KR20190114731A - Apparaurs for constructing slab of building and method for the same - Google Patents

Abstract

The present invention provides a building slab construction device and a construction method using the same device. The device comprises: a beam fixing bracket coupled to a corner bracket slidably mounted on a soffit length at an upper end of a wall panel; a retention type supporter having a prop head coupled to the upper end; a beam coupled to the beam fixing bracket or the prop head, each end being supported by the supporter; a slab panel seated in a space separated by the soffit length and the beam to form a slab bottom surface; a beam fixing member integrally connecting the beam and the prop head to support the load of the beam by the supporter; a detachable guide for supporting the beam to the supporter together with the beam fixing member and allowing the beam separated from the prop head to descend along the supporter; a slowing member for gradually descending the beam by friction with the outer circumferential surface of the supporter when the detachable guide descends; and a stopper formed to protrude at a predetermined height on the supporter to stop the beam and the slab panel from descending. According to the present invention, installation and dismantling of formwork for slab construction of a building can be done simply and quickly.

Description

Apparatus and method for building slabs of buildings {APPARAURS FOR CONSTRUCTING SLAB OF BUILDING AND METHOD FOR THE SAME}

The present invention relates to the construction of concrete slabs of a building, and more specifically, the assembly and dismantling of slab panels used in the construction of slabs ranging from the slab construction through the curing process after the slab concrete laying using formwork supports the weight of the concrete slabs at the upper end. The slab construction apparatus and method of the building to be made quickly and simply by a detent type support coupled to the prop head and the detachable guide coupled to guide the progressive lowering of the slab panel.

In general, when constructing a concrete structure with a multi-layered structure such as an apartment or a building, formwork for building walls and slabs, concrete is laid and cured, then the formwork is dismantled and the formwork is lifted to the upper floor to install and concrete. And dismantling is repeated.

In general, the recent construction formwork is composed of a panel assembly mainly made of metal, such as iron or aluminum bar, the wall formwork is formed in a rectangular unit with a vertical length is relatively larger than the width at intervals of the thickness of the wall to be constructed The slab formwork is assembled by successive joining of the wall panels to cover the area of the wall, and the slab formwork consists of a series of rectangular unit slab panels arranged in a single plane between the supporter erected vertically from the floor and the beams supported on the top of the wall formwork. By being arranged so as to constitute a support bottom surface for concrete pouring.

After the installation of the wall formwork and slab formwork is completed, the concrete is poured into the formwork, and when the curing is completed, the formwork is dismantled.In most buildings, the height (floor height) between the floor surface and the ceiling exceeds the worker's height. Therefore, in order to dismantle the slab panel, the slab panel which is separated by the operator using the ladder to separate and dismantle the panel is dropped to the floor by its own weight. As a result, the noise and dust generated during the collision with the floor have been inevitably deteriorating not only the construction site but also the surrounding environment.

In order to solve the above problems in the formwork method applied in the existing building construction, Korean Patent Registration No. 10-0484512 is to dismantle the formwork after concrete casting and curing for forming walls and slabs through formwork. The slab panel support beam structure is improved so that the slab panel does not fall directly from the ceiling to the floor and is supported at a height lower than the operator needs to use a ladder, thereby allowing the operator to lift the panel directly to the floor. The construction method of the slab construction formwork of a new method has been disclosed.

The slab construction formwork of the above patent solves all the problems that have been pointed out in the existing formwork at once, and it is dismantled easily and quickly while minimizing damage to the panel easily and quickly without requiring special skills for installing and dismantling the formwork. Due to the advantage of being able to plan work, the related industry has been dubbed the "drop construction method", and the construction using the same as the eco-friendly form construction method for the construction of apartments and high-rise buildings has been continuously expanded.

In accordance with the trend of activation of the 'drop construction method', the development of the technology related to the hole method is being performed in parallel. As some examples, Patent Registration No. 10-1127008 discloses that one side is placed on the slab corner bracket on the top of the wall panel. A technique is disclosed in which a slab panel supporting beam that is rotatably mounted is lowered along with a tie rod, and the slab panel is also lowered. Patent No. 10-1491074 discloses a yoke for supporting a slab panel from a slab corner bracket. As it is removed, a method of dismantling formwork is known to move the slab panel downward along the supporter while keeping the slab panel horizontal.

