KR101528033B1 - Precast segment assembly and precast segment structure by using of it) - Google Patents

Abstract

The present invention relates to a precast segment assembly in which a plurality of precast segments are formed in a circumferentially connected fashion, the precast segment assembly comprising: a plurality of precast segments having a circumferentially segmented annular cross section; An exposed reinforcing bar formed by exposing a part of a buried reinforcing bar disposed inside the precast segment in the direction of a joining portion of the precast segment and spaced longitudinally from both sides of the precast segment; A cast iron provided in the joining portion in the longitudinal direction and provided to the exposed reinforcing bar; A cast iron root passing ring provided in advance in the exposed reinforcing bars so that the cast iron can easily be installed, A pocket lid surrounding the abutment and including an outer pocket lid and an inner pocket lid; And a grout portion injected into the joining portion, wherein the exposed reinforcing bar is provided with a U-shaped reinforcing bar, the cast iron passing ring is installed at an inner edge of a C-shaped portion of the exposed reinforcing bar, And a plurality of pre-cast segments formed in the pre-cast segment of the pre-cast segment, the pre-cast segment being provided with a plurality of pre-cast segments, Wherein the pre-cast segment is assembled on both sides with the lid mounted via a stud.

Description

[0001] PRECAST SEGMENT ASSEMBLY AND PRECAST SEGMENT STRUCTURE BY USING OF IT [0002]

The present invention relates to a precast segment assembly and a precast segment structure having the precast segment assembly. More particularly, the present invention relates to a precast segment structure including a pierced column having a cross section of a large diameter or a precast wind tower, Precast segment assemblies that facilitate integration in the circumferential direction in the field and pre-cast segment structures comprising the precast segment assemblies.

As the size of bridges and wind turbines grows larger, the size of support structures that support them is gradually increasing.

The use of a circular hollow structure for the reduction of the cross section and the weight is increasing in the use of the concrete material having the advantage of compression load resistance in the support structure.

However, the conventional method using the circular hollow structure may be accompanied by restrictions during transportation. Generally, the maximum height that can be transported in Korea is 4.2 m when the low-grade trailer is used, so there is a problem that the large-sized structures such as wind towers, which usually reach 8 m or more, are restricted.

 Therefore, in order to improve the road transportation convenience and the air saving on the large circular hollow structure, the precast concrete panel field assembling method has been actively studied instead of the concrete field casting method.

Conventionally, in order to assemble a circular precast concrete panel, a method of tightly coupling a hollow structure with a bolt or a prestressing steel wire has been studied. However, such an inner fastening method has a problem in that, after fastening between panels, Thereby causing a problem of maintenance due to the introduction of rainwater into the inside of the hollow structure.

In addition, when the panel is coupled using the bolt or the prestressing steel wire, there is a problem that the stress is concentrated on the concrete portion around the connection portion, thereby reducing the structural safety.

In order to solve the problem of the internal fastening method, a method of concurrently performing external fastening can be considered. However, this not only deteriorates the beauty of the hollow structure, but also causes a problem of corrosion of the exposed steel wire.

In addition, when the external fastening system is used, work from the outside of the structure must be accompanied, and when the height of the structure is increased, or when a structure such as a wind tower is constructed at sea, there is a problem have.

The present invention is realized by recognizing at least any one of the requirements or problems occurring in the conventional precast segment assembly and the precast segment structure.

In one aspect, the present invention utilizes a plurality of precast segments having a circumferentially-segmented annular cross-section to construct a precast segment assembly and structure, thereby providing a precast segment that is easy to transport, Assemblies and pre-cast segment structures.

In one aspect, the present invention is directed to providing precast segment assemblies and pre-cast segment structures that prevent storm infiltration into the interior of the precast segment assemblies, thereby providing ease of maintenance.

As an aspect of the present invention, there is provided a precast segment assembly which eliminates an internal fastening method using a prestressing steel wire used for circumferential connection of a precast segment assembly, thereby eliminating stress concentration occurring in a circumferential connecting portion, Segment assemblies and pre-cast segment structures.

The present invention, in one aspect, solves the corrosion problem of the exposed fasteners used for external fastening by excluding the external fastening method of the pre-cast segments, thereby deteriorating the appearance of the pre-cast segment assembly and pre-cast segment structure Pre-cast segment assembly and pre-cast segment structure.

