KR102535701B1 - Phc pile prestress retention apparartus and phc pile produced by using the same - Google Patents

Abstract

Disclosed is a PHC pile prestress maintaining device that can effectively use the cut PHC pile because the prestress previously introduced into the PHC pile is not lost even if the PHC pile is cut at an arbitrary cutting portion (D), and a PHC pile manufactured using the same .

Description

PHC pile prestress maintaining device and PHC file produced using the same {PHC PILE PRESTRESS RETENTION APPARARTUS AND PHC PILE Produced by USING THE SAME}

The present invention relates to a PHC pile prestress maintaining device and a PHC pile manufactured using the same. More specifically, even if the PHC pile is cut at an arbitrary cutting site (D), the pre-stress previously introduced into the PHC pile is not lost and the PHC pile pre-stress holding device that can effectively use the cut PHC pile and the PHC pile manufactured using the same It is about.

Figure 1a is a configuration example of a conventional PHC pile (pre-tension centrifugal force high-strength concrete pile).

The PHC pile is a hollow concrete pile in which prestress (compressive stress) is pre-introduced in the concrete part 14 in a pre-tension method, and prestress is introduced into the concrete part 14 as the tension member 13 is tensioned and settled, It can be seen that the spiral reinforcement 11 is also embedded in the concrete part 14.

In addition, it can be seen that both ends of the tension member 13 are fixed to the steel plate 12 installed to come into contact with the end surface of the concrete part.

Accordingly, the PHC pile 10 is used as having a predetermined extension length at the factory, but when used in the actual field, there is a case in which an arbitrary part needs to be cut and used.

Figure 1b is an exemplary view of a conventional PHC pile cutter 20.

When the PHC pile (10) is constructed by inserting the PHC pile (10) into the ground (G) after constructing a drilling hole, since the total extension length is formed longer than the length inserted into the normal ground (G), the PHC pile (10 ), the head of the head protrudes and is exposed.

The protruding and exposed head of the PHC pile 10 is cut to organize the head, which can be said to be cutting the PHC pile 10 with the cutter 20.

This cutting machine 20 is a cutter device 23 in which a cutter bracket 21 is installed so as to wrap around the outer circumferential surface of the PHC file 10 at an arbitrary cutting part of the PHC file 10, and a cutter blade 22 is installed in the cutter bracket 21 ) will be installed.

At this time, the cutter device 23 rotates along the outer circumferential surface of the PHC pile 10 along the cutter bracket 21, and the cutter blade 22 cuts the PHC pile 10 during this rotation.

Accordingly, the head of the PHC pile 10 penetrated into the ground is buried in the foundation concrete (not shown) so that the foundation is constructed.

At this time, when the PHC pile 10 is cut using the cutter 20 based on the arbitrary cutting part, the concrete 12, the tension member 13, and the spiral reinforcing bar 11 are cut together, so the tension member 13 is cut. The prestress introduced in advance is inevitably lost in the PHC pile 10 that is not separately fixed above and is cut.

That is, although the cut PHC pile 10 is also a reinforced concrete pile, since prestress is introduced by the tension member 13, some of the prestress introduced during cutting is inevitably lost, but this prestress loss is usually ignored .

Accordingly, the PHC pile 10 with the head cut as described above is disposed of, but if the extension length of the PHC pile 10 with the head cut is formed long enough, it is inevitably a material loss factor, and the prestress is lost. The PHC pile 10 has a problem that it is impossible to secure the desired degree of sectional force because the load bearing capacity required for reuse is inevitably reduced.

1c is an exemplary view of a conventional tendon dismantling device 30.

Both fixing clips 31 and 32 installed spaced apart from each other in a state installed to surround the tension member 13, which is a PC steel strand; And one end is connected to one side fixing clip 31 and wraps around the tension member 13 so that the other end is connected to the other fixing clip 32 so that the tension member 10 is wrapped according to the distance between the fixing clips 31 and 32 Including, the bouncing phenomenon of the tension member 13 on both sides based on the cutting position (C) of the tension member 10 (the wire of the tension member introduced with prestress) It can be seen that each is installed to prevent the unconstrained wires from the cutting part from bouncing while being cut.

