KR20100076166A - Variable support system of steel stair with preceding construction method type - Google Patents

Abstract

PURPOSE: A variable support system of steel stair with a preceding construction method manner is provided to reduce construction error with a stair well of a reinforced concrete structure by supporting a dry stair landing space with a supporting system and installing a floor mat unit. CONSTITUTION: A variable support system of steel stair with a preceding construction method manner comprises a landing space supporting part(201), an upper structure(202), and a lower structure. The landing space supporting part is attached to the bottom of an upper stair landing for supporting the upper stair landing space. The upper structure comprises a central frame(204), left/right frames(205,206), and a height adjusting part(213). The central frame is formed at the lower center of a landing space supporting part to rotate each supporting member. The left and right frames are rotated around the central frame at the lower part of the landing space supporting part. The height adjusting part is combined with the lower part of the central frame to adjust the height of a support system. The lower structure comprises a triangular frame, and left/right triangular frames(209,210). The triangular frame is connected to the lower center of the upper structure by pin so that each supporting member can rotate and is formed in a triangular shape.

Description

VARIABLE SUPPORT SYSTEM OF STEEL STAIR WITH PRECEDING CONSTRUCTION METHOD TYPE}

The present invention relates to a steel staircase preceding method-type support system, when constructing a steel staircase in a building, the steel staircase can be used as a working staircase during construction, and at the same time, the construction error can be improved by reducing construction errors with the staircase. The present invention relates to a steel staircase preceding method type support system suitable for the prior method of constructing a staircase ahead of a staircase.

In general, stairs are installed together with elevators to connect vertical and vertical vertical lines of high-rise buildings. However, these stairs should be connected to the upper and lower marginal patrols in a narrow staircase space, and the form is complicated, which makes the working conditions difficult according to construction. Therefore, in recent years, the construction of steel framed high-rise buildings uniting stairs into steel aggregates and connecting them to the concrete of the building is widely used. It was only a few years ago that the domestic type of staircases such as steel stairs were introduced in earnest. As a result, the application of dry stairs continues to expand due to the complicated formwork that has been a problem in the construction of RC (Reinforced Concrete) stairs, the risk of work paths due to the installation of copper bars, and the increase of labor costs of field workers.

However, as shown in Figure 1, the general construction method of the dry staircase currently applied in the country, the construction of the staircase room, which is mostly reinforced concrete first, then the landing of the staircase is constructed with cast-in-place concrete, followed by about one floor in the factory Since it is being constructed by installing the produced stepping unit 20 of the steel staircase, it cannot be called a complete dry method.

Therefore, contrary to expectations, the steel stairs cannot be used as a working staircase on the top floor of the construction. Therefore, the temporary design stage is used as a work staircase, and afterwards, it is cumbersome to install the stair stepping unit, which is the main staircase of the steel staircase. It is constructed by process.

In addition, such a post construction method has a problem in that construction errors, which are likely to occur during reinforced concrete construction, must be solved during installation of reinforced steel stairs because the steel stairs are installed first after the stairs are constructed of reinforced concrete structures.

Such a construction error is very complicated to solve in the construction site, for example, the height of the landing 10 and the stepping unit 20 does not match, or a gap occurs between the stair room surface and the stepping unit 20. Or cost increases.

The reason for the occurrence of such construction errors is that there are almost no manufacturing errors in the case of steel staircases pre-fabricated in the factory, whereas the staircases made of cast-in-place concrete have unavoidable construction errors in the construction method. As a result, it is a fundamental countermeasure to solve such a construction error by constructing a steel stair system having a much smaller manufacturing error or construction error, and then constructing the reinforced concrete staircase according to the steel stair system.

On the other hand, the conventional steel staircase support system is difficult to accurately level the overall landing of the landing because it is required to adjust the height of each support separately, and because the height of several points must be adjusted, one worker can not do at once There is a complicated and time-consuming problem because the height of the various points must be adjusted by repeatedly rotating several times without adjusting the height.

The present invention has been proposed in order to solve the above problems, in the case of installing the prefabricated landing and steel staircase in the building staircase in the factory, the variable support that enables to install the landing and stairs effectively ahead of the reinforced concrete structure staircase By applying the system, the object is to reduce the construction error between the staircase and the steel stairway, to improve the constructability, to shorten the air, and to provide the variability to easily adjust the height of the support system by only one worker.

