KR20130106982A - Steel connection structure for self-positioning of composite precast concrete member and construction method thereof - Google Patents

Abstract

PURPOSE: A beam steel frame connection structure to self-position a composite precast concrete (PC) member and a construction method thereof are provided to simplify the construction of a beam steel frame by lowering a composite PC unit using gravity. CONSTITUTION: A beam steel frame connection structure to self-position a composite PC member comprises a bracket steel frame (100), a beam steel frame (10), and a pair of positioning plates (200). The bracket steel frame is installed on a PC column unit (C). The beam steel frame is installed on a PC beam unit (B). One end of the beam steel frame is installed on the other end of the bracket steel frame using the weight of the PC beam unit. The vertical and horizontal positioning of a composite PC member is automatically performed by contacting the top end of the positioning plate with the bottom of the top flange of the beam steel frame and temporarily setting the beam steel frame.

Description

Steel connection structure for self-positioning of composite precast concrete member and construction method thereof

The present invention is a structure for connecting the prosthetic bone to the bracket steel frame installed in the column, due to the mutual structure of the bracket steel frame and the prosthesis with the improved positioning plate is automatically placed (positioning) the temporary positioning (positioning) The present invention relates to a prosthetic bone connection structure and a construction method thereof for self-positioning a composite PC member.

In general, the PC structure should be connected to the bracket steel frame 100, the prosthetic bone 10 is installed on the pole by lifting the PC prosthesis unit (B) is installed prosthesis 10.

1 illustrates a conventional prosthetic bone connection structure, and FIG. 2 illustrates a problem of the conventional prosthetic bone connection structure.

In the case of a conventional prosthetic bone connection structure, first, temporarily placed horizontally on the bracket steel frame 100 installed on the column by lifting the PC beam unit (B) installed with the prosthetic bone 10 as shown in Figure 1 (a) and then The web of the prosthetic bone 10 and the web of the bracket steel frame 100 using the plate 20 as shown in (b).

The conventional prosthetic bone connection structure is a vertical deviation departure or construction error occurs in the column does not secure the space for installation of the prosthesis, as shown in Figure 2 (a) during construction, the vertical axis is inconsistent, or due to construction errors Figure 2 As shown in (b), there is a disadvantage in that construction is difficult due to the inconsistency of the left and right axes during construction. In addition, when installing the PC beam unit (B), a lot of manpower and time is put into the positioning (positioning) of the prosthetic bone 10, it is difficult to secure construction quality, and there is a high risk of safety accidents.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, to provide a prosthetic bone connection structure and construction method for the self-positioning of the composite PC member that can be accurately installed despite the vertical deviation of the column or construction errors using the positioning plate improved the existing plate.

Secondly, prosthetic bone construction can be completed by the simple operation of gravity lowering using self-weight of synthetic PC beam unit. To provide a construction method.

Third, it is to provide a prosthetic joint connection structure and construction method for the self-positioning of composite PC member having high air and cost saving effect by reducing the risk of additional side work to open the gap between the narrow, high narrowing for positioning the prosthetic bone.

Fourth, the existing steel frame reinforces the joining part by reinforcing the flange and web reinforcing plate on both sides after joining, which increases the joining time and risks of safety. It is to provide a prosthetic bone connection structure and a construction method for the self-positioning of the composite PC member for shortening the time and safe construction by using a positioning plate.

In order to solve the above technical problem, the present invention is a structure for connecting the prosthetic bone to the bracket steel frame,

Bracket steel frame 100 installed on the PC column unit (C); Prosthetic bone 10 is installed on the PC beam unit (B) is one end is coupled to the other end of the bracket steel frame (100); And a pair of positioning plates 200 for connecting the web of the other end of the bracket steel frame 100 and the web of the one end of the prosthetic bone 10.

The positioning plate 200 is partially installed in the bracket steel frame 100 and the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10 are formed to be inclined in a shape corresponding to the prosthetic bone ( One end of the 10) is installed on the other end of the bracket steel frame 100 by the weight of the PC beam unit (B),

Since the upper end of the positioning plate 200 abuts the lower portion of the upper flange of the prosthetic bone 10, the prosthetic bone 10 is temporarily mounted so that the positioning of the composite PC member is automatically performed. Providing a prosthetic connection structure for.

