KR20210118278A - Temporary material for building structure with improved mobility - Google Patents

Abstract

A temporary material for a building structure with improved mobility comprises: a vertical material pipe disposed in a vertical direction, a horizontal pipe fixated and fastened to the vertical pipe and disposed in a horizontal direction, and a diagonal material pipe fixated and fastened to the vertical pipe and the horizontal pipe and disposed in a diagonal direction; a support plate, where the vertical material pipe, the horizontal material pipe, and the diagonal material pipe are fixated, disposed on a lateral side thereof; a steel column where an outer surface of the support plate is disposed to support the support plate; and a flange connection member fastening the support plate and the steel column.

Description

TEMPORARY MATERIAL FOR BUILDING STRUCTURE WITH IMPROVED MOBILITY

The following embodiments relate to temporary materials for building structures with improved mobility.

Scaffolds for construction work are installed for the purpose of temporary temporary structures installed so that workers can work stably at high places such as construction sites, building construction sites, and shipyards. You can create a space for work. Since the scaffold is a member directly related to the safety of workers, it is necessary to secure the basic stability of the scaffold.

The horizontal member for this purpose is reduced in weight by filling the core of the lightweight material inside the steel pipe. However, there is a problem in that the method of inserting the lightweight material core into the steel material becomes more complicated than the general pipe that can be mass-produced.

Korean Patent Publication No. 10-2022239

The present invention is to solve the above problems, a vertical material pipe arranged in a vertical direction, a horizontal material pipe fixedly fastened to the vertical material pipe and arranged in a horizontal direction, the vertical material pipe and the horizontal material pipe are fixedly fastened, diagonal pipe arranged in an oblique direction; a support plate to which the vertical pipe, the horizontal pipe and the diagonal pipe are fixed and disposed on the side; a steel column disposed on the outer surface of the support plate to support the support plate; It is an object of the present invention to provide a temporary material for a building structure having improved mobility including a flange connecting member for fastening the support plate and the steel column.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Temporary material for a building structure with improved mobility according to an embodiment of the present invention for solving the problem includes a vertical material pipe disposed in a vertical direction, a horizontal material pipe fixedly coupled to the vertical material pipe and disposed in a horizontal direction, and the vertical material a diagonal pipe which is fixedly fastened to the pipe and the horizontal member pipe and disposed in an oblique direction; a support plate to which the vertical pipe, the horizontal pipe and the diagonal pipe are fixed and disposed on the side; a steel column disposed on the outer surface of the support plate to support the support plate; and a flange connecting member for fastening the support plate and the steel column.

According to the present invention, the horizontal member has the effect of increasing the durability of the scaffold in a highly corrosive environment by adopting a material having a higher corrosion resistance than the conventional steel material as the main component of the member. There is an effect that the main component of the member can be easily used by adopting a material having a smaller specific gravity than the existing steel material. In order to offset the decrease in durability due to the light weight of the main component, the durability of the scaffold can be increased by adopting a high rigidity material for the flange connection part and the wedge that combine with other members. It can be combined with the flange connection without drilling a hole in the pipe, resulting in a more stable effect. By making the coupling between the pipe and the flange connection part in a compression method, the manufacturing method is simplified, and there is an effect that the coupling can be achieved without abrasion or loss between the two members to be connected, such as welding or screw coupling.

Short side steel girder used in building structures is constructed with temporary braces in the short side direction of the steel girder in the process of constructing the building structure, so that the steel girder behaves as a continuous span of 3 spans. Both ends of the steel girder installed steel plate formwork to increase the cross-sectional rigidity of both ends of the girder, and the inside was reinforced with reinforced concrete and combined to be integrated with the steel composite column, so that the amount of steel used for the short-sided steel girder of the prior art 30 ~ 40% of the weight is reduced, and this has the effect of reducing the cross section of the short-side steel girder and reducing the weight.

In addition, in the long side direction of the steel girder, by treating the steel girder as a side section by making a difference in the sizes of both ends and the central part of the steel girder according to the bending stress, 10 to 15 of the amount of steel used in the long side steel girder of the prior art %, and it has the effect of reducing the weight of the steel girder in the longitudinal direction. And, due to the weight reduction of the long and short side steel girder, the weight of the column and the foundation is reduced, so the building structure system is lightened and economical. Since both ends use cast-in-place concrete, transport and installation work are easy.