The present invention for achieving the above object is a system for supporting a steel staircase disposed between the upper landing and the lower landing, the landing support is attached to the lower end of the upper landing to support the upper landing; A center frame formed of a pair of upper and lower portions of a rhombus shape in which each support member is rotatably connected to the center lower portion of the landing support portion, and rotated 90 degrees from the left and right lower portions of the landing support portion with respect to the center frame; An upper structure composed of a left and right frame having the same shape as that of the upper and lower frames, and a height adjusting part coupled to a lower portion of the center frame to adjust a height of the support system; In the lower center of the upper structure, each support member is pin-connected so as to be rotatable, and a triangular frame in the center has a triangular shape, and on the left and right sides of the center triangular frame, it is rotated 90 degrees with respect to the center triangular frame. It provides a variable steel staircase preceding method-type support system, characterized in that consisting of a lower structure consisting of a left, right triangular frame made of the same shape as the triangular frame.

In addition, the height adjustment portion of the present invention is the upper and lower bolts are formed in the opposite direction to each other, the upper base and the vertical rotation shaft which can be rotated up and down, the upper base is formed with a nut portion to be coupled to the upper and lower bolts of the vertical rotation shaft, respectively And a lower base, and the center of the vertical axis of rotation provides a variable steel staircase preceding method type support system, characterized in that consisting of a rotating protruding in the horizontal direction to rotate the vertical axis of rotation.

In addition, the connection portion of the upper and lower portions of each of the center and left and right frame of the present invention provides a variable steel staircase preceding method-type support system, characterized in that the fixing nut portion for fixing each frame so as not to move. .

In addition, between the upper structure and the lower structure of the present invention, a variable steel staircase preceding method-type support system, characterized in that further comprising a horizontal support for supporting the center frame, the left and right frame by horizontally connected to each other. To provide.

In addition, the present invention provides a variable steel staircase preceding method support system, characterized in that further comprises a lower support is coupled to the bottom of the substructure.

In addition, the lower support of the present invention provides a variable steel staircase preceding method support system, characterized in that a plurality of fixings are attached for fixing the entire support system.

In addition, the stator of the present invention provides a variable steel staircase preceding method-type support system, characterized in that made of a magnet.

The steel staircase supporting system according to the present invention supports the prefabricated dry stairwell as a supporting system, installs the steel stair stepping unit, and proceeds to form the staircase wall formwork and concrete to provide the preliminary construction of the stairwell and the steel staircase. The steel staircase can be used as the working staircase on the top floor of the building during construction, and the construction error is greatly reduced by improving the construction error with the staircase of the reinforced concrete structure, and the most important height adjustment function in the steel stair support system is simplified as much as possible. The height can be easily adjusted even by one worker, so that the air can be shortened, and workability such as worker's access to the support system, installation and movement is excellent.

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

Figure 2 is an illustration of a steel stair support system according to an embodiment of the present invention, Figure 2 (a) is a front view, Figure 2 (b) is a side view, Figure 3 using a steel stair support system according to the present invention Corresponds to the installation diagram to explain the construction method.

The present invention is a system for supporting a steel staircase disposed between the upper landing and the lower landing, the landing support is attached to the lower end of the upper landing to support the upper landing; A center frame formed of a pair of upper and lower portions of a rhombus shape in which each support member is rotatably connected to the center lower portion of the landing support portion, and rotated 90 degrees from the left and right lower portions of the landing support portion with respect to the center frame; An upper structure composed of a left and right frame having the same shape as that of the upper and lower frames, and a height adjusting part coupled to a lower portion of the center frame to adjust a height of the support system; In the lower center of the upper structure, each support member is pin-connected so as to be rotatable, and a triangular frame in the center has a triangular shape, and on the left and right sides of the center triangular frame, it is rotated 90 degrees with respect to the center triangular frame. The present invention relates to a variable steel stairway preceding method type support system comprising a substructure consisting of a left and right triangular frame having the same shape as a triangular frame.

As shown in FIG. 2, the steel stair support system is disposed between the upper landing 303 and the lower landing 302 to support the steel stairs, and the uppermost part of the supporting system has a lower end of the upper landing 303. A landing support portion 201 is formed to be attached to serve to support the upper landing 303, and is coupled to the frame of the superstructure at the three points below the landing support portion 201 to maintain a structurally stable form, Levels are maintained by the frames of the superstructure moving simultaneously up and down.

