KR20190140684A - Prestressed Concrete Built-up Column using Precast Concrete Segment - Google Patents

Abstract

The present invention discloses a prestressed concrete assembling column using a precast segment, which comprises: a precast concrete column segment in which one prestressed concrete column is individually divided into two independent segments so that a PC strand is embedded therein; a PC strand coupling nut to which one side end of the PC strand is anchored while being embedded in concrete of the end side, which is a connecting part of the precast concrete column segment; and a connector performing assembly on the end side, which is the connecting part of the precast concrete column segment provided with the PC strand coupling nut, with a PC strand coupling bolt so as to enable coupling. The present invention is configured to form one prestressed concrete column by coupling two precast concrete column segments so that two connectors coupled to the end, which is the connecting part, come in contact with each other to be bonded to each other.

Description

Prestressed Concrete Built-up Column using Precast Concrete Segment}

The present invention is to pre-presence PC strand in the concrete in order to have the bending strength of the appropriate size to prevent the tensile crack which is a disadvantage of the concrete in the case of manufacturing the concrete column by centrifugal force in the factory Proper length for prestressed concrete columns, which are pre-stressed and pre-stressed to introduce concrete into the concrete after being pulled out and fixed. Each segment is divided into two segments, which are precast concrete column segments by centrifugal force in a factory equipped with a predetermined facility. After production, they are transported to the site, where each segment is assembled and placed on the ground to become a single pillar. Precast (Precast) concrete segment (Prestressed Concrete) a prestressed by (分 節) which relates to prefabricated columns.

In general, the pillars that are built on the ground are made of pre-stressed concrete which is made of steel pipe or concrete with PC prestressing strand by centrifugal force in a factory equipped with certain facilities such as telegraph pole. Most of these are prestressed concrete columns.

Steel pipe columns generally have not only compressive strength but also tensile strength, which is so large that they have sufficient bending strength and light weight, so that they are not only easy to manufacture, transport and install, but also to short lengths that are required for the factory. After making it in advance, it can be easily transported to the site, and each segment can be easily and simply assembled and installed by various methods such as welded joints or bolted joints. It is a well-known fact that the cost of purchasing and manufacturing is very expensive.

On the other hand, concrete columns can be manufactured and installed simply by reinforcing steel and concrete, but in this case, due to the absolute disadvantage of concrete vulnerable to tensile cracking, the concrete pillars fall far short of the required flexural strength required by the columns. Most of them are made of prestressed concrete columns that are pre-tensioned and prestressed.

A typical example is concrete poles. These concrete columns are very inexpensive to manufacture compared to steel pipe columns, but to have a certain strength, they have a large cross section of concrete and are considerably heavy, which can be difficult to handle. In addition, especially in prestressed concrete columns, the PC strands are made to be continuous over the entire length of the column without disconnection. Dividing into short segments makes it impossible to produce. Therefore, a single long concrete column is produced as a whole without any disconnection (斷 切) as a whole, especially the situation that involves a lot of difficulties in handling such as transportation and installation.

As a background technology of the present invention for solving such a problem, there is a Korean Patent Publication No. 2009-0024976 "Assembly Telegraph Pole" (Patent Document 1). In the background art, in the telegraph pole, a penetration is formed and a segmented iron column composed of a plurality of segments; The connecting plate having the same shape as the cross section of the segmented barbed wire, is formed on both sides of the upper and lower sides of the connecting plate and is inserted close to the penetration of the segmented barbed wire to connect each barbed wire, and has a strip shape around the end of the connecting plate. A coupling member comprising a circumferential support to surround the coupling portion between the coupling member and the segmented iron column to support the iron column; A fixing member positioned at a coupling portion of both objects to fix the segmented iron column and the coupling member; We propose a prefabricated telephone pole characterized in that it comprises a.

However, the background art is not only difficult to couple the coupling member, there is a problem that can not resist the wind pressure when the length of the telegraph pole itself is small because the strength of the coupling member portion is small.