However, the effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 and 2 show an example of a temporary material for a building structure with improved mobility according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention belongs It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims.

In the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. have meaning Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in an embodiment of the present invention, an ideal or excessively formal meaning is not interpreted as

The shapes, sizes, proportions, angles, numbers, etc. disclosed in the drawings for explaining the embodiments of the present invention are exemplary, and thus the present invention is not limited to the illustrated matters. In addition, in describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. When 'including', 'having', 'consisting', etc. mentioned in this specification are used, other parts may be added unless 'only' is used. When a component is expressed in the singular, the case in which the plural is included is included unless otherwise explicitly stated.

In interpreting the components, it is interpreted as including an error range even if there is no separate explicit description.

In the case of a description of the positional relationship, for example, when the positional relationship of two parts is described as 'on', 'on', 'on', 'beside', etc., 'right' Alternatively, one or more other parts may be positioned between the two parts unless 'directly' is used.

Reference to an element or layer “on” another element or layer includes any intervening layer or other element directly on or in the middle of another element. Like reference numerals refer to like elements throughout.

The size and thickness of each component shown in the drawings are illustrated for convenience of description, and the present invention is not necessarily limited to the size and thickness of the illustrated component.

Each feature of the various embodiments of the present invention may be partially or wholly combined or combined with each other, and technically various interlocking and driving are possible, as will be fully understood by those skilled in the art, and each embodiment may be independently implemented with respect to each other, It may be possible to implement together in a related relationship.

Hereinafter, a temporary material for a building structure capable of reducing weight according to the present invention will be described with reference to the accompanying drawings.

The lightweight formwork is composed of a lower plate and a pair of side plates provided on both sides of the lower plate, respectively, in order to pour concrete therein. By dividing the side plate of the form up and down to assemble it into a standardized side plate unit, it can be applied to beams of various heights while maximizing manufacturing efficiency. will be.

The side plate division type pre-assembly lightweight formwork is constituted by vertically combining a plurality of side plate units with a pair of side plates provided on both sides of the lower plate, respectively. Therefore, it is possible to adjust the height of the pre-assembled lightweight formwork by adjusting the number of side plate units according to the height of the beam to be constructed. In addition, since it is sufficient to use a single or minimal type of side plate unit, the formwork production efficiency is very good.

The lower plate and each side plate unit can be manufactured by processing galvanized steel plate by roll forming. Pre-assembled lightweight formwork is light in weight and easy to handle and install, and it can be carried in and installed on site in a pre-assembled state at the factory, which can shorten the construction period. Furthermore, since it can be used as a non-destructible permanent form, it is possible to prevent noise complaints due to demolding and to improve the field environment. If the height of the side plate unit is high, it can be reinforced by bending the reinforcing rib in the middle.

The side plate unit may include a side plate, an upper rib horizontally bent inward from the upper end of the side plate, and a lower rib horizontally bent inward from the lower end of the side plate and coupled to the upper rib of the lower side plate unit. The side plate unit can be formed so that the side plate, the upper rib, and the lower rib form a U-shape in cross section. In this case, the upper and lower side plate units may be coupled by welding, riveting, etc. in a state in which the adjacent upper and lower ribs are in contact with each other, respectively.

The upper rib and lower rib not only combine the upper and lower neighboring side plate units with each other, but also reinforce the side plate's rigidity and fix the formwork to the stirrup. A deck plate for slab construction may be mounted on the upper rib of the side plate unit located at the top. An end of the lower rib is formed with a horizontal extension extending in an inner horizontal direction, and a stirrup reinforced inside the formwork is inserted into the inner end of the horizontal extension to form an insertion groove fixed by welding.

