KR20190143696A - Base forming unit for building of architectural slave and structural structure of the base forming unit - Google Patents

Abstract

According to the present invention, provided are a beam mold unit for molding a horizontal or vertical protruding beam for reinforcement in the bottom of a slab of a building and a construction structure for the beam mold unit. The present invention includes: a beam mold unit comprising a pair of timbers integrated with a combination rail and first and second combination surfaces combined with unit lateral plates and floor plates in a bib manner in a mutual intersection direction to be constructed in parallel on both sides of the lower part of a beam mold in a longitudinal direction, sockets inserted into the combination rail of each of the timbers, and a pair of left and right expansion support components forming an integrated body by connecting division supports having an upper part combined with each of the sockets and having a lower part removably inserted into each support and arranged in parallel at equidistant intervals along both longitudinal sides of the beam mold with adjacent sides through wedge connection combiners, and expanded to be wider than the width of the beam mold through one selected from among the division supports; and a combination part installed in the upper part of the supports in a trumpet-pipe shape to enable the beam mold unit to be separated through male and female combination, and supported by insertion and protrusion engagement. Therefore, when a curing process for a slab beam is completed, the height of a support which is a temporary structure is lowered and a beam mold unit is removed, and then, the support is separated from the beam mold unit, and a caster is installed in the independently separated mold unit to be rolled to the next construction place or storage place.

Description

FORM FORMING UNIT FOR BUILDING OF ARCHITECTURAL SLAVE AND STRUCTURAL STRUCTURE OF THE BASE FORMING UNIT}

The present invention relates to a beam formwork unit and a temporary structure of the beam formwork unit for forming the beam of the protruding form provided horizontally or vertically for reinforcement in the slab bottom of the building.

In the structure of multi-layer construction by casting method using the formwork of concrete-filled temporary structure, the slab, which is a horizontal structure of interlayer partitions, consists of a relatively thin single flat type, and the horizontal or vertical beams of the protruding shape are arranged on the bottom of each other to cross each other. It is becoming.

Such transverse or longitudinal beams are reinforcing structures that are integrally formed by casting together with the slab, and will typically be formed using beam formwork, which is a temporary construction like slabs.

The beam formwork is a pair of unit side plates which are arranged in parallel downwards at a predetermined distance from the bottom of the slab formwork for roughly slab forming, and the unit bottom plates disposed transversely across the bottom of the unit side plates are mutually connected with the adjacent side. Combinations are made in a negative manner

In this way, the concrete is filled in the formwork of beams formed by several unit side plates and bottom plates, and the desired beams are formed together with the slab. At this time, the formwork of the temporary construction is supported by the weight of concrete load. It is installed essentially.

The supporting temporary structure of the formwork is formed by overlapping vertical bars (joints), which are horizontal members (joists), which are made of lumber or section steel to support the formwork, and horizontal bars (yokes) installed transversely to the vertical bars. It is then composed of a plurality of supports, which are vertical members arranged at appropriate intervals below the bars to hold the formwork at a predetermined position.

However, the supporting temporary construction of the formwork uses vertical bars, horizontal bars, and vertical members, which are overlapping and alternatingly arranged at the bottom of the formwork, and supports, which are vertical members, are complicated. Increasing the number of members, as well as the increase in construction materials cost, installation time and manual work is increased, work efficiency is reduced, and the construction cost is not only increased, but also a lot of manual work is involved in the dismantling of the supporting temporary structure.

In addition, the coupling between the bars, which are horizontal members, and the supports, which are vertical members, in the supporting temporary structure is made of simple surface contact in the cross direction, and the support can be easily detached from the bars, which are horizontal members, when an impact is applied. Unstable condition, of course, has become a factor of collapse of the temporary construction, and the upper end of the support is a free end, which is not easy to be combined with the bar, making it difficult to install the construction, and therefore, there are many problems such as poor workability. .

In addition, when the curing process of slab beam is completed, the formwork is demolded from the slab beam by dismantling method to be reassembled at the next construction site.In addition, labor and manual work are increased due to dismantling and reassembling of temporary structures. The mobility of temporary dismantled structures is falling.

