KR102479439B1 - Welded pre-buried anchor installation structure for attaching formwork and construction method of bridge inspection facility using the same - Google Patents

Abstract

The present invention relates to a welded pre-buried anchor installation structure for attaching a mold, which allows a buried type anchor to be attached to a mold by a welding to maintain a stable anchor attachment state, thereby improving the construction efficiency of a bridge inspection facility, and a method for constructing a bridge inspection facility by using the same. To achieve the above purpose, the welded pre-buried anchor installation structure for attaching a mold comprises: a body (10) made of a synthetic resin, having a plurality of bolt holes (11), and making close contact with the inner surface of a mold (100); a coupler pipe (30) connected to the body (10) by be screwed to an anchor bolt (20) fastened to the bolt hole (11); and a support rod (40) fastened to one side of the coupler pipe (30). The body (10) is supported by metal pieces (50) at a plurality of locations and is kept in close contact with the mold (100). The metal piece (50) is welded to the mold (100) formed of metal by welding.

Description

Welded pre-buried anchor installation structure for attaching formwork and construction method of bridge inspection facility using the same}

The present invention relates to a welded pre-embedded anchor for attaching a formwork, and more particularly, to a welded pre-embedded anchor for attaching a formwork so that the anchor can be welded and attached to a formwork installed for the construction of a bridge inspection facility. It relates to the installation structure and the construction method of the bridge inspection facility using it.

In general, a bridge inspection facility is a safety facility installed in the form of a passage so that an inspector can inspect the state of a bridge while walking between a bridge deck and an abutment or pier.

These inspection facilities are configured by installing several supports, one side of which is fixed to a pier or abutment, and then forming a passage by laying an iron plate on the support.

On the other hand, conventionally, construction is performed in a manner in which a hole is drilled on the side of a pier or abutment in order to install the pillar, an anchor is inserted into the perforated portion, and then the pillar is inserted into the anchor and fixed.

In addition, recently, Patent Registration No. 2181972 discloses a pre-embedded method in which concrete is poured in a state in which an anchor is previously attached to a formwork during concrete construction of a pier.

However, in the prior art of the anchor pre-embedded construction method described above, a structure in which an anchor made of synthetic resin is attached to a steel formwork using double-sided tape is formed. In the process, there was a problem with difficulties in construction, such as the anchor being detached from the formwork.

Republic of Korea Patent Registration No. 2181972 (2020.11.17. registration) Republic of Korea Patent Registration No. 1453065 (registered on October 14, 2014)

The present invention has been proposed to improve the above problems in the prior art, and provides an improved configuration in which a pre-embedded anchor can be attached to a formwork by welding, thereby stably attaching the anchor and improving workability accordingly. The purpose is to make it possible.

The present invention for achieving the above object is a coupler in which a body portion made of a synthetic resin material in which a plurality of bolt holes are formed and adhered to the inner surface of a formwork, and an anchor bolt fastened to the bolt holes are connected to the body portion by thread engagement In the line-embedded anchor installation structure for attaching a formwork constituting a pipe and a support rod fastened to one side of the coupler pipe, the main body is supported at a plurality of locations by metal pieces; The metal piece is characterized in that the coupling is made of a metal formwork and welding.

In addition, the metal piece has a structure of a welding surface on which welding is performed according to surface contact with the die, a vertical surface connected at right angles to the welding surface, and a locking surface extending at right angles to one side of the vertical surface to engage the body portion. It is characterized by making

According to the present invention, the formwork attachment of the buried anchor can be performed by welding, so that a stable anchor attachment state can be maintained, thereby improving the construction efficiency of the bridge inspection facility.

In particular, it is possible to mount and weld the anchor structure using two metal pieces, thereby showing the advantage of enabling more rapid work.

1 is a planar structural view of an anchor body according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the AA portion of Figure 1;
3 is a perspective view of a metal piece component in the present invention;
Figure 4 is a detailed cross-sectional view of the metal piece part in the present invention.
Figure 5 is an exploded side view of the anchor structure in the present invention.
Figure 6 is a side view of the anchor structure assembled in the present invention.
7 is a cross-sectional view of a state in which the buried anchor of the present invention is mounted on a formwork;
8 is a state diagram in which a metal piece is welded to a formwork in the buried anchor of the present invention.
Figure 9 is a formwork demoulding state diagram in the present invention.
10 is a cross-sectional structural view of an anchor body according to another embodiment of the present invention.
11 is a planar structural view of the anchor body according to another embodiment of the present invention.
12 is a cross-sectional structure view of a state in which a metal piece is coupled to an anchor body according to another embodiment of the present invention.

