KR101336900B1 - The construction method of long span temporary retaining wall with passive wing plate and elastic support plate - Google Patents

Abstract

The purpose of the present invention is to provide a method for constructing a temporary long-span retaining wall by using a passive wing plate and an elastic supporting plate, wherein the method increases a passive earth-pressure area by installing a passive wing plate at the lower part of an H-pile, and therefore increases the rotation-resisting moment of the H-pile, thereby making the span of H-piles a long one; and reduces member force by installing an elastic supporting plate at the middle of the H-piles in order to secure the safety of a braced wall which is installed between the long-spanned H-piles. In a method for constructing a temporary retaining wall, which creates bored holes by digging the ground, inserts H-piles into the bored holes through penetration, horizontally installs a wale across the H-piles at every predetermined height, supports the wales by using struts, and inserts a braced wall between the H-piles to support backside ground, the method for constructing a temporary long-span retaining wall by using a passive wing plate and an elastic supporting plate according to the present invention to achieve such a purpose installs a passive wing plate at both sides of a lower web of the H-pile, and installs an elastic supporting plate at the middle of the braced wall between the H-piles.

Description

The construction method of long span temporary retaining wall with passive wing plate and elastic support plate}

The present invention relates to a method for constructing a long span interfacial facility using a manual blade plate and an elastic support plate, in particular, by installing a manual blade plate in the lower part of the H pile to increase the resistance moment for the rotation of the H pile to reduce the length of the H pile. In order to secure the safety of the earth plate installed between the long span H pile, and to install the elastic support plate in the middle between the H pile to reduce the member force in the long span intercalation construction method using the manual wing plate and the elastic support plate It is about.

Conventional earthquake temporary construction method is to support by supporting the rotation moment by the earth pressure acting on the back surface during excavation with the resistance moment by the manual earth pressure acting on the H pile on the front surface of the excavation, the area of the plate acting manual earth pressure It is a method to secure the conduction safety by increasing the resistance moment by increasing the indentation depth of the H pile, or by reducing the rotation moment by narrowing the gap of the H pile.

Here, in the conventional earthquake temporary construction method, as shown in Figure 1, by excavating the ground 100 to form a drilling hole 110, and after the H pile 120 in the drill hole 110, After installation across the strip 140 at a predetermined height of the H pile 120, the strip 140 is supported by the strut 150, the earth plate 130 having a predetermined interval (1.8 ~ 2.0m) Is sandwiched between the H pile 120 is a construction method for supporting the ground 100 on the back.

In particular, the stability of the conduction in the conventional earthquake temporary construction method is the resistance of the passive earth pressure generated by the rotation moment of the H pile 120 due to the main earth pressure of the back of the ground (100) at the root depth depth 125 of the ground front In order to secure more than the safety factor with respect to the moment, increase the indentation depth 125 of the H pile 120 to increase the resistance moment by manual earth pressure, or increase the rotation moment of the H pile 120 by the main earth pressure. As the gap of the H pile 120 is narrowed in order to reduce the size, there is a problem such as an increase in construction cost or an increase in air due to an increase in the ground drilling depth and an increase in materials.

In addition, in order to support the ground (100) of the back surface in the conventional earthquake temporary construction method described above by inserting and supporting the earth plate 130 between the flange 124 of the H pile 120 of the H pile 120 If the spacing is wide, since the member force is increased to increase the thickness of the earth plate 130, it is difficult to install the earth plate 130 by manpower, and the construction cost increases.

Accordingly, the present invention has been made to solve the problems described above, by increasing the manual earth pressure area by the installation of the manual blade plate in the lower portion of the H pile to increase the resistance moment for the rotation of the H pile spacing of the H pile Long span using a long blade spanning the manual blade and elastic support plate to reduce the member force by forming a point by installing an elastic support plate in the middle of the H pile in order to secure the safety of the earth plate installed between the long span H file The purpose is to provide a construction method for the earthenware temporary installation.

According to the present invention, a construction method for constructing a long span soil wall using a manual blade plate and an elastic support plate according to the present invention forms a drilling hole by excavating the ground, and inserting the H file into the drilling hole. In the installation method of the temporary block construction for supporting the ground on the back side by installing a cross across the belt at a certain height of the support, and supporting the belt with a strut, sandwiching the earth plate between the H pile,

Passive blade plates are installed on both sides of the lower web of the H pile, and an elastic support plate is installed in the middle of the earth plate between the H piles.

As described above, the construction method of the long span soil barrier construction using the manual wing plate and the elastic support plate according to the present invention by installing a manual wing plate in the lower portion of the H-pile, reducing the depth of the H-file, the spacing of the H-file It has a long span to reduce the number of perforation holes and H piles to secure economic feasibility and constructability, and has an environmentally friendly advantage by reducing carbon dioxide emissions due to the reduction of driving equipment and materials.

