KR100561081B1 - A Dismonuting Stair Form - Google Patents

Abstract

The present invention relates to an intangible stair formwork, which is inclinedly connected between spaced floors and is arranged in parallel at regular intervals along the width direction of the bottom surface, and has a structure in which both sides of the longitudinal direction are extended upward, A plurality of lightweight concrete blocks having both edges introduced into each adjacent frame to connect each frame along the width direction, and a plurality of bolted fastening plates fixed at predetermined intervals along a length direction on the outer edge of the frame; A plurality of bolts formed with female threads in the axial direction in the head portion fastened to the bolt fastening plate downward through each of the lightweight concrete blocks, a plurality of ties are fitted to each of the bolts adjacent to the upper portion of the lightweight concrete block connected to each other And fitting the bolts to the bottom of the tie so that the tie is spaced apart by a predetermined height. Fitting the top of the plurality of spacers and the bolts and is configured to include a plurality of steps disposed in correspondence with the block along the length direction of arrangement of the frame. The present invention is to propose a destructible stair form of the structure that can be applied to the first step even before the construction of the slab, and can be used as it is as a staircase of the building without having to remove even after the concrete placing through the appropriate reinforcement.

Stairs, Formwork, Mortar, Lightweight Concrete

Description

A Dismonuting Stair Form

1 is a perspective view of a non-disassembled stair formwork according to the present invention,

2 is a plan view of the formwork shown in FIG.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a partially enlarged view taken along line i of FIG. 3;

5 is a cross-sectional view taken along line B-B of FIG. 2.

<Description of Symbols for Major Parts of Drawings>

100: frame 200: lightweight concrete block

300: stair block 400: spacer

500: Tie 600: Bolted plate

700: bolt 710: auxiliary bolt

1000: Step Formwork 2000: Floor

The present invention relates to an intangible stair formwork, and more particularly, to fix both ends of the frame to the two bottom surfaces spaced at a predetermined height, and to the lightweight frame of the concrete blocks, spacers, ties, stairs blocks, and the head A non-disassembled stair formwork for fastening the above components with bolts and auxiliary bolts with female threads formed axially in the portion.

In general, the construction site is to create a staircase, then construct the staircase, to install the staircase floor formwork connecting the two floors facing the predetermined height, and the reinforcement work and the top plate formwork. However, the installation of the stair floor formwork is complicated by the installation of additional members for supporting the floor formwork, and the stair deck formwork is manufactured according to the standard of the stepping plate, so much time and effort must be invested in each joining work. did.

In addition, these conventional formwork is carpenters cut the plywood and lumber according to the drawings in the field to make the formwork, and then cast concrete and dismantle the form after curing, most of which are damaged during the disassembly process is not reused, rather than garbage It became a double burden to deal with.

Under these circumstances, research on formwork has been promoted, and the construction industry is currently trying to make a change through the technology plate in the slab formwork field, but the construction method using conventional plywood formwork without any obvious change in the step formwork field is continued. have.

At one time, aluminum was used to standardize stair formwork, but all failed to enter the market due to the oxidation of air, which is a material limitation of aluminum, and the inferior price competitiveness.

Therefore, the use of conventional plywood formwork, which depends on carpenter's nails in the construction site of an apartment, has a problem in that it takes a lot of time and manpower and it is difficult to reuse the formwork once used.

In addition, since the formwork for forming a plurality of stepping plates on the inclined surface rather than the plane must be constructed, there are many problems in construction and it is difficult to produce a standardized foam that can solve this problem.

The present invention has been made in order to solve the above problems, the first object of the present invention, the component of the formwork is to be integrated with the stair even after the concrete by the step of dismantling the formwork without the need for dismantling the separate formwork. To provide.

In addition, the second object of the present invention, if only one member, such as' '' section steel is installed on the upper end of the wall so that the staircase can be built before the slab construction to ensure the passage for the slab formwork construction is a harmless staircase To provide the formwork.

In addition, the third object of the present invention, by forming the bottom surface of the step formwork with a frame to be able to construct the step formwork without a separate formwork supporting member, to prevent manpower and time consumption, to implement an orderly construction site To provide a non-disassembled stair formwork.

