KR101543584B1 - System for drying construction of stair landing - Google Patents

Abstract

The present invention relates to a dry landing system, and provides a landing system that can be prefabricated and structurally optimized. For this purpose, the present invention comprises a base frame of a rectangular frame, an anchor which is formed on one side of the basic frame and which is fastened to the step tread unit, and a plurality of studs fixed to the remaining surface except for the anchor, The dry landing system according to claim 1, wherein a thin plate having one side attached to a lower side surface of the anchor is coupled to an upper portion and a lower portion of the base frame, . According to the present invention, the advantages of the construction method of the dry method are maximized and the work of the form and the work is omitted, thereby improving the process interference and the workability, securing the passage space to improve the stability, Thereby reducing the production cost.

Stairs, Steel frame, Stairs, Staircase, Plate, Stair anchor, Stiffener

Description

[0001] SYSTEM FOR DRYING CONSTRUCTION OF STAIR LANDING [0002]

The present invention relates to a landing system, in which a landing system of a dry stairway such as a steel stairway applied to a stairway of a building can be preliminarily manufactured in a factory without construction at a construction site, and at the same time, The dry landing system.

Generally, stairs are installed together with the elevator to connect the upper and lower vertical lines of the high-rise buildings. However, these stairs must be connected to the upper and lower ends of the stairs in a narrow staircase space, and the shape of the stairs is complicated.

Therefore, in recent years, high-rise steel-framed buildings have been constructed by uniting stairs with steel material and connecting them to the sphere of the building. In Korea, a dry staircase such as a steel staircase was introduced in earnest only a few years ago , The application of dry stairs is continuously expanding due to the complicated formwork which has been a problem in the conventional RC (Reinforced Concrete) staircase construction, the risk as a work passage due to the installation of the hull, and the increase of the labor cost of the field worker

However, the general construction method of the dry stair which is currently applied in Korea is that the stair room, which is the steel reinforced concrete structure, is first constructed, the stair landing is constructed with the cast concrete, and the steel frame It is constructed by installing the tread unit of stairs, and it can not be said that it is a complete dry method.

As shown in FIG. 1, generally, the structure of a steel staircase installed in a reinforced concrete building includes a wall 10 forming a vertical passage of a staircase, a landing 20 alternately installed at intervals of up and down, And a stepped tread unit 30 connected to the landing gear. The steps of constructing such a steel stair step are as follows: First, the reinforcing bars 11 and the molds 15 are formed to form the wall 10 of the staircase, and the upper and lower side stepping dies (25).

An embedded angle 40 for assembling the step tread unit 30 is assembled to the upper and lower side landing dies 25 and a steel frame is temporarily installed on the embedded angle 40. In this way, when the concrete step is cured and the concrete is cured, the molds are removed to form a staircase.

However, in the conventional steel frame structure and construction method, since reinforcing steel reinforcement and formwork construction work is performed to form a staircase with the wall of the staircase before installing the steel frame stairs, a separate step or structure There is a problem in that it must be installed. In addition, since each steel staircase must be installed in the condition that the reinforcing steel reinforcement and the formwork are installed, not only the installation work of each steel staircase is difficult, but also the concrete pouring for forming the walls and the stairs of the staircase, As the work progresses, there is a problem that safety is deteriorated due to uneasiness of the working line.

In addition, construction work is complicated because construction work is carried out in order of installation of temporary structure for the worker's movement, installation of reinforcing steel reinforcement and formwork, installation of concrete stairs for each steel frame, There is a problem that a construction cost is also increased.

In addition, since a steel frame made of a concrete frame is formed after a concrete structure such as a wall of a staircase and a staircase is formed, even if the concrete structure is installed at an accurate numerical value, a staircase made of a cast concrete is inevitable in construction And a construction error occurs also with the manufactured steel stairs. The occurrence of such a construction error is not only a factor that makes the installation work of the steel stairs difficult, but also requires an additional finishing work to solve such a construction error, so that the construction cost is increased, There is a problem.