However, this tension member disassembly device 30 is intended to prevent the bouncing phenomenon when the tension member 13 is cut, but has a limitation that it cannot be a means to prevent the prestress loss itself of the cut PHC pile 10.

Republic of Korea Patent No. 10-1812595 (title of invention: PC steel wire dismantling device and bridge displacement measurement method using the same, publication date: December 29, 2017) Republic of Korea Utility Model Registration No. 20-0455885 (Title of Invention: File Cutting Machine, Date of Publication: October 6, 2011)

Therefore, the present invention is a PHC pile prestress holding device that prevents loss of sectional force even if the cut PHC pile is used as it is, and a PHC pile prestress retaining device manufactured using the same, even if the PHC pile is cut at an arbitrary cutting portion, and the loss of prestress previously introduced into the PHC pile is prevented. The provision of the PHC file is a technical problem to be solved.

In addition, the present invention is a technical problem to solve the problem of providing an economical PHC pile prestress holding device and a PHC pile manufactured using the same, since the PHC pile according to the present invention can be manufactured even if the conventional manufacturing equipment of the PHC pile is used as it is.

The PHC pile prestress holding device of the present invention for achieving the above object and the PHC pile manufactured using the same are designed to prevent loss of the introduced prestress even if the PHC pile to which the prestress is introduced by the tension member embedded in the concrete part is cut. In the PHC pile prestress maintaining device, the PHC pile prestress maintaining device is formed by an anchorage embedded in a concrete part so that a plurality of them are spaced apart along the tension member while wrapping the tension member, even if the tension member of the PHC pile is cut between the anchorages. The prestress introduced in the concrete part of the PHC pile except for is not lost,
In the concrete part of the PHC pile, the internal reinforcing bars are embedded over the extended length of the concrete part, but the internal reinforcing bars are integrated in contact with the anchorage formed to surround the tension member, and the anchorage integrated in contact with the internal reinforcing bars is formed as a settlement block The tension member is formed so that a plurality of them are spaced apart from each other, and the internal reinforcing bar is integrated in contact with the anchoring block through which the tension member passes, so that the anchoring block is bound to the concrete unit while adjoining the internal reinforcing bar embedded in the concrete part of the PHC pile. To secure additional fixing performance or.
In the concrete part of the PHC pile, the internal reinforcing bars are embedded over the extended length of the concrete part, but the internal reinforcing bars are integrated in contact with the anchorage formed to surround the tension material, and the anchorage integrated in contact with the internal reinforcing bars is formed as a fixing plate A plurality of tension members are formed so as to be spaced apart from each other, and the internal reinforcing bars come into contact with the anchoring plate through which the tension members pass through to be integrated. This allows additional performance to be obtained.

According to the present invention, since prestress is not lost even in PHC piles cut at arbitrary cutting points, it can be reused for other purposes without discarding, so it is possible to provide a more environmentally friendly PHC pile prestress holding device and PHC piles manufactured using the same. will do

According to the present invention, since a PHC pile can be manufactured using a PHC pile prestress maintaining device using a conventional PHC pile manufacturing facility as it is, it is possible to provide a more economical PHC pile prestress maintaining device and a PHC pile manufactured using the same.

1A is an exemplary configuration of a conventional PHC file;
Figure 1b is an illustration of a conventional PHC file cutter,
Figure 1c is an example of a conventional tension member disassembly device,
2a, 2b and 2c are exemplary views of the PHC pile prestress maintaining device of the present invention;
Figures 3a and 3b show a PHC pile and cutting example using the PHC pile prestress holding device of the present invention.

Hereinafter, embodiments of the present invention will be described in detail so that those skilled in the art can easily practice with reference to the accompanying drawings. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

[The present invention is a device for maintaining PHC pile prestress (100)]

Figures 2a, 2b and 2c show an exemplary view of the PHC pile prestress maintaining device 100 of the present invention.