In addition, a fourth object of the present invention is to provide a safer and more efficient and non-destructible stair formwork without the need to manufacture the formwork on the site, because the components of the stair formwork can be standardized.

The above objects, the frame is inclined connected between each spaced apart spaced in parallel with a predetermined interval along the width direction of the bottom surface, both sides of the longitudinally extending structure; A plurality of lightweight concrete blocks having downwardly extending both edges introduced into the adjacent frames to connect the frames along the width direction; A plurality of bolt fastening plates fixed at predetermined intervals along a longitudinal direction on the edge outer surface of the frame; A plurality of bolts fastened to the bolt fastening plate through the lightweight concrete blocks downwardly; A plurality of ties fitted to each of the adjacent bolts at the top of the lightweight concrete block and connected to each other; A plurality of spacers which are fitted to the respective bolts to the bottom of the tie so that the tie is spaced apart by a predetermined height; And a plurality of staircase blocks fitted to the top of the bolt and correspondingly disposed along the longitudinal arrangement of the frame.

In addition, the bolt is preferably a structure in which a female screw is formed along the axial direction in the head portion into which the step block, tie, and spacer are fitted.

In addition, the bolt fastening plate preferably has an arrangement structure parallel to the step surface so that the bolt is fastened in a vertical direction with respect to the stepping step surface of the step block.

In addition, each of the bottom surface is further provided with a section steel so that both ends of the frame correspondingly coupled, and both ends of the frame is partially cut in correspondence to the vertical surface so that both ends of the frame in close contact with the vertical surface of the section steel It is preferably a bent structure.

Other objects, obvious advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments according to the accompanying drawings.

It will be described with reference to the accompanying drawings with respect to the demolition step form according to the present invention.

1 is a perspective view of the formwork according to the invention, Figure 2 is a plan view of the formwork. As shown in Figure 1 and 2, the formwork (1000) is to form a staircase, which is an important element of the architectural design, as well as function as a mobile passage used as vertical vertical inter-floor vertical line of the building.

The non-disassembled stair formwork 1000 according to the preferred embodiment of the present invention has a frame 100, a lightweight concrete block 200, a spacer 400, a tie 500, a stair block 300 and a female thread on the head part. It is configured to include a bolt 700 formed.

In order to construct the formwork 1000, first, the frame 100 is installed on two bottom surfaces spaced at a predetermined height. Frame 100 is a member extending in both ends in the longitudinal direction, is arranged in parallel along the width direction of the stairs.

Lightweight concrete block 200, spacer 400, tie 500, step block 300 are sequentially stacked on the frame 100, at this time, the head portion of the bolt 700 formed in the axial direction And the auxiliary bolt 710 is configured by fastening the respective components.

At this time, the reinforcement on the tie 500 as necessary so that the stairs can bear the load better to complete the formwork (1000). Then, the concrete is poured into the space formed between the lightweight concrete block 200 and the step block 300 on the formwork 1000 to complete the stairs.

Thereafter, the completed stairs do not need to release the formwork 1000 separately because the stairs block 300 and the frame 100 and the lightweight concrete block 200 forming the exterior are integrated with the stairs as they are. In addition, the auxiliary bolt 710 exposed on the step block 300 may be removed, and after the mortar is finished on the part, a step slip prevention device may be mounted.

Hereinafter, each component constituting the formwork 1000 will be described in more detail.

The frame 100 has a structure in which both sides in the longitudinal direction are relatively extended and both ends thereof are connected to two bottom surfaces spaced apart by a predetermined height. At this time, both ends of the frame 100 are fixed at right angles to the 'c' section steel (100a) pre-installed on the wall surrounding the space in which the stairs are formed. In addition, both ends are configured to be partially cut and bent to correspond to the side surface of the shaped steel (100a) to be in close contact with the shaped steel (100a).