Republic of Korea Patent Publication No. 2009-0024976 "Assembly Telegraph Pole"

SUMMARY OF THE INVENTION The present invention is to solve the above problems, by dividing a single prestressed concrete column into two independent segments of a predetermined length and having predetermined facilities. In the factory, the precast concrete column segment is pre-fabricated by centrifugal force, and the two column segments are connected to each other by connecting connectors to be assembled into one column. As a result, all sections where one column is made of concrete will not only have sufficient bending strength to be free from tensile cracking by pre-induced pre-compression stress (pre-stressed compressive stress), but also joints of each column segment at the same time. Also, a precast segment with precast segments that has a compressive strength above concrete. To provide a Prestressed Concrete (Prestressed Concrete) pillar has its purpose.

Another object of the present invention is to provide a prestressed concrete column made of precast segments, which is very convenient and easy to handle, such as transportation and installation.

According to the present invention, a single prestressed concrete column 1 is divided into two independent segments, each of which is precast in which a PC stranding strand 12 is embedded. Precast Concrete column segment 20; Combining the PC steel wires that are embedded in the concrete 11 on the end side, which is the connection part of the precast concrete column segment 20, and the one end of the PC stranding strand 12 is fixed. Nut (9); and the connector for assembling the PC strand wire coupling bolt (10) to the end side of the precast concrete pillar segment 20 is provided with a coupling nut (9) and PC strand connecting nut (9) (30); consisting of two precast concrete column segments (20) joined to the end of the two joints (連結 具) 30 is joined to each other to be joined to each other It is to provide a prestressed concrete prefabricated column of precast segment (Precast), characterized in that to be combined to make a single prestressed concrete pillar (1).

In addition, the precast concrete column segment 20 is a hollow circular pipe shape and is made of concrete, and a prestressing strand 12 is embedded in the concrete 11 so that a single The prestressed concrete column 1 is divided into two independent segments, and the PC strand connecting nut 9 is a hollow tube. One end thereof is open, and the other end thereof is a PC strand wire fixing plate 91 made of a plate in which a PC strand wire through-hole 93 having a hole is formed in the center thereof. The inner surface of the pipe which is blocked and empty inside is composed of a threaded bolt coupling part 92, so that one side of the open part becomes a connection part of the precast concrete column segment 20. In the state that is directed to the tip of the side On the other side, one end of the PC strand (Prestressing Strand) (12) penetrates the PC strand through hole (93) to be settled in the PC strand strand fixing plate 91, the precast concrete pillar segment It is embedded in the concrete 11 of the end side which becomes the connection part of the 20, and the connector 30 is a casing 32 made of a hollow circular pipe, and The plate protruding outward from the casing 32 so that the outer diameter at one end of the casing 32 is larger than the outer diameter of the casing 32. (3) Outer bolt through-holes 331 having two or more perforated holes are provided at intervals along a portion adjacent to the outer periphery of the casing 32, the outer protruding plate 33 ) And a casing 32 which is spaced apart from one end of a casing 32 in which the outer protrusion plate 33 is located. Two or more drilled holes in a predetermined portion adjacent to the circumferential edge of the round plate, which is either centered or blocked, protruding toward the inner center of the casing 32. Inner bolt through hole 312 is provided with the inner protrusion plate 31 is provided with a PC strand wire coupling nut (9) is provided with a precast concrete column segment (20) on one side of the connection portion is provided The predetermined length portion is assembled into a state that is inserted into the casing (32) inside the casing (32), the PC strand wire coupling bolt 10 is smaller than the bolt head 101, the bolt head 101 diameter The screw shaft 102, which is threaded on its outer surface with a circular shape, is provided as a single bolt, so that the screw shaft 102 has an inner bolt through hole 312 of the connector 30. Ball of PC stranded coupling nut (9) through Tightening into the coupling portion 92 is inserted so that the bolt head 101 is fixed to one surface of the connector 30, the inner protruding plate 31 to precast concrete column segment (20) In order to provide a prestressed concrete prefabricated column made of precast segment, characterized in that the connector 30 is coupled to the end of one side to be the connection portion of do.