Referring to FIGS. 3A and 3B, the PHC pile prestress maintaining device 100 is introduced into the PHC pile 200 in advance even if the PHC pile 200 is cut using the cutter 20 at an arbitrary cutting portion D. The prestress is not lost, so it is possible to use it effectively by reusing the cut PHC file.

That is, the PHC pile prestress maintaining device 100 of the present invention maintains the concrete part 210 even if the tension member 220 is cut so that the prestress is introduced into the concrete part 210 of the PHC pile 200 in a pretension method. It is so that the prestress introduced by the anchorage 110 buried together can be maintained.

At this time, referring to FIGS. 2A and 2B, the anchorage 110 is installed so that the tension member 220 penetrates and is formed by surrounding the outer circumferential surface of the tension member 220, and as shown in FIGS. 3A and 3B, the gap between the anchorage 110 is Since the anchorage 110 is embedded in the concrete part 210 even if it is cut by the cutter 20, the embedded anchorage 110 serves to ensure that the cut tension member 220 can continue to be anchored in the concrete part 210. will do

In addition, as shown in FIGS. 2A and 2B, the anchorage 110 is additionally constrained to the concrete portion 210 while adjoining the internal reinforcement 120 also embedded in the concrete portion 210 of the PHC pile 200 It is to be able to additionally secure the fixing performance of the anchorage (110).

In addition, referring to FIG. 2c, the anchorage 110 is formed to be embedded in the concrete part 210 that existed in the PHC pile 200, and the internal reinforcing bar 120 is also the existing concrete part of the PHC pile 200 ( 210), so even if the anchorage 110 is used, it is possible to have the advantage of using the existing PHC pile manufacturing equipment as it is.

Accordingly, the PHC pile prestress holding device 100 of the present invention includes an anchorage 110 and an internal reinforcing bar 120 as shown in FIGS. 2A and 2B, and the PHC pile 200 is attached to the concrete part 210. The prestress holding device 100 is installed to be buried.

As shown in FIGS. 2a, 2b and 2c, the anchorage 110 is spaced apart from each other on the outer circumferential surface of the tension member 220 formed to be embedded in the concrete part 210 of the PHC pile 200 and integrated so that a plurality of anchorages ( 110) Even if the tension member 220 between them is arbitrarily cut, the prestress P introduced into the concrete part 210 is lost only between both anchorages 110 based on the cut portion D, and by the anchorage 110 It serves to prevent the prestress loss from being transferred to the PHC pile 200 other than the cutting portion (D).

As such an anchorage 110, according to FIGS. 2A and 2B, it is formed in the form of an anchoring block 111 formed in a direction perpendicular to the longitudinal direction (longitudinal direction) of the tension member 220, or

It can also be seen that it can be formed in the form of a fixing plate 112 formed in a direction perpendicular to the longitudinal direction (longitudinal direction) of the tension member 220,

As the contact area with the buried concrete part 210 increases, the prestress introduced into the cut tension member 220 is not lost by the cut tension member 220, and the tension member 220 can be fixed to the concrete part 210. While doing so, it is only necessary to form it in various shapes to prevent the loss of prestress from being transferred to areas other than the cutting area.

At this time, in order to additionally secure the fixing performance of the anchorage 110, according to FIG. 2B, it is also in the form of a plate through which the tension member 220 penetrates, and a ring-shaped strip plate having a larger cross section than the anchoring block 111 or the anchoring plate 112. It can be seen that the one formed of (113) can be used.

Although not shown, it does not matter if the fixing block 111 and the strip plate 113, the anchoring plate 112 and the strip plate 113 are installed in combination with each other. It can be more effectively fixed to the part 210.

As shown in FIGS. 2A and 2B, the internal reinforcing bar 120 serves to ensure that the anchorage 110 formed on the tension member 220 secures more anchorage performance in the concrete part 210.