Therefore, in order to solve the above problems, the formwork assembly for beam construction has been developed and used so that the temporary formwork and supporting construction structures can be demoulded without being dismantled and easily reinstalled at the next construction site.

The formwork assembly for beam construction is assembled from a pair of vertical and horizontal panels supported by an outer side using a bracket, and the formwork is mounted on a beam arranged in a horizontal direction parallel to the slab formwork, and is used as a vertical fastening rod. The yoke is fixed on the upper and lower ends of the yoke, the pedestals supporting the slab yoke and the height are adjusted, and the supports extending from the floor to the height adjacent to the slab to be fixed are fixed together. It is combined.

In the demoulding process of the beam construction formwork assembly configured as described above, when the curing process is completed by filling the concrete as usual, the height of the pedestal provided on the upper end of the yoke is lowered first and the slab yoke is separated from the slab yoke. By releasing the vertical part of the beam formwork, which is bound to the vertical fastening rod on the yoke, it is possible to easily demolish the formwork from the slab beam, and then lower the height of the support installed on both ends of the yoke. The demolding process of the construction formwork assembly is completed.

In addition, the transport process for the re-installation of the formwork assembly for beam construction to the next construction site from the slab beam after the curing process is completed.

However, in the formwork for beam construction, the number of members, such as a yoke or a bracket, a pedestal, and a support, increases the complexity of the structure. After completing the curing process of the slab beam, the formwork assembly consisting of a single body is relatively narrower than the height when transporting the formwork assembly for beam construction to the next construction site. That is, there is a problem that the conduction phenomenon can occur when transporting the formwork assembly with a high center of gravity, which is a safety accident in the construction phenomenon as well as work safety.

In recent years, the height of the building is gradually increasing, and the development of new support with improved height and strength is required due to the problem of the use of the ready-made support, which is manufactured and distributed at a predetermined height according to the strength design for supporting the height of the building and the formwork. It is true.

Domestic Patent No. 10-1310844 Domestic Patent No. 10-1181493

The present invention has been made in consideration of the above circumstances, and its object is to utilize the ready-made support as a formwork unit formed by adding an auxiliary support block that can be increased by adding the height of the ready-made support to the bottom of the formwork in a supplementary manner. The present invention provides a formwork unit for forming a building slab beam suitable for building a relatively high-rise building.

Another object of the present invention is to divide the formwork unit independently from the support, and to achieve a relatively low moving center of gravity and a wider support width, for the construction of buildings that can prevent moving accidents in the construction site with stable transport without conduction phenomenon To provide a formwork unit.

Another object of the present invention is installed in the upper end of the support of the trumpet tubular unit by having a coupling part supported by the fitting and jaw fastening freely removable by the shape of the formwork unit and the male and female, the hypothesis unit support hypothesis It provides temporary structure of beam formwork unit for building slab beam forming, which is easy to install and dismantle structure.

This invention is achieved by providing a beam formwork unit and a temporary structure of the beam formwork unit for beam forming of the protruding form provided horizontally or vertically for reinforcement in the slab bottom of the building.

The present invention constructs a beam formwork and a beam formwork formed by combining a pair of unit side plates and a unit bottom plate which are arranged downward from the bottom of the slab formwork to form horizontal or vertical beams on the bottom of the building slab in a jointed manner. It is a temporary structure for slab beam forming of a building composed of supports that are held at the height and height of the floor, which is combined with the first and second coupling surfaces in which the unit side plates and the bottom plates are joined in a biped manner in the cross direction. A pair of timbers are provided integrally with rails along the length direction at both sides of the lower formwork, sockets that are chin-coupled to the coupling rails of the timbers, and sockets and upper ends are respectively coupled. And the lower part is divided into both support parts and the separable supports which are separable from each other along the longitudinal sides of the formwork. D. The left and right ones are arranged in parallel at equal intervals and formed into a single body by using the joints of adjacent sides and wedges together to form a single body by connecting them from one side to another. The slab comprises a trumpet unit consisting of a pair of expansion support elements and a trumpet tubular installation at the top of the supports, the joining unit being supported by a fitting and jaw fastening, which is separable by the male and female form combinations. When the curing process of the beam is completed, lower the height of the temporary support, demolish the beam formwork unit, separate the support from the formwork unit, and install the caster on the independent formwork unit to install the next construction site or storage area. It will be able to be transported on the cloud.