In addition, in order to assemble a pair of precast concrete column segments 20 to be assembled into a single column 2, a pair of precast concrete column segments prefabricated in the factory ( After transporting the 20 pieces to the site, the connector 30 is first joined to each side that is the connection of the precast concrete column segment 20, and then the two connectors In a state in which the pair of precast concrete pillar segments 20 are connected to each other so that one side of the outer protruding plate 33 is in contact with each other and is in contact with each other. Two or more outer protruding plates 33 having one outer bolt 34 overlapped into two or more respective bolt through holes 331 provided in two overlapping outer protruding plates 33 at once are collectively penetrated. To insert Two joints which are joined to each other so that a pair of precast concrete column segments 20 formed of two segments by tightening with a nut 35 are formed into one column 2. It is to provide a prestressed concrete prefabricated column of precast segments characterized in that the assembly 30).

In addition, one side is attached to the outer surface of the casing (Casing) 32 and the other side is attached to the outer protrusion plate 33 to the casing (32) and the outer protrusion plate 33 Precast segment, characterized in that the stiffener (333) formed in the shape of a connecting plate consisting of two or more connector 30 is provided at intervals To provide prestressed concrete prefabricated columns.

In addition, the outer protrusion plate 33 has a precast segment, characterized in that the outer bolt through hole 331 and the stiffeners 333 are provided while alternately one by one at intervals. To provide prestressed concrete prefabricated columns.

In addition, the inner protruding plate 31 in which the head 101 of the PC steel wire coupling bolt 10 is fixed while not making contact with the concrete 21 at the end of the connection part of the precast concrete column segment 20. In the empty space inside the casing 32, which is formed between the end end portions of the outer protruding plate 33, which is located at a position spaced apart from one side of the surface), a cement mixed material, cement or resin ( Precast, characterized in that the finishing filling portion 40 is formed separately to fill the resin containing Resin, Resin, Resin, and the like to be hardened by hardening An attempt is made to provide prestressed concrete prefabricated columns of segments.

According to the present invention, a single prestressed concrete column is divided into two independent precast concrete column segments each having a predetermined length, thereby centrifugal force in a factory having predetermined facilities. Pre-manufacture by (遠 心力), but pre-stress the columns with the precompressive stress (prestressed compressive stress) uniformly introduced into the concrete over the entire section of each segment. After transportation, the two pillar segments are connected to each other by a connector to be assembled into a single pillar, so that the assembled pillar is connected to each segment as well as to sections made of concrete for each segment. Tensile cracks do not occur at all over the entire section including the joints of the joints. That it has a flexural strength of sufficient size to allow the course and at the same time is particularly valuable effects become very easy to install, easy handling such as transportation and easy.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
FIG. 1A is a front view of a state in which a portion of the center is cut in a state where a conventional prestressed concrete column is erected from above the ground.
FIG. 1B is a cross-sectional view along the AA line of FIG. 1A.
Figure 2a is a front side view of one side of the prestressed concrete prefabricated column of the precast segment of the present invention.
FIG. 2B is an enlarged perspective view of a joint of a precast concrete column segment, which is a main part of FIG. 2A.
Figure 3 is a perspective view of a state in which two connectors (마련 具) provided in the joint connecting portion of the present invention precast concrete column segment facing each other.
4 is a cross-sectional view taken along the line BB of FIG. 2A.
Figure 5 is a pre-compression stress by the PC strand (Prestressing Strand) in the state of standing up on the ground by assembling the two segment columns according to the present invention as a single column by the connector (구 具) Compression stress) is a front view showing the magnitude of the preceding compressive stress (prestressed compressive stress) indicating the state where the compressive stress is introduced evenly over the entire length of the column.
Figure 6 is a part of a state in which two or more PC twisted wire coupling nuts in which one end of the PC stranded wire is settled in concrete together with the PC stranded wire at one end of the one side, which is a connecting portion of the segment pillar according to the present invention Is a perspective view of the incision together,
FIG. 7 is an enlarged cross-sectional view of a portion “A” of FIG. 4, which is a sectional view including a portion of a state in which the center of the vertical direction is cut so that the portion “A” of FIG. 6 is a cross section in the front direction.
8A is a perspective view of a PC strand connecting nut that is part of the present invention.
8B is a cross-sectional view taken along line BB of FIG. 8A and a cross-sectional view taken along line CC and DD of FIG. 8B.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment in detail.

