KR20220059110A - Supporting device of non-disband mold assembly for structural steel plate beam - Google Patents

Abstract

According to the present invention, a supporting device of a non-disband mold assembly for a structural steel plate beam comprises: a plurality of reinforcing parts (11) in which a plurality of through holes (16) for filling concrete are formed, and on both sides of lower portions of which bent parts (15) are formed; reinforcing metals (18) fixed and coupled to both the sides of the lower portion of the reinforcing part (11) to support the pouring load of the concrete filled inside the reinforcing part (11); a plurality of yoke members (20) provided on both sides of a lower portion of a steel plate beam (17) in which the plurality of reinforcing parts (11) are installed, to support the load of the steel plate beam (17); and a plurality of fixing pins (30) fixed and coupled to the lower portions of the yoke members (20). Therefore, the pouring load of the concrete can be stably supported.

Description

Supporting device of non-disband mold assembly for structural steel plate beam

The present invention relates to a support device for a steel plate beam formwork for dismantling structure, and more particularly, a reinforcement part installed in a plurality of steel plate beams inside which concrete is poured, and a plurality of reinforcement parts installed on both sides of the lower part of the reinforcement part, the concrete of It relates to a support device for a steel plate beam formwork for non-decomposable structures, comprising a plurality of yoke members supporting both lower sides of the steel plate beam and a reinforcing steel for supporting a pouring load.

Figure 1 is a front view for explaining the support device of the conventional non-breakable steel plate beam formwork, Figure 2 is a front view for explaining the conventional support device of the non-breakable steel plate beam formwork.

1 and 2, the conventional support device of the non-decomposable steel plate beam formwork is installed inside the steel plate beam, and lateral pressure reinforcement (not shown) for preventing the deformation of the steel plate beam due to the lateral pressure of the concrete, the steel plate It is installed on the upper part of the joist and the lower support (dongbari) to prevent deformation of the beam and support the load of the steel plate beam, and is configured to include an upper member or a yoke material for supporting the load of the joist.

And, a plurality of lateral pressure reinforcing bars (not shown) are installed inside the steel plate beam, a plurality of joists are provided under the steel plate beams, and a plurality of yoke members are provided under the plurality of joists. In addition, the lower support of the plurality of yoke material has a predetermined interval, is installed to be spaced apart.

However, in the conventional support device for non-decomposable steel plate beam formwork, the rigidity of a plurality of lateral pressure reinforcing bars installed inside the steel plate beam is insufficient, and there is a problem that the steel plate beam can be easily deformed by the lateral pressure of the concrete.

In addition, in the conventional support device for non-decomposable steel plate beam formwork, the installation and dismantling process of the joist and yoke members must be repeatedly performed, and the installation interval of the lower support is formed as narrow as 900 mm or less. There was a problem in that the amount used increased.

KR 20-0426053 Y1 KR 20-0439183 Y1

The present invention has been devised in order to solve the above problems, and an object of the present invention is to install a plurality of steel plate beams inside a reinforcement part to which concrete is poured, and a plurality of reinforcement parts to be installed on both sides of the lower part of the reinforcement part, the concrete It is to provide a support device of the steel plate beam formwork for non-decomposable structures comprising a plurality of yoke members for supporting the lower both sides of the reinforcing steel and the steel plate beam to support the pouring load of the.

In order to solve the above technical problems, in the support device of the steel plate beam formwork for non-decomposable structure according to the present invention, a plurality of through holes 16 for filling concrete are formed through, and bent bent portions 15 are bent on both sides of the lower part. A reinforcing part 11 formed with is fixedly coupled to both lower sides of the reinforcing part 11, respectively, and the reinforcing steel 18 supporting the pouring load of the concrete filled inside the reinforcing part 11, the reinforcing part A plurality of 11 is provided on both sides of the lower portion of the steel plate beam 17 in which a plurality are installed, the yoke member 20 supporting the load of the steel plate beam 17 and a plurality of fixedly coupled to the lower portion of the yoke member 20 It is characterized in that it includes a fixing pin (30).

In addition, the reinforcing part 11 is formed with a first vertical reinforcing part 12 and a second vertical reinforcing part 13 on one side and the other side elongated in the direction of gravity, respectively, and the first vertical reinforcing part 12 and the second vertical reinforcing part 12 A horizontal reinforcing portion 14 is elongated in a direction perpendicular to the direction of gravity between the two vertical reinforcing portions 13, and the first vertical reinforcing portion 12 and the horizontal reinforcing portion 14, the second vertical reinforcing portion Between the part 13 and the horizontal reinforcement part 14, the bent part 15 is characterized in that it is formed to be bent, respectively.