When the stirrup is directly welded to the end of the lower rib, the stirrup and the lower rib meet at a point. Therefore, there is a small space between the lower rib and the stirrup to fill the welded meat, so it is difficult to fix it firmly, and there is a possibility that this part may fall off when the formwork is installed or concrete is poured, and there is a possibility that the formwork may be deformed. Therefore, by extending the lower rib inward to form a horizontal extension portion and forming an insertion groove in the horizontal extension portion to insert the stirrup, the horizontal extension portion of the lower rib wraps around the outer peripheral surface of the stirrup as much as possible so that the lower rib is a sufficient welding length between the stirrup and the stirrup. can be configured to obtain

It is possible to accurately fix the installation position of the stirrup by the insertion groove. Accordingly, it is very easy to fix the stirrup, and it is possible to prevent deformation of the form by securing stability during formwork installation and concrete pouring. It was very difficult to weld and fix the lower part of the stirrup with the rib of the side plate when the beam dance was large. However, the side plate is divided into a plurality of side plate units, the stirrup is mounted on the upper part of the lower plate of the formwork, and the formwork can be manufactured upward while fixing the side plate units to the stirrup in turn from the lower side plate unit to the upper side plate unit. Therefore, the fixing operation of the stirrup can be performed very easily.

The insertion groove may be formed to extend toward the upper rib so that the weld bead is filled up to a portion of the upper surface of the upper rib of the lower side plate unit. Since the side plate is divided up and down to combine a plurality of side plate units, each of the side plate units must be joined by welding or the like, and a stirrup must be separately fixed to the rib of the side plate unit. In this case, the number of welding points increases, and a lot of effort and time are required for manufacturing and construction. Therefore, when the stirrup is welded and fixed to the lower rib, the insertion groove can be extended toward the upper rib of the lower side plate unit so that the upper and lower side plate units can be fixed at the same time.

In order to fix the stirrup to the lower rib, the lower rib and the upper rib of the lower side plate unit can also be fixed at the same time by the welding ribs filled in the insertion groove. The upper rib of the lower side plate unit joined to the lower rib is formed to be supported in close contact with the side of the stirrup. At the end of the upper rib, a support portion for supporting the side of the stirrup by being bent downward may be extended.

When a side plate unit is manufactured using a thin plate, when the end of the upper rib directly contacts the stirrup, the upper rib may be deformed by an external force. In this case, the welding area is not properly secured when welding for the upper and lower ribs. By bending the end of the upper rib downward to form a support portion, the rigidity of the upper rib can be reinforced and the stirrup can be firmly supported. In addition, by bending the end of the upper rib to reinforce the rigidity, there is an effect of increasing the overall rigidity of the formwork.

A coupling groove is bent in a dovetail shape in the middle of one of the lower rib and the upper rib, and in the middle of the other rib, a coupling protrusion having a shape corresponding to the coupling recess is bent to be inserted and caught in the coupling groove of the neighboring side plate unit. can be configured to be formed. When manufacturing a pre-assembly lightweight formwork, it is possible to form a coupling groove and a coupling protrusion to temporarily fix the positions of the side plate units until the upper and lower side plate units are welded and fixed.

The coupling groove and the coupling protrusion are formed in a dovetail shape in cross section, so that the coupling protrusion inserted into the coupling recess is not separated. The coupling protrusion can be coupled to the coupling groove by an interference fit method by using the elastic force of the thin plate or by sliding the upper and lower side plate units from the ends. Since the coupling protrusion and the coupling groove are formed by bending the upper and lower ribs, the rigidity of the upper and lower ribs is reinforced.

The lower end of the vertical bar installed at the front end of the truss girder of the deck plate to support the truss girder may be inserted into the coupling protrusion formed on the upper rib of the uppermost side plate unit on which the deck plate is mounted. Accordingly, it is possible to stably fix the position of the deck plate by the coupling protrusion. A rivet hole is formed in the coupling protrusion and the coupling groove, and the upper and lower side plate units may be configured to be fixed by a rivet in the coupling protrusion and coupling groove to which the unit is coupled to each other.

Since the coupling protrusion and coupling groove formed in a dovetail shape temporarily fix the upper and lower ribs, they may fall out and fall out when a vertical force is applied up and down. In addition, even if the front ends of the upper and lower ribs are welded together, if a normal force is applied to the side plate, the end of the side plate of the rib may be opened up and down. Therefore, by forming a rivet hole in each of the coupling protrusion and the coupling groove, the coupling protrusion and the coupling groove can be firmly fixed by riveting. Accordingly, since the upper and lower ribs can be joined by fixing by welding at the insertion groove of the lower rib and by fixing by rivets at the coupling groove and the coupling protrusion, that is, by two-point fixing, the splaying of these members is prevented by firmly fixing the upper and lower ribs. can do.