Patent registration No. 10-1514395 is to support the center portion of the beam by a bracket slidably mounted to the supporter, and the beam is configured so that both ends of the link linkage by the slab corner brackets when the slab panel is dismantled In the process of sliding down the bracket mounted on the outer peripheral surface of the supporter has been disclosed a technique that allows the slab beam and the slab panel supported thereon to be lowered together.

Although the technology related to the "drop construction method", which has been known to this day, shows a much improved aspect in terms of workability and environmental aspects as well as environmental simplicity, the slab panel and the beam supporting it in the process of dismantling the formwork. It is not only a simple configuration that leads to descending the supporter, but also a slow descent without impact, and additional pillar support in addition to the slab panel installation jack support until the curing of the slab concrete is completed. Since the situation needs to be improved, the situation is called for improvement.

The present invention solves the problems of the prior art, the corner bracket which is mounted on the sofit length of the top of the wall panel and coupled with the outer end of the beam is easy from the sofit length and beam at the time of disassembly of the formwork. At the top of the supporter, which is supported from the bottom surface, a prop head connected to the beam is formed on the upper side of the supporter, and below it, a sliding guide for guiding and supporting the beam is detachably formed, and the slab panel and the beam weight It is to provide a slab construction device of the building so that the descending by a stable through the lumber member provided in the removable sliding guide.

Another object of the present invention is to allow the corner bracket to be coupled to the beam outer end of the top of the wall panel to be easily combined and separated from the pit and the beam, while the beam is mounted together with the fixture on the outer circumferential surface of the supporter under the prophead of the assisted supporter. By adding a stiffening device to the supporting detachable sliding guide, the slab panel and the beam can be lowered by the weight of the slab slowly and stably through the stiffening member provided in the sliding guide when dismantling the formwork. It is to provide a construction method for building slabs so that installation and dismantling of the building can be done simply and quickly.

The above and other objects of the present invention are a beam fixing bracket coupled by a hinge pin to a corner bracket slidably mounted to a pit lance at a top of a wall panel, a supporter standing vertically from the bottom, and A prop head coupled to an upper end of the supporter and having the same cross section as the beam, each outer end being fixed to the beam fixing bracket or the prop head and supported horizontally by the supporter between the opposite wall panel; A slab panel coupled in a lattice form in the same plane in the space partitioned by the beam length and the beam to form a slab bottom surface, and the beam and the prop head are integrally connected to support the load of the beam by the supporter. And a beam holding member for supporting the beam together with the beam holding member and being separated from the prop head. A detachable guide for lowering the beam along the supporter, a stiffening member for progressively lowering the beam by friction with the outer circumferential surface of the supporter when the detachable guide descends, and fixed to a predetermined height on the supporter to fix the beam and the slab A construction slab construction device comprising a stopper to stop the panel from descending.

At this time, the corner bracket has a substantially rectangular cross-sectional shape in which the lower surface of the one side is joined so that the lance is inserted so as to be slidably inserted, the lower side of the pair is formed with a pair of pin inserts, One side of the vertical outer wall to be inserted into a combination consists of a free end formed with a locking step is present between the pin insertion portion and the locking step is present as a slit.

In addition, the beam fixing bracket includes a fastening part including a pin hole for common insertion of the pin insertion part and the hinge pin of the corner bracket and a horizontally extending one side in the fastening part, and caught by a pin fastened to the beam at an outer end thereof. It includes a body portion including a formed locking bending piece and a hook extending upward from the fastening portion opposite to the body portion and hooked to the engaging jaw of the corner bracket at its end.

In the beam fixing bracket, the hook is engaged with the locking jaw of the corner bracket by the common insertion of the hinge pin in a state in which the pin hole of the fastening part is aligned with the pin insertion part of the corner bracket, and thus the hook fixing member is fixed to the pit pit and the corner bracket.

On the other hand, the prop head is fixed in the form of a support that is fitted to the upper end of the supporter, and wrapped around the support on the upper end of the support and consists of a main body of an inverted triangular shape in which both ends are inclined downward in the same cross-sectional shape as the beam.

The beam is coupled to the prop head supported on the top of the supporter, and both ends are supported by the pit lance to support the slab panel. The beam has the same cross section as the prop head, and the side end coupled with the prop head is upward. It forms a slope. The beam is provided with a fixing piece seating portion as a recessed portion in which a seating rib for mounting the slab panel is projected along the length direction on the front and rear surfaces thereof, and downwardly bent in the width direction.