In addition, the reinforcing iron material 18 includes a lower portion of the first vertical reinforcing unit 12 and a right side of the horizontal reinforcing unit 14 , a lower portion of the second vertical reinforcing unit 13 , and the horizontal reinforcing unit 14 . It is characterized in that each fixedly coupled to the left side of the.

In addition, the reinforcing iron 18 is characterized in that a plurality of insertion holes 19 through which the rivets 39 are inserted are formed through the outer surface.

In addition, the yoke material 20 is composed of a plurality of horizontal plates 23 and a plurality of vertical plates 24 orthogonal to the horizontal plate 24, the upper surface of which supports the lower surface of the steel plate beam 17 body part 22,

A seating portion 21 formed on one upper side of the body portion 22 and having a side surface supporting a lower side of the steel plate beam 17, is formed to be inclined on one upper side of the body portion 22, the seating portion A support part 25 for supporting the lower surface of the lower surface and the side surface of the body part 22 and a fastening part ( 26).

In addition, the fixing pin 30 is formed to protrude on the upper portion of the fixing pin 30, the head portion 31, the head portion 31 to be inserted and coupled inside the fastening portion 26 of the yoke material (20). ) is formed to protrude at the lower portion of the body portion 22, and the protrusion 32 is fixedly coupled to the lower portion of the body 22, and the body portion 33 is formed elongated in the longitudinal direction of the fixing pin 30 at the lower portion of the protrusion 32. ) is characterized in that it contains.

In the support device of the steel plate beam formwork for non-destructive structure according to the present invention, a plurality of reinforcement parts for pouring concrete through a through hole are installed in the inside of the steel plate beam, and reinforcing iron materials are installed on both lower sides of the reinforcement part, respectively, the rigidity of the reinforcement part By increasing this, there is an effect that can stably support the pouring load of the concrete.

In addition, the support device of the steel plate beam formwork for non-decomposable structure according to the present invention supports the lower both sides of the steel plate beam with a plurality of yoke members, thereby simplifying the installation and release process of the existing yoke member and joist member, There is an effect that the yoke material according to the present invention can simultaneously perform the roles of the existing yoke material and the joist material.

In addition, in the support device of the steel plate beam formwork for dismantling structure according to the present invention, by supporting the lower both sides of the steel plate beam with a plurality of dedicated yoke materials, the installation interval of the lower support for supporting the yoke member is different from the existing yoke member and joist member. Since it is more than three times wider than the method used, effects such as reduction in the number of dedicated yoke materials and lower supports installed, and cost and manpower savings can be expected.

1 is a front view for explaining the support device of the conventional non-decomposable steel plate beam formwork.
Figure 2 is a front view for explaining the support device of the conventional non-decomposable steel plate beam formwork.
3 is a perspective view for explaining a shape in which a plurality of reinforcing parts 11 are installed on the inside of the steel plate beam.
4 is a front view for explaining a shape in which a plurality of reinforcing parts 11 are installed on the inner side of the steel plate beam.
5 is a perspective view illustrating a shape in which reinforcing iron is installed on both sides of a reinforcing unit.
6 is a front view of the reinforcing iron shown in FIG. 4 .
7 is a front view for explaining the shape of the yoke member supporting the lower both sides of the steel plate beam, respectively.
8 is a front view for explaining the coupling relationship between the yoke material and the fixing pin.
9 is a perspective view for explaining the coupling relationship between the yoke material and the fixing pin.
10 is a front view of the yoke material shown in FIG.
11 is a front view of the fixing pin shown in FIG.
12 is a view for explaining a shape in which the support device of the steel plate beam formwork for non-destructive structure according to the present invention is installed on the lower support and the steel plate beam.
13 is a front view for explaining the installation process of the support device of the steel plate beam formwork for non-destructive structure according to the present invention.
Figure 14 is a right side view for explaining the installation process of the support device of the steel plate beam formwork for non-destructive structure according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings in order to describe in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention.

However, the following examples are merely examples to help the understanding of the present invention, thereby not reducing or limiting the scope of the present invention. In addition, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

First, the configuration of the support device 10 of the steel plate beam formwork for non-destructive structure according to the present invention will be described.