At both ends of the lower plate, the L-shaped side plate coupling part is bent, and the lower end of the side plate may be configured to be coupled to the upper part of the side plate coupling part. In this case, since the joint of the lower plate and the side plate is located on the side of the form, not the lower part of the form, it is easy to weld the lower plate and the side plate during the manufacture of the form. The side plate coupling portion is vertically bent inward after being vertically bent from each end of the lower plate to an overall L-shape. The side plate coupling portion is coupled to the lower rib of the lowermost side plate unit.

A coupling groove may be formed on the upper surface of the side plate coupling part, and in this case, the coupling protrusion formed in the lower rib may be configured to be inserted into the coupling recess of the side plate coupling part to be caught. A support part vertically bent downward to support the side of the stirrup may also be formed at the inner end of the side plate coupling part. The lower plate can be divided into left and right in cross section to produce a pair of identical lower plate units. A stirrup holder may protrude from the center of the lower plate, and a holder groove in which the lower portion of the stirrup is inserted and mounted may be formed in the stirrup holder.

A stirrup mounting portion may be formed to protrude from the center of the lower plate so that the stirrup can be stably mounted at an accurate position. At this time, a plurality of mounting grooves are formed in each of the stirrup mounting portions to a predetermined depth. The stirrup may be mounted in any one of the plurality of mounting grooves to fix the position. Accordingly, even when the stirrup is pre-assembled into a lightweight form at the factory, the stirrup does not come off during transportation or installation, and the correct position can be maintained. The upper end of the stirrup holder in which the holder groove is formed may be formed to be U-shaped (or U-shaped with an open top).

When the lower plate is divided left and right to form a pair of lower plate units, a stirrup holder may be formed at an inner end of each lower plate unit, and a rivet hole may be formed at a lower portion of the stirrup holder. In this case, both lower plate units can be fixed with rivets in a state where the lower parts of the stirrup holder are facing each other. In addition, the upper end of the stirrup holder in which the mounting groove is formed may be formed with mounting grooves on both lower plate units so as to be U-shaped (or U-shaped with an open top).

The horizontal member may include a pipe capable of supporting a load in the vertical direction of the longitudinal axis, a plurality of flange connection portions coupled to both ends of the pipe, and a wedge integrally formed with the flange connection portion and operable with multiple degrees of freedom. By including such a configuration, it is possible to form a horizontal member capable of supporting the load in the vertical direction of the axis, and it is possible to achieve a coupling with the flange connection without drilling a hole in the pipe, thereby providing a more stable horizontal member.

The flange connection part includes an insertion part fitted inside both ends of the pipe at one end, and a coupling part coupled to the other member at the other end, and may include a wedge hole through which a wedge is fitted in the coupling part. At this time, the wedge inserted into the wedge hole can be moved with multiple degrees of freedom, and a protrusion that can be caught in the wedge hole can be formed at the lower end so as not to be separated from the wedge hole. Through such a configuration, the flange connection portion may be fitted to both ends of the pipe, and the horizontal member may be combined with another member.

The pipe is preferably made of a material having a smaller specific gravity than steel in order to lighten the horizontal member or increase the corrosion resistance of the horizontal member compared to the existing horizontal member, and it is preferably made of a material having higher corrosion resistance than steel. For example, an aluminum alloy may be used. Assuming that aluminum alloy is used as the material of the pipe, the weight of the horizontal member can be reduced by about 70% compared to when steel is used, and construction work can be done effectively in the coastal area where there is a risk of corrosion. The safety and lifespan of horizontal members can be improved.

When aluminum alloy is used, the safety standards for system scaffolds required by the Occupational Safety and Health Act, that is, the safety standards of system scaffolds required by the Occupational Safety and Health Act, are In order to satisfy sufficient strength, the material of the flange and the wedge, which are the connecting parts of each pipe, is made of a material different from that of the pipe, but it is preferable that it is made of a material having a higher strength than the pipe.