On the other hand, the supporter under the prop head is formed symmetrically with each other is provided with a detachable guide is installed on the outer peripheral surface of the supporter, the detachable guide is fixed to the pin hole of the fixing piece in common to the upper end of the wing portion extending upwardly outward A pinhole is provided for inserting the pin, and the lower member seating portion is integrally formed under the wing portion.

The stiffening member includes a friction member head which makes frictional contact with the outer circumferential surface of the supporter by the elastic force of the spring, and a fixed rod which is fixed to the stiffening member seating portion with the spring interposed therebetween.

In addition, a stopper is formed on the outer circumferential surface of the vertical section of the supporter to stop the detachable guide descending together with the beam at the time of dismantling of the slab in the lowered state only by the predetermined section.

In the slab construction method of the building using the slab construction apparatus of the present invention having such a structure, the step of installing the Sofit Lance on the top of the wall panel and mounting the corner brackets on the top of the supporter, by coupling the prop head to the top of the supporter from the floor In the vertical step, the prop head and the beam are fixed by using a fixing piece and a detachable guide, and the beam fixing bracket is used to fix the end of the beam to the corner bracket so that the beam is horizontal and between the two walls. Supporting, laminating the slab panels in the space between the beams, placing concrete in the formwork of the beams and the slab panels, and when the concrete is cured to some degree, Separating and coupling the coupling between the flop head and the beam, the detachable guy Guide the beam and slab panel to descend along the outer circumferential surface of the support under the action of frictional force by the stiffening member, descending on the supporter to separate the stopped panel and beam from the stopper and slab concrete After complete curing, the prop head is coupled with the supporter removed.

In another slab construction method of the present invention, first, the beam and the prop head are connected to each other, and then the beam and the prop head connected to each other are supported on the pit pit at the top of both walls, and then the top of the supporter is installed on the prop head installed from the ground. It may be combined, but the following process is the same as the previous method.

The present invention does not need to install a separate filler support until the complete curing of the concrete after dismantling the formwork in the conventional slab construction, the support of the present invention equipped with a prop head to guide the lowering of the beam and slab panel and Together with the configuration of the zone-type support, which serves as a pillar support, there is an advantage that the formwork and the dismantling work can be made quickly and easily by simplifying the formwork component for slab construction.

That is, in the apparatus of the present invention, the zoned support serves to prevent sagging due to the weight of the concrete until the load and curing of the concrete are generated during the casting of the concrete for slab formation. Otherwise, no additional filler support is required.

In addition, in the present invention, as the coupling and separation between the prop head and the beam, including the coupling and separation between the beam and the pit lance, are made in one step by the insertion and separation of the pin, the installation and dismantling work for the slab construction is highly advanced. Construction work can be performed quickly without the need for proficiency.

In addition, in the present invention, the beam and the panel assembly as a heavy weight falling by the weight in the process of dismantling the form is guided to the separate guide to descend the ride on the outer circumferential surface of the supporter while maintaining the overall horizontal state by the frictional force of the stiffening member It is gradually lowered in the course of the control, and thus the risk of panel damage and safety accidents in the process of disassembly of the form is eliminated, while the source of noise or dust is also blocked.

1 is an exploded perspective view of an embodiment of the present invention
Figure 2 is a perspective view of the device of Figure 1 coupled;
Figure 3 is an exploded perspective view of the pit pit and beam coupling unit according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of the coupling state and the beam sopit according to an embodiment of the present invention.
Figure 5 is an exploded perspective view of the beam and the supporter coupling portion according to an embodiment of the present invention.
Figure 6 is a cross-sectional view of the combined state of FIG.
7 is a cross-sectional view of the prop head and the beam separated from the apparatus of FIG. 5;
8 is an exploded perspective view of another embodiment of the detachable guide of the present invention.
FIG. 9 is a cross sectional view of the prop head and beam engagement of the apparatus in which the detachable guide of FIG. 8 is used; FIG.
Figure 10 is a perspective view showing the installation state of the slab panel using the apparatus of the present invention.
11-15 are step-by-step cross-sectional views of a form dismantling process according to the method of the present invention.

Specific slab construction method using the device, including the above object and the specific configuration of the present invention will be understood in more detail through the detailed description with reference to the drawings below.

First, Figure 1 is an exploded perspective view of an embodiment of the present invention, Figure 2 is a perspective view of the combined state of the device of Figure 1, Figure 3 is a pit and beam coupling portion according to an embodiment of the present invention 4 is an exploded perspective view, and FIG. 4 is a cross-sectional view illustrating a coupling state between a pit pit and a beam according to an exemplary embodiment of the present invention.

