, the elevator sliding rail connecting piece is provided with a group of supporting plates 9, a fixing member 10 and a group of i-beams 11, the supporting plates 9 and the fixing member 10 are both arranged on the frame column 1, and the upper end and the lower end of each i-beam 10 are respectively connected with the supporting plates 9 and the fixing member 10.

In this embodiment, the i-beam 11 is provided with a support frame, and the support frame is connected with the frame column 1 or the supporting plate 9 through a connecting plate.

Example 2

As shown in the figure, a resistance to compression, safe assembled steel construction elevator well includes: a frame column 1, a floor 2 and an elevator shaft 3;

the relationship between the above components is as follows:

frame post 1 is connected through the built-in fitting with floor 2, just frame post 1 adopts the head board direct welding to the back timber with roof 4, be equipped with elevator roof beam 5 and frame roof beam 6 in the elevartor shaft 3, wherein, be equipped with first circle roof beam 7 and second circle roof beam 8 in the frame roof beam 6, it is equipped with first circle roof beam 7 according to the elevator door height to lie in the elevator roof beam position on the elevator roof beam 5, and its one side that lies in the non-elevator door is equipped with second circle roof beam 8, be equipped with lug 81 on the second circle roof beam 8, be equipped with the gypsum board on the wall of a well of elevartor shaft 3, the gypsum board adopts the light gauge steel gypsum board.

In this embodiment, the elevator shaft 3 is located in a shaft wall area of a non-elevator door, and the frame beam 5 is arranged at an elevation of an elevator slide rail connecting piece in a machine-room-less elevator.

In this embodiment, the elevator sliding rail connecting piece is provided with a group of supporting plates 9, a fixing member 10 and a group of i-beams 11, the supporting plates 9 and the fixing member 10 are both arranged on the frame column 1, and the upper end and the lower end of each i-beam 10 are respectively connected with the supporting plates 9 and the fixing member 10.

In this embodiment, the i-beam 11 is provided with a support frame, and the support frame is connected with the frame column 1 or the supporting plate 9 through a connecting plate.

The construction process of the pressure-resistant and safe fabricated steel structure elevator shaft in the embodiment comprises the following specific steps:

(1): firstly, installing a frame column 1 and a floor slab 2 according to a construction drawing of a floor, and reserving the position of an elevator shaft 3 at a specified position;

(2): then installing an elevator beam 5 in the elevator shaft 3 according to the drawing;

(3): after the elevator beam 5 is installed, arranging a transverse frame beam 6 at the position of the elevator beam on one side of the elevator door according to the specified elevator height;

(4): in the process of arranging the transverse frame beam 6, one side of the elevator door is arranged firstly, namely a first ring beam 7 is arranged at the position, positioned on the elevator beam 5, of the elevator beam according to the height of the elevator door;

(5): then, setting the well wall area on one side of the non-elevator door according to the elevation arrangement requirement of the slide rail connecting piece of the elevator without the elevator door, namely setting a second ring beam 8 at the elevation where the slide rail connecting piece needs to be arranged;

(6): when the second ring beam 8 is arranged, the lifting lugs 81 which can be conveniently positioned and welded by chain blocks, winches and some simple equipment in the construction process are arranged on the second ring beam 8;

(7): then, the wall of the elevator shaft 3 is sealed by adopting light steel keel gypsum boards, the gypsum boards on the inner side and the outer side are arranged, and the gypsum boards are kept flush with the ring beam and the constructional column after the construction is finished;

(8): after the gypsum board is sealed, wrapping a lifting lug 81 on a second ring beam 8 in the elevator shaft 3, wherein the lifting lug 81 does not need to be removed;

(9): then the elevator is installed in the elevator shaft 3, and elevator sliding rails, elevator sliding rail connecting pieces and elevator accessories are arranged according to the positions of the first ring of beams 7 and the second ring of beams 8;

(10): and finally, arranging the elevator door according to the door head steel beam.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims (1)

1. The utility model provides a resistance to compression, safe type assembled steel construction elevartor shaft which characterized in that: the method comprises the following steps: the elevator comprises frame columns (1), a floor (2) and an elevator shaft (3), wherein the frame columns (1) are connected with the floor (2) through embedded parts, the frame columns (1) and a top plate (4) are directly welded to a top beam through end sealing plates, an elevator beam (5) and a frame beam (6) are arranged in the elevator shaft (3), a first ring beam (7) and a second ring beam (8) are arranged in the frame beam (6), the first ring beam (7) is arranged at the position, located on the elevator beam, of the elevator beam (5) according to the height of the elevator door, the second ring beam (8) is arranged at one side, located on the non-elevator door, of the elevator shaft (3), and gypsum boards are arranged on the shaft wall of the elevator shaft (3); a lifting lug (81) is arranged on the second ring beam (8); the elevator shaft (3) is positioned in a shaft wall area of a non-elevator door, and the frame beam (6) is arranged at the elevation of an elevator sliding rail connecting piece in a machine room-free elevator; a group of supporting plates (9), a fixing piece (10) and a group of I-shaped steel (11) are arranged in the elevator slide rail connecting piece, the supporting plates (9) and the fixing piece (10) are arranged on the frame column (1), and the upper end and the lower end of the I-shaped steel (11) are respectively connected with the supporting plates (9) and the fixing piece (10); the I-shaped steel (11) is provided with a support frame, and the support frame is connected with the frame column (1) or the supporting plate (9) through a connecting plate; the gypsum board is a light steel keel gypsum board;

the construction process of the pressure-resistant safety assembly type steel structure elevator shaft comprises the following specific steps:

(1): firstly, mounting a frame column (1) and a floor slab (2) according to a construction drawing of a floor, and reserving the position of an elevator shaft (3) at a specified position;

(2): then installing an elevator beam (5) in the elevator shaft (3) according to the drawing;

(3): after the elevator beam (5) is installed, arranging a transverse frame beam (6) at the position of the elevator beam on one side of the elevator door according to the specified elevator height;

(4): in the process of arranging the transverse frame beam (6), one side of an elevator door is arranged firstly, namely a first ring beam (7) is arranged on the elevator beam (5) at the position of the elevator beam according to the height of the elevator door;

(5): then, in the area of the wall of the well on one side of the non-elevator door, the installation is carried out according to the elevation arrangement requirement of the slide rail connecting piece of the elevator without the elevator door, namely, a second ring beam (8) is arranged at the elevation where the slide rail connecting piece needs to be arranged;

(6): when the second ring beam (8) is arranged, lifting lugs (81) which can be conveniently positioned and welded by chain blocks, windlasses and some simple equipment in the construction process are arranged on the second ring beam (8);

(7): then, the wall of the elevator shaft (3) is sealed by adopting light steel keel gypsum boards, the gypsum boards on the inner side and the outer side are arranged, and the gypsum boards are kept flush with the ring beam and the constructional column after the construction is finished;

(8): after the gypsum board is sealed, wrapping a lifting lug (81) on a second ring beam (8) in the elevator shaft (3) inside, wherein the lifting lug (81) does not need to be removed;

(9): then the elevator is installed in the elevator shaft (3), and elevator sliding rails, elevator sliding rail connecting pieces and elevator accessories are arranged according to the positions of the first ring of beams (7) and the second ring of beams (8);

(10): and finally, arranging the elevator door according to the door head steel beam.

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