According to the temporary formwork of the formwork unit and the formwork unit for building beam construction according to the present invention, by using the ready-made support can reduce the cost of construction and installation and dismantling of the temporary structure is easy and can improve the workability It works.

In addition, the present invention is that the formwork unit is divided with the support to have a relatively low moving center of gravity, it is possible to transport the formwork unit stably without falling phenomenon to prevent safety accidents in the construction site.

1 is a cross-sectional view schematically showing a beam formwork unit and a temporary structure of the beam formwork unit for forming the building slab beam of the present invention.
Figure 2 is an enlarged cross-sectional view showing an extract of the main portion of FIG.
Figure 3 is a perspective view of the beam formwork unit for slab beam forming of the present invention building.
4 is an enlarged view showing an extract of part A of FIG.
Figure 5 is an enlarged view showing an extract of the portion B of FIG.
Figure 6 is an explanatory view showing the present invention the formwork unit is demoulded from the slab beam of the building and separated from the support and transported to the next construction site.
7 to 9 are explanatory views showing a dismantling process of a temporary structure installed for forming a slab and a beam for reinforcing the slab which is a horizontal structure of the present invention building,
7 is an explanatory diagram showing a state in which the beam formwork unit is hypothesized prior to the slab formwork.
8 is an explanatory view showing how the support is supported by the lower part of the beam formwork unit installed in the slab formwork,
9 is an explanatory view showing a formwork unit demoulding after the curing of the slab and the beams of the horizontal structure of the building is completed and the support is a temporary structure is separated.

Next, an embodiment of the present invention will be described. 1 to 5 show in detail the construction of the beam formwork unit and the beam formwork unit for building the building slab beam according to the present invention.

The present invention maintains a suitable spacing on the bottom surface of the slab (1), which is a horizontal structure of a building that is constructed in a cast method using concrete, horizontal beams or longitudinal beams (1a) provided in a protruding manner for reinforcement in the cross-direction of the horizontal or vertical It relates to the improvement of the beam formwork (2) and the support (4) which is a temporary structure for the molding of the.

The beam formwork 2 is a pair of unit side plates 2a arranged in parallel with left and right at predetermined intervals at the bottom of the slab formwork 3 for forming the slab 1, and the unit side plates 2a. Unit bottom plate (2b) disposed across the bottom at the bottom is coupled to the adjacent side in a jointed manner.

And the beam formwork (2) configured in this way is filled with concrete to form the desired beam (1a) together with the slab (1), the beam formwork (2) is supported by the floor and the height of the floor to build the Support 4, which is a supporting temporary structure for supporting the concrete load of the stationary and filled weight, is essentially installed.

Such a configuration is the same as in the prior art, the core technology in the present invention is to improve the structure of the formwork 2 and the support (4) that is a temporary structure for the construction of the building of the casting method.

To further explain this, ready-made support (4) is produced and supplied at a predetermined height according to the strength design for supporting the building floor and the formwork (2), which solves the problem of using the ready-made support (4) in the recently increasing building floor. It is to provide a temporary structure suitable for the construction of high-rise buildings.

The temporary structure for building the building of the present invention casting method is divided into a large formwork unit 20 and the support (3), it is combined with each other male and female shape and bound by pins.

This divisional structure of the temporary structure of the present invention will improve the construction work efficiency for the construction of relatively high-rise building, and especially the transportability for moving to the next construction site of the weight formwork unit 20.

First, the beam formwork unit 20 supplements the height of the conventional formwork 2, the pair of timbers 22, and the support form 2 supporting temporary structure according to the elevated floor height at the top of the ready-made support 4 Auxiliary support block 24, which can be added and increased in a manner, is added to form a unit body.