In addition, as a method for constructing a prosthesis connection structure for self-positioning the composite PC member,

(1) a positioning plate installation step of installing the positioning plate 200 on the bracket steel frame 100 of the PC column unit (C); (2) the PC beam unit lifting step of lifting the PC beam unit (B) in which the prosthesis 10 is installed; (3) while lowering the PC prosthesis unit (B) on which the prosthetic bone 10 is mounted, one end of the prosthetic bone 10 is installed at the other end of the bracket steel frame 100 by its own weight, and the positioning plate ( PC beam unit mounting step of temporarily mounting the prosthetic bone 10 so that the upper end of the 200 is in contact with the lower portion of the upper flange of the prosthetic bone 10; And, (4) provides a construction method of the prosthetic bone connection structure for the self-positioning of the composite PC member, characterized in that it comprises a ;;

According to the present invention, the following effects are expected.

First, it provides a prosthesis connection structure and construction method for the self-positioning of the composite PC member that can be accurately installed despite the vertical deviation of the column or the construction error using the positioning plate improved the existing plate.

Secondly, prosthetic bone construction can be completed by the simple operation of gravity lowering using self-weight of synthetic PC beam unit. Provide construction method.

Third, prosthetic bone connection structure and construction method for self-positioning composite PC member having high air and cost saving effect by reducing the risk of additional side work to increase the gap and narrow the gap at high altitude for positioning the prosthetic bone.

Fourth, the existing steel frame reinforces the joining part by reinforcing the flange and web reinforcing plate on both sides after joining, which increases the joining time and risks of safety. Providing a prosthetic bone connection structure and a construction method for the self-positioning of the composite PC member for reducing the joining time and safe construction using a positioning plate to.

1 illustrates a conventional prosthetic bone connection structure.
Figure 2 illustrates a problem of the conventional prosthetic connection structure.
Figure 3 illustrates a prosthesis connection structure for self positioning of the composite PC member of the present invention.
Figure 4 illustrates another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention.
Figure 5 illustrates another embodiment of the prosthesis connection structure for self positioning of the composite PC member of the present invention.
Figure 6 illustrates another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention.
7 to 10 show the process of the method of construction of the prosthetic bone connection structure for self-positioning the composite PC member of the present invention.
Figure 11 illustrates the process of coupling the prosthetic bone and bracket steel in the construction method of the prosthetic bone connection structure for the self-positioning composite PC member of the present invention.
12 to 15 show the process of the construction method of another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention.
Figure 16 shows the coupling process of the prosthetic bone and bracket steel in the construction method of another embodiment of the prosthetic bone connection structure for self-positioning the composite PC member of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Synthesis PC Absent self Positioning  for Prosthetic bone  Connection structure

Figure 3 illustrates a prosthesis connection structure for self positioning of the composite PC member of the present invention.

Prosthetic bone connection structure for self-positioning the composite PC member of the present invention is a structure for connecting the prosthetic bone to the bracket steel as shown in Figure 1 (a),

Bracket steel frame 100 installed on the PC column unit (C); Prosthetic bone 10 is installed on the PC beam unit (B) is one end is coupled to the other end of the bracket steel frame (100); And a pair of positioning plates 200 for connecting the web of the other end of the bracket steel frame 100 and the web of the one end of the prosthetic bone 10.

The positioning plate 200 is partially installed in the bracket steel frame 100 and the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10 are formed to be inclined in a shape corresponding to the prosthetic bone ( One end of the 10) is installed on the other end of the bracket steel frame 100 by the weight of the PC beam unit (B), the upper end of the positioning plate 200 abuts the lower portion of the upper flange of the prosthesis (10) Since the prosthetic bone 10 is temporarily mounted, it is characterized in that the vertical positioning left and right automatically.

The bracket steel frame 100 and the prosthetic bone 10 may be used as a conventional I-shaped steel, but is preferably set to the T-shape shown in Figure 3 (a).

In addition, when the upper end surface of the positioning plate 200 has a chamfer type or a V-cut type as shown below, the insertion of the web at one end of the prosthetic bone 10 is considered. desirable.

Figure 4 illustrates another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention.