In the flange connection portion, a fastening groove is formed along the circumference of each outer surface of the insertion part, and when the pipe and the flange connection part are coupled, the end of the pipe is compressed and press-fitted into the fastening groove to be fastened. At this time, a plurality of fastening holes may be formed in order to achieve a stronger coupling. This is to overcome the material difference between the pipe and the flange connection, and the manufacturing method is simple and it can form a solid connection. In addition, it can be joined without wear or loss between two members (pipes, flange connections) to be connected, such as welding or screwing.

One end of the insertion part is fitted into one end of the pipe, and the flange connection part and the pipe may be welded to each other. This has the effect that it can be easily coupled without an additional member installed for coupling the two members (pipe, flange connection part). Threads are formed in both insertion portions of the flange connection portion, and threads are formed on both ends of the pipe, so that the pipe and the flange connection portion can be screwed together. This can be easily achieved without an additional member installed for the coupling of the two members (pipe, flange connection portion), there is an effect that can be easily performed assembling and disassembling.

The manufacturing method of the horizontal member may include an assembling step of inserting a flange connection portion at both ends of a pipe, and a pressing step of pressing a portion where the flange connection portion is fitted to the pipe so that the pipe is press-fitted into the fastening groove. It is preferable that a protrusion jig having a protrusion formed at the end of the pipe is positioned in the compression step, and the radius of curvature of the protrusion of the protrusion jig is smaller than the curvature of the fastening groove. This is to allow the pipe to be easily press-fitted into the fastening groove through the protrusion.

A protruding jig is installed on either the upper or lower part of the pipe, and the pipe can be fixed on the opposite side where the protruding jig is installed. The compression process may be performed more than once. This has the effect of providing a method of manufacturing a horizontal member capable of stably performing the pressing step in a line that does not apply excessive force to the protruding jig. By installing a protruding jig at the top and bottom of the pipe, the pipe with the flange connection part can be compressed once. This has the effect of providing a method of manufacturing a horizontal member capable of effectively performing the pressing step by shortening the pressing process to one time.

The scaffolding system may include a plurality of vertical material pipes supporting a load in the longitudinal axial direction, a plurality of pipe connections connecting the plurality of vertical material pipes, and a vertical member fitted to the pipe connection portions and including a flange positioned between the vertical material pipes. . The vertical member can support the load along the longitudinal axis, and has the advantage of being able to maintain the position of the flange fixedly compared to the prior art of fitting the flange to one pipe.

The scaffolding system may include a horizontal member pipe that supports a load perpendicular to the longitudinal axis, a plurality of horizontal member flange connections coupled to both ends of the horizontal member pipe, and a horizontal member including a horizontal member wedge integrally included in the horizontal member flange connection part. The horizontal member can support the load in the vertical direction of the longitudinal axis, and it can be combined with the horizontal member flange connection without drilling a hole in the horizontal member pipe, thereby maintaining a more stable coupling. The above-described vertical member and horizontal member may form a rectangular parallelepiped shape to form a schematic shape of the system scaffold.

A diagonal pipe supporting a load in the vertical and horizontal directions of the longitudinal axis, a plurality of diagonal flange connections coupled to both ends of the diagonal pipe, a diagonal member including a diagonal wedge integrally included in the diagonal flange connection; may include. The diagonal member can support the load in both the vertical and horizontal directions of the longitudinal axis, and it can be combined with the horizontal member flange connection without drilling a hole in the diagonal pipe, which has the advantage of maintaining a more stable coupling.

The pipe connection part is in the form of a column with a space therein, and it is provided at both ends of the pipe connection part and may include a vertical material insertion part fitted inside one end of the vertical material pipe, and the pipe connection part may include a central part connected to the flange in the center. have. By including the vertical member insertion part, the vertical member may be formed by connecting a plurality of vertical member pipes, and by including the central part, the pipe connection part, the vertical member pipe, and the flange may be fixed to provide a more stable coupling.