In more detail, the shape steel (100a) is a 'c' shape with both ends extending in the longitudinal direction. And, when constructing the wall forming the staircase the upper side of the steel beam (100a) to be fixed to the wall at right angles to the stairs at the height of the start point and the end point of the step is partially cut in the relatively protruded The bottom surface of the shaped steel 100a is inserted into and fastened to the wall. Therefore, the shape steel 100a may be connected to the frame 100 of the stairs even before the upper and lower slabs are installed, so that the stairs may be formed first to help the construction of the slabs.

In addition, since the frame 100 is formed along the inclined direction of the stairs, the frame 100 meets the angle with the shape steel 100a. Therefore, in order for both ends of the frame 100 to be in close contact with the beam, the bottom surface of the frame 100 protrudes and the upwardly extending portion of the frame 100 is perpendicular to the bottom surface of the beam 100a. Partial incision. At this time, the bottom surface of the protruding frame 100 is bent upward and bolted against the side of the shaped steel (100a).

 In addition, the frame 100 is provided with a bolt fastening plate 600 on the outer surface extending upward of the frame 100 to be bolted to the lightweight concrete block 200. As a result, the male screw of the bolt 700 may be coupled to the nut through the lightweight concrete block 200 and the bolt fastening plate 600.

Here, the bolt fastening plate 600 is a 'b' shaped member is attached to the outer surface of the frame 100, the other surface is the bolt 700 is perpendicular to the stepping surface of the step block 300 A fastener (hereinafter referred to as a 'first fastener') having an arrangement structure parallel to the stepping step surface and corresponding to a male screw of the bolt 700 may be provided to be fastened in a direction.

In addition, the bolt fastening plate 600 is disposed at a predetermined interval on the outer surface of the frame 100 in the longitudinal direction, respectively, wherein the bolt fastening plate 600 is formed at both ends or one end of the frame 100 do. That is, the frame 100 is disposed in the center to be bolted to the light weight concrete block 200 is stacked in response to the position of the frame 100 arranged in parallel on the stairs bolted plate 600 is installed at both ends and In the frame 100 disposed at the outer side of the left or right side, the bolt fastening plate 600 is installed at one outer side of the frame facing the inner direction of the stairs.

The light weight concrete block 200 has a structure in which both sides thereof are extended downward so as to be correspondingly coupled to the upper portions of the frames 100, and are disposed in the width direction of the frame 100.

In addition, the lightweight concrete block 200 is continuously disposed in the inclined direction of the stairs on the top / bottom of the frame 100.

In addition, any one of the edges selected from both edges of the downwardly extending lightweight concrete block 200 has a thickness that can be fitted in close contact with both sides of the upwardly extending side of the frame 100, the opposite edge is the width of the bottom surface of the frame Has a thickness equal to half. That is, the thickness of the edge extending downward of the lightweight concrete block 200 is that one side is twice the other.

The connection of the light weight concrete block 200 and the frame 100 is possible with a bolt 700 passing through the light weight concrete block 200 and the bolt fastening plate 600, wherein the male screw of the bolt is coupled to the nut to Lightweight concrete block 200 and the frame 100 is connected and fixed by fastening. In this case, the spacer 400, the tie 500, and the step block 300 are fitted to the head of the bolt 700.

The spacer 400 has a cylindrical shape having an inner diameter corresponding to the head of the bolt 700, and is fitted into the head of the bolt 700 fixing the lightweight concrete block 200 and the frame 100, respectively. 500 is spaced apart from the light weight concrete block 200.

The tie 500 is an elongated member having a length longer than the width and is fitted to each of the bolts 700 arranged in the width direction at the upper portion of the lightweight concrete block 200 to connect the bolts 700.

The tie 500 is supported by the spacer 400, and maintains the distance between the reinforcing bar and the lightweight concrete block 200 so that when the reinforcement of the formwork 1000 is buried in the reinforcement concrete.

The step block 300 is fitted to the upper end of the bolt 700 and correspondingly disposed along the longitudinal arrangement of the frame 100 to form an outline of the step tread.