The slab construction apparatus of the present invention, the pit pit 1000 is mounted on the upper end of the wall panel (not shown), the beam 2000 is coupled to both ends of the pit pit 1000 and supported, and the beam ( The prop heads 3000 are coupled to each other in a straight line by connecting the 2000 and the prop heads 3000 and the beam heads 2000 are more securely connected to the prop heads 3000. The detachable guide 4000 guides the beam and the slab panel to descend along the supporter by its own weight, and is installed on the main body of the detachable guide 4000, and the beam and the slab panel descend along the supporter along with the detachable guide. The stiffening member 5000 for lowering and vertically erected from the bottom, the upper end is coupled to the prop head 3000 to support the prop head, while mounting of the detachable guide 4000 is achieved. Which is configured to include a stopper (7000) for stopping the descent of the support 6000 and the support 6000, a removable guide (4000) is formed to protrude on an outer peripheral surface a certain height including the panel assembly of the slab.

The pit pit 1000 is a substantially hollow rectangular cross-sectional shape of one side lower portion of the beam 2000 coupling portion, which is fixed to the top of the wall panel in a horizontal direction, and has a corner bracket 1300 having approximately the same circumferential cross-sectional shape therein. ) Is inserted sliding. The corner bracket 1300 has a pair of pin insertion portions 1310 formed at one side lower portion thereof, and one side vertical outer wall portion which is inserted in combination with the small pipe length comprises a free end portion having a locking step 1320 formed therein. An open space is formed between the insertion part 1310 and the locking step 1320.

On the other hand, the engaging jaw 1320 of the corner bracket 1300 in the state coupled to the pit pit 1000 is supported in contact with the step 1150 protruding inward on the free end of the outer vertical wall of the pit pit. do.

 Between the pit pit 1000 and the beam 2000, a beam fixing bracket 1500 for coupling the two members through the corner bracket 1300 is coupled to the corner bracket 1300.

The beam fixing bracket 1500 includes a fastening part 1510 having a pinhole 1511 formed therein, and a hooking bending piece formed to be caught by a pin P2 extending to the outer side in the horizontal direction of the fastening part and fastened to a beam at an outer end thereof. A body portion 1520 including a 1521 and a hook extending upward from the body portion 1520 and the fastening portion 1510 and hooked to the engaging jaw 1320 of the corner bracket 1300 at the end thereof. 1512.

As shown in FIG. 4, the beam fixing bracket 1500 has a hinge pin P1 in a state in which the pinhole 1511 of the fastening portion 1510 is aligned with the pin insertion portion 1310 of the corner bracket 1300. ), The hook 1512 is engaged with the latching jaw 1320 of the corner bracket 1500 to be fixed to the pit length 1000 and the corner bracket 1300. Reference numeral F is a stop piece for preventing the separation of the hinge pin (P1).

On the other hand, Figure 5 is an exploded perspective view of the beam and the supporter coupling portion according to an embodiment of the present invention, Figure 6 is a cross-sectional view of the coupling state of Figure 5, as shown therein, the prop head 3000 is the supporter 6000 The main body of the inverted triangular hollow cross-section is fixed to the upper end of the support (3200) and the upper end of the support (3200) is fixed in the form surrounding the support and the same cross-sectional shape as the beam 2000, both ends are inclined downward 3100.

The main body 3100 of the prop head 3000 is vertically bent from the upper and lower ends of the planar upper surface 3110 and the upper surface of which the anchor 3111 is formed to be fixed to the bottom surface of the slab to be constructed, the slab panel is coupled Being provided on both sides (3120) and the fixing piece fastening surface (3140) vertically extending down the stepped portion 3130 inwardly bent from the lower end of both sides, the fixing piece fastening surface (3140) for fixing the fixing piece The pin insertion hole 3141 is formed.

The beam 2000 is coupled to the prop head 3000 supported on the top of the supporter 6000, and both ends thereof are supported by the pit pit 1000 to support the slab panel SP. It has the same cross section as 3000, and the side end portion coupled with the prop head 3000 forms an upward inclined surface to form a straight line without a gap when the prop head and the beam are connected. The beam 2000 has a fixing piece 2200 as a concave indentation in which a seating rib 2100 for seating the slab panel is protruded along the length direction on the front and rear surfaces thereof, and is bent backward in the width direction below the beam 2000. ) Is provided.