FIG. 1A is a front view of a conventional prestressed concrete column 1, which is erected upward from the ground, and partially cut in the middle thereof, mostly by centrifugal force in a factory equipped with predetermined facilities. As shown in Figure 1b is a hollow circular pipe having a predetermined thickness (pipe) is made of concrete to have a certain length bar in particular of a predetermined size that can sufficiently compensate for the disadvantages of the concrete (11) vulnerable to tensile cracking In order to secure flexural strength, as shown in FIGS. 1A and 1B, two or more PC strands 12 are pre-tensioned in a continuous state without disconnection over the entire length of the column 1. PC steel strands that have been pre-tensioned when the concrete 11 is sufficiently cured and reaches a predetermined strength after being buried in the concrete 11 (Prestressi ng Strand (12) removes the tensile force so that the pre-compression stress (pre-stressed compressive stress) is introduced into the concrete 11 of the column 1 to compensate for the shortcomings of the concrete 11 that is vulnerable to tensile cracking. To have a predetermined bending strength.

The prestressed concrete column 1 of the conventional prestressed concrete column 1 as shown in FIG. 1A and FIG. 1B allows the PC stranded strand 12 to continue without disconnection over the entire length of the column. The prestressed concrete column (1), which is preliminarily manufactured by centrifugal force in the factory equipped with the machine, is divided into two short segments. Due to the lack of numbers, considerable difficulties are involved in handling such as transportation and installation.

FIG. 2A is a front view of a prestressed concrete prefabricated column 20 made of a precast segment of the present invention, and two pre-connected connectors 30 are provided at one end of the prestressed concrete prefabricated column 20. FIG. Prestressed concrete is a front view showing the shape of the prestressed concrete pillar segment (20) to form a prestressed concrete prefabricated column (2) by assembling the connector (30) in contact with each other, FIG. 4 is a cross-sectional view taken along line BB of FIG. 2A, and FIG. 2B is an enlarged perspective view of the connection part of FIG. 2A, and FIG. 3 is a perspective view showing a state in which the two connectors 30 shown in FIG. 2B face each other. .

 First, referring to the configuration of the connector 30 shown in Fig. 3, the casing is made of a hollow circular tube having a predetermined thickness and a predetermined height such that the inner diameter and the outer diameter are different. Casing 32 so that the outer diameter at the one end of the casing 32 and the casing 32 is larger than the outer diameter of the casing 32 by a predetermined size. Two or more drilled holes along a predetermined portion adjacent to the outer circumference of the casing 32 in a circular plate having a predetermined thickness while protruding outward from A predetermined distance from one end of the casing 32 in which the outer protruding plate 33 is located together with the outer protruding plate 33 portions in which the outer bolt through holes 331 are provided at predetermined intervals. Inside the casing 32 at a predetermined position inside the casing 32 which is spaced apart by The inner bolt through-hole 312, which is a hole formed in the center of the circular plate having a predetermined thickness while being protruded toward the center and blocked, has two or more drilled holes in a predetermined portion adjacent to the edge of the circular plate having a predetermined thickness. All parts of the inner protruding plate 31 having a predetermined thickness provided at predetermined intervals are integrally formed together to be provided as one component.

2b and FIG. 4 shows a casing in which a predetermined length portion of the end-side concrete 21, which is a connection portion of the precast concrete column segment 20, is provided with a connector 30 provided as above. Fitting so that the outer surface of the concrete 21 is wrapped and protected by the casing 32 so as to be inserted into the pipe of the casing 32; 30 is a view and a cross-sectional view showing a state of assembling the first combined.

