KR100762421B1 - Steel Stairs Upfront Support System - Google Patents

Abstract

The present invention relates to a steel staircase preceding method-type support system, the support system of the structure suitable for installing the landing and stairs ahead of the reinforced concrete structure staircase to improve the construction properties by reducing the construction error between the staircase and the steel stairs To provide. The present invention for this purpose is a landing and a plurality of nut portion formed in a position symmetrical with respect to the center; A plurality of wedge portions respectively coupled to the plurality of nut portions; Disposed between an upper landing and a lower landing to support the upper landing, the upper end of which is inserted into a plurality of wedges coupled to the nut of the upper landing, the lower end of which is coupled to a plurality of nut parts formed in the lower landing; Characterized in that it comprises a; support that is capable of height adjustment. According to the above configuration, the present invention can provide the preliminary construction of the landing and the steel staircase than the staircase wall by the simple structure, and at the same time, significantly reduce the construction error with the staircase of the reinforced concrete structure, thereby improving the workability. have.

Description

Support system of steel stair preceding construction method

1 is an exemplary view showing an example of a conventional dry stair construction method.

Figure 2 is an illustration of a steel staircase prior art support system according to an embodiment of the present invention.

3a to 3f is a configuration diagram for explaining the construction method using a steel staircase preceding method-type support system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

212: junction 214: nut

delete

216 stud 220 wedge

222: bolt portion 224: protrusion

230: support 232: bolt portion

234: height adjustment unit 310: stairs room wall

320: stepping step unit 330: formwork

340: Concrete

The present invention relates to a steel staircase preceding method-type support system, in particular, in the construction of steel staircases in buildings, can be used as a working staircase during the construction of the steel staircase, and at the same time the construction error with the staircase which is mostly constructed of reinforced concrete structure The present invention relates to a steel staircase preceding method-type support system having a simple structure suitable for the preceding method of constructing a steel staircase ahead of a staircase so as to improve workability.

It was only a few years ago that dry staircases, such as steel staircases, were introduced to Korea in earnest, and as a work path due to the installation of complex formwork and ridges, which is a problem when constructing conventional RC (reinforced concrete) stairs Due to risks and rising labor costs of on-site workers, the application of electric staircases continues to expand.

However, the general construction method of the steel staircase that is currently applied to the domestic construction of the staircase room, which is mostly reinforced concrete structure first, and then as shown in Figure 1, to install the stepping unit unit 10 of the steel staircase by one layer later It is being constructed in a way.

Therefore, unlike the expectation, the steel floor can not be used as a working staircase on the uppermost floor during construction. Therefore, the temporary staircase is used as a working staircase, and the trailing step is followed by about one floor. It is constructed by a cumbersome process to install.

In addition, such a post-construction method has a problem in that construction errors that are likely to occur during reinforcement concrete construction must be solved when installing the steel stairs because the steel stairs are installed first, and then the steel stairs are installed.

Such a construction error is solved at the construction site, for example, when the height of the landing 20 and the stepping-step unit 10 do not coincide, or a gap is generated between the stairs room surface and the stepping-step unit 10. Too complicated or costly.

The reason for the occurrence of such construction errors is that there is almost no manufacturing error in the case of the steel staircase pre-fabricated in the factory, whereas the staircase made of cast-in-place concrete has an unavoidable construction error in the construction method. As a result, a method for solving such a construction error may be called a fundamental countermeasure for constructing a reinforced concrete structure staircase according to a steel stairs system after constructing a steel stairs system having a much smaller manufacturing error or construction error.

The present invention has been proposed to solve the above problems, when installing the pre-fabricated landing and steel staircase in the building staircase in the factory, the reinforcement can be improved to reduce the construction error between the staircase and the steel stairs It is an object to provide a support system of a structure suitable for installing landings and stairs prior to a concrete structure staircase.

The present invention for achieving the above object is a landing and a plurality of nut portion formed in a position symmetrical with respect to the central portion; A plurality of wedge portions respectively coupled to the plurality of nut portions; Disposed between an upper landing and a lower landing to support the upper landing, the upper end of which is inserted into a plurality of wedges coupled to the nut of the upper landing, the lower end of which is coupled to a plurality of nut parts formed in the lower landing; Characterized in that it comprises a; support that is capable of height adjustment.

Preferably, the plurality of nut parts are formed at a position spaced apart from the outer surface of the landing by a predetermined distance, and are formed through the thickness direction of the landing, the inner surface may be made of a nut part.

Preferably, the plurality of nut parts may be one in which steel pipes nut-processed therein are embedded in the landing.

Preferably, the landing may selectively include a bottom plate and a reinforcement formed with a through hole for fixing the steel pipe.

Preferably the plurality of wedge portion is formed on one side of the bolt portion coupled to the nut portion, the other side may be a shape protruding downward.

Preferably, the support is made of a steel pipe, the wedge portion is inserted into the upper end, the lower end may be formed with a bolt coupled to the nut of the landing.