The beam 2000 and the prop head 3000 are connected and fixed by a pair of fixing pieces 2300 which are commonly fastened to the prop head 3000, the beam 2000, and the detachable guide 4000.

The detachable guide 4000 is installed symmetrically on the supporter 6000 below the prop head 3000, and the detachable guide 4000 is fixed to the upper end of the wing portion 4100 extending upwardly outward. A pinhole 4110 is provided for insertion of the fixing pin P3 which is commonly inserted into the pin hole 2310, and the lower member seating portion 4200 is integrally formed under the wing portion 4100.

The stiffening member 5000 extends from the friction head 5110 and the friction head making frictional contact with the outer circumferential surface of the supporter 6000 by the elastic force of the spring 5200, and seats the stiffening member with the spring 5200 interposed therebetween. The fixed rod 5120 is fixed to the portion 4200.

A lower portion of the detachable guide 4000, that is, the fastening member 4300 for mounting to the supporter 6000 may be extended to the inner side of the loose member seating portion 4200, respectively, and the fastening portion may be coupled on the free end of the fastening portion. Fasteners for fasteners are formed, the fasteners may be made of a hook or a separate fastening piece. Figure 5 shows a fastening part fixture consisting of the engaging portion 4310 on both sides.

8 shows another embodiment of the detachable guide 4000, wherein one of the fasteners is one of the fastening portions 4310, and the other is the fastening piece 4320, and above the wing portion 4100. It has the same structure as the detachable guide of Figure 5 except that the support bracket 4400 of the "b" shape cross section is added. In the detachable guide of this embodiment, the support bracket 4400 in the state in which the pin P3 is inserted through the pinhole 4110 or the pin P3 is inserted into the fixing piece 2300 and the pinhole of the beam as shown in FIG. 9. ) May take the form of contact supporting the bottom of the pin P3.

Meanwhile, as shown in FIG. 6, the fixing piece 2300 is positioned on the fixing piece fastening surface 3140 of the prop head 3000 and the fixing piece seating part 2200 surface of the beam 2000, and the detachable guide 4000. Inserting the center pin (P3) across the fixing piece 2300 and the prop head (3000) in a state that the pin hole (4110) formed in both wing portions (4100) of the corresponding to the pin hole 2310 of the corresponding fixing piece Meanwhile, by inserting both pins P3 penetrating the fixing piece 2300 and the pin 2000 and the pinhole 4110 of the detachable guide 4000, the beam is coupled to the prop head and the beam, and thus coupled The assembly is supported by the supporter 6000.

On the other hand, through the combination of the prop head 3000 and the beam 2000 and the detachable guide 4000 using the fixing piece 2300 and the pin (P3) as described above, the fixed fixing state between these members is maintained and the supporter Although the support by the (6000) is made, the prop as shown in Figures 5 and 6 in preparation for the risk that the slab panel assembly including the beam falls by the load applied from the weight of the concrete and the beam cast to form the slab The locking jaw 3210 is formed on the outer circumferential surface of the support 3200 of the head 3000, and thus the small-diameter portion 8200 of the stop key 8000 having the large-diameter portion 8100 and the small-diameter portion 8200 is attached to the locking jaw 3210. ) To support the more secure slab panel assembly through the stop key 8000.

As shown in FIG. 6, the beam 2000, the prop head 3000, and the detachable guide 4000 are integrally coupled to each other, and the friction of the stiffening member 5000 is completed when the slab panel (not shown) is assembled between the beams. The head 5110 is in a state of making elastic contact with the outer circumferential surface of the supporter 6000 by the elastic force of the spring 5200, wherein the friction head 5110 gives a frictional force in relation to the supporter 6000 made of a metal material A suitable material may be made of rubber or synthetic resin and the like, and the spring may adjust the friction force applied to the supporter by adjusting the elastic force.

Meanwhile, on the outer circumferential surface of a predetermined height in the vertical section of the supporter 6000, the detachable guide 4000 descending together with the beam when dismantling the slab panel has a predetermined section, that is, the worker does not use a separate ladder. A stopper 7000 is formed to stop in the lowered state at a height sufficient to pull down the back, and the stopper is formed from the entire outer circumferential surface of the supporter so that the stopper can reliably support the heavy material including the detachable guide in contact therewith. It is preferable to form it with the support surface extended outward. In the figure, reference numeral P4 denotes a pin for fixing the stopper on the supporter 6000.