In addition, since the thickness of the earth plate is reduced due to the point formation due to the installation of the elastic support plate in the middle between the long spanned H-file, there is an advantage in that the economy and the construction are improved.

1 is a cross-sectional view and a front view showing a conventional earthenware temporary provision,
Figure 2 is a cross-sectional view and a front view showing the long span retaining facility using the manual blade and the elastic support plate according to the present invention,
3 is an exemplary view showing a state in which the manual blade plate is attached to the lower portion of the H-pile of the long span interlining facility using the manual blade plate and the elastic support plate according to the present invention 1,
4 is an exemplary view showing a state in which the manual blade plate is attached to the lower portion of the H-pile of the long span interlining facility using the manual blade and the elastic support plate according to the present invention 2,
5 is an exemplary view showing a state in which the manual blade plate attached to the lower portion of the H-pile of the long span interlining facility using the manual blade plate and the elastic support plate according to the present invention.
Figure 6 is a front view showing a state supporting the elastic plate in the earth plate of the long span earthquake temporary facility using the manual wing plate and the elastic support plate according to the present invention,
7a to 7d is a process diagram showing a state of supporting the elastic plate in the earth plate of the long span earthquake temporary facility using the manual blade plate and the elastic support plate according to the present invention,
8 is an exemplary view illustrating a state in which an elastic support plate is installed at a central portion of a earth plate of a long span interfacial facility using a manual wing plate and an elastic support plate according to the present invention;
Figure 9 is an exemplary view showing a state in which the elastic support plate is installed in the central portion of the earth plate of the long span intercalation temporary facility using the manual wing plate and the elastic support plate according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a cross-sectional view and a front view showing the long span mudstone temporary facility using a manual wing plate and an elastic support plate according to the present invention.

As shown in this figure, the construction method of the long span soil barrier construction using the manual wing plate and the elastic support plate according to the invention excavating the ground (100) to form a drilling hole 110, in the drilling hole 110 After entering the H-pile 120, the H-pile 120 is installed across the length of the belt 140 at a predetermined height, and then supports the band 140 with a strut 150, the H-pile 120 In the earthquake temporary construction method configured to support the ground (100) on the back by sandwiching the earth plate 130 between the),

The lower blade of the H pile 120, that is, the manual blade plate 200 is installed on both sides of the web 122 of the final root depth 125, and the elastic support plate (m) in the middle of the earth plate 130 between the H pile 120 ( 400, 500).

That is, according to the present invention, the method for constructing a long span interfacial facility using a manual wing plate and an elastic support plate forms a drilling hole 110 by excavating the ground 100, and forming an H-file 120 in the drilling hole 110. After entering, the H-pipe 120 is installed at a predetermined height across the belt 140, and then supports the belt 140 with a strut 150, the earth plate 130 between the H pile 120 In the aspect that is configured to support the ground (100) on the back side by inserting a) it is clear that the conventional construction of the earthquake temporary construction method and the technical idea is the same.

However, according to the present invention, the construction method for the construction of the long span soil wall using the manual wing plate and the elastic support plate is generated at the final depth of incidence 125 of the front surface of the ground 100 with respect to the rotation moment caused by the main earth pressure. It is a technical idea of the present invention to increase the resistance moment of passive earth pressure to increase the safety factor against conduction.

Based on this technical idea, the manual moment plate 200 is installed at the final root depth 125 of the lower part of the H pile 120 to increase the manual earth pressure action area, thereby increasing the resistance moment to rotation of the H pile 120. As a result, the interval between the H file 120 may be longer.

In addition, in order to secure the safety of the earth plate 130 installed between the long span H pile 120, the elastic support plates (400, 500) are installed in the middle between the H pile 120 to reduce the member force by forming a point It is so long.

Figure 3 is an exemplary view showing a state in which the manual blade plate is attached to the lower portion of the H-pile of the long span interlining facility using the manual blade plate and the elastic support plate according to the present invention.

As shown in this figure, the manual blade plate 200 is out of the width of the flange 124 of the H-pile 120 in the same direction as the flange 124 of the H-pile 120 to extend a predetermined length perforation When the manual blade plate plate body 202 is formed by a predetermined width larger than a cross section of the hole 110, and the thickness of the manual blade plate plate body 202 is large, the lateral direction of the manual blade plate plate body 202 is easy to excavate the ground. The manual blade plate blade 204 having a constant inclination is formed, and is welded to the web 122 of the manual blade plate 200 and the H pile 120 as much as the final root depth 125.

Here, the reason for selecting the diameter of the drilling hole 110 between the width of the H pile 120 and the width of the manual blade 200 is that the diameter of the drilling hole 110 rather than the flange 124 of the H pile 120 This is to increase the H pile 120 easily, and to increase the passive earth pressure action area.