5 is a column including a connector 30 in a state of being erected on the ground by assembling and connecting the two segment pillars 20 according to the present invention to be a single column by the connector (連 結 具) 30 It is a front view showing together the magnitude 24 of the pre-compression stress (pre-stress compression stress) by the PC stranding wire (Prestressing Strand) that is evenly introduced into the concrete 21 over the entire length.

FIG. 6 shows that one end of the PC strand 22 is fixed to the PC strand fixing plate 91, and is pre-buried in the concrete 21 at the end side of the pillar segment 20 together with the PC strand 22. Fig. 8A and 8B are a perspective view showing a portion of the connection portion of the pillar segment 20 showing the state where the PC strand connecting nut 9 is provided, and Figs. 8A and 8B show the PC strand connecting nut 9 more closely. A perspective view showing in more detail and cross-sectional views of each part, which is a pipe having a predetermined length with an empty inside, and an end portion of one side is opened, and an end portion of the other side is of a predetermined size. A bolted joint formed with a screw thread on the inner surface of the pipe, which is blocked by the PC strand wire fixing plate 91 made of a plate in which the PC strand wire through-hole 93 of the hole is drilled, 92) to be in a state consisting of.

PC strand wire coupling nut 9 is provided as described above at the end of the one end of the PC strand line 22 is inserted into the PC strand line through hole 93 as shown in Figs. One end of the PC strand wire 22 is fixed to the PC strand wire fixing plate 91 by various methods such as forming a lump or knot having a predetermined shape that becomes larger than the diameter of the PC strand wire through hole 93. At the same time, it is settled and at the same time, the one side of the PC strand connecting nut (9) is opened toward the end of the connecting portion of each pillar segment 20, so that each pillar segment together with the PC strand (22) (20) It embeds in the concrete 21 at the end of a connection part, and is provided.

7 is a PC strand connecting bolt 10 as the PC strand connecting bolt 10 so that the connector 30 can be more firmly attached to the end side that becomes the connection portion of the column segment 20 and the inner side of the PC strand connecting nut 9 4 is an enlarged cross-sectional view of the portion “A” of FIG. 4 showing a state in which the protruding plates 31 are assembled together as a bolt head 101 having a predetermined shape and size. And the bolt head 101 has a predetermined diameter as the circular diameter smaller than the screw head 102 in a variety of known forms in which the screw shaft 102 in the state of the thread is provided as one unit As a conventional bolt is provided.

In addition, the two bolt coupling portion 92 and the inner protrusion plate 31 of the PC strand wire coupling nut (9) which is more than two embedded in the concrete 21 of the end side to be the connection portion of the pillar segment 20 in the above. The inner bolt through-holes 312 formed above are each of the central axes of the bolt coupling portions 92 which are two or more so that the screw shaft 102 of the PC strand connecting bolt 10 can be easily passed through at once. Each of the central axes of the two or more inner bolt through holes 312 coincide with each other in each of the central axes between one bolt engaging portion 92 and one inner bolt through hole 312. It will be provided to be in the state.

6 and 7 through the screw shaft 102 of the PC strand wire coupling bolt 10 into the inner bolt through hole name 312 provided in the inner protrusion plate 31 to insert and at the same time coupled to the PC strand wire As the screw shaft 102 of the PC strand connecting bolt 10 is tightened by a screw thread inside the bolt coupling portion 92 of the nut 9, the bolt head 101 is fixed to one surface of the inner protrusion plate 31. By the state that is to be assembled so that each connector (連 結 具) 30 is more firmly attached to the end of one side to be the connection portion of each pillar segment (20).

In particular, the inner protrusion plate 31 of the connector 30 is inside the pipe of the casing 32 which is spaced apart from the outer protrusion plate 33 by a predetermined distance. In the connection between the two outer protruding plate 33, which is a pair of bars to be abutted to overlap each other, the bolt head 101 of the PC strand wire coupling bolt 10 is to be fixed to one surface of the inner protruding plate 31 The inner protrusion plate 31 and the outer stone may not be secured so that the lower and lower bolt heads 101 may come into contact with each other earlier than one surface of the outer protrusion plates 33. The separation distance of the publication 33 is provided so as to be in the shape as shown in Figs. 4 and 7 so as to be sufficiently larger than the height of the bolt head 101.