As an aspect of the present invention, it is possible to exclude the external fastening operation of the precast segment, thereby eliminating the external fastening operation of the structure. Thus, even when the structure is increased or the structure such as a wind tower is installed at sea, The present invention provides a pre-cast segment assembly and a pre-cast segment structure that can minimize the damage of the worker due to the operation of the pre-cast segment.

In accordance with one aspect of the present invention, there is provided a precast segment assembly in which a plurality of precast segments are connected in a circumferential direction, the precast segment assembly comprising: a plurality of precast segments having a circumferentially- ; An exposed reinforcing bar formed by exposing a part of a buried reinforcing bar disposed inside the precast segment in the direction of a joining portion of the precast segment and spaced longitudinally from both sides of the precast segment; A cast iron provided in the joining portion in the longitudinal direction and provided to the exposed reinforcing bar; A cast iron root passing ring provided in advance in the exposed reinforcing bars so that the cast iron can easily be installed, A pocket lid surrounding the abutment and including an outer pocket lid and an inner pocket lid; And a grout portion injected into the joining portion, wherein the exposed reinforcing bar is provided with a U-shaped reinforcing bar, the cast iron passing ring is installed at an inner edge of a C-shaped portion of the exposed reinforcing bar, And a plurality of pre-cast segments formed in the pre-cast segment of the pre-cast segment, the pre-cast segment being provided with a plurality of pre-cast segments, Wherein the pre-cast segment is assembled on both sides with the lid mounted via a stud.

delete

delete

delete

Preferably, the cast iron root may be provided so as to pass through the cast iron root passing ring provided on the exposed reinforcing bar of one side of the precast segment to be joined and the cast iron root passing ring provided on the exposed reinforcing bars of the other side of the precast segment .

Preferably, the pocket lid portion may include at least one shear stiffener formed in the joining direction.

Preferably, the pre-cast segment is provided with an installation groove in which the pocket lid is provided, and when the pocket lid is installed in the installation groove, the outer surface of the pocket lid and the outer surface of the precast segment may be formed at the same height .

Preferably, the exposed reinforcing bars of the adjoining precast segments to be joined may be disposed with a height difference in the longitudinal direction with respect to each other.

According to an aspect of the present invention, a plurality of precast segment assemblies may be vertically stacked and connected.

Preferably, the cast iron muscle may be installed over a plurality of said segment assemblies stacked in the vertical direction.

According to an embodiment of the present invention as described above, the pre-cast segment assembly and the structure are formed by utilizing the pre-cast segment, which is manufactured in advance, thereby enabling mass production of the segment, This reduction is possible, and it is possible to shorten the construction period by enabling rapid connection at the site.

According to an embodiment of the present invention, grout material is injected into the joint portion of the precast segment to be jointed, thereby preventing the inflow of the storm into the precast segment assembly and facilitating maintenance of the facility It is effective.

According to an embodiment of the present invention, a pouch lid including an outer pouch lid and an inner pouch lid and a grout portion poured into the pivot lid are provided to surround the abutment, It is possible to shorten the construction period and reduce the construction cost due to the installation and disassembly of the formwork.

According to an embodiment of the present invention, since the construction of the cast iron root passing ring is provided beforehand in the exposed reinforcing bars so that the cast iron can easily be installed, So that the installation of the cast iron can be easily carried out, the construction period is shortened, and the durability of the joint can be increased by the installed cast iron rope.

According to an embodiment of the present invention, the cast iron passing ring provided on the exposed reinforcing bar of one side of the precast segment to which the cast iron is joined and the cast iron passing ring provided on the exposed reinforcing bar of the other side of the precast segment The exposed reinforcing bars of both precast segments are fixed together by the cast iron rope so that the joints can be integrated more tightly.

According to an embodiment of the present invention, since the exposed reinforcing bars of the adjacent pre-cast segments to be joined are arranged with a height difference in the longitudinal direction from each other, the width of the joining portions of the precast segments can be shortened .

According to one embodiment of the present invention, by providing the cast iron rods over a plurality of precast segment assemblies stacked in the vertical direction, the integrity of the vertically stacked segment assemblies can be improved, and the connecting operations of the plurality of segment assemblies can be simplified So that the construction period can be shortened.

According to an embodiment of the present invention, by eliminating the internal fastening method using the prestressing steel wire used for the circumferential connection of the precast segment assembly, it is possible to improve the structural stability by eliminating the stress concentration occurring in the circumferential connecting portion There is an effect that can be.