The slab construction method using the slab factory of the present invention having the above structure is as follows.

First, the pit pit 1000 is installed at an upper end of a wall panel installed in advance, and a plurality of corner brackets 1300 are slidably inserted into the beam coupling part.

Next, the prop head and the beam 2000 are fixed to the top of the supporter 6000 and the prop head and the beam 2000 are vertically erected from the bottom of a position in line with the corner brackets of the side walls. Using the detachable guide 4000, the beam fixing bracket 1500 allows the end of the beam to be fixed to the corner bracket 1300 so that the beam 2000 is horizontal and supported between both walls. do. At this time, the coupling between the prop head 3000 and the beam 2000 allows the prop head 3000 and the beam 2000 to be in a straight line, as well as the pinholes 4110 provided at both wing portions 4100 of the detachable guide 4000. This is achieved by abutting the pinning piece 2300 and penetrating the pin P3 through the three pinholes 2310 in a state in which the pinhole of the corresponding fixing piece 2300 and the pinhole of the beam are matched.

In addition, the coupling between the corner bracket 1300 and the beam 2000 is a pin hole 1511 formed in the fastening portion 1510 of the beam fixing bracket 1500 and the pin insertion portion of the corner bracket 1300 as shown in FIG. 4. The pin 13 is commonly inserted in the state in which the 1310 is aligned, and the end of the beam 200 is mounted on and supported on the beam fixing bracket 1500 fixed to the sofit length 1000.

Then, as shown in Fig. 10, the slab panel is seated in the space between the beams that span the top of both walls and is supported by the supporter, so that the surface of the beam and the slab panel and the pit length are free of voids or gaps. Formation of the formwork is completed by forming a surface.

After the installation is completed, the reinforcement is performed on the flat surface for slab formation and concrete is laid on the slab forming bar. When the concrete is cured to a certain degree, the work of dismantling the formwork is performed. This dismantling process will be described with reference to FIGS. 11 to 15. do.

First, the beam 2000 and the pit lance 1000 are separated by removing the pin P1 coupling the corner bracket 1300 and the beam fixing bracket 1500 to remove the beam fixing bracket 1500. To lose.

Subsequently, one end portion of the dismantling tool T having an open end in contact with the step 3130 of the prop head 3000 is inserted into the hole formed at the side of the slab panel SL. Hold the handle in one state and rotate it to separate the contact surface of the slab panel with concrete.

Next, the beam 2000 is separated from the prop head 3000. The separation between the two members is achieved by removing the pin P3 inserted into the central pinhole 2300 of the fixing piece 2300.

As such, when the side end of the beam is separated from the pit pit and the intermediate beam is separated from the prop head, the slab panel assembly begins to descend the supporter by its own weight. If the stop key 8000 is mounted, the slab panel is moved by striking the stop key so that the prop 3200 of the prop head 3000 moves from the small diameter portion 3100 of the stop key to the large diameter portion 8200. Lowering of the assembly is initiated.

The lowering of the slab panel assembly is elastic on the outer circumferential surface of the supporter 6000 in a state where the beam 200 is firmly supported by the fixing piece 2300 and the detachable guide 4000 as shown in FIGS. 7 and 12. The lowering force is gradually lowered by the frictional force applied from the stiffening member 5000, which is in contact with the lowering member 5000, and the lowering is performed in a horizontal state in which a wide flat slab panel assembly is inclined to either side or the assembly state is not disturbed. It is stable.

The lowering of the slab panel assembly is stopped as the bottom surface of the detachable guide 4000 contacts the stopper 7000 on the supporter 6000. At this time, the operator removes the coupling pins between the slab panels (SP) without using a separate ladder to separate the slab panel and put it down to the floor (Fig. 13).

Subsequently, as shown in FIG. 14, only the detachable guide 4000 remains in the stopper 7000 by removing the beam 2000 by removing the pins P3 coupling the fixing piece 2300 and the detachable guide 4000.

Both of the detachable guides 4000 are pushed up or pushed down relatively in the case of both of the fastening portion fasteners of the engaging portion 4310, and in the case of one of the fastening portion fasteners of the fastening piece 4320. After removing the piece for the removal is easily made from the supporter 6000 through a simple operation of applying a relative vertical position change.

After all the constituent members of the slab panel assembly have been dismantled and separated from the supporter, the support including the prop head remains as a zoned support that supports the load until the slab concrete is fully cured, as shown in FIG. After curing, dissolution takes place.