Normally, the PHC pile 200 includes internal reinforcement such as spiral reinforcement in addition to the tension member 220 in the concrete part 210, and the present invention fixes these internal reinforcement in the concrete part 210 in which the anchorage 110 is embedded. This is to ensure that the performance is further secured.

Accordingly, the inner reinforcing bar 120 serves to integrate the anchorage 110 in contact with one side.

When using such an internal reinforcing bar 120, it is necessary to arrange the same as the internal reinforcing bar of the conventional PHC pile 200, but only need to integrate it in contact with the anchorage 110, so that the internal reinforcing bar placed in the conventional PHC pile can be used as it is.

These internal reinforcing bars may be arranged in the form of spiral reinforcing bars, or may be arranged so that many are horizontally spaced apart in the form of strip reinforcing bars.

Accordingly, the PHC pile 200 in which the PHC pile prestress holding device 100 of the present invention is embedded is formed including a concrete part 210 and a tension member 220, as shown in FIGS. 2A, 2B and 2C.

As shown in FIGS. 2a, 2b and 2c, the concrete part 210 is formed so that a hollow part is formed by the centrifugal force of the rotation of the concrete poured inside the formwork 300 for producing PHC piles. ) is buried so that prestress is introduced, and the internal reinforcing bars 120 are also formed to be buried together.

As described above, the anchorage 110 that is integrated in contact with the internal reinforcing bar 120 is also buried inside the concrete part 210. (113), etc. It has been examined that it is formed in the form.

As shown in FIGS. 2a, 2b and 2c, when the concrete part 210 is placed and cured in a state where the concrete part 210 is placed and cured in a state where it is tensioned in a pre-tension method inside the formwork for the PHC pile, both ends of the steel plate at the end of the PHC pile As it serves to introduce prestress to the concrete part 210 by fixing it to the concrete part 210,

The tendons 220 are installed such that a plurality of the anchorage 110 is spaced apart so as to surround the outer circumferential surface. Also, referring to FIG. 2c, this tension member 220 can use the conventional PHC pile manufacturing equipment as it is, and it can be seen that there is only a difference in that the anchorage 110 is formed.

[PHC pile 200 produced using the PHC pile prestress holding device 100 of the present invention]

Figures 3a and 3b show a PHC pile and cutting example using the PHC pile prestress holding device 100 of the present invention.

The PHC pile prestress holding device 100 is not exposed to the outside by being embedded in the concrete part 210 when the PHC pile 200 is manufactured, but a number of them are spaced apart from each other along the tension member 220 inside the concrete part 210 And, when it is necessary to cut the PHC pile 200, the arbitrary cutting part (D) is between the anchorage 110 and the anchorage 110.

That is, since the number of anchorages 110 is spaced apart but the thickness of each is not large, the arbitrary cut portion D has to be between the anchorage 110 and the anchorage 110, but on the outer circumferential surface of the PHC pile 200 This can be overcome by a method such as displaying the location of the anchorage 110.

In addition, a plurality of tension members 220 are disposed in the concrete part 210 of the PHC pile 200. It is preferable that the anchorage 110 be integrated with all tension members 220, and if necessary, some tension members 220 have an anchorage ( 110), it is possible if there is no problem in securing the sectional force even if the number is adjusted or excluded.

Accordingly, according to FIG. 3A, the tension member 220 and the anchorage 110 constituting the PHC pile prestress maintaining device 100 are not visible from the outside of the PHC pile 200 using the PHC pile prestress maintaining device 100, but the concrete part 210 ) Inside, it can be seen that many are formed spaced apart from each other, and formed for each tension member 220.

Next, according to FIG. 3B, if necessary, an arbitrary cut portion (D) is between the anchorage 110 and the anchorage 110, and when cut with a cutter, the cut PHC pile 200 is attached to the remaining anchorage 110. As a result, it can be seen that the prestress is not lost and reuse is possible.