In another embodiment of the prosthetic bone connection structure for self-positioning the composite PC member of the present invention shown in Figure 4 the positioning plate 200 is bent at the top of the web reinforcing plate 210` and the upper flange reinforcing plate 220 Position plate consisting of `) (200`),

Since the upper flange reinforcing plate 220 ′ is in contact with the lower portion of the upper flange of the prosthetic bone 10, the prosthetic bone 10 is temporarily mounted, and thus the up, down, left and right positioning is automatically performed. At this time, the positioning plate 200` is divided into a web reinforcing plate 210` and an upper flange reinforcing plate 220` so that the bending portion is automatically chamfered type (Chamfer type) or V-cut type (as shown below). V-cut type) to facilitate the insertion of one end of the prosthetic bone 10, as shown in ② of FIG.

3 (b) and 4 (b), the corresponding surface where the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10 come into contact with each other descends vertically from the top. It may be characterized by being formed obliquely at the interruption.

Figure 5 illustrates another embodiment of the prosthesis connection structure for self positioning of the composite PC member of the present invention.

Another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention shown in Figure 5 is a structure for connecting the prosthesis to the bracket steel,

Inverted T-shaped bracket steel frame 100` installed on the PC column unit (C); An inverted T-shaped prosthetic bone 10 'installed on the PC beam unit B and having one end coupled to the other end of the bracket steel frame 100; And a pair of positioning plates (200``) for connecting the web of the other end of the bracket steel frame (100`) and the web of the end of the prosthetic bone (10`);

The positioning plate 200 ″ is partially installed on the prosthetic bone 10 ′, and the web of the other end of the bracket steel 100 ′ and the web of one end of the prosthetic bone 10 ′ are formed to be inclined to correspond to each other. One end of the prosthetic bone 10` is installed at the other end of the bracket steel frame 100` by the weight of the PC prosthesis unit B, and a lower end of the positioning plate 200`` is the prosthetic bone ( The prosthetic bone 10` is temporarily placed in contact with the upper portion of the lower flange of 10`), so that the up, down, left and right positioning is automatically performed.

FIG. 5 is different from FIG. 1, inverse T-type steel frame is used as a prosthetic bone, and therefore, the positioning plate 200 ″ is partially installed in the prosthetic bone 10 ′, and the positioning plate 200 The lower end of ``) is in contact with the upper portion of the lower flange of the prosthetic bone 10`.

Figure 6 illustrates another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention.

Another embodiment of the prosthetic bone connection structure for the self-positioning of the composite PC member of the present invention shown in Figure 6 is the positioning plate 200`` is bent at the bottom of the web reinforcing plate 210```and the lower flange Positioning plate (200 `` `) consisting of a reinforcing plate (220` ``),

Since the lower flange reinforcing plate (220 ') is in contact with the upper portion of the lower flange of the prosthetic bone (10') is characterized in that the upper and lower left and right positioning is automatically mounted.

5 (b) and 6 (b), the corresponding surface where the web of the other end of the bracket steel frame 100 ′ and the web of one end of the prosthetic bone 10 ′ abut is vertically from the top. It may be characterized in that it is formed inclined at the interruption.

2. Synthesis PC Absent self Positioning  for Prosthetic bone  Construction method of connection structure

7 to 10 show the process of the construction method of the prosthetic bone connection structure for the self-positioning of the composite PC member of the present invention, Figure 11 is the construction of the prosthetic bone connection structure for the self-positioning of the composite PC member of the present invention In the method shows the process of coupling the prosthetic bone and bracket steel.

Construction method of the prosthetic bone connection structure for the self-positioning of the composite PC member of the present invention is a method for constructing the prosthetic bone connection structure for the self-positioning of the composite PC member of Figure 3 or 4,

(1) a positioning plate installation step of installing the positioning plate 200 on the bracket steel frame 100 of the PC column unit (C);

(2) PC beam unit lifting step of lifting the PC beam unit (B), the prosthetic bone 10 is installed as shown in FIG.

(3) As shown in Figs. 8 to 9 and Figs. 1 to ④ of Fig. 11, the prosthetic bone 10, which is lifted up, is lowered, and the one end of the prosthetic bone 10 is lowered by its own weight. PC beam unit mounting step of temporarily mounting the prosthesis 10 while being installed at the other end of the bracket steel frame 100, the upper end of the positioning plate 200 abuts the lower portion of the upper flange of the prosthesis (10); And

(4) a body fastening step of installing other plates commonly used as shown in ⑤ of FIGS. 10 and 11 and fastening them using bolts and nuts;

Characterized in that comprises a.

12 to 15 show the process of the construction method of another embodiment of the prosthesis connection structure for self-positioning the composite PC member of the present invention, Figure 16 is a prosthetic connection for self-positioning the composite PC member of the present invention In the construction method of another embodiment of the structure is shown the coupling process of the prosthetic bone and bracket steel.