In more detail, the stair block 300 is a 'c' shape forming the outer surface of the stepping step, the center is cut off and is symmetric with respect to the center of the staircase. The surface forming the side surface of the stair block 300 is formed to face the light weight concrete block 200 along the step slope, the front of the step block 300 is smoothly transferred to the bottom along the step slope slope concrete Maintain a certain distance with the tie 500 to.

Then, the step block 300 is fitted to the head portion of the bolt 700, the head portion is fastened to the auxiliary bolt 710 is fitted from the top of the step block 300. Therefore, each of the step blocks 300 is formed with a mounting hole to which the bolt 700 formed with the female thread on the auxiliary bolt 710 and the head is formed, preferably separated from the center of the step block 300. Two are formed on each side is a total of four are formed in a pair of stair block 300.

Auxiliary bolt 710 is a bolt that is generally used in construction sites to withstand the lateral pressure of the concrete when the concrete block, when the concrete is completely solidified to remove the stairs block 300 is formed. . Mortar is filled in the position where the auxiliary bolt 710 is removed from the staircase block 300, a staircase slip prevention device may be installed as needed.

 3 is a cross-sectional view taken along the line A-A of FIG. 2, and FIG. 4 is a partially enlarged view of the line i of FIG. As shown in Figure 3 and 4, both ends of the frame 100 is fixed to the bottom surface and the slab by bolt coupling, respectively, the lightweight concrete block 200 is tweaked on the frame 100 along the stair slope direction The spacer 400, the tie 500, and the step block 300 are fastened to the bolt central axis, which is a fixing means.

The frame 100 has a structure in which both longitudinal portions extend relatively upward. The upper end of the frame 100 is bolted to the shaped steel (100a) formed on the bottom surface of the upper slab, the lower end is bolted to the shaped steel (100a) formed on the bottom surface of the lower slab. At this time, the upper and lower ends of the frame 100 are partially cut and bent to bolt to the upper and lower slabs, respectively. That is, the upwardly extending both sides of the frame 100 are partially cut to be in contact with the side surface of the shaped steel 100a without interference of the shaped steel 100a, and the upwardly extending both sides are partially cut out of the frame protruding relatively ( The bottom surface of 100 is bent to face the side of the shaped steel 100a. In addition, the fastening of the frame 100 and the shaped steel (100a) is not limited to the bolt coupling, fastening means such as riveting or welding may be used.

The fastening structure of the frame 100 is a stair formwork before the slab construction even if a predetermined section (100a), such as a single 'c' section steel is installed on the wall contacting the slab bottom surface of the top and bottom on which the stairs are installed. It is assumed that 1000 can be constructed. That is, when the section steel (100a) is disposed on the wall surface in contact with the bottom surface and bolted to one end of the frame 100 to the section steel (100a), even if the slab construction is not made in the situation can be a stair construction, slab It can be used as a passageway for construction.

Frame 100 is provided with a bolt fastening plate 600 on the outer surface of the frame 100 to be bolted to the lightweight concrete block 200.

The bolt fastening plate 600 is a 'b' shaped plate member, the one surface of the bolt fastening plate 600 is a frame (so that the other surface formed with the first fastener of the bolt fastening plate 600 is perpendicular to the stepping step surface ( 100 is attached to the outside. Therefore, the bolt fastening plate 600 has an angle corresponding to the inclination of the stairs and is formed in the frame 100 by welding or the like.

In addition, it is preferable that the first fastener of the bolt fastening plate 600 has a diameter enough to allow the male screw of the bolt 700 to pass therethrough.

The lightweight concrete block 200 has a shape in which the lower both sides extend downward to be fitted to the upper portion corresponding to the frame 100 so as to be relatively recessed in the center. That is, the block of the rectangular parallelepiped has a structure in which the center portion is recessed and both edges can be inserted while wrapping the spaced points between the parallelly arranged frames 100.

The block 200 has a relatively short length compared to the frame 100, and is continuously arranged in a grid shape on the frame 100 to cover the frame 100 to form a bottom surface of the stairs to form a bottom surface of the stairs. It fills the space that is arranged in parallel at a predetermined interval, and is a component that connects between each frame (100).