In another slab construction method of the present invention, the beam 2000 and the prop head 3000 are first connected to each other using the fixing piece 2300 to form a beam and a prop head assembly having a length matching the length between both side walls. And assembling the corner bracket 1300 and the beam support bracket 1500 to the pit lance 1000 at the top of the wall, and allowing both ends of the beam and prop head assembly to be supported by the beam support bracket. And, the slab construction formwork comprising the step of engaging the upper end of the supporter coupled to the detachable guide 4000 on the outer circumferential surface with the prop head support of the beam and prop head assembly, and the support of the beam by the wing of the detachable guide It consists of an installation step, and the form dismantling step following the concrete pouring is performed in the same process as the previous method.

In the above method, it is preferable to use a detachable guide 4000 provided with the support bracket 4400 of FIG. 8. In the present method, as the pins P3 are all inserted through the pinholes 2310 of the fixing piece 2300 without the detachable guide 4000 in assembling the beam 2000 and the prop head 3000 in advance. Thereafter, the support bracket 4400 of the detachable guide 4000 coupled to the beam and prop head assembly together with the supporter 6000 is pins P3 pre-inserted on both outer sides of the fixing piece 2300 as shown in FIG. 9. Support the bottom of the).

1000: Sofit Reims
1300: corner bracket 1500: beam fixing bracket
2000: beam 2200: fixing piece seating part
2300: fixing piece 2310: pinhole
3000: prop head 3100: main body
3200: Slab panel insertion groove 3300: Fixed piece insertion groove
3130: step 3140: fastening piece fastening surface
4000: detachable guide 4100: wing
4110: pinhole 4200: steel member seating part
4300: fastening portion 5000: steel member 5110: friction head 5120: fixed rod
5200: spring 6000: supporter 7000: stopper SP: slab panel
P1 to P4: Pin

Claims (14)