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

Figure 2 is an illustration of a steel staircase prior art support system according to an embodiment of the present invention.

The support system includes a landing 210 with a plurality of nut portions 214 formed at positions symmetrical with respect to its central portion, a plurality of wedge portions 220 respectively coupled to the plurality of nut portions 214, and an upper end thereof. The support 230 is inserted into a plurality of wedges 220 coupled to the nut part 214 of the landing 210, and a lower end thereof is coupled to the plurality of nut parts 214 formed in the lower landing 210. do.

The landing 210 is pre-fabricated in the factory regardless of its structure, and preferably a structure in which concrete is poured into the inner hollow portion of the box-shaped steel sheet, or a bottom plate is installed on the basic frame of the frame shape and the concrete is placed thereon. It is made of a pour structure, etc., and includes a joining portion 212 for joining the stepping step unit (not shown), and a stud 216 for coupling to the staircase wall ('310' of Fig. 3a).

A plurality of nut parts 214 formed in the landing 210 are nut parts for coupling to the support 230 through the wedges 220, and the outer surface of the landing 210 to improve the process interference during construction. It is formed at a position spaced from the predetermined distance.

The nut part 214 is formed by embedding concrete to bury the inside of the steel pipe through the nut processing in the thickness direction of the landing 210 in the interior thereof.

Here, when the landing 210 has a frame-shaped base frame and a bottom plate structure, a through hole (not shown) may be formed in the bottom plate in order to insert and fix a steel pipe having a nut part formed therein as the nut part 214. have.

In addition, alternatively, the landing 210 may be provided with a reinforcing material formed with a through hole (not shown) for inserting and fixing the nut part 214 to the base frame.

Wedge portion 220 is a wedge portion for connecting the landing 210 and the support 230, as shown in Figure 2, one side of the bolt portion for coupling to the nut portion 214 of the landing 210 222 is formed, and the other side is formed with a protrusion 224 protruding downward to insert the upper end of the support 230.

The wedge portion 220 is a structure for easily performing the steel staircase preceding method while using the existing support 230.

The support 230 is made of a steel pipe, the protrusion 224 of the wedge portion 220 is inserted into the upper end, and the bolt portion 232 is coupled to the nut portion 214 of the landing 210 at the bottom thereof And, the upper end of the bolt portion 232 is a height adjustment portion 234 capable of height adjustment is formed.

That is, as shown in detail A of FIG. 2, the upper end of the support 230 is inserted into the protrusion 224 of the wedge portion 220 pre-inserted in the landing 210, and is shown in the remaining detailed view of FIG. 2. As shown, the lower end of the support 230 is coupled to the nut portion 214 embedded in the landing 210 through the bolt portion 222.

The support 230 is disposed between the upper landing 210 and the lower landing 210 during construction to support the upper landing 210, the wedge 220 as described above to suppress the increase in manufacturing cost of the support system Except for the upper portion and the lower bolt portion 232 is inserted into the remaining portion may use a conventional support.

In addition, when the support 230 is dismantled in order to change the installation position to the next floor after the preceding construction of the landing step 210 and the steel stair stepping unit, lowering the height by the height adjusting unit 236, landing step 210 Then, the support 230 is separated from the wedge portion 220 inserted into the steel pipe, and then the bolt portion 222 inserted into the nut portion 214 of the lower landing 210 is dismantled.

By such a configuration, in constructing the prefabricated dry landing 210 and steel stair stepping unit in the staircase, the support 230 is installed, but the support (for preventing the fall of the support 230 and the safety of the operator) After bolting the lower end of the 230 to the nut portion of the landing 210 is already installed, the dry landing 210 is installed on the upper end of the support 230 by lifting, the wedge portion 220 in advance landing (210) After the bolts are bonded to the support 230 is installed by inserting into the steel pipe, the complex 210, such as bolting or welding during the installation of the landing 210 is omitted, inserting the wedge portion 220 in the lower landing 210 Since the landing 210 can be completed only by the process, the construction can be improved by a simple structure.

At this time, the weight of the landing 210 and the wedge 220 is inserted deeply into the support 230, it is possible to prevent a safety accident, such as the landing 210 to fall.

In addition, when the upper landing 210 is newly installed using the support system 200 as described above, a steel stair stepping unit (not shown) is mounted between the upper landing 210 and the lower landing 210 installed in advance. After completing the installation of the landing 210 and steel stair stepping unit by joining, and then install the formwork (not shown) on the staircase wall 310, the concrete is poured to complete the staircase, the concrete of the staircase wall 310 When cured, by disassembling the support 230 to move to the next stair installation position, it is possible to enable the prior construction of the landing 210 and the steel stair stepping unit.

Hereinafter, a construction method using a steel staircase leading method-type support system according to an embodiment of the present invention will be described with reference to FIGS. 3A to 3F.