3 is a perspective view for explaining a shape in which a plurality of reinforcement parts 11 are installed inside the steel plate beam 17, and FIG. 4 is a shape in which a plurality of reinforcement parts 11 are installed inside the steel plate beam 17. This is a front view for explanation.

5 is a perspective view for explaining a shape in which the reinforcing material 18 is respectively installed on both sides of the reinforcing part 11 , and FIG. 6 is a front view of the reinforcing material 18 shown in FIG. 4 .

The support device 10 of the steel plate beam formwork for dismantling structure according to the present invention is configured to include a reinforcing part 11 and a reinforcing iron material 18 .

Referring to FIGS. 3 and 4 , a plurality of reinforcing parts 11 are installed to be spaced apart from each other by a predetermined distance inside the steel plate beam 17 . Here, the steel plate beam 17 is formed in the shape of a square plate material in which the lower both sides are bent, respectively, the cross section is in the shape of a U-shape.

Referring to FIGS. 4 and 5 , a plurality of through-holes 16 through which concrete is filled inside the reinforcing unit 11 are formed on the side surface of the reinforcing unit 11 , and are bent at both lower sides of the reinforcing unit 11 . The portion 15 is formed to be bent. Here, the diameter of the through hole 16 is formed to be larger than the maximum size of the aggregate so that the concrete can be easily filled.

And, on one side and the other side of the reinforcing part 11, the first vertical reinforcing part 12 and the second vertical reinforcing part 13 are formed to be elongated in the direction of gravity, respectively. And, between the first vertical reinforcing part 12 and the second vertical reinforcing part 13, a horizontal reinforcing part 14 is elongated in a direction perpendicular to the direction of gravity, and the first vertical reinforcing part 12 and the horizontal Between the reinforcing part 14, the second vertical reinforcing part 13 and the horizontal reinforcing part 14, the bent part 15 is formed to be bent, respectively.

4, 5 and 6 , the reinforcing iron 18 is fixedly coupled to both sides of the lower portion of the reinforcing unit 11 , respectively, to support the pouring load of the concrete filled inside the reinforcing unit 11 . Specifically, the reinforcing iron 18 is the lower portion of the first vertical reinforcing portion 12 and the right side of the horizontal reinforcing portion 14, the lower portion of the second vertical reinforcing portion 13 and the left side of the horizontal reinforcing portion 14, respectively The reinforcing iron material 18 is formed of an L-shaped square plate having a predetermined thickness.

On the other hand, a plurality of insertion holes 19 through which the rivets 39 (not shown) are inserted are formed in the outer surface of the reinforcing material 18 . In addition, the upper portion of the reinforcing iron material 18 is fixedly coupled to the lower portion of the first vertical reinforcing unit 12 or the second vertical reinforcing unit 13 , and the lower portion of the reinforcing iron material 18 is one side of the horizontal reinforcing unit 14 . fixedly coupled to Here, the reinforcing iron 18 is fixedly coupled to one side of the reinforcing part 11 by rivets 39 or welding.

Here, in the non-disintegrated steel plate beam formwork, a plurality of reinforcement parts 11 to which reinforcing iron materials 18 are fixedly coupled are installed on both sides of the lower side, and a steel plate beam 17 in which concrete is poured inside the reinforcement part 11 means

7 is a front view for explaining a shape in which the yoke member 20 supports the lower both sides of the steel plate beam 17, respectively.

8 is a front view for explaining the coupling relationship between the yoke member 20 and the fixing pin 30 , and FIG. 9 is a perspective view for explaining the coupling relationship between the yoke member 20 and the fixing pin 30 .

10 is a front view of the yoke material 20 shown in FIG. 8, and FIG. 11 is a front view of the fixing pin 30 shown in FIG.

The support device 10 of the steel plate beam formwork for non-destructive structure according to the present invention is configured to further include a yoke material 20 and a fixing pin 30 .

Referring to FIGS. 7 and 8 , the yoke member 20 is provided on both sides of the lower portion of the steel plate beam 17 in which a plurality of reinforcement parts 11 are installed to support the load of the steel plate beam 17 .

9 and 10, a plurality of fixing pins 30 are fixedly coupled to the lower portion of the yoke material 20 to be spaced apart from each other by a predetermined distance.

Referring to FIG. 10 , the yoke material 20 is configured to include a seating portion 21 , a body portion 22 , a support portion 25 , and a fastening portion 26 .