Such a construction error is very complicated or causes a cost increase to be solved at the construction site, for example, when the height of the stairs and the stair tread unit is not coincident or a gap is formed between the staircase and the stair tread unit.

As a result, it is a fundamental measure to solve such a construction error by constructing a steel staircase system having a much smaller manufacturing error or a construction error, and then constructing a staircase of a reinforced concrete structure to a steel staircase system.

As shown in FIG. 2, in order to solve the above problems, Korean Patent Registration No. 0762420 discloses a structure in which a deck plate is mounted on a frame-shaped basic frame and concrete placed on the deck plate is formed, A dry landing system in which a formwork and a shoveling operation are omitted by joining with a dry stair treading unit at a post-site, but the above patent has a problem in that workability is deteriorated by separately constructing a steel frame and a deck plate.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

In case of pre-fabricated stairs and steel stairs installed in the staircase of the building, it is necessary to construct staircase and stairs in advance of the reinforced concrete structure staircase so as to improve the workability by reducing the construction error between the staircase and the steel staircase. A support system is provided to enable a steel stair at the top layer to perform a practical operation stair at the time of construction and to shorten the air required to install a steel stair by omitting the reinforcing steel staking work.

The present invention relates to a straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle-type straddle- The dry landing system according to claim 1, wherein a thin plate having one side attached to a lower side surface of the anchor is coupled to an upper portion and a lower portion of the basic frame.

Further, the present invention provides a dry landing system, wherein the lower plate is bent downwardly on the other surface except for the anchor, and a plurality of studs are fixed to connect the wall to the wall of the staircase.

Further, the present invention further provides a dry landing system, comprising: a plurality of stiffeners formed on an upper portion of the upper plate, one side of which is coupled to the anchors, and a plurality of stiffeners penetrating the stairs in the longitudinal direction.

Further, the present invention provides a dry landing system wherein the upper plate is formed with a plurality of protruded embossments.

As described above, the dry landing system according to the present invention maximizes the advantage of the construction method of the dry method and omits the formwork and the work of the work, thereby improving the process interference and the workability and reducing the production cost according to the structural optimization design. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Fig. 3 is a cross-sectional view of a dry landing system according to an embodiment of the present invention. Fig. 3 (a) is a plan sectional view according to an embodiment of the present invention, Fig. 3 FIG. 3 (c) is a sectional view of the vessel according to the present invention, FIG. 3 (d) is a right side sectional view according to the embodiment of the present invention, 4 is a view illustrating the installation of a dry landing system according to an embodiment of the present invention.

The present invention relates to an apparatus and a method for manufacturing an anchor according to the present invention, which comprises a base frame of a rectangular frame shape, an anchor 100 formed on one side of the base frame 70 and coupled with the step tread unit 30, And a plurality of studs 80 fixed to the stair wall 160. The dry stair landing system includes a base frame 70 having one side attached to the lower side surface of the anchor 100 Characterized in that a thin thickness plate is composed of an upper part and a lower part coupled to each other.

The base frame 70 of the crane frame is formed in the landing according to the present invention and the anchor 100 is formed on the entire surface for joining with the step tread unit 30. [ In the present invention, a landfill including the anchor 100 is manufactured in advance in a steel frame and then transported to a site before installation is completed.

A plate is formed inside the base frame 70. One side of the plate is coupled to the lower side surface of the anchor 100 and is integrally formed with the anchor 100 unlike the conventional method. The upper plate 110 is formed of a double plate of a lower plate 120. The upper plate 110 is formed with a plurality of externally protruded embossings in order to reduce the thickness of the upper plate 110, But other shapes necessary for increasing the stiffness are also possible.

One side of the lower plate 120 is coupled to the staircase and the other side is engaged with the steel stair tread unit 30. The upper plate 110 and the lower plate 120 are joined to each other through spot welding or the like to be integrally manufactured.