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

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the examples described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art.

Therefore, the shape of the component expressed in the drawings may be exaggerated to emphasize a clearer explanation. It should be noted that in each drawing, the same configuration may be indicated by the same reference numerals. In addition, detailed descriptions of functions and configurations of known technologies that may unnecessarily obscure the subject matter of the present invention may be omitted.

First, a configuration of a welded pre-embedded anchor for attaching a formwork according to an embodiment of the present invention is described through FIGS. 1 to 5 as follows.

In the present embodiment, the pre-embedded anchor for attaching the formwork has a body portion 10 made of synthetic resin in which a plurality of bolt holes 11 are formed and adhered to the inner surface of the formwork 100, and the bolt holes 11 A coupler pipe 30 connected to the main body 10 by screw engagement with the anchor bolt 20 to be fastened, and a support bar 40 fastened to one side of the coupler pipe 30 are configured.

At this time, the main body portion 10 is supported by the steel metal pieces 50 at a plurality of locations and maintained in close contact with the formwork 100, and the metal pieces 50 are welded to the formwork 100 made of metal. The combination is made by

The metal piece 50 in this embodiment includes a welding surface 51 where welding is performed according to surface contact with the formwork 100, a vertical surface 52 connected at right angles to the welding surface 51, and the vertical surface ( 52) is provided extending at right angles to one side to form the structure of the locking surface 53 in which the locking action of the body portion 10 is made.
That is, the metal piece 50 has a welding surface 51 bent in a right angle shape at the top of the metal piece 50 based on the vertical surface 52 of the middle, where welding is performed according to surface contact with the formwork 100, and the vertical surface 52 It can be seen that the lower part forms an integral structure in which the locking surface 53 is bent in a right angle shape so that the locking action of the body portion 10 can be made.

In addition, it can be seen that the body portion 10 is provided with a locking jaw portion 13 having a right angle shape so that separation is prevented by the locking surface 53 in a straight line shape.

In addition, the support bar 40 can be supported according to the connection with the reinforcing bar (not shown) installed in the inner space of the formwork 100.

On the other hand, a surface reinforcing layer 13a is coated on the locking jaw portion 13 so that the right angle shape can be stably maintained by maintaining a flat surface. At this time, the surface reinforcement layer (13a) is 5 to 20% by weight of carbon fiber, 1 to 10% by weight of polycaprolactone, 1 to 10% by weight of alkyl selenic acid, 10 to 30% by weight of phenylalanine tetrahydroxylase, p-tolyl 1-5% by weight of octanoate, 20-40% by weight of acrylic resin, 10-30% by weight of methoxybenzoaldehyde, 5-10% by weight of fine carbonide powder, 1-5% by weight of isoflavonoid, cetearyl octanoate It is preferable to achieve a mixed composition in a proportion of 1 to 10% by weight.

Let's take a look at the construction process of the bridge inspection facility using the welded pre-embedded anchor for attaching the formwork of the present invention constituting such a configuration.

The pre-embedded anchor structure of the present invention is attached to the formwork installed on top of the piers during the bridge construction process.

That is, in fixing the body portion 10 in a state in which the anchor bolt 20, the coupler pipe 30, and the support bar 40 are fastened to the inner wall of the formwork 100 as shown in FIGS. 7 and 8, Support and fixation are performed by the metal piece 50.

At this time, while the body part 10 is supported by the metal piece 50 at the top and bottom, spot welding is performed in a state where the welding surface 51 of the metal piece 50 is in contact with the formwork 100. .

Through the welding, the metal piece 50 is fixed to the mold 100, and the main body 10 is supported by the locking surface 53 of the metal piece 50 to prevent separation.

At this time, since the surface reinforcement layer 13a is coated on the locking jaw portion 13, the right angle shape can be maintained, so that the locking state by the locking surface 53 can be stably maintained. Since polycaprolactone and alkyl selenic acid are mixed in, discoloration and oxidation of the coating layer are prevented, phenylalanine tetrahydroxylase improves coating durability through the catalytic function of carbon fiber, and p-tolyl octanoate The coating density can be enhanced through the improvement of the bonding force between the mixed components. In addition, the additionally added fine powders of methoxybenzoaldehyde and carbonide perform the function of suppressing the generation of bubbles when the composition for forming the coating layer is applied, isoflavonoids improve heat insulation, and cetearyloctanoate is used for the locking jaw (13 ) It shows the advantage of improving the adhesive force with.