In addition, the lightweight concrete block 200 has fasteners (hereinafter referred to as 'second fasteners') are formed inside both edges. The second fastener is for the block 200 to be bolted to the bolt fastening plate 600 of the frame 100 to the stepping step surface when viewed in a state in which the lightweight concrete block 200 is fitted to the frame 100 It is formed at right angles.

In addition, in the light concrete block 200, both ends of the frame 100 coupled to the section steel (100a) fixed to the bottom surface spaced apart from the lightweight concrete so as not to interfere with the block on the slab fitted to the section steel (100a) Upper and lower concrete blocks 210 and 220 are used that are different from the blocks.

The upper concrete block 220 is bent downward to contact the block on the upper slab at the end of the stairs, and the lower concrete block 210 is partially cut to contact the block on the lower slab at the point where the stairs begin. In this case, the downwardly extending edges of the upper and lower concrete blocks 210 and 220 exist only on the stepped slopes on which the frame 100 forming the stairs is installed and does not exist at the point where they are horizontally bent to meet the slab surface.

Stair block 300 is fitted to the upper end of the bolt 700, correspondingly disposed along the longitudinal arrangement of the frame 100, is a structure that is symmetrical cut in the center of the transverse direction of the staircase. The staircase block 300 forms the outer surface of the stepping step, the top plate of the staircase is open and the front of the staircase block 300 is formed from a top to a point spaced apart from the tie 500 by a predetermined distance. In addition, the portion of the step block 300 forming the side of the stairs extends along the inclined surface of the stairs to meet the upper end of the lightweight concrete block 200.

As described above, the upper plate of the staircase block 300 is surrounded by the block 300 and the inside thereof is empty. The outer surface is provided with a mounting hole for the auxiliary bolt 710 is coupled to the bolt 700 is formed with a female thread in the head portion. When the upper plate of the stair block 300 is not blocked, when the slump of the concrete is lowered, the concrete to be poured is not so severe that the pressure of the concrete filling the upper stairs is not transmitted to the concrete filled in the lower stairs.

Here, the slump refers to the degree to which the concrete collapses when the fungus-shaped bacques having a height of 30 cm are filled with concrete and turned over, and then the bacques are removed. Thus, the smaller the slump value, the more concrete the concrete dough is, and the higher the slump value, the thinner (moisture) concrete dough. Therefore, in the embodiment according to the present invention, the slump value is used by selecting an appropriate value such that the concrete does not flow out to the top of the step block 300.

Spacer 400 is a cylindrical member that separates the tie 500 from the lightweight concrete block 200 is fitted to the head portion of the bolt 700.

The height of the spacer 400 may vary depending on the construction purpose of the stairs, the inner diameter is preferably enough to penetrate the head portion of the bolt 700.

The tie 500 is fitted to the head of the bolt 700 to be placed on the top of the spacer 400 that is fitted to the head of the bolt 700, by connecting the head of each bolt 700 in the transverse direction of the stairs bolt (700) By fixing the mutual and the reinforcing reinforcement from the lightweight concrete block 200 to allow the reinforcement is completely buried in the concrete.

The coupling of the components, while the male screw of the bolt 700 is coupled to the nut through the light weight concrete block 200 and the bolt fastening plate 600 to secure the frame 100 together, the bolt 700 of the The head 400 is fitted with a spacer 400, a tie 500, and a step block 300. At this time, the auxiliary bolt 710 is fixed to the step block 300 while being coupled to the head of the bolt 700 through the mounting hole of the step block 300. The auxiliary bolt 710 is a temporary component that is removed when the curing of the concrete is completed.

5 is a cross-sectional view taken along line B-B of FIG. 2. As shown in FIG. 5, the formwork 1000 is fitted with a light weight concrete block 200 having both edges extended downward in a frame 100 arranged in parallel, and the frame 100 and the light weight concrete block 200. A bolt 700 having a female thread is fastened to the head, and a cylindrical spacer 400, a tie 500, and a step block 300 are fitted to the head of the bolt 700.