This formwork unit 20 will provide a support area of less than half the height of the support (4) height and wider than the formwork (2) width. At this time, the support area of the low height and wide width of the formwork unit 20 will reduce the moving weight load of the formwork unit 20 and at the same time, will solve the fall.

The pair of timbers 22 are arranged in pairs along the lengthwise direction of the lower sides of the beam formwork 2 so that the unit side plates 2a or the unit bottom plates 2b are supported in a biped manner in the cross direction. The first and second coupling surfaces 22a and 22b to be coupled to each other are provided at an upper portion thereof, and the sockets 24 to be described later are integrally provided with a coupling rail 22c to which the sockets 24 to be described below are inserted. These timbers 22 are the assembly of the beam formwork 2 and the supporting structure of the auxiliary support 22.

Auxiliary support block 24 is female by using sockets 26 which are chin-coupled to the coupling rail 22c of each of the timbers 22, which are provided in pairs on the lower sides of the beam formwork 2, respectively. It will be integrally combined with the formwork 2 by the number of shape combination.

In addition, as shown in FIG. 3, the auxiliary support block 24 is vertically coupled with the sockets 26 and the upper end, respectively, and the lower end of the auxiliary support block is fitted with the male and male shape coupling methods so as to be detachable from the supports 4. The member split supports 24a are arranged in parallel at equal intervals along both longitudinal sides of the formwork 2 and at the same time mutually connected to the connecting rod 24b using the joints 24a-1 of the adjacent sides and the wedge teeth. It is composed of a pair of left and right extended support elements 24c, which are formed in a single body by binding, and are selected and installed among the divided supports 24a and extended outwardly rather than the width of the formwork 2. At this time, the expansion support elements (24c) is to accommodate the load of the formwork (2) of weight and at the same time, to increase the support area during transport of the formwork unit 20 to achieve a stable movement without falling.

In addition, the extended support element 24c includes horizontal extensions 24c-1, which are horizontal members that are installed with one end coupled to an upper side and a lower side of the selected split support 24a, and the horizontal extension 24c-1. On the other end of the vertical support, the vertical rod 24c-2, which is a vertical member installed in parallel with the split support 24c, is formed. In this case, the extended support element 24c may be connected to the split support 24a by welding, or may be detachably installed using the wedge joiner 24a-1.

In addition, as shown in FIG. 6, a split support 24c or a vertical pole of the auxiliary support block 24 is disposed at the lower portion of the beam formwork unit 20 separated from the support 4 to move the beam formwork unit 20 in a rolling manner. Each of the lower ends of any one of 24c-2) has the caster 26 detachably installed by female and male shape coupling.

On the other hand, the upper end of the supports (4) is installed in the shape of a trumpet tubular, the split support (24a) or the vertical pole (24c-2) of the formwork unit 20 can be freely removable by the male and female shape coupling fit and jaw Coupling portion 4a supported by the locking is provided. At this time, the inner surface of the engaging portion (4a) is provided with a locking jaw (4a-1) for engaging the lower jaw of the split support (24a) or vertical pole (24c-2) of the support block 24 to be coupled.

The trumpet tubular coupling portion 4a provided at the upper end of the supports 4 will make the male and female coupling with the formwork unit 20 installed at a relatively high position more easily, easily and firmly. .

Next, the installation and dismantling process of the temporary structure of the present invention will be described with reference to FIGS. 7 to 9.

7 shows a state in which the beam formwork unit 20 is preliminarily hypothesized in the slab formwork 3 to form the slab 1, which is a horizontal structure of the building, and the beam 1a for reinforcing the slab 1. Giving.

FIG. 8 is an explanatory view showing the support 4 being supported by the lower part of the beam formwork unit 20 preliminarily installed in the slab formwork 3, and thus the formwork structure of the beam formwork unit 20 and the support. In the state where (4) is hypothesized, the slab 1, which is a horizontal structure, is filled with concrete to be molded in a predetermined curing process.