According to one embodiment of the present invention, by eliminating the external fastening method of precast segments, the problem of corrosion of the exposed fasteners used for external fastening is solved, and the appearance of the pre-cast segment assembly and precast segment structure thereby is damaged Can be prevented.

According to an embodiment of the present invention, it is possible to exclude the external fastening operation of the precast segment, thereby eliminating the external fastening operation of the structure. Thus, even when the structure is increased or a structure such as a wind tower is installed at sea It is possible to minimize the damage of the worker due to work from the outside.

1 is a top view of a precast segment assembly in accordance with an embodiment of the present invention.
2 is an enlarged view of a connection portion of a precast segment assembly according to an embodiment of the present invention before coupling.
3 is an enlarged view of a connection of a precast segment assembly according to an embodiment of the present invention after engagement;
4A is a cross-sectional view of a connection of a precast segment assembly in accordance with an embodiment of the present invention.
4B is a partial enlarged view of FIG. 4A.
5 is a diagram illustrating an embodiment of a cast iron root installed in a plurality of precast segment assemblies of the present invention.
6 is an enlarged view of a connection of a precast segment assembly in accordance with another embodiment of the present invention.
7 is a cross-sectional view of a connection of a precast segment assembly in accordance with another embodiment of the present invention.
8 is a cross-sectional view of a precast segment structure in accordance with another embodiment of the present invention.
9 is a top view of a precast segment structure in accordance with another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a precast segment assembly according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 to 10, a precast segment assembly 10 according to an embodiment of the present invention includes a precast segment 100, a cast iron 200, a pocket lid 300, and a grout 400 .

A precast segment assembly 10 according to an embodiment of the present invention is a precast segment assembly 10 in which a plurality of precast segments 100 are formed in a circumferentially connected fashion, And a part of the buried reinforcing bar 111 disposed in the precast segment 100 is exposed in the direction of the joining portion C of the precast segment 100, An exposed reinforcing bar 110 formed on both sides of the precast segment 100 in the longitudinal direction and a longitudinal bar 200 provided in the longitudinal direction and provided to the exposed reinforcing bar 110, A pocket lid 300 including an outer pocket lid 301 and an inner pocket lid 302 which are provided in the form of surrounding the bonding portion C and a grout portion 400 ); .

As shown in FIG. 1, precast segment assembly 10 may be formed by connecting a plurality of precast segments 100 having circumferentially segmented annular cross-sections in the circumferential direction.

FIG. 1 illustrates a precast segment assembly 10 in which three precast segments 100 are connected in a circumferential direction, but is not limited thereto. Four or more precast segments 100 may be connected .

The number of precast segments 100 constituting the precast segment assembly 10 may vary depending on the required diameters of the precast segments 100 and the number of connections of the precast segments 100, . ≪ / RTI >

As shown in Fig. 1, precast segment 100 is a member having an annular cross section in the form of a circumferentially divided shape.

1, the joint C of the precast segment 100 is a connecting portion existing between adjacent precast segments 100, and is a connecting portion between the left precast segment 100 and the right precast segment 100. [ Grooves having a rectangular cross-section can be formed by the segments 100.

2 and 3, a buried reinforcing bar 111 may be disposed within the precast segment 100 and a portion of the buried reinforcing bar 111 disposed within the precast segment 100 may be The exposed reinforcing bars 110 may be formed by being exposed to the joints C.

The exposed reinforcing bars 110 serve to fix a plurality of exposed reinforcing bars 110 provided in the longitudinal direction to the joint C. [

As shown in FIGS. 4A and 4B, the exposed reinforcing bars 110 may be formed on both sides of the precast segment 100 at predetermined intervals in the longitudinal direction.

That is, at the joint C, a plurality of exposed reinforcing bars 110 may be provided in the longitudinal direction in the direction of the joint C in each precast segment 100. 4A and FIG. 7, the exposed reinforcing bars 110 of the pre-cast segments 100 to be bonded may be disposed with a height difference in the longitudinal direction thereof.

As shown in FIGS. 2 and 3, the exposed reinforcing bars 110 of adjacent adjacent precast segments 100 may be arranged to cross each other. And the durability of the joint portion C can be increased by arranging the cast iron rope 200 in the square corner space formed by intersecting them.