The frame 100 is a shape in which both sides of the longitudinal direction are relatively extended upwards, In parallel with the slope where the staircase is formed Support the bottom end of the formwork (1000). In the present embodiment, three, but if necessary, the number of the frame 100 may be arranged more.

In addition, the frame 100 has both longitudinal portions extending relatively upward, but may have a continuous shape in which protrusion and depression are repeated.

However, unlike the repeated shape of the protrusion and depression, the independent frame 100 having both sides extended upward is used to reduce the load of the frame 100 by spaced apart between the frames 100.

The frame 100 is provided with a bolt fastening plate 600 for bolting the lightweight concrete block 200 and the frame 100 at predetermined intervals in the longitudinal direction of the frame 100 on the outer surface of the upwardly extending edge.

The bolt fastening plate 600 is a curved plate member having a 'b' shape, and is attached to both ends of the frame 100 to the frame 100 positioned inside the stairs, and the frame 100 positioned at both outer sides of the stairs. Each is attached to the surface facing the inside of the stairs.

The lightweight concrete blocks 200 interposed between the frames 100 are relatively extended on both sides so as to correspond in shape to the upper portions of the frames 100 so as to be fitted to the frames 100 arranged in parallel. It has a structure.

Then, the lightweight concrete block 200 fills the upper end of the frame 100 in parallel and is inserted onto the frame 100 continuously up and down to fill the bottom surface of the step formwork (1000). Therefore, when the concrete is poured after the formwork (1000) is completed is a component that prevents the concrete from flowing out through the bottom surface of the formwork (1000).

In addition, the lightweight concrete block 200 has a second fastening hole penetrating from the top to the bottom so that bolts and the like can pass through both ends. The second fastener is formed in a direction perpendicular to the stepping surface of the step that the bolt 700 is tightly coupled to the bolt fastening plate 600.

And, the lightweight concrete block 200 is fitted to the frame 100 while both edges extend downward, both edges are different in thickness depending on the position to be fitted to the frame 100 arranged in parallel. That is, one of the edges to be selected has a thickness that can be completely fitted to the upwardly extending portion of the frame, the other edge is half the thickness of the opposite edge.

Thus, when the frames 100 are arranged in three rows as in the present embodiment, one edge having a thickness equal to the width of the frame 100 itself is fitted to the frame 100 disposed outside, and the other having a thickness of half. One edge meets the edge portion having the same thickness of the adjacent lightweight concrete block 200 on the frame 100 disposed in the center to fill the frame 100.

When the lightweight concrete block 200 is fitted to the frame 100, the two components are fastened to the head with bolts 700 formed in the axial direction. The head part of the bolt 700 is exposed to the upper portion of the light weight concrete block 200 so that the spacer 400, the tie 500, and the step block 300 are fitted.

First, the spacer 400 has a cylindrical shape having an inner diameter through which the head of the bolt 700 can pass. Since the spacer 400 is made of a material such as mortar, plastic, or remittal, it is preferable that the spacer is lightweight, easy to construct, and does not impose a load on the stair formwork 1000.

And, the spacer 400 is fitted to the head portion of each bolt 700, it has a constant distance from the adjacent spacer 400 is fitted. This is to form a space in the direction of the inclination of the stairs, the transverse direction of the stairs can be introduced into the form when the formwork 1000 is completed and the concrete is poured.

In addition, the spacer 400 has a predetermined thickness so that when the tie 500 is placed on the spacer 400, the tie 500 is spaced apart from the lightweight concrete block 200 by the spacer 400.

The tie 500, which is supported by the spacer 400 and floats the reinforcing bars on the formwork, is fitted to the head of the bolt 700 to connect between the bolts 700 positioned in the transverse direction of the stairs. To this end, the tie 500 has a through hole corresponding to the number and position of the bolt 700, the through hole is provided with a diameter through which the head of the bolt 700 can pass. As in the present embodiment, it is preferable that four through holes of the tie 500 are provided.