A pit pit 1000 mounted to the top of the wall panel to which the corner bracket 1300 is coupled;
A beam 2000 having both ends supported by the beam fixing bracket 1500 coupled to the corner bracket 1300;
A prop head 3000 which maintains the same upper surface as the beam 2000 and is connected in a straight line;
The prop head 3000 and the beam 2000 are coupled to the outer circumferential surface of the supporter, and the beam 2000 and the slab panel excluding the prop head 3000 are self-weighted along the supporter when the formwork is dismantled. Detachable guide 4000 to guide the descending,
A stiffening member (5000) provided in the detachable guide (4000) so that the beam descending along the supporter along with the detachable guide and the slab panel are gently lowered;
A supporter 6000 having an upper end coupled to the prop head 3000 to support the prop head while the detachable guide 4000 is mounted thereon; and
The slab construction apparatus of the building, characterized in that it comprises a stopper (7000) formed to protrude on the outer peripheral surface of the support (6000) to stop the falling of the detachable guide (4000). According to claim 1, The corner bracket 1300 is provided with a pair of pin insertion portion 1310, the locking step 1320 is formed at the free end of one side vertical outer wall,
The beam fixing bracket 1500 extends from the fastening part 1510 and the fastening part having a pin hole 1511 into which the pin insertion part 1310 and the pin P1 of the corner bracket 1300 are commonly inserted. Body portion 1520 including a hook bending piece 1521 formed to be caught by the pin (P2) to be fastened to the beam 2000 at the outer end and extending upward from the body portion 1520 and the fastening portion 1510 And a hook 1512 formed at the end of the corner bracket 1300 to be hooked to the engaging jaw 1320 of the corner bracket 1300. According to claim 1, The prop head 3000 is fixed in the form of surrounding the support to the top of the support (3200) and the top of the support (6000), the support (6000) and the beam (2000) and Slab construction device of the building, characterized in that the main body (3100) of the inverted triangular hollow cross-section inclined downward in both ends as the same cross-sectional shape. According to claim 3, The main body 3100 of the prop head 3000 is bent vertically from the upper and lower ends of the planar upper surface 3110 and the upper surface of which the anchor 3111 protrudes, both sides 3120 to which the slab panel is coupled And a fixing piece fastening surface 3140 vertically extending downward from the stepped portion 3130 bent inwardly from the lower ends of both sides, and the fixing piece fastening surface 3140 has a pin insertion hole 3141 formed therein. Slab construction device of building to assume. According to claim 1, The beam 2000 has a seating rib 2100 for the mounting of the slab panel on the front, rear surface protruding along the longitudinal direction, the lower side of the fixing piece seated bent backwards in the width direction Slab construction device of a building, characterized in that the part (2200) is provided. 6. The method of claim 5, wherein the beam 2000 and the prop head 3000 are fixed to a pair of fixing pieces 2300 which are commonly fastened to the prop head 3000, the beam 2000, and the detachable guide 4000. Slab construction device of the building, characterized in that made by the pin (P3) inserted through the pieces (2300). The method of claim 1, wherein the detachable guide 4000 is a pair of symmetrical structures that can be separated and coupled, a pinhole 4110 is provided at the upper end of each wing portion 4100 extending upwardly outward, the wing portion 4100 below Slab construction device of the building, characterized in that as the rigid member seating portion (4200) is formed integrally. 8. The fastening part 4300 for mounting to the supporter 6000 is extended to the inside of the stiffening member seating part 4200 of the detachable guide 4000, and the fastening part 4300 is free. The slab construction apparatus of the building, characterized in that the end portion is provided with a locking portion (4310) or a fastening piece (4320) as a fastening portion fastener. The method of claim 8, wherein one of the fastening portion fasteners of the detachable guide 4000 is made of a locking portion 4310, the other side of the fastening piece 4320, the "b" above the wing 4100 "Slab construction device, characterized in that the support bracket (4400) of the cross section is formed extending. The method of claim 1, wherein the stiffening member 5000 extends from the friction head 5110 and the friction head to make frictional contact with the outer circumferential surface of the supporter 6000 by the elastic force of the spring 5200, the spring 5200 is interposed Slab construction device of the building, characterized in that it comprises a fixed rod (5120) is fixed to the seating portion (4200) of the wanable member (4000) of the detachable guide. The small diameter portion of the stop key 8000 of claim 1, wherein the locking jaw 3210 is formed on the outer circumferential surface of the prop 3200 and has a large diameter portion 8100 and a small diameter portion 8200. Slab construction device of the building, characterized in that it further comprises a stop key (8000) so that 8200 is hung on the locking step (3210). According to claim 1, The supporter 6000 is a slab construction device of the building, characterized in that the support for supporting the load between the slab bottom and the bottom surface until the completion of curing of the slab concrete after dismantling the slab panel. Installing a pit lance at the top of the wall panel and mounting the corner brackets and beam fixing brackets on it;
Combining the prop head to the top of the supporter to stand vertically from the bottom, the prop head and the beam is fixed using the fixing piece and the detachable guide, while the beam fixing bracket is used to secure the end of the beam to the corner bracket Allowing the beam to be supported between the two walls while being horizontal;
Seating the slab panel in a grid in a space between the beams;
Placing concrete in the formwork consisting of the beam and the slab panels;
Separating the coupling between the pit pit and the beam and the coupling between the prop head and the beam when the concrete is cured to some extent;
Allowing the beam and the slab panel to descend along the outer circumferential surface of the support gradually by friction with the outer circumferential surface of the supporter by the stiffening member guided by the detachable guide and mounted on the detachable guide;
Dividing the slab panel, the beam and the detachable guide which are stopped on the stopper by descending the supporter; And
After the slab concrete has been fully cured, removing the proximal supporter to which the prop head is coupled;
Slab construction method of the building, characterized in that consisting of. Connecting the beam and the prop head to each other using a fixing piece to form a beam and prop head assembly having a length that matches the length between both sidewalls;
Assembling the corner bracket and the beam support bracket to the pit lance at the top of the wall;
Allowing both ends of the beam and prop head assembly to be supported on a beam support bracket;
Coupling the upper end of the supporter having the detachable guide coupled to the outer circumferential surface with the prop head prop of the prop and head assembly, and supporting the beam by the wing of the detachable guide;
Seating the slab panel in a grid in a space between the beams;
Placing concrete in the formwork consisting of the beam and the slab panels;
Separating the coupling between the pit pit and the beam and the coupling between the prop head and the beam when the concrete is cured to some extent;
Allowing the beam and the slab panel to descend along the outer circumferential surface of the support gradually by friction with the outer circumferential surface of the supporter by the stiffening member guided by the detachable guide and mounted on the detachable guide;
Dividing the slab panel, the beam and the detachable guide which are stopped on the stopper by descending the supporter; And
After the slab concrete has been fully cured, removing the proximal supporter to which the prop head is coupled;
Slab construction method of the building, characterized in that consisting of.

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