As a result, the PHC pile 200 manufactured using the prestress maintaining device according to the present invention is a PHC pile prestress maintaining device manufactured so that the PHC pile prestress maintaining device 100 of claim 1 is embedded in the concrete part 210. Equipped with a PHC file 200 produced using

PHC pile manufactured by the step of cutting the PHC pile 200 so that the arbitrary cut portion D is between the anchorage 110 and the anchorage 110 PHC pile produced using the prestress holding device 100 (200) ) will be provided.

Furthermore, when using the PHC pile 200 as the foundation pile, the head of the PHC pile 200 is cut and the cut PHC pile 200 can be used for other purposes, and the PHC pile 200 is used as a pillar member Even if it is installed at different heights, it becomes very effective.

The above description of the present invention is for illustrative purposes, and those skilled in the art can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

100: PHC pile prestress maintenance device
110: anchorage
111: fixing block 112: fixing plate
113: strip plate 120: internal reinforcing bar
200: PHC file 210: concrete part
220: tension member 230: fixing plate
300: formwork D: cutout

Claims (10)

delete delete delete In the PHC pile prestress maintaining device 100 for preventing the introduced prestress from being lost even if the PHC pile 200 to which the prestress is introduced by the tension member 220 embedded in the concrete part 210 is cut, the PHC pile prestress The holding device 100 surrounds the tension member 220 by means of the anchorage 110 embedded in the concrete part 210 so that many are spaced apart along the tension member 220. Even if the tension member 220 of ) is cut, the prestress introduced into the concrete part 210 of the PHC pile 200, except between the anchorages 110, is not lost,
An anchorage ( 110) to be integrated,
The anchorage 110 integrated in contact with the inner reinforcing bar 120 is formed as a fixing block 111 and formed so that a plurality of tension members 220 are spaced apart from each other,
The internal reinforcing bar 120 is in contact with the fixing block 111 through which the tension member 220 passes, so that it is integrated.
The fixing block 111 is bound to the concrete part 210 while contacting the internal reinforcing bars 120 embedded in the concrete part 210 of the PHC pile 200, so that the anchorage performance of the anchorage 110 can be additionally secured. PHC pile pre-stress retaining device. In the PHC pile prestress maintaining device 100 for preventing the introduced prestress from being lost even if the PHC pile 200 to which the prestress is introduced by the tension member 220 embedded in the concrete part 210 is cut, the PHC pile prestress The holding device 100 surrounds the tension member 220 by means of the anchorage 110 embedded in the concrete part 210 so that a plurality of them are spaced apart along the tension member 220. Even if the tension member 220 of ) is cut, the prestress introduced into the concrete part 210 of the PHC pile 200, except between the anchorages 110, is not lost,
In the concrete part 210 of the PHC pile 200, the internal reinforcing bar 120 is embedded over the extended length of the concrete part 210, but the internal reinforcing bar 120 is formed to surround the tension member 220. An anchorage 110 ) so that it is in contact with and integrated,
The anchorage 110 integrated in contact with the inner reinforcing bar 120 is formed as a fixing plate 112 and is formed so that a plurality of tension members 220 are spaced apart from each other,
The internal reinforcement 120 is in contact with the fixing plate 112 through which the tension member 220 passes, so that it is integrated.
The fixing plate 112 is bound to the concrete part 210 while contacting the internal reinforcing bars 120 embedded in the concrete part 210 of the PHC pile 200, so that the anchoring performance of the anchorage 110 can be additionally secured. PHC pile pre-stress retaining device. delete In the PHC pile 200 in which prestress is introduced into the concrete part 210 by the tension member 220, the PHC pile prestress maintaining device 100 of claim 4 is embedded in the concrete part 210. A PHC file made using a prestress holding device. According to claim 7,
The PHC pile (200) manufactured using the PHC pile prestress maintaining device is used as a foundation pile or a column member. (a) providing a PHC pile 200 manufactured using a PHC pile prestress retaining device manufactured so that the PHC pile prestress maintaining device 100 of claim 4 is embedded in the concrete part 210; and
(b) cutting the PHC pile 200 such that an arbitrary cut portion (D) is between the anchorage 110 and the anchorage 110; PHC pile produced by using a prestress holding device. delete

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