The flange is formed in the form of a plate, and a coupling hole may be formed radially based on the center of the plate. A horizontal member wedge and a diagonal member wedge may be inserted into the coupling hole to be coupled. The horizontal member flange connection part may include a horizontal member insertion part fitted inside both ends of the horizontal member pipe at one end, and a horizontal member coupling part coupled to the other member at the other end. In addition, the horizontal member coupling portion may include a horizontal member wedge hole into which the horizontal member wedge is fitted. Through this, the horizontal member flange connection part may be coupled to both ends of the horizontal member pipe, and the horizontal member may be coupled to another member.

The diagonal member flange connection part may include a diagonal member insertion part having one end fitted inside both ends of the diagonal pipe pipe and the other end formed as a plane. In addition, one end is connected to the other end of the diagonal member insertion portion and the other end may include a diagonal member coupling portion that can be coupled with the other member, the diagonal member coupling portion may include a diagonal wedge hole into which the diagonal member wedge is fitted to the other end. have. Through this, the diagonal member flange connection portion may be fitted and coupled to both ends of the diagonal member pipe, and the diagonal member may be coupled to another member.

The diagonal member may include a rotation providing means at one end of the diagonal member coupling part. This is shown in FIG. 9 . The rotational axis of the rotation providing means coincides with the connecting axis between the diagonal member engaging portion and the diagonal member inserting portion, and the rotation providing means may be screwed. At this time, it is preferable that the shaft of the screw to be coupled is the rotation shaft of the rotation providing means. Through this, the angle between the diagonal member wedge hole and the diagonal member pipe can be adjusted more simply, so that the coupling angle between the other member and the diagonal member can be easily adjusted arbitrarily.

The vertical member can be installed vertically on the ground, and the horizontal member is perpendicular to the vertical member, but the flange connection parts of the horizontal member at both ends of the horizontal member are connected to the flange, and the diagonal member forms an angle that is not perpendicular to the vertical member and the horizontal member, but at both ends of the diagonal member The diagonal flange connection may be connected to the flange. Through this, the vertical member and the horizontal member can form a cuboid, and the diagonal member can be installed diagonally on the side of the cuboid to further support the structure of the scaffolding system.

If the horizontal and diagonal members are coplanar on the side of the system scaffold, the horizontal and diagonal members may intersect and have to roll the horizontal and diagonal pipes at the intersection. In order to solve this problem, in the present invention, a plurality of horizontal members are arranged in parallel and spaced apart at regular intervals on the side of the system scaffold, and diagonal members are positioned on a plane parallel to the side of the system scaffold and spaced apart from the outside of the system scaffold at regular intervals. allowed to be combined. Accordingly, when configuring the system scaffold, there is an effect that it can be easily configured without an additional process.

The pipe connection part, the horizontal member flange connection part, and the diagonal member flange connection part have a vertical member insertion part, a horizontal member insertion part, and a fastening groove formed along the outer circumference of each of the diagonal member insertion parts, and a vertical member pipe, a horizontal member pipe, and a diagonal member pipe The end of the is pressed and press-fitted into the fastening groove to be fastened. At this time, a plurality of fastening holes may be formed to be spaced apart from each other at regular intervals in the longitudinal direction of the vertical member pipe, the horizontal member pipe, and the diagonal member pipe in order to achieve a tighter coupling. This is to overcome the material difference between the vertical member pipe, the horizontal member pipe, the diagonal pipe and the pipe connection part, the horizontal member flange connection part, and the diagonal member flange connection part. In addition, it can be joined without wear or loss between two members to be connected, such as by welding or screwing.

Since the pipe connection part and the flange are made of the same material, the central part can be joined to the flange by welding. Through this, coupling can be easily achieved without an additional member installed for coupling of the two members (pipe connection part, flange). Since the pipe connection part and the flange are made of the same material, the central part can be coupled by screwing the flange. Through this, coupling can be easily achieved without an additional member installed for coupling of the two members (pipe connection part and flange), and assembly and disassembly can be easily performed.

The pipe connection part, the horizontal member flange connection part, and the diagonal member flange connection part may be welded and coupled to the vertical member pipe, the horizontal member pipe, and the diagonal member pipe. This has the effect that the coupling can be easily achieved without an additional member installed for coupling of the two members. The pipe connection part, the horizontal member flange connection part, and the diagonal member flange connection part may be coupled to the vertical member pipe, the horizontal member pipe, and the diagonal member pipe by screwing. This can be easily achieved without an additional member installed for the coupling of the two members, there is an effect that can be easily performed assembling and disassembling.