In addition, when the thickness of the manual blade plate 200 welded to the web 122 of the H pile 120 is large, the manual blade plate blade 204 is formed at the lower end of the manual blade plate plate body 202, H The cutting method adopts a method of easily inserting the ground while cutting the pile 120.

That is, in the long span interfacial construction method using the manual wing plate and the elastic support plate according to the present invention is applied to the conventional method of inserting the H pile 120 when the construction of the conventional clam, as it is, but the lower portion of the H pile 120 By installing the manual blade plate 200 consisting of the manual blade plate plate body 202 and the manual blade plate blade 204 to increase the passive earth pressure action area so that the resistance moment is large.

That is, in the case where the thickness of the manual blade plate plate body 202 of the manual blade plate 200 is large, the manual blade plate blade 204 is formed in the width outside the perforation hole 110, thereby driving the H pile 120 against the driving force. When the H pile 120 is inserted into the ground, the manual blade blade 204 of the manual blade plate 200 cuts the ground, and facilitates the insertion of the H pile 120 while drilling holes ( After the installation of the H pile 120 in the 110, the spacing of the H pile 120 is made longer by increasing the moment of resistance by increasing the passive earth pressure action area of the H pile 120.

In addition, Figure 4 is an exemplary view showing a state in which the manual blade plate is attached to the lower portion of the H-pile of the long span intercalation facility using the manual blade plate and the elastic support plate according to the present invention.

As shown in this figure, the manual blade plate 200 is a manual blade plate guide plate formed with a small number of inclined long holes 210 in the web 122, which is the lower end depth 125 of the H pile 120 ( 206 is welded, the manual blade plate plate body 202 formed with the inclined long hole 210 in a state spaced apart from the web 122 of the H-pile 120 by abutting against the manual blade plate guide plate 206 It is coupled to each other by the manual blade plate guide plate 206 and the rotary washer bolt 208, the tension rope 212 is provided on the tension rope ring 214 at the end of the manual blade plate plate 202.

Here, the inclined long hole 210 of the wing plate guide plate 206 and the inclined long hole 210 of the manual blade plate plate body 202 are matched to the rotating washer bolt 208, the inclined long hole 210 and the manual wing The plate-shaped body 202 is spaced apart from the web 122 of the H-pile 120 so that when the tension rope 212 is pulled, the manual blade plate body 202 is moved to the edge of the inclined long hole 210 to be unfolded. This is to increase the passive earth pressure action area.

In addition, when the thickness of the manual blade plate plate body 202 is large, the manual blade plate blade 204 is formed by inclining the end to form the manual blade plate blade 204 when pulling the tension rope 212 when the manual blade plate 200 is punched holes It is to make it easy to force purchase, cutting more than (110).

That is, the installation of the manual wing plate 200 having the configuration as described above to form the drilling hole 110 by drilling the ground 100, to insert the H pile 120 in the drilling hole 110 Before, in the same direction as the flange 124 of the H-pile 120 at the final root depth 125 of the H-pile 120, the inclined long hole 210 of the manual blade plate plate body 202 By installing the manual blade plate 200 is located in the drilling hole 110 to facilitate the access of the H-pile 120.

Subsequently, the inserted H-pile 120 is inserted into the punching hole 110, and then the manual blade plate guide plate 206 and the manual blade plate plate body (pull the tension rope 212 in the step before final drilling). According to the inclined long hole 210 formed in the 202, the manual blade plate 200 is moved to the edge of the inclined long hole 210 to the rotation washer bolt 208 centered and expanded to extend to more than the punching hole 110, the passive earth pressure working area Will be increased.

Here, the reason why the manual blade plate 200 is formed to be equal to or smaller than the diameter of the punching hole 110 when the H-pile 120 is approached is for easily entering the H-pile 120.

In addition, the reason why the manual blade plate blade 204 is formed is that the extension of the manual blade plate 200 beyond the drilling hole 110 is easy when pulling the tension rope 212 after the final inlet of the H-pile 120. I did it.

The reason why the inclined long hole 210 is formed in the manual blade plate guide plate 206 and the manual blade plate plate body 202 is to facilitate the movement of the manual blade plate 200 when the tension rope 212 is pulled out. This is to increase the area of the wing plate 200, that is, the passive earth pressure action area.