3, the front and rear faces are sealed by the pocket lid 300 including the outer pocket lid 301 and the inner pocket lid 302, which are provided so as to surround the front and rear faces of the joint C, And the grout portion 400 may be formed by placing a grout material in the joint portion C formed as described above.

As shown in FIGS. 2 and 3, the precast segment 100 may be formed by embedding a fixing stud 140 for mounting the pocket lid 300 therein. The pocket lid 300 may be installed and fixed to the embedded fixed stud 140.

An outer pocket cover 302 is mounted to the left precast segment 100 via a fixed stud 140 and an inner pocket cover 301 is attached to the right precast segment 100, The left and right segments can be assembled as shown in FIG. 3, with the fixed stud 140 interposed therebetween.

Conversely, the inner pocket cover 301 is mounted to the right precast segment 100 via the fixed stud 140, and the outer pocket cover 302 is attached to the left precast segment 100 by the fixing studs 140 The left and right segments can be assembled as shown in FIG.

3, the grout part 400 is formed by filling the joint part C provided with the exposed reinforcing bar 110, the main iron wire 200 and the pocket lid part 300 with a grout material, (C) and curing for a certain period of time to integrate the precast segments 100 on both sides to be bonded.

This prevents the entry of rainwater into the interior of the pre-cast segment assembly 10, thereby facilitating maintenance of the pre-cast segment structure 1.

2, 3 and 6, the precast segment assembly 10 is installed in the exposed reinforcing bar 110 in advance so as to facilitate the installation of the cast iron 200, And may further include a cast iron root passing ring 120 which is provided to be able to rotate.

2, 3, and 6, the exposed reinforcing bar 110 is formed of a C-shaped reinforcing bar, and the reinforcing bar passing ring 120 is installed on the inner edge of the C- .

3, 4A and 4B, the cast iron 200 may be provided to pass through the plurality of cast iron permeation rings 120 formed in each of the precast segments 100.

That is, a cast iron muscle 200 is installed on a plurality of cast iron permeable rings 120 provided on a plurality of exposed reinforcing bars 110 formed on a precast segment 100 disposed on the left side, A separate cast iron rope 200 may be installed on a plurality of cast iron root passing rings 120 installed in a plurality of exposed reinforcing bars 110 formed on the steel casting 100.

As shown in FIGS. 6 and 7, the cast iron muscle 200 is connected to the cast iron muscle passing ring 120 installed on the exposed reinforcing bar 110 of the precast segment 100 on one side, And the cast steel frame passing ring 120 installed in the exposed reinforcing bar 110 of the cast segment 100.

That is, a plurality of cast iron permeable rings 120 provided in a plurality of exposed reinforcing bars 110 formed on the left precast segment 100 and a plurality of exposed portions formed on the precast segment 100 disposed on the right It is possible to install the cast iron rope 200 so as to pass through the plurality of cast iron root passing rings 120 installed in the reinforcing bars 110 together.

2 and 3, the pocket lid 300 is a member that replaces the role of a mold for forming the grout part 400 and is formed by the pocket lid part 300, And the grout portion 400 may be formed by placing grout in the joint portion C formed as described above.

The pocket lid 300 is provided to surround the abutment C and may include an outer pocket lid 301 and an inner pocket lid 302. By including the configuration of the grout portion 400 to be injected into the joint portion C, the pocket lid portion 300 can replace the role of the die for forming the grout portion 400, The dismantling work is unnecessary and the construction period can be shortened.

2 and 3, the pocket lid 300 may include at least one shear reinforcement 310 formed in the direction of the joint C, and the shear reinforcement 310 may have a height difference And the exposed reinforcing bars 110 may be disposed between the exposed reinforcing bars 110.

As shown in FIG. 3, the shear stiffener 310 may be formed of a shear stud.

As shown in FIG. 2, the pre-cast segment 100 may be provided with an installation groove 130 in which the pocket lid 300 is installed. As shown in FIG. 3, The outer surface of the pocket lid 300 and the outer surface of the precast segment 100 may be formed to have the same height when the pocket lid 300 is installed in the lid 130.

As shown in FIG. 5, the pre-cast segment assemblies 10 may be stacked vertically to form the pre-cast segment structure 1. At this time, the cast iron 200 may be formed as a single member installed over a plurality of precast segment assemblies 10 stacked in the vertical direction.