The construction method of another embodiment of the prosthetic bone connection structure for self-positioning the composite PC member of the present invention is a method for constructing the prosthetic bone connection structure for self-positioning the composite PC member of Figure 5 or 6,

(1) a positioning plate installation step of pre-installing the positioning plate 200`` on the prosthesis 10 ';

(2) PC beam unit lifting step of lifting the PC beam unit (B), the prosthetic bone (10 ') is installed as shown in FIG.

(3) As shown in Figs. 13 to 14 and 16 to 1 to ④, one end of the prosthetic bone 10 'is lowered by lowering the PC prosthesis unit B on which the prosthetic bone 10' is mounted. While being installed at the other end of the bracket steel frame (100 '), the prosthesis (10') is temporarily mounted so that the lower end of the positioning plate (200 ') abuts the upper upper flange of the prosthesis (10') PC auxiliary unit mounting step; And

(4) a main body fastening step of installing other plates commonly used as shown in ⑤ of FIGS. 15 and 11 and fastening them using bolts and nuts;

Characterized in that comprises a.

In conclusion, the present invention can be accurately installed despite the vertical deviation of the column or the construction error using the positioning plate improved the existing plate, the unskilled prosthesis by the simple operation of gravity lowering using the weight of the synthetic PC beam Positioning can be completed, guaranteeing a certain quality, reducing the risk of safety accidents, reducing additional work such as positioning of the prosthetic bone, reducing air and cost, and reducing the joining time by using a positioning plate that reinforces web and flange at the same time And safe construction has the advantage that it is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

B: PC Beam Unit
C: PC pillar unit
10, 10`: prosthetic bone
20: plate
100, 100 `: bracket steel
200, 200`, 200``, 200```: Positioning Plate
210`, 210```: Web reinforcement plate
220`: Upper Flange Reinforcement Plate
220```: Lower Flange Reinforcement Plate

Claims (10)