3A to 3F are installation diagrams for explaining a construction method using a steel staircase preceding method type support system according to an embodiment of the present invention.

First, FIG. 3A shows a state before the support system 200 is installed.

As shown in FIG. 3A, the landing 210 is coupled and fixed between the stair room walls 310 through the studs 216, and the stepping step unit 320 is installed between the landing landings 210 installed in this way. do.

Next, the support system 200 is installed for the preliminary construction of the steel stairs of the upper floor, Figure 3b shows a state in which the support 230 is installed on the landing 210 is already installed.

Here, the lower end of the support 230 is fixed to the landing 210 below the first floor as described above, the bonding of the lower end of the support 230 and the landing 210, as shown in Figure 2, the landing ( The bolt portion 222 of the lower end of the support 230 is coupled to the nut portion 214 embedded in the 210.

Next, the prefabricated landing 210 is mounted on both sides of the support 230, and FIG. 3C illustrates a state in which the landing 210 is installed on the support 230 through the wedge 220.

Here, the junction of the upper landing 210 and the upper end of the support 230, as shown in detail A of FIG. 2, is inserted into the upper end of the support portion 230, the wedge portion 220 that is pre- bolted to the landing 210 It is a structure.

That is, in the state in which the wedge portion 220 is inserted into the nut portion 214 of the prefabricated landing 210 by the bolt portion 222, the crane 210 lifts the crane into the upper steel pipe of the support 230 and lifts the landing 210. The support 230 and the landing 210 are joined by inserting the protrusion 224 of the wedge portion 220 coupled to the bottom.

At this time, the process of bolting the wedge portion 220 of the lower portion of the landing 210 to the nut part 214 is performed at the ground level, which is easy for the operator's work, before lifting the landing 210.

On the other hand, the support 230 to secure the aesthetics of the lower landing 210 by simply removing the wedge portion 220 that was bolted before the finishing work after the completion of the construction of the landing 210 and steel stair stepping unit 320 Can be.

Next, the steel stair stepping unit 320 is installed between the newly installed upper landing 210 and the lower landing 210 is already installed, Figure 3d is a stepping step unit 320 is installed between the landing 210 Shows.

At this time, the joining method of the landing 210 and the stepping-step unit 320 is a bolt joint through the joint 212 in general.

Next, the newly installed staircase of the lower floor construction, Figure 3e shows a state in which the staircase formwork 330 is installed in accordance with the installed landing 210 and the steel stair stepping unit 320.

At this time, the stud 216 of the landing 210 is positioned in the formwork 330 to support the landing 210 after curing the concrete.

Next, the concrete 340 is poured into the installed staircase formwork 330, and FIG. 3E shows a state in which the concrete is poured.

At this time, the stud 216 of the landing 210 is buried in the wall concrete 340 to express the strength after curing the concrete 340 supports the landing 210 and steel stairs stepping unit 320 without the support 230 Done.

After the concrete 340 is cured as described above, the formwork 330 is demolded, and the support 230 between the landings 210 is also disassembled and moved to the next step installation position.

In this manner, the landing 210 and the steel stair stepping unit 320 may be constructed in advance of the staircase reinforced concrete construction.

In addition, as another prior construction method using the support system of the present invention, when the landing 210 is composed of the base frame and the bottom plate, after installing only the frame and the bottom plate, the concrete in the stair room wall is poured and at the same time the concrete in the landing 210 You may.

As described above, the steel staircase prior art support system according to the present invention supports the prefabricated dry landing by the support system by constructing a wedge which is easily fastened between the dry landing and the support on which the plurality of nut parts are formed. Then, after installing the steel stair stepping unit, proceed to the stair room wall formwork and concrete pouring to provide the preliminary construction of the landing of the staircase and the steel staircase, therefore, the simple construction of the steel staircase actually works on the top floor of the building. It can be used as a staircase, and the construction error with the staircase of the reinforced concrete structure can be drastically reduced, thereby improving the constructability.

Claims (6)

delete A landing having a plurality of nut portions formed at positions symmetrical with respect to the central portion; A plurality of wedge portions respectively coupled to the plurality of nut portions; Disposed between an upper landing and a lower landing to support the upper landing, the upper end of which is inserted into a plurality of wedges coupled to the nut of the upper landing, the lower end of which is coupled to a plurality of nut parts formed in the lower landing; In the steel staircase prior art support system consisting of a support that can be height adjustable; The nut part is formed at a position spaced a predetermined distance from the outer surface of the landing in a state in which the steel pipe nut-processed inside the landing, and is formed through the thickness direction of the landing; The wedge portion is formed with a bolt portion coupled to the nut portion on one side, the other side is formed in a shape protruding downward; The support is made of a steel pipe, the wedge portion is inserted into the upper end, the steel staircase preceding method support system, characterized in that the bolt portion is coupled to the nut portion of the landing formed. delete delete delete delete

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