As described above, when the welding and attachment work of the anchor structure using the metal piece 50 is completed, concrete is poured and cured inside the formwork 100, and then the formwork 100 is separated. When the removal operation is performed, as shown in FIG. 9, the main body portion 10 of the anchor structure is buried in the concrete 200, and only a part of it is exposed to the outer wall.

At this time, in the process of removing the formwork 100, the metal piece 50 remains embedded in the concrete 200 or can be removed together with the formwork 100.

In this way, due to the removal of the formwork 100, the anchor bolts 20 fastened to the body portion 10 are exposed, and after the anchor bolts 20 are separated, the inspection passage bracket (not shown) is attached to the body portion ( 10), by fastening the anchor bolt 20, the installation work of the handrail of the inspection passage can be performed.

Therefore, according to the present invention, the formwork attachment of the buried anchor can be performed by welding, so that a stable anchor attachment state can be maintained, thereby improving the construction efficiency of the bridge inspection facility.

In particular, it is possible to mount and weld the anchor structure using two metal pieces, thereby showing the advantage of enabling more rapid work.

Meanwhile, FIGS. 10 to 12 show a configuration according to another embodiment of the present invention, in which a fitting groove 14 into which a metal piece 50 can be inserted is formed in the body portion 10, and the metal piece 50 A welding surface 51 in which welding is performed according to surface contact with the silver mold 100, a vertical surface 52 connected at right angles to the welding surface 51, and a fitting groove extending from the end of the vertical surface 52 After passing through (14) and being exposed to the outside, the structure of the hooking part 53', which engages the body part 10 through bending, is formed.

When this configuration is achieved, the vertical surface 52 of the metal piece 50 is inserted into the fitting groove 14, and then the hooking part 53 ' As a result, the body portion 10 is in a hung state, and in this state, the welding surface 51 of the metal piece 50 is welded to be fixed to the formwork 100.

Through this installation structure, while the vertical surface 52 of the metal piece 50 is inserted into the fitting groove 14, external exposure is prevented, thereby minimizing the contact area with concrete.

Therefore, by forming an installation structure in which the metal piece 50 is not embedded in the concrete, it shows an advantage in that it can be removed together during demolding of the formwork 100.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the anchor installation structure of the present invention can be variously modified and implemented by those skilled in the art.

However, such modified embodiments should not be individually understood from the technical spirit or scope of the present invention, and such modified embodiments should be included within the scope of the appended claims of the present invention.

10: body part 11: bolt hole
11 ': protrusion 13: locking jaw
20: anchor bolt 30: coupler pipe
40: support bar 50: metal piece
51: welding surface 52: vertical surface
53: jamming surface 100: formwork

Claims (8)

A plurality of bolt holes 11 are formed and the main body 10 made of synthetic resin is in close contact with the inner surface of the formwork 100, and the anchor bolts 20 fastened to the bolt holes 11 are screwed together. In the pre-embedded anchor installation structure for attaching the formwork, which constitutes a coupler pipe 30 connected to the body portion 10 and a support rod 40 fastened to one side of the coupler pipe 30,
The body part 10 is supported by the metal pieces 50 in a plurality of places and maintained in close contact with the mold 100;
The metal piece 50 is bonded to the mold 100 made of metal by welding;
The metal piece 50 is provided with a welding surface 51 bent in a right angle shape at the upper part based on the vertical surface 52 of the middle, where welding according to surface contact with the formwork 100 is performed, and at the lower part of the vertical surface 52 Forming an integral structure in which the locking surface 53 is bent in a right angle shape so that the locking action of the body portion 10 can be made;
The main body portion 10 is provided with a locking jaw portion 13 having a right angle shape so that separation is prevented by the locking surface 53. delete delete The method of claim 1,
A surface reinforcing layer 13a is coated on the holding jaw part 13 so that the rectangular shape can be stably maintained by maintaining a flat surface. The surface reinforcing layer 13a is made of carbon fiber, polycaprolactone, and alkyl cell. Welded wire for attaching formwork, characterized by forming a mixed composition of renic acid, phenylalanine tetrahydroxylase, p-tolyl octanoate, acrylic resin, methoxybenzoaldehyde, fine carbonide powder, isoflavonoid, and cetearyl octanoate Embedded anchor installation structure. delete delete delete In constructing a bridge inspection facility using the installation structure of any one of claims 1 or 4,
Bridge inspection facility using a welded pre-embedded anchor for attaching the formwork, characterized in that the concrete casting work is performed after the formwork is fixed through a welding operation of welding the formwork and the metal piece in a state where the anchor body is mounted on the formwork using a metal piece construction method.

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