Two precast concrete pairs in a state in which the connector 30 is more firmly attached to the end of one side that is the connection portion of each pillar segment 20 as described above After connecting the column segments 20 to the outer protruding plates 33 of the connector 30 to be in contact with each other, the two outer protruding plates 33 provided in contact with each other and overlapped as shown in FIGS. 2B and 4 are provided. After inserting two or more outer protruding plates 33 in which one outer bolt 34 is overlapped into two or more outer bolt through holes 331 at a time, they are inserted so as to pass through at once. Tighten with (35) to assemble the two connector (30) to abut the two pairs of precast concrete column segments (20) to be a single column (2).

In addition, as shown in FIG. 3, the one side in the horizontal direction perpendicular to or close to the one side in the vertical direction is adjacent to the outer surface of the casing 32 so as to be adjacent to each other. One side of the protruding surface is attached to one surface of the outer protruding plate 33 in a horizontal or near horizontal direction while being directed toward the edge from the inside of the outer protruding plate 33, and at the same time, one side of the vertical direction is the outer stone. Vertical or vertical to the outer surface of the casing (32) facing in the direction of the up or down from the outer surface of the casing (32) closest to each other and close to one side of the publication 33 Two or more stiffeners (333) in the shape of a plate having a predetermined thickness and shape to be attached in a direction close to the one may be further provided, preferably the casing (Cas the outer bolt through hole 331 and the stiffener 333 along the outer circumference of the casing 32 to the circular outer protruding plate 33 protruding outward of the ing 32. It is also possible to be provided at a predetermined interval while alternately one by one.

In the above-described manufacturing of each column segment 20 in a factory, centrifugal force is embedded in the concrete 21 of each segment 20 in a state in which two or more PC strands 22 are pre-tensioned. As the concrete 21 is molded to form a circular column shape by curing, the curing force is removed until the concrete 21 reaches a predetermined strength, and then the tensile force of the PC strand 22 is removed. The pre-compression stress (prestressing stress) is introduced evenly into the concrete 21 over the entire section of the column segments 20, where the PC strand wire coupling nut 9 is a connector as described above. The inner protruding plate 31 of 30 is attached to the PC strand wire coupling nut 9 more firmly as the PC strand wire coupling bolt 10. Pretensioned phase The PC strand 22 is tensioned as a predetermined machine while the column segments 20 are pre-fabricated in the factory by embedding them into the concrete 21 of each segment 20. In the series of processes to remove the tensile force while maintaining the state and the PC strand wire coupling nut (9) will also perform the role of the connecting device connecting the end of the PC strand and a predetermined mechanical device, and eventually the present invention The tensile force of the PC strand 22 by a predetermined mechanical device is directly transmitted to the inner protruding plate 31 of the connector 30 by the PC strand strand coupling nut 9 and the PC strand strand coupling bolt 10. It is to be provided in such a state as to include the connector (連結 具) (30) is also included together, so that the pre-compression stress (pre-stressed compressive stress) is evenly introduced into the concrete 21 between each pillar segment (20) bulb What is done The.

Until now, the connector as a description of those that are provided with the connector 30 and the PC strand connecting nut (9) only on the end side of one side that is the connection of the precast concrete column segments (20) On one end of the precast concrete column segment 20 on which the other side 30 is not provided, the one end of the PC prestressing strand 22 is separated as shown in FIG. It is supported by the end fixing plate 23 of the PC strands prepared to be fixed and fixed, or various other devices, structures or methods known in the art, or separately provided with a PC strand cable coupling nut 9 of the present invention One end of the PC strand (Prestressing Strand) 22 may be fixed or fixed, or the end of the PC strand (Prestressing Strand) 22 without any additional fixing device The section may be to be fixed and settled naturally by the friction force between the surface and the concrete 21 in the concrete 21 as shown in FIG. 5 according to the present invention by each column segment 20 It is a front view showing the size of the preceding compressive stress (prestressed compressive stress) 24 together in the state of standing on the ground to be one pillar after the assembly connection.