An upper structure 202 is formed below the landing support 201, and the upper structure 202 includes a central frame 204, left and right frames 205 and 206, and a height adjusting unit 213. It has a structure which flexibly changes according to expansion and contraction of the height adjustment part 213. FIG. The frame of the superstructure 202 is composed of three of the center frame 204, the left frame 205, the right frame 206, each frame is a pin 223 so that each support member 212 can be rotated Connected to the rhombus shape, and consists of a pair of upper and lower.

The center frame 204 is coupled to the lower center of the landing support 201, and the left and right frames 205 and 206 are coupled to the lower left and right sides of the landing support 201, respectively. In addition, the left and right frames 205 and 206 are rotated by 90 degrees with respect to the center frame 204 to have the same shape as the center frame 204.

The height adjustment portion 213 for adjusting the height of the support system is coupled to the rhombus shape of the lower portion of the central frame 204 of the superstructure, the vertical rotation shaft 214 of the height adjustment portion 213 is at the upper and lower portions thereof. Since the formed bolts are formed in opposite directions to each other, the distance between the two bolts becomes farther or closer to each other as they move up and down to adjust the height of the support system. In addition, an upper base 215 formed with a nut coupled to the upper bolt of the height adjustment unit 213, and a lower base 216 formed with a nut coupled to the lower bolt of the height adjustment unit 213 is formed. It serves to fix or rotate the vertical rotation shaft 214. In addition, in the center of the vertical axis of rotation 214, a rotating table 217 protruding in the horizontal direction is formed, the operator holding the swivel 217 to apply a force in a predetermined direction to rotate the vertical axis of rotation 214 variable support system Height can be adjusted.

In addition, each of the center and left and right frame of the present invention, there is a portion connecting the upper and lower rhombus shape, the fixing nut portion 222 is fixed so that each frame does not move. That is, when the worker releases the fixing nut 222 to be rotatable and adjusts the height adjusting unit 213 to determine the change of the support system to the desired height, the fixing nut 222 is reversed again. By rotating, the frame is fixed so as not to move up and down. The frame can be fixed by the vertical rotation shaft 214 of the height adjusting part 213, but it is difficult to fix the height after the height adjustment is finished because each support member 212 of the frame is connected by a pin 223. Occurs. Therefore, the fixing nut 222 is formed in the connection portion of each frame of the upper structure 202 for more precise construction, thereby bringing the effect that all the supporting members 212 of the upper structure 202 are fixed.

A lower structure 203 is formed below the upper structure 202. The lower structure 203 is composed of a central triangular frame 208 and left and right triangular frames 209 and 210, and each support member. Since the 212 is connected to the pin 223 and is rotatable, the support 212 can be easily folded and lifted when the support system is moved. The center triangular frame 208 is coupled to the connection member a (218) in the lower center of the upper structure 202, each support member is made of a triangular shape is connected by a pin to enable rotation. In addition, the left and right triangular frames 209 and 210 are formed at the left and right sides of the center triangular frame 208, respectively, and are coupled to the connection member b 219 and the connection member c 220, respectively, and to each support member 212. ) Is connected to the pin so as to be rotated to have a triangular shape, rotated 90 degrees with respect to the center triangular frame 208 is configured in the same shape as the center triangular frame 208.

Variable between the upper structure 202 and the lower structure 203 of the present invention further comprises a horizontal support 207 for horizontally connecting the center frame, the left and right frames to support each other Provide steel frame step-up support system. The horizontal support 207 has the effect of providing a solid supporting force with securing the structural rigidity of the entire support system. The horizontal support 207 is preferably installed at a height and a position suitable for the worker to hold and move, so as to facilitate the movement of the entire support system.

On the other hand, a lower support 211 is attached to the lower portion of the lower structure 203 for supporting the lower portion of the entire support system horizontally, and the lower support 211 is provided for fixing the entire support system four Fixtures are formed. This is because the landing and stair stepping units are installed in advance of the reinforced concrete structured staircase, and if the support system is not properly fixed, it may be exposed to wind load and fall or fall of the support system. Therefore, the support system 221 of the material that can be firmly fixed to the lower landing landing is required, preferably made of a magnet to enable a solid fixing immediately by magnetic force in the landing made of steel. In the case of the magnet, after confirming the installation position of the support system, the holder 221 may be fixed to the lower landing 302 by simple switch operation, and even when the support system is moved, the fixing force of the holder 221 may be easily released. There is this.

However, when the staircase walls are constructed to some extent, since the support system is not completely exposed during the wind, the possibility of the fall and fall of the support system is reduced, so that the fixing table may be made of rubber, which is a material of strong friction.