The assembling step may include a horizontal-vertical coupling step in which the horizontal member wedge is fitted and fixed in the coupling hole formed in the flange, and a diagonal-vertical coupling step in which the diagonal member wedge is fitted and fixed in the coupling hole formed in the flange. . At this time, the horizontal member coupling portion may be formed with a groove in the vertical direction in the horizontal member wedge hole. Similarly, the diagonal member coupling portion may be formed with a groove in the vertical direction also in the diagonal member wedge hole, and the flange plate (Plane) in the groove. It is preferable that this is fitted. After that, the horizontal member wedge and the diagonal member wedge are fitted to the flange, and the horizontal member wedge and the diagonal member wedge may be fixed to the flange by applying a second force so as not to be fixed and moved.

In the first crimping step, the second crimping step, and the horizontal member crimping step and the diagonal member crimping step, a protrusion jig having a protrusion formed at the end of the vertical member pipe, the horizontal member pipe, and the diagonal member pipe is positioned, and the radius of curvature of the protrusion of the protruding jig It is preferable to be formed smaller than the curvature of the fastening groove. This is to allow the vertical member pipe, the horizontal member pipe, and the diagonal member pipe to be easily press-fitted into the fastening groove through the protrusion. A protruding jig is installed in either the upper or lower part of the vertical pipe, the horizontal pipe, and the diagonal pipe, and the vertical pipe, the horizontal pipe, and the diagonal pipe are supported on the opposite side where the protruding jig is installed, but the surface is flat. By installing a jig, the pressing process can be performed two or more times while rotating the vertical member pipe, the horizontal member pipe, and the diagonal member pipe. This has the effect of providing a method of manufacturing a horizontal member capable of stably performing the pressing step in a line that does not apply excessive force to the protruding jig.

By installing a protruding jig at the upper and lower portions of the vertical member pipe, the horizontal member pipe, and the diagonal member pipe, the vertical member pipe, the horizontal member pipe, and the diagonal member pipe may be combined by pressing once. This has the effect of providing a method of manufacturing a horizontal member capable of effectively performing the pressing step by shortening the pressing process to one time. In the long and short side steel girder coupled to a pair of steel pillars installed at a predetermined interval when constructing an underground structure, in the short side direction of the girder, between the flanges of the pair of steel pillars and the upper flanges of both ends of the steel girder, respectively By installing a temporary brace, the steel girder is made to behave in a continuous span of three spans as shown in the bending moment diagram, and the depth is reduced and the weight is reduced. % is saved, which can also be used for above-ground structures.

In the longitudinal direction of the girder, according to the bending stress of the steel girder, the central part uses a steel girder with a large dance and both ends use a steel girder with a small dance. 10 ~ 15% of the amount of steel used is reduced, which makes the long side steel girder lighter, which can also be used for above-ground structures. In the short-side direction steel girder coupled between a pair of steel columns and steel columns installed at a predetermined distance, a support plate coupled to a steel column flange positioned at a predetermined height from the upper surface of the short-side direction steel girder and both ends of the short-side direction steel girder Temporary braces are respectively installed between the support plates coupled to the upper flanges of the short side steel girder located at a predetermined distance in the central direction of the girder to reinforce both ends of the short side direction steel girder.

The gusset plate welded to the flange side of the steel column located below the slab is bolted to the web of the steel girder, and a ∪-shaped iron plate formwork is installed in each predetermined section of the steel girder end, and cast-in-place concrete is inside the ∪-shaped iron plate formwork. is filled and a number of reinforcing bars are installed on the upper part to reinforce both ends of the short side steel girder, and stud bolts are installed on the upper surface of the short side direction steel girder to integrate the steel girder and the slab. do.