9 is an explanatory view showing that the curing unit 20 is demolded after the curing process of the slab 1, which is a horizontal structure of the building, is completed. When the curing process of the slab 1 is completed, first, the supporting member of the temporary structure is supported. The in-support 4 is lowered from its formwork unit 20 by lowering its height.

The formwork unit 20 from which the support 4 is separated will be dismantled through a predetermined demolding operation from the slab 1.

In addition, the independently separated weight formwork unit 20 is installed on the lower caster 26 to be transported to the next construction site or storage in a cloud movement.

As described above, an embodiment of the present invention has been described, but the present invention is not limited thereto and may be changed within the scope of the claims.

1: slab 2: beam formwork
3: slab formwork
4: support 4a: coupling part
20: beam formwork unit
22: Timber
24: Auxiliary Support Block
26: caster

Claims (5)

In the bottom of the building slab, a pair of unit side plates and a unit bottom plate, which are arranged downward from the bottom of the slab formwork for forming horizontal or vertical beams, are joined in a joint manner, and the floor form on which the formwork is constructed. As a temporary structure for forming slab beams of buildings made of supports that hold up to height,
The first and second coupling surfaces are coupled to the lower side of the formwork, the unit side plate and the bottom plate of the formwork in a chin support in the cross direction, and the coupling rail is integrally formed on the lower portion. A pair of timbres arranged along the lengthwise direction at both lower sides of the pair;
Sockets that are chin-coupled to the coupling rails of each of the timbers by an insertion method; And
The support height is less than half the height of the support and wider than the formwork width, the upper end being coupled to the sockets and the lower end being detachably fitted and coupled by the shape coupling of the respective supports and the male and female. Beam formwork unit for forming the slab beam of the building, characterized in that the auxiliary support block. The method of claim 1,
The auxiliary support block may be coupled to the sockets and the upper end, respectively, and the lower ends of the divided supports, which may be separately fitted to the respective support parts, may be arranged in parallel at equal intervals along both longitudinal sides of the formwork and the adjacent sides. Using wedge fasteners, they are joined together from one side to the other by a joint, forming a single body, and a pair of left and right pairs of extended support elements selected from the split supports to extend outwardly wider than the width of the formwork. Formwork unit for forming slab beams in buildings. The method of claim 2,
The extended support element further includes horizontal extensions installed at one end coupled to an upper side and a lower side of the selected split support, and the other end of the extension is formed vertically installed in parallel with the divided support. Formwork unit for forming slab beams in buildings. The method of claim 2,
Forming unit for the slab beam forming of the building further comprises a caster installed in a removable, removable manner to transport the beam formwork unit in the lower portion of the auxiliary support block. In the bottom of the building slab, a pair of unit side plates and a unit bottom plate, which are arranged downward from the bottom of the slab formwork for forming horizontal or vertical beams, are joined in a joint manner, and a layer height for constructing the formwork. As a temporary structure for forming slab beams of buildings made of supports that hold up to height,
A pair of pairs of first and second coupling surfaces and coupling rails, in which the unit side plates and the bottom plates are coupled to each other in a mutually opposite direction, are integrally provided to be parallel to each other at the lower sides of the formwork. Timbers, sockets that are chin-coupled to the coupling rail of each of the timbers by the insertion method, and the split support is coupled to the upper ends of the sockets and the lower end of each of the male and female supports to be separable They are arranged in parallel at equal intervals along both longitudinal sides of the beam formwork, and are bonded to each other by connecting joints from all sides using the joints of the adjacent sides and wedges to form a single body, and the width of the formwork is selected by selecting among the divided supports. Rather formwork unit consisting of a pair of left and right extended support elements extending in a wider outward direction; And
Installed on the upper end of the support in the form of a bugle tubular, the formwork unit includes a coupling portion supported by the fitting and jaw separable separable by the shape coupling of male and female,
Here, when the curing process of the slab beam is completed, after demolding the beam formwork unit by lowering the height of the support which is the temporary structure, the support is separated from the beam formwork unit, and casters in the beam formwork unit independently separated Temporary structure of beam formwork for building slab beam forming, characterized in that to be transported by moving cloud.

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