Stair block 300 is a member that is continuously arranged along the inclined direction of each frame 100 to form a stepping step of the stairs, one step of the stairs as a pair symmetrical with respect to the center portion is cut in the transverse center portion of the stairs Configure The step block 300 forms a stepped shape of a step, and the inside of the step block 300 penetrates from the top to the bottom. The lower part is to form a space through which the concrete to be poured can flow, and the upper part is opened because the concrete to be poured can be adjusted so as not to be discharged by the slump of the concrete. However, even if the upper part of the stair block 300 is closed, there is no big crowd, but it is more preferable that the concrete is opened in order to flow into every corner of the stair formwork.

The staircase block 300 is provided with a mounting hole through which the bolt 700 in which the spacer 400 and the tie 500 are fitted may be fastened to the auxiliary bolt 710. The auxiliary bolt 710 is a member to withstand the pressure of the concrete flowing into the staircase block 300 when pouring the concrete to maintain the shape of the form (1000), when the curing of the concrete is removed from the form (1000) do.

At this time, the mortar is filled in the removed position, a staircase anti-slip device may be installed as necessary.

According to the non-demolition stair form according to the present invention as described above, it can be easily installed through the factory-made frame, lightweight concrete block, spacer, tie, stair block, and bolts formed with female threads on the head, the upper end of the wall Even if only one 'c' section steel can be installed in the building, the stairs can be constructed before the slab construction, thus securing a passageway for the slab construction.

Therefore, the conventional plywood formwork can change the concrete placing sequence that could not be overcome due to material limitations, it is possible to carry out easier construction.

In addition, since there is no need to dismantle the formwork after curing the concrete, it is possible to achieve not only work efficiency but also reduction of air and construction cost.

In addition, the formwork according to the present invention can provide a desirable building environment through the factory production of components, relatively easy transportation and convenient construction at the present time to manufacture the work of the building.

Although the invention has been described with reference to the preferred embodiments mentioned above, many other possible modifications and variations can be made without departing from the spirit and scope of the invention. Accordingly, the appended claims are intended to cover such modifications and variations as fall within the true scope of the invention.

Claims (5)

In the formwork 1000 of the staircase structure of the building, A frame 100 inclinedly connected between the spaced apart floors and arranged in parallel at a predetermined interval in a width direction of the bottom surface, and extending in both longitudinal directions thereof; A plurality of lightweight concrete blocks (200) extending downward in both sides of the frame (100) adjacent to connect the respective frames (100) along the width direction; A plurality of bolt fastening plates 600 fixed to predetermined intervals along a longitudinal direction on the edge outer surface of the frame 100; A plurality of bolts 700 passing through the lightweight concrete blocks 200 and fastened to the bolt fastening plate 600; A plurality of ties 500 that are coupled to each of the bolts 700 adjacent to the upper portion of the lightweight concrete block 200 and connected to each other; A plurality of spacers 400 fitted to the respective bolts 700 to the bottom of the tie 500 so that the tie 500 is spaced apart by a predetermined height; And It is fitted to the upper end of the bolt 700 and a plurality of staircase blocks 300 correspondingly disposed along the longitudinal arrangement of the frame 100; deconstructed stair form, characterized in that it comprises a. Claim 2 was abandoned when the setup registration fee was paid. The method of claim 1, wherein the bolt 700 is a harmless structure characterized in that the female thread is formed along the axial direction in the head portion to which the step block 300, tie 500 and the spacer 400 is fitted. Stair formwork. Claim 3 was abandoned when the setup registration fee was paid. The method of claim 1, wherein the bolt fastening plate 600 has an arrangement structure parallel to the step surface so that the bolt 700 is fastened in a vertical direction with respect to the stepping step surface of the step block (300). Demolition stair formwork. Claim 4 was abandoned when the registration fee was paid. The method according to claim 1, wherein each of the bottom surface is a non-disassembled stair form, characterized in that the section steel (100a) is further provided so that both ends of the frame (100) correspondingly. Claim 5 was abandoned upon payment of a set-up fee. 5. The structure of claim 4, wherein both ends of the frame 100 are partially cut and bent to correspond to the vertical plane so that both ends of the frame 100 may be in close contact with the vertical plane of the shaped steel 100a. Non-disassembled stair formwork.

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