In the longitudinal direction steel girder coupled between a pair of steel columns and steel columns installed at a predetermined interval, each dance is performed at a predetermined distance (1/4 to 1/5 of span) from both ends of the long side steel girder to the center. This small steel girder is installed, and a large steel girder is installed in the central part of the long side steel girder. It is formed to be partially cut, and both ends of the cut-out steel girder with a large dance and one end of the steel girder with a small dance are joined by welding, respectively, which can be used for above-ground structures. One end of the small steel girder is hinged with a bolt and a gusset plate installed on the web at the center of the steel girder in the short side direction.

In installing long and short side steel girder between steel columns, the short side steel girder installs a ∪-shaped steel plate form in a predetermined section at both ends, fills the inside with cast-in-place concrete, and a plurality of reinforcing bars at the top. is installed, and temporary braces are installed between the support plate coupled to the steel column flange and the support plate coupled to the upper flange of the short side steel girder to reinforce both ends of the short side steel girder. In the longitudinal direction, the size of both ends and the central part of the steel girder is different according to the bending stress, and the steel girder is treated as a side section. By installing a girder, the cross section of the steel girder in the longitudinal direction is efficiently formed.

Both ends of the steel girder are formed such that the upper flange and a part of the web are cut so that they can be combined with the ends of the steel girder with a small dance, and the ends of the steel girder with a small dance are welded with both ends of the steel girder with a large dance are joined A groove of a predetermined length is formed at the lower end of the web of the cut end of the steel girder with a large dance, and a horizontal stiffener is welded to the groove, and the end of the horizontal stiffener and the lower flange end of the steel girder with a small dance are welded together, The end web of this small steel girder and the cut end web of the large steel girder are welded, so that the horizontal stiffener supports the tensile or compressive force acting on the lower flange of the small steel girder.

In the short side steel girder coupled between a pair of steel columns and steel columns, the center of the girder at both ends of the supporting plate and the short side steel girder coupled to the steel column flange located at a predetermined height from the lower surface of the short side steel girder Temporary braces are respectively installed between the supporting plates coupled to the lower flanges of the short side steel girder located at a predetermined distance in the direction to reinforce both ends of the short side direction steel girder, which can be used for above-ground structures. The method of constructing a building structure using temporary braces and steel composite girder for short side steel girder and side side steel girder for long side steel girder is to install a pair of steel columns at a predetermined interval, Install a steel girder on the side with a cross section, install a temporary brace and a steel composite girder in the short side direction, form a rectangular opening around the steel column to pour the slab, reinforce the reinforcing bar in the rectangular opening around the steel column, and add concrete Reinforce the steel column with reinforced concrete by pouring the

Short side steel girder used in building structures is constructed with temporary braces in the short side direction of the steel girder in the process of constructing the building structure, so that the steel girder behaves as a continuous span of 3 spans. Both ends of the steel girder installed steel plate formwork to increase the cross-sectional rigidity of both ends of the girder, and the inside was reinforced with reinforced concrete and combined to be integrated with the steel composite column, so that the amount of steel used for the short-sided steel girder of the prior art 30 ~ 40% of the weight is reduced, and this has the effect of reducing the cross section of the short-side steel girder and reducing the weight. In addition, in the long side direction of the steel girder, by treating the steel girder as a side section by making a difference in the sizes of both ends and the central part of the steel girder according to the bending stress, 10 to 15% of the amount of steel used in the long side steel girder of the prior art This has the effect of reducing the weight of the steel girder in the longitudinal direction. Due to the weight reduction of the long and short side steel girder, the weight of the column and foundation is reduced, so the building structure system is lightweight and economical. Since the end uses cast-in-place concrete, it has the effect of easy transport and installation.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications may be made within the scope without departing from the technical spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

Claims (1)

As a temporary material for a building structure with improved mobility,
a vertical member pipe disposed in a vertical direction, a horizontal member pipe fixedly coupled to the vertical member pipe and disposed in a horizontal direction, and a diagonal member pipe disposed in an oblique direction while being fixedly coupled to the vertical member pipe and the horizontal member pipe;
a support plate to which the vertical pipe, the horizontal pipe and the diagonal pipe are fixed and disposed on the side;
a steel column disposed on the outer surface of the support plate to support the support plate; and
Temporary material for a building structure comprising a flange connecting member for fastening the support plate and the steel column.

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