KR20000003027U - Steel form for passage construction with square hollow section - Google Patents

Abstract

PURPOSE: The present invention enables steel foam to be applied to the inner circumferential surface of a passage having a square hollow cross section, thereby forming a concrete curing structure having a beautiful surface, and a passage construction having a square hollow cross section that is easy to assemble and dismantle. Provide steel foam for

Composition: The present invention is formed by forming a lattice reinforcement frame (6) by arranging and joining a plurality of reinforcement (8) in the axial direction to the rear surface of the steel sheet (4) bent to have a substantially hollow hollow cross section, A panel assembly (2) which cuts the middle portion of the (6) into two sections; A pair of orthogonal arrangements arranged on the reinforcing table 8 and arranged in a straight line, the opposing end portions of which are divided into two dividing portions of the panel assembly 2, and are connected by hinge means. Means (10); It is hypothesized between the inner facing surface of the panel assembly (2), the both ends are pin-connected to the hinge means 12, the body means for interlocking the deforming means (10) provided on the four sides of the panel assembly (2) It is composed of

Effect: The present invention simplifies the disassembly and assembly of the steel foam by tightening and releasing the retaining means between the inner opposing surfaces of the panel assembly.

Description

Steel form for passage construction with square hollow section

The present invention relates to a steel form for the passage construction having a rectangular hollow cross section suitable for the case of building an elevator hoisting passage of a building or a manhole of a water supply and sewage pipe extending underground.

In high-rise buildings such as apartments and buildings, hoistways for elevators are being built through formwork at construction sites. In addition, the manhole of the water and sewage pipeline, which is constructed underground in the building's dense area, is also cast concrete at the site, and the formwork used at this time is assembled to form a rectangular cross section by attaching several sheets using Euroform or wood formwork. It is made to structure.

This structure requires a lot of labor due to the repeated assembly and disassembly of the panel, so the workability is not good and the risk of industrial accidents is high.

This problem can be solved by the steel foam, but when using this, there is a problem that the surface is firmly adhered to the steel foam while the concrete shrinks during curing. In general, if the installed steel foam is exposed to the outside, it is not difficult to disassemble even if it is in close contact with the concrete curing surface.However, in a passage having a square hollow section, the steel foam is installed on the inner circumferential surface of the passage so that a work space for dismantling can be It cannot be prepared, and application becomes impossible.

Accordingly, an object of the present invention is to solve the above-mentioned problems, it is possible to apply a steel foam to the inner peripheral surface of the passage having a rectangular hollow cross-section can form a concrete curing construction having a beautiful surface, and It is an object of the present invention to provide a steel foam for passage construction having a rectangular hollow cross-section, which improves workability by easily disassembling the steel foam.

According to the above object, the present invention is formed by forming a lattice reinforcement frame by axially arranging and joining a plurality of reinforcement bars in the axial direction to the back surface of the steel sheet bent to have a substantially hollow hollow cross section, the middle portion of the lattice reinforcement frame by two A panel assembly to be disconnected; A pair of deformable means orthogonally disposed on the reinforcing bar and arranged in a straight line, wherein the opposite ends are disposed in two dividing portions of the panel assembly, and are connected to each other by hinge means; It is constructed between the inner opposing surfaces of the panel assembly, and both ends are pinned to the hinge means is composed of a body means for interlocking the deformation means provided on the four sides of the panel assembly.

In the configuration as described above, the hinge means arranged transversely between the opposing ends of the deforming means is configured to be axially connected to the opposing deforming means.

In addition, the guide hole of the hinge means through which the pin of the trunk body is inserted is configured in an arc shape for allowing the pin to be guided along a predetermined trajectory.

The present invention is designed to disassemble and assemble the steel foam by tightening and releasing the securing means connected between the inner opposing surfaces of the panel assembly so that the outer steel sheet of the panel assembly is deformed or unfolded in a plane with respect to the center of one side thereof. This is easy.

1 is a partially cutaway perspective view showing the configuration of a steel foam according to the present invention.

Figure 2 is a partial perspective view showing the main part linkage structure of the present invention.

Figure 3 is a side cross-sectional view of a construction example applied to the steel foam of the present invention.

4 is a plan sectional view of FIG.

5 is an initial state diagram of a dismantling example relating to the steel foam of the present invention.

6 is a plan sectional view of an essential part showing an example in which a band spring is added.

* Description of the symbols for the main parts of the drawings *

2 panel assembly 4 steel sheet

6: grid reinforcement frame 8: reinforcement

10: deformation means 12: hinge means

14: body fastening means 18: band spring

120: plate 122: shaft

124: guide 140: pin

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

1 is a partially cutaway perspective view showing the form configuration of the present invention, wherein the panel assembly 2 is outside by a steel plate 4 bent to have a cross-sectional shape suitable for constructing an inner circumferential surface of a passage having a rectangular hollow cross section. It consists of a coated lattice reinforcement frame 6. The grid-shaped reinforcement frame (6) is arranged in parallel in the axial direction a plurality of reinforcement (8) made of an angle or a sash, and finished by connecting the upper and lower ends with the same material, but formed by splitting the middle part to be divided into two This unit is integrally attached to each of the rear surfaces of the steel sheet 4 as one unit.