First, the body portion 22 is composed of a plurality of horizontal plates 23 and a plurality of vertical plates 24 orthogonal to the plurality of horizontal plates 23, and the upper surface of the body portion 22 is a steel plate beam 17 . support the underside of Specifically, a plurality of horizontal plates 23 and vertical plates 24 are connected in the shape of a square grid, and the body portion 22 is formed in a shape in which a plurality of square pipes are stacked.

And, the seating portion 21 is formed on one upper side of the body portion 22, the side of the seating portion 21 supports the lower side of the side of the steel plate beam (17). Here, the seating portion 21 is formed in the shape of a square pipe having a predetermined thickness. At this time, the lower portion of the steel plate beam 17 is seated between the side surface of the seating portion 21 and the upper surface of the body portion 22 .

In addition, the support part 25 is inclined between the lower surface of the seat part 21 and the side surface of the body part 22 to support the lower surface of the seat part 21 and the side surface of the body part 22 . Specifically, the support part 25 is formed in the shape of a square plate, one side of the support part 25 is connected to the lower surface of the seating part 21 , and the other side of the support part 25 is connected to the side surface of the body part 22 . do.

In addition, the fastening part 26 is recessed in the lower part of the body part 22 , and the fixing pin 30 is fixedly coupled to the inside of the fastening part 26 .

Referring to FIG. 11 , the fixing pin 30 includes a head part 31 , a protrusion part 32 , and a body part 33 .

First, the head part 31 is formed to protrude on the upper portion of the fixing pin 30 , and is inserted and coupled to the inside of the fastening part 26 of the yoke material 20 . Here, the head part 31 is formed in the shape of a disk having a predetermined thickness.

In addition, the protrusion 32 is formed to protrude from the lower portion of the head portion 31 , and is fixedly coupled to the lower portion of the body portion 22 . Specifically, here, the protrusion 32 is formed in the same shape as the head part 31 , and the upper surface of the protrusion part 32 makes surface contact with the lower surface of the body part 22 .

In addition, the body portion 33 is formed to be elongated in the longitudinal direction of the fixing pin 30 at the lower portion of the protrusion 32 . Here, the body portion 33 is formed in the shape of a cylinder having a predetermined height.

Next, a description will be given of a process in which the support device 10 of the steel plate beam formwork for non-destructive structure according to the present invention is installed on the lower support 37 and the steel plate beam 17 .

12 is a view for explaining a shape in which the support device 10 of the steel plate beam formwork for non-destructive structure according to the present invention is installed on the lower support 37 and the steel plate beam 17 .

13 is a front view for explaining the installation process of the support device 10 of the steel plate beam formwork for non-decomposable structure according to the present invention, and FIG. It is a right side view for explaining the process.

12 to 14 , the left yoke material 20 is installed on the upper left lower support support 37 by two fixing pins 30 , and the right yoke material 20 also includes two fixing pins 30 . ) is installed on the upper part of the lower right supporter 37 by the

After that, a plurality of reinforcing parts 11 are installed on the inside of the steel plate beam 17 to be spaced apart by a predetermined distance.

After that, the reinforcing steel 18 is formed between the first vertical reinforcement 12 and the horizontal reinforcement 14, the second vertical reinforcement 13 and the horizontal reinforcement 14 by rivets 39 or welding. each is fixedly coupled.

After that, the concrete is inserted into the inner side of the reinforcing unit 11 through a plurality of through-holes 16 penetrating through the outside of the first vertical reinforcing portion 12, the horizontal reinforcing portion 14, and the second vertical reinforcing portion 13. is filled in

After that, the steel plate beams 17 provided with a plurality of reinforcing parts 11 are seated on the upper portions of the left and right yoke members 20 .

After that, the deck slab 38 is disposed on the upper portion of the steel plate beam 17 .

In the support device 10 of the steel plate beam formwork for non-destructive structure according to the present invention, a plurality of reinforcement parts 11 through which concrete is poured through a through hole 16 in the interior of the steel plate beam 17 are installed, and the reinforcement part ( 11) The reinforcing iron materials 18 are installed on both sides of the lower portion, respectively, and the rigidity of the reinforcing part 11 is increased, thereby stably supporting the concrete pouring load.

In addition, in the support device 10 of the steel plate beam formwork for dismantling structure according to the present invention, by supporting the lower both sides of the steel plate beam 17 with a plurality of dedicated yoke members 20, the existing yoke member and joist member installation and In addition to simplifying the release process, the exclusive yoke member 20 has the effect of simultaneously performing the roles of the existing yoke member and the joist member.