As shown in FIGS. 4A, 4B, and 7, the exposed reinforcing bars 110 of adjacent adjacent precast segments 100 may be arranged with a height difference in the longitudinal direction with respect to each other.

Next, the precast segment structure 1 will be described in detail with reference to Figs. 5, 8 and 9.

As shown in Figure 8, the precast segment structure 1 may be formed by stacking a plurality of precast segment assemblies 10 in a vertical direction. Although FIG. 8 shows two precast segment assemblies 10 stacked vertically, it is also possible to stack three or more precast segment assemblies 10 along the height of the required structure.

The plurality of precast segment assemblies 10 stacked in the vertical direction may be provided with a prestressed steel wire T through a sheath tube formed in the longitudinal direction of the precast segment 100.

As shown in Fig. 8, the prestressed steel wire T can be fixed by the fixing port S in a fixing portion provided on the inner surface of the precast segment 100. [

As shown in FIG. 9, a plurality of prestressed steel wires T may be installed at predetermined intervals in the precast segment 100.

As shown in Figure 5, the cast iron 200 used in the precast segment structure 1 may be provided as a single member installed over a plurality of precast segment assemblies 10 stacked in a vertical direction .

For example, if the precast segment assembly 10 is 3 meters in height and the required precast segment structure 1 is 9 meters in height, the cast iron 200 may be pre-fabricated at 9 meters in the factory .

As described above, by forming the cast iron rods 200 as a single member provided over a plurality of precast segment assemblies 10 stacked in the vertical direction, it is possible to improve the integrity of the precast segment assemblies 10 stacked in the vertical direction The connection work of the plurality of pre-cast segment assemblies 10 is simplified, and the construction period can be shortened.

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 exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

1: Precast segment structure 10: Precast segment assembly
100: precast segment 110: exposed reinforcing bar
111: buried reinforcing bar 120: cast iron root passing ring
130: Installation groove 140: Fixed stud
200: Cast iron root 300: Pocket lid part
301: Outside pocket cover 302: Inner pocket cover
310: shear stiffener 400: grout section
C: joint S: fixer
T: Prestressed steel wire

Claims (10)

A precast segment assembly in which a plurality of precast segments are formed in a circumferential connection,
A plurality of precast segments having a circumferentially-segmented annular cross-section;
An exposed reinforcing bar formed by exposing a part of a buried reinforcing bar disposed inside the precast segment in the direction of a joining portion of the precast segment and spaced longitudinally from both sides of the precast segment;
A cast iron provided in the joining portion in the longitudinal direction and provided to the exposed reinforcing bar;
A cast iron root passing ring provided in advance in the exposed reinforcing bars so that the cast iron can easily be installed,
A pocket lid surrounding the abutment and including an outer pocket lid and an inner pocket lid; And
And a grout portion injected into the joining portion,
The exposed reinforcing bar is provided as a reinforcing bar of a C-
Wherein the cast iron root passing ring is provided at the inner edge of the C-shaped portion of the exposed reinforcing bar,
Preferably,
A plurality of pre-cast segments formed in the plurality of pre-cast segments,
The outer pocket cover is provided on the one side of the precast segment via a fixing stud and the precast segments on both sides are assembled in a state where the inner pocket cover is fixed to the other precast segment via the fixing stud Wherein the pre-cast segment assembly comprises: delete delete delete The method as claimed in claim 1,
Wherein the cast steel reinforcing bars are provided so as to penetrate together the cast iron permeable ring provided on the exposed reinforcing bars of one side of the precast segment to be joined and the cast iron casting passing rings provided on the exposed reinforcing bars of the other precast segment on the other side. Assembly. The portable terminal according to claim 1,
And at least one shear stiffener formed in the direction of the joining portion. The method according to claim 1,
Wherein the pre-cast segment is provided with an installation groove in which the pocket lid portion is provided,
Wherein an outer surface of the pocket lid portion and an outer surface of the precast segment are formed at the same height when the pocket lid portion is installed in the mounting groove. The method according to claim 1,
Wherein the exposed reinforcing bars of the adjoining precast segments to be joined are arranged with a height difference in the longitudinal direction relative to each other. A precast segment structure as claimed in any one of claims 1 to 8, wherein the plurality of precast segment assemblies are stacked and connected in a vertical direction. 10. The method according to claim 9,
Wherein the plurality of segment assemblies are installed over a plurality of the segment assemblies stacked in the vertical direction.

Images