Further, in the above, the inner protrusion plate 31 of the connector 30 is spaced apart from the outer protrusion plate 33 by a predetermined distance inside the pipe of the casing 32. Cement to have a predetermined shape and thickness in the empty space on one side of the inner side protruding plate 31 where the bolt head 101 of the PC strand connecting bolt 10 is fixed and does not come into contact with the concrete 21. Filled with a cement-like material such as mortar, or a resin or resin-containing material such as cement or epoxy, filled and cured to form a hardened state. A separate part 40 is provided to protect the bolt head 101 of the PC strand connecting bolt 10, and at the same time, the strength of the joint part of the precast concrete column segment 20 separately from the casing 32. It can also play a role in further improving.

Prestressed concrete prefabricated pillar of the present invention manufactured and assembled by the same process as described above is built on the ground in the same state as in Fig. 5 bar shown in FIG. In the magnitude (24) of the compressive stress (prestressed compressive stress), each of the precast concrete column segments 20 is connected to the joint 30 together with the entire section of the concrete 21. Including the outer protruding plate 33 together, the precompression stress (prestressing compressive stress) of uniform size is introduced to have a predetermined bending strength such that there is no tensile crack which is an absolute defect of the concrete 21. At the same time, the joints between the precast concrete column segments 20 also have a compressive strength of more than the concrete 21 and a very high tensile strength. The outer bolts 34 are provided so that the outer protruding plates 33 of the connector 30 abut against each other in a state where they are provided with a connector 30 made of a material such as steel. And nut (35) to be assembled into one complete column (2), so that not only the entire section of the concrete 21 for each precast concrete column segment 20, but also the connector (連結 具) (30) has a sufficient bending strength so that no tensile crack is generated at all sections of the entire column including the joints, and at the same time, in particular, transportation and installation are very easy and easy to handle. You can do it.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

1: prestressed concrete columns
11: concrete
12: PC strand
2: prestressed concrete prefabricated columns with precast segments
20: Precast Concrete Column Segment
21: concrete
22: PC strand
23: end fixing plate
24: magnitude of pre-compression stress (pre-stressed compressive stress)
30: connector
31: inner protrusion plate
312: inner bolt through hole
32 casing
33: outer protrusion plate
331: Outer bolt through hole
333 stiffener
34: outer bolt
35: nuts
40: finish filling part
9: PC stranded nut
91: PC strand strand fixing plate
92: bolt coupling
93: PC strand wire through hole
10: PC strand wire coupling bolt
101: bolt head
102: screw shaft

Claims (6)