2 and 14, in the support device 10 of the steel plate beam formwork for non-decomposable structure according to the present invention, by supporting the lower both sides of the steel plate beam 17 with a plurality of dedicated yoke members 20, the yoke member Since the installation interval of the lower support 37 that supports the effects can be expected.

As described above, the present invention has a main technical idea to provide a support device 10 for a steel plate beam formwork for a non-dissolving structure, and the embodiment described above with reference to the drawings is only one embodiment, and the present invention The true scope of rights is based on the claims, but will also extend to equivalent embodiments that may exist in various ways.

10: Supporting device of steel plate beam formwork for non-destructive structure
11: reinforcement part 12: first vertical reinforcement part
13: second vertical reinforcement 14: horizontal reinforcement
15: bent part 16: through hole
17: steel plate beam 18: reinforcing steel
19: insertion hole 20: yoke material
21: seating part 22: body part
23: horizontal plate 24: vertical plate
25: support portion 26: fastening portion
30: fixing pin 31: head part
32: protrusion 33: body portion
35: joist rod 36: conventional yoke material
37: lower support (wall) 38: deck slab
39: rivet

Claims (6)

Reinforcing part 11 in which a plurality of through-holes 16 for filling concrete are formed through, and bent bent parts 15 are formed on both sides of the lower part;
Reinforcement iron 18 which is fixedly coupled to both lower sides of the reinforcing part 11, respectively, to support the load of the concrete filled inside the reinforcing part 11;
a yoke member 20 provided on both sides of the lower side of the steel plate beam 17 in which a plurality of the reinforcement parts 11 are installed to support the load of the steel plate beam 17; and
A support device of a steel plate beam formwork for disintegration structure comprising a; a plurality of fixing pins (30) fixedly coupled to the lower portion of the yoke material (20). The method of claim 1,
The reinforcing part 11 is
The first vertical reinforcing part 12 and the second vertical reinforcing part 13 are formed long in the gravitational direction, respectively, on one side and the other side,
Between the first vertical reinforcing part 12 and the second vertical reinforcing part 13
The horizontal reinforcing part 14 is formed long in a direction orthogonal to the direction of gravity,
Between the first vertical reinforcing part 12 and the horizontal reinforcing part 14, the second vertical reinforcing part 13 and the horizontal reinforcing part 14, the bent part 15 is formed to be bent, respectively. Supporting device of steel plate beam formwork for non-destructive structural use. 3. The method of claim 2,
The reinforcing steel 18 is
The lower portion of the first vertical reinforcing portion 12 and the right side of the horizontal reinforcing portion 14, the lower portion of the second vertical reinforcing portion 13, and the left side of the horizontal reinforcing portion 14 are fixedly coupled to each other. Supporting device of steel plate beam formwork for non-decomposable structures. 3. The method of claim 2,
The reinforcing steel 18 is
A support device for a steel sheet beam formwork for a non-dissolving structure, characterized in that a plurality of insertion holes 19 through which the rivets 39 are inserted are formed through the outer surface. The method of claim 1,
The yoke material 20 is
a body portion 22 comprising a plurality of horizontal plates 23 and a plurality of vertical plates 24 orthogonal to the horizontal plate 24, the upper surface of which supports the lower surface of the steel plate beam 17;
a seating portion 21 formed on one upper side of the body portion 22 and having a side surface supporting a lower side surface of the steel plate beam 17;
a support part 25 formed to be inclined on one upper side of the body part 22 to support a lower surface of the seating part 21 and a side surface of the body part 22; and
A support device for a steel plate beam formwork for dismantling structure, characterized in that it comprises a; is formed recessed in the lower portion of the body portion (22), the fastening portion (26) to which the fixing pin (30) is fixedly coupled to the inside. The method of claim 1,
The fixing pin 30 is
a head portion 31 protruding from the upper portion of the fixing pin 30 and inserted into the fastening portion 26 of the yoke material 20;
a protrusion 32 protruding from a lower portion of the head portion 31 and fixedly coupled to a lower portion of the body portion 22; and
Supporting device of the steel plate beam formwork for non-decomposable structure, characterized in that it comprises a; body portion (33) formed long in the longitudinal direction of the fixing pin (30) at the lower portion of the protrusion portion (32).

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