Figure 3 shows an embodiment in which the variable support system is applied to the steel staircase preceding method, after the fixed steel staircase preceding method-type support system according to the present invention fixedly installed in the staircase of the building, it is manufactured in advance in the factory thereon The landing is carried to the site by a crane and combined with the upper end of the support system. After installation of the landing, the stepping step unit 306, which is manufactured and transported in advance in the factory, is lifted and combined with the anchor 305, and the stepping step unit 306 is concrete of the wall 301 of the staircase room. It can also be used as a work stair before casting. As such, the present invention can be seen to provide an effective variable support system for the preceding method of steel stairway.

The present invention having such a configuration has the following operational relationship.

In the installation of a factory-built dry landing and steel staircase in a staircase room, a variable steel staircase support system according to the present invention is installed. The worker moves each part of the support system to the corresponding position, and then assembles and installs it, sets a position to install the support system and assembles it from the substructure to the superstructure.

Then, the operator rotates the rotating table 217 of the height adjusting portion 213 to rotate the vertical axis of rotation 214 to a suitable height to support the steel stairs, and after the height adjustment is effective For fixing the load, the fixing nut part 222 of the superstructure 202 is turned to fix the frame.

Next, the landing is installed on the upper end of the variable steel stair supporting system, and then the steel stair stepping unit is installed between the landings already installed.

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

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

(a) is a front view, (b) is a side view

Figure 3 is an installation configuration for explaining the construction method using a steel staircase supporting system according to the present invention.

Description of Main Drawing Symbols of the Present Invention

10. Staircase 20. Stair Stepping Unit

30. Formwork 40. Circles

201.Sand Support 202. Superstructure

203. Substructure 204. Center frame

205 Left frame 206 Right frame

207. Horizontal support 208. Center triangular frame

209. Left triangle frame 210. Right triangle frame

211. Lower support 212. Support member

213. Height adjustment part 214. Vertical axis of rotation

215. Upper Base 216. Lower Base

217. Swivel 218. Connecting member a

219. Connecting member b 220. Connecting member c

221. Fixture 222. Fixing nut

301. Stair room wall 302. Lower floor landing

303. Upper landing 304. Concrete

305. Anchors 306. Stair Tread Units

Claims (7)

A system for supporting a steel staircase disposed between an upper landing and a lower landing, the system comprising: a landing support attached to a lower end of the upper landing to support the upper landing; A center frame formed of a pair of upper and lower portions of a rhombus shape in which each support member is rotatably connected to the center lower portion of the landing support portion, and rotated 90 degrees from the left and right lower portions of the landing support portion with respect to the center frame; An upper structure composed of a left and right frame having the same shape as that of the upper and lower frames, and a height adjusting part coupled to a lower portion of the center frame to adjust a height of the support system; In the lower center of the upper structure, each support member is pin-connected so as to be rotatable, and a triangular frame in the center has a triangular shape, and on the left and right sides of the center triangular frame, it is rotated 90 degrees with respect to the center triangular frame. A variable steel staircase preceding method type support system, characterized in that consisting of a lower structure consisting of a left, right triangular frame made of the same shape as the triangular frame. The method of claim 1, The height adjusting part is the upper and lower bolts are formed in the opposite direction to each other and the vertical rotating shaft which can be rotated up and down, the upper base and the lower base and the nut portion is formed to be coupled to the upper and lower bolts of the vertical rotation shaft, respectively; The center of the vertical axis of rotation of the variable steel staircase preceding method-type support system, characterized in that made of a rotary protruding in the horizontal direction so as to rotate the vertical axis of rotation. The method according to claim 1 or 2, Wherein the upper and lower portions of each of the center and left and right frames connecting the rhombus shape is a variable steel staircase preceding method type support system, characterized in that the fixing nut portion for fixing each frame so as not to move. The method according to claim 1 or 2, A variable steel staircase method according to claim 1, further comprising a horizontal support for connecting the central frame and the left and right frames horizontally to each other between the upper structure and the lower structure. The method according to claim 1 or 2, A variable steel staircase method according to claim 1, further comprising a lower support coupled to the bottom of the substructure. The method of claim 5, A variable steel staircase preceding method type support system, characterized in that a plurality of anchors are attached to the lower portion of the lower support for fixing the entire support system. The method of claim 6, The stator is a variable steel staircase preceding method-type support system, characterized in that consisting of a magnet

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