As a structure for connecting the prosthesis to the bracket steel frame,
Bracket steel frame 100 installed on the PC column unit (C);
Prosthetic bone 10 is installed on the PC beam unit (B) is one end is coupled to the other end of the bracket steel frame (100); And
A pair of positioning plates 200 connecting the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10;
, ≪ / RTI >
The positioning plate 200 is partially installed in the bracket steel frame 100 and the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10 are formed to be inclined in a shape corresponding to the prosthetic bone ( One end of the 10) is installed on the other end of the bracket steel frame 100 by the weight of the PC beam unit (B),
Since the upper end of the positioning plate 200 abuts the lower portion of the upper flange of the prosthetic bone 10, the prosthetic bone 10 is temporarily mounted so that the positioning of the composite PC member is automatically performed. Prosthetic joint structure.
In claim 1,
The positioning plate 200 is bent at the top to be a positioning plate 200` consisting of a web reinforcing plate 210` and an upper flange reinforcing plate 220`,
Self-positioning of the composite PC member characterized in that the upper flange reinforcing plate 220` is in contact with the lower portion of the upper flange of the prosthetic bone 10 is temporarily mounted so that the upper and lower left and right positioning Prosthetic joint structure for the.
3. The method according to claim 1 or 2,
The corresponding surface where the web of the other end of the bracket steel frame 100 and the web of one end of the prosthetic bone 10 comes into contact with each other is vertically descended from the top, and is formed to be inclined at an interruption. .
As a structure for connecting the prosthesis to the bracket steel frame,
Inverted T-shaped bracket steel frame 100` installed on the PC column unit (C);
An inverted T-shaped prosthetic bone 10 'installed at the PC beam unit B and having one end coupled to the other end of the bracket steel frame 100; And
A pair of positioning plates (200``) for connecting the web of the other end of the bracket steel frame (100`) and the web of one end of the prosthetic bone (10`);
, ≪ / RTI >
The positioning plate 200 ″ is partially installed on the prosthetic bone 10 ′, and the web of the other end of the bracket steel 100 ′ and the web of one end of the prosthetic bone 10 ′ are formed to be inclined to correspond to each other. One end of the prosthetic bone 10` is installed on the other end of the bracket steel frame 100` by the weight of the PC beam unit (B),
Synthetic PC member, characterized in that the positioning plate 200 `` the lower end of the prosthetic bone 10 ′ abuts the upper portion of the lower flange of the prosthetic bone 10 ʻ Prosthetic joint structure for self positioning.
5. The method of claim 4,
The positioning plate 200 ″ is bent at the bottom to be a positioning plate 200 ′ ″ consisting of a web reinforcement plate 210 ′ ″ and a lower flange reinforcement plate 220 ′ ″,
The lower flange reinforcing plate (220 `` `) is in contact with the upper portion of the lower flange of the prosthesis (10`) because the prosthesis (10`) is temporarily mounted, the composite PC, characterized in that the positioning up and down automatically Prosthetic bone connection structure for self positioning of members.
5. The method according to claim 4 or 5,
Prosthesis for self-positioning composite PC member, characterized in that the mating surface of the other end of the web and the prosthetic bone 10` end of the bracket steel frame (100`) is inclined at the interruption vertically from the top Connection structure.
A method for constructing a prosthesis connection structure for self-positioning the composite PC member of claim 1 or 2,
(1) a positioning plate installation step of installing the positioning plate 200 on the bracket steel frame 100 of the PC column unit (C);
(2) the PC beam unit lifting step of lifting the PC beam unit (B) in which the prosthesis 10 is installed;
(3) while lowering the PC prosthesis unit (B) on which the prosthetic bone 10 is mounted, one end of the prosthetic bone 10 is installed at the other end of the bracket steel frame 100 by its own weight, and the positioning plate ( PC beam unit mounting step of temporarily mounting the prosthetic bone 10 so that the upper end of the 200 is in contact with the lower portion of the upper flange of the prosthetic bone 10; And
(4) a body tightening step of installing other plates and fastening using bolts and nuts;
Construction method of the prosthetic bone connection structure for self-positioning the composite PC member, characterized in that comprising a.
A method for constructing a prosthetic bone connection structure for self-positioning the composite PC member of claim 3,
(1) a positioning plate installation step of installing the positioning plate 200 on the bracket steel frame 100 of the PC column unit (C);
(2) the PC beam unit lifting step of lifting the PC beam unit (B) in which the prosthesis 10 is installed;
(3) while lowering the PC prosthesis unit (B) on which the prosthetic bone 10 is mounted, one end of the prosthetic bone 10 is installed at the other end of the bracket steel frame 100 by its own weight, and the positioning plate ( PC beam unit mounting step of temporarily mounting the prosthetic bone 10 so that the upper end of the 200 is in contact with the lower portion of the upper flange of the prosthetic bone 10; And
(4) a body tightening step of installing other plates and fastening using bolts and nuts;
Construction method of the prosthetic bone connection structure for self-positioning the composite PC member, characterized in that comprising a.
A method for constructing a prosthesis connection structure for self-positioning the composite PC member of claim 4 or 5,
(1) a positioning plate installation step of pre-installing the positioning plate 200`` on the prosthesis 10 ';
(2) PC beam unit lifting step of lifting the PC beam unit (B) in which the prosthesis (10 ') is installed;
(3) while lowering the PC prosthesis unit B in which the prosthetic bone 10` is lifted, one end of the prosthetic bone 10` is installed at the other end of the bracket steel frame 100` by its own weight,
PC beam unit mounting step for temporarily mounting the prosthesis (10`) so that the lower end of the positioning plate (200``) abuts on the upper upper flange of the prosthesis (10`); And
(4) a body tightening step of installing other plates and fastening using bolts and nuts;
Construction method of the prosthetic bone connection structure for self-positioning the composite PC member, characterized in that comprising a.
A method for constructing a prosthetic bone connection structure for self-positioning the composite PC member of claim 6,
(1) a positioning plate installation step of pre-installing the positioning plate 200`` on the prosthesis 10 ';
(2) PC beam unit lifting step of lifting the PC beam unit (B) in which the prosthesis (10 ') is installed;
(3) while lowering the PC prosthesis unit B in which the prosthetic bone 10` is lifted, one end of the prosthetic bone 10` is installed at the other end of the bracket steel frame 100` by its own weight,
PC beam unit mounting step for temporarily mounting the prosthesis (10`) so that the lower end of the positioning plate (200``) abuts on the upper upper flange of the prosthesis (10`); And
(4) a body tightening step of installing other plates and fastening using bolts and nuts;
Construction method of the prosthetic bone connection structure for self-positioning the composite PC member, characterized in that comprising a.

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