Precast concrete (Precast concrete 12) is divided into two independent segments, each of which is divided into two independent segments, and a prestressing strand 12 is embedded. Concrete) column segment 20;
Combining the PC steel wires that are embedded in the concrete 11 on the end side, which is the connection part of the precast concrete column segment 20, and the one end of the PC stranding strand 12 is fixed. Nut 9; and
A connector 30 for assembling the PC strand wire coupling bolt 10 to an end side of the precast concrete column segment 20 having the PC strand wire coupling nut 9 to be coupled thereto. );
Two precast concrete column segments 20 are joined to each other so that the two connectors 30 coupled to the end side to be connected to each other are brought into contact with each other so that one prestress concrete column ( 1) Prestressed concrete prefabricated columns of precast segment, characterized in that it is to be. The method according to claim 1,
The precast concrete column segment 20 is a hollow circular pipe shape made of concrete, and a prestressing strand 12 is embedded in the concrete 11 to form a single prestrate. The prestressed concrete column 1 is divided into two independent segments, respectively,
PC strand wire coupling nut 9 is a hollow tube (pipe), the end of one side is open (開放), the other end of the PC strand wire through hole 93 is formed with a hole in the center The inner surface of the pipe, which is blocked by the PC strand wire fixing plate 91 made of a plate in the opened state, is made up of a threaded bolt coupling part 92 formed on the inner surface of the pipe, and opened. One side end of the PC strand (Prestressing Strand) 12 is the PC strand line through hole (93) while the side is facing the end of the side to be the connection of the precast concrete column segment (20) It is embedded in the concrete 11 of the end side to be the connection portion of the precast concrete column segment 20 in a state that is settled in the PC steel wire fixing plate 91 through the through,
The connector 30 has a casing 32 made of a hollow circular tube, and the outer diameter at one end of the casing 32 is casing ( The outer bolt through-holes 331, which are formed by two or more drilled holes in the plate protruding outward from the casing 32 so as to be larger than the outer diameter of the casing 32, are casingd. One end of a casing 32 in which the outer protruding plate 33 and the outer protruding plate 33 are provided at intervals along the outer periphery of the outer periphery 32) An edge of a circular plate with a centered or blocked opening protruding toward the inner center of the casing 32 from inside the casing 32 spaced apart from the outside. It consists of an inner protrusion plate 31 provided with inner bolt through holes 312, which are two or more drilled holes in a predetermined portion adjacent to the circumference. The predetermined length portion of one end of the precast concrete column segment 20, which is connected to the state where the PC strand wire coupling nut 9 is provided, is inserted into the casing 32 and inserted. It is assembled in the state that becomes
PC strand connecting bolt 10 is provided with a bolt head 101 and a screw shaft 102 having a smaller diameter than the bolt head 101 and a screw shaft 102 threaded on its outer surface as a single bolt. The screw shaft 102 is inserted into the bolt coupling portion 92 of the PC stranded wire coupling nut 9 through the inner bolt through hole 312 of the connector 30 and inserted into the bolt. The connector 101 is fixed to one surface of the inner protrusion plate 31 of the connector 30 so that the head 101 is connected to the precast concrete column segment 20. Prestressed concrete prefabricated pillars of precast segment, characterized in that the coupling 30 is coupled. The method according to claim 1,
A pair of precast concrete column segments prefabricated in the factory in assembling a pair of precast concrete column segments 20 and assembling them into a single column 2 After shipping them to the site,
The connector 30 is first joined to each side of the precast concrete column segment 20,
A pair of precast concrete column segments 20 are connected so that two connectors 30 are in contact with each other by contacting one surface of the outer protrusion plate 33 with each other. Two outer protrusion plates 33 having one outer bolt 34 overlapped into two or more respective bolt through holes 331 provided in the two outer protrusion plates 33 overlapped in a state of being connected to each other at once. A pair of precast concrete column segments 20, which are inserted into a plurality of segments and screwed together with a nut 35 and formed into two segments, are formed into one column ( 2) Prestressed concrete prefabricated columns of precast segment, characterized in that the two connectors (30) abutting to be so as to assemble. The method according to claim 1,
One side is attached to the outer surface of the casing (32), while the other side is attached to the outer protrusion (33) to connect the casing (32) and the outer protrusion (33) Precast segment, characterized in that the stiffener (333) formed in the shape of a plate made of two or more at intervals consisting of a connector (30) is provided Prestressed Concrete Prefabricated Columns. The method according to claim 4,
The outer protrusion plate 33 has a precast segment, characterized in that the outer bolt through-hole 331 and the stiffener 333 are provided while alternately one by one at intervals. Prestressed Concrete Prefabricated Columns. The method according to claim 1 or 3,
The inner protruding plate 31 in which the head 101 of the PC steel strand coupling bolt 10 is fixed while not being in contact with the concrete 21 at the end portion of the precast concrete column segment 20. In the empty space inside the casing 32, which is formed between the end end portions of the outer protruding plate 33, which is located at a position spaced apart from one side of the surface, the cement mixed material, cement or resin (Resin) Precast segment, characterized in that the finishing filling portion 40 is formed separately to fill the material containing the resin, resin or resin (hardening) to harden Prestressed concrete prefabricated columns.

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