As a result, the plates are composed of double plates. Both the upper and lower plates are made of a cross-sectional structure that reduces the thickness of the landings and increases the stiffness, and has a structure suitable for resisting the construction load and design load. It is possible to omit it, and the workability is excellent, and the air shortening can be realized.

Below the lower plate 120, a lower support 170 coupled with a structure for supporting between the landing 20 and the landing 20 is formed to further enhance the rigidity of the landing 20.

The studs 140 are fixed to the other side of the anchor 100 except for the anchor 100. The studs 140 are installed on the wall 160 of the staircase, It is fixed in the wall 160 of the staircase to transmit the load of the stairway 20 to the wall 160 of the staircase.

The joining plate 130 formed by bending the lower plate 120 downwardly and having a plurality of studs 140 fixed thereto and engaged with the wall 160 of the staircase is formed on the other surface except the anchor 100 The bottom plate 120 is formed by merely downwardly bending at the ends of the remaining three surfaces except for the anchor 100, so that the workability is excellent and economical.

The present invention further includes a plurality of stiffeners 150 formed on the upper plate 110 and one side of which is coupled to the anchor 100 to penetrate the stairs 20 in the longitudinal direction And the stiffener 150 serves as a support member for maintaining the rigidity of the entire landing 20. Therefore, the use of the stiffener 150 instead of the reinforcing steel reinforcement reduces the workability and the process time.

As shown in FIG. 5, in the case of the landing 20 according to the steel stairway leading method of the present invention, the stair landing 20 is transported to the site in a pre-manufactured state at the factory, and is connected to the upper end of the landing support system. The stair tread plate unit 30 is lowered to be coupled with the anchor 100 and the stair tread plate unit 30 can be used as a work staircase before the concrete of the wall 160 of the staircase is installed. Do.

1 is an exemplary view showing an example of a step of a conventional dry process.

2 is a perspective view showing an embodiment of a step of a dry process method in which a conventional steel frame and a deck plate are separately constructed.

3 is a cross-sectional view of a dry landing system in accordance with an embodiment of the present invention.

(a) is a plan sectional view according to an embodiment of the present invention

(b) is a front sectional view according to an embodiment of the present invention.

(c) is a sectional view of a ship according to an embodiment of the present invention.

(d) is a right side multi-view drawing according to an embodiment of the present invention.

(e) is a sectional view taken along the line A-A 'in accordance with the embodiment of the present invention.

FIG. 4 is an installation schematic diagram of a dry landing system according to an embodiment of the present invention; FIG.

DESCRIPTION OF THE RELATED ART [0002]

10. Walls

15. Die 20. Landing

25. Stairway formwork 30. Step stair tread unit

30. Unit 40. Embedded Angle

50. Concrete 60. Deck plate

70. Basic frame 80. Stud

90. Slot 95. Joint rib

100. Anchor 110. Top plate

120. Lower plate 130. Lamination plate

140. Stud 150. Stiffener

160. Staircase wall 170. Lower support

Claims (4)

An anchor to which one side is coupled to the step tread unit; A rectangular lower plate having one end coupled to the other side of the anchor; An upper plate having one end connected to the other side of the anchor and disposed at an upper portion of the lower plate and the lower surface integrally joined to the upper surface of the lower plate; A pair of joining plates formed at both side ends of the lower plate so as to be bent downward and in which a plurality of studs are fixed and coupled to the wall of the staircase; A lower support installed below the lower plate and disposed between the pair of bonding plates and connecting the pair of bonding plates; And And a plurality of stiffeners installed on the upper plate and having one end coupled to the other side of the anchor, Wherein the lower support and the stiffener are disposed crossing each other. The method according to claim 1, Wherein the upper plate and the lower plate are welded to each other. delete 3. The method according to claim 1 or 2, Wherein the upper plate is formed with a plurality of protruding embossings.

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