That is, even in the long span interfacial construction method using the manual wing plate and the elastic support plate according to the present invention is applied to the conventional method of inserting the H pile 120 when constructing the conventional temporary clam, but the lower portion of the H pile 120 On the web 122 of the H-pile 120, the manual blade plate guide plate 206 formed with a few inclined long holes 210 is welded and installed, and the H-pile 120 is opposed to the manual blade plate guide plate 206. The manual blade plate plate body 202 formed with the inclined long hole 210 in a state spaced apart from the web 122 of the (122) by the manual blade plate guide plate 206 and the rotary washer bolt 208, and the When the manual blade plate 200 is installed on the end of the manual blade plate plate 202, the tension rope ring 214 is installed on the tension rope ring 214, and pulls the tension rope 212 in the step before the final excavation, the The manual blade plate plate body 202 rotates in accordance with the edge direction of the inclined long hole 210. Ever extend over the hole 110 to the diameter to which to increase the passive earth pressure acting area.

In addition, when pulling the tension rope 212 by the manual blade plate blade 204 formed at the lower end of the manual blade plate plate 202 in order to increase the manual earth pressure action area when pulling the tension rope 212 H. H-120 120 due to the increase of the moment of resistance by increasing the area of the manual blade plate 200 after installing the H-file 120 in the drilling hole 110 to facilitate the ground access of the pile 120 smoothly. ), The interval is long.

On the other hand, Figure 5 is an exemplary view showing a state in which the manual blade plate is attached to the lower portion of the H-pile of the long span intercalation temporary facility using the manual blade plate and the elastic support plate according to the present invention.

As shown in the figure, the manual blade plate 200 is a manual blade plate guide plate 206 formed with a few horizontal holes 216 in the bottom web 122 of the final root depth 125 of the H-pile 120 ) Is installed by spaced apart by the thickness of the manual blade plate plate body 202, the horizontal hole in the state spaced apart from the web 122 of the H-pile 120 between the manual blade plate guide plate 206 at a predetermined interval ( The manual blade plate plate body 202 having the 216 formed therebetween is sandwiched between the manual blade plate guide plate 206 and coupled to the horizontal long hole 216 by a rotary washer bolt 208, and the manual blade plate plate body ( The lower surface of the 202 is formed by inserting a guide wedge 220 is provided with a tension rope 212 in a separate tension rope ring (214).

Here, in a state where the horizontal long hole 216 of both manual blade plate guide plate 206 and the horizontal long hole 216 of the manual blade plate plate body 202 coincide with each other, the space of the both manual wing plate guide plate 206 is Manual blade plate plate body 202 is inserted is coupled to the rotary washer bolt (208).

Guide wedge 220 having a triangular shape so that the guide wedge 220 is inserted into a portion of the lower end of the manual blade plate-like body 202, the guide wedge is installed in the triangular space cut to the bottom of the manual blade plate-like body 202 ( 220 is formed by inserting, and when the guide rope 220 is pulled upward when the tension rope 212 is pulled up, the manual wing plate plate 202 is moved to expand and expand the passive earth pressure action area. .

In addition, the manual blade plate blade 204 is formed by inclining the end of the manual blade plate plate body 202 so that the manual blade plate 200 when the tension rope 212 is pulled out of the drill hole 110 or more. The cutting was made to facilitate the forced purchase.

That is, the installation of the manual wing plate 200 having the configuration as described above to form the drilling hole 110 by drilling the ground 100, to insert the H pile 120 in the drilling hole 110 Previously, the manual blade plate guide plate formed with a plurality of horizontal holes 216 in the same direction as the flange 124 of the H pile 120 in the web 122 below the final root depth 125 of the H pile 120 Horizontally spaced apart from the web 122 of the H-pile 120 between the manual blade plate plate body 202 by the thickness of the manual blade plate plate body 202 to be welded and installed. The manual blade plate plate body 202 having the long hole 216 formed therein is inserted into the manual blade plate guide plate 206, and the manual blade plate 200 coupled to each other by the rotary washer bolt 208 to the horizontal hole 216. It is easy to access the H-pile 120 by installing it in the drilling hole 110.

After inserting the produced H pile 120 into the drilling hole 110, the guide wedge 220 is moved upward by pulling the tension rope 212 installed in the guide wedge 220 in the step before the final excavation, Due to this, the manual blade plate plate body 202 inserted between the manual blade plate guide plate 206 is moved to the left and right along the horizontal long hole 216 to expand and extend to the hole of the hole 110 or more to increase the manual earth pressure action area. It is to let.

Here, the reason why the manual blade plate 200 is equal to or smaller than the diameter of the punching hole 110 when the H pile 120 is approached is for easily entering the H pile 120.

In addition, the reason why the blade-shaped manual blade blade 204 is formed obliquely at the end of the manual blade plate 200 is the hole hole 110 or more when pulling the tension rope 212 after the H pile 120 is entered. The manual blade plate 200 is to facilitate the expansion.

The reason why the horizontal blade 216 is formed in the manual blade plate guide plate 206 and the manual blade plate plate body 202 is to pull the tension rope