Deformation means 10 are arranged in parallel in the orthogonal direction in the reinforcement stand 8 arranged in parallel in the axial direction of the panel assembly 2. The deforming means 10 is made of a steel pipe, an angle, a sash, or the like, which is also formed as a pair cut off at the middle portion of the rear surface side of the steel sheet 4 so as to face each other in a straight line. Deformation means 10 may be arranged in a plurality of groups on one inner surface of the grid-shaped reinforcement frame 6 if necessary. Opposite ends of the deforming means 10 which are arranged in this way are integrally connected by the hinge means 12, and the hinge means 12 are arranged between the mutually opposing ones inside the lattice reinforcement frame 6, respectively. Is connected by the retaining means 14.

As shown in FIG. 2, the hinge means 12 is formed of a plate 120 connected to each end of the opposing deformation means 10 on a yoke, and overlapping each other. The plates 120 are integrally connected by welding or via the shaft 122 as in the illustrated example.

In addition, both ends are connected by pins 140 to the body means 14 which is interposed between the hinge means 12 facing each other inside the grid-shaped reinforcement frame 6.

The retaining means 14 may be applied as long as it is arranged to intersect the inner side of the lattice reinforcement frame 6 so as to stretch and change the distance between the opposing hinge means 12. There is a buckle or linkage. In the structure in which the plate 120 of the hinge means 12 is integrally welded to the deforming means 10, when the plate 120 is towed by the body means 14, the pair of opposing plates 120 is As the pin 140 is rotated to a point, the grid reinforcement frame 6 is deformed so that the steel sheet 4 is bent.

At this time, if the plate 120 and the pin 140 is a simple pin joint, the change in the opposing interval between the deforming means 10 due to the bending of the steel sheet 4 can not be absorbed and does not operate smoothly. In other words, since the steel plate 4 is placed outside the deforming means 10, when it is bent inward, there is a significant change in the spacing between the deforming means 10 on its inner side. This change in spacing can be absorbed by forming an arc-shaped guide hole 124 in the plate 120 of the hinge means 12 and slidably inserting the pin 140 therein.

3 is a side cross-sectional view of a construction example to which the steel foam of the present invention is applied, and shows that the panel assembly 2 is supported by its retaining means 14 to form a square cross section. When the elongated body 14 is extended, it pushes and supports a pair of opposing deformation | transformation means 10 arrange | positioned inside the lattice reinforcement frame 6 so that it may become linear, and the steel plate 4 of the outer side will be a flat surface. Do it. When installed in this way, the steel sheet 4 itself forms a steel foam, which enables concrete pouring. The poured concrete is cured to form a hollow construct C having a square cross section. As such, when the concrete is poured in plan view, it becomes as shown in FIG. 4, and when the curing of the poured concrete is finished, the on-site worker easily rotates the rigid body means 14 arranged through the upper part or the lower part. I can operate it.

When the body means 14 are operated in the contracted direction, the deforming means 10 begins to be pulled by the body means 14 via the hinge means 12. If the body body 14 is further manipulated so that the traction operation is continued, the pin 140 at both ends slides through the guide hole 124 while the change in the distance between the two deforming means 10 is absorbed and The steel sheet 4 in contact with the construct C starts to be peeled off at the middle portion of the axial direction and is bent and deformed inward as shown in FIG. 5. At this time, the corner portion of the steel sheet 4 is also naturally moved inwards along the diagonal direction due to the bending deformation as described above, so that the structure C and the steel sheet 4 are completely separated, thereby easily dismantling the steel foam. It becomes a state.

In the present invention described above, the bending deformation of the steel sheet 4 is enough to be approximately 15 cm away from the surface of the construct C to achieve the desired purpose.

In addition, when the bending starting line 16 along the dotted line shown in FIG. 1 is pressed into the center of the steel sheet 4, the bending form at the time of towing is uniform, and the steel sheet 4 is preferably uniform as shown in FIG. When the band spring 18, which is bent in a “U” shape and has a strong self restoring force, is integrally welded to the rear surface of the (4), the restoring force of the band spring 18 cooperates more smoothly when the steel sheet 4 is towed. It is possible to obtain the action of bending quickly.

As described above, the present invention is particularly suitably used for passage constructions having a rectangular hollow cross section to provide a steel foam that can be easily installed and dismantled to implement a rectangular hollow cross section having a beautiful inner surface, and at construction It is possible to obtain the effect of improving the workability of the field, and thereby reducing the occurrence of industrial accidents.

Claims (3)

A plurality of reinforcing rods 8 are arranged in the axial direction on the rear surface of the steel sheet 4 which is bent to have a substantially hollow hollow cross section to form a lattice reinforcement frame 6, and in the middle of the lattice reinforcement frame 6 A panel assembly (2) which divides the portion into two sections; It consists of a pair of orthogonally arranged on the reinforcing table (8) and arranged in a straight line, the opposite end is placed in a portion for dividing the panel assembly (2), between them connected by a hinge means (12) Deformation means 10 to be made; It is hypothesized between the inner opposing surfaces of the panel assembly 2, and both ends are pinned to the hinge means 12 so as to interlock the deforming means 10 provided on the four sides of the panel assembly 2 in a direction perpendicular to each other. Steel foam for the hollow structure having a rectangular cross-section consisting of a rigid body means (14). The steel form according to claim 1, wherein the hinge means (12) has a rectangular hollow cross section configured to connect between opposite ends of the deforming means via a shaft (122). The steel form according to claim 1, wherein the pin (140) of the securing means (14) has a rectangular hollow cross section configured to be inserted into the arc-shaped guide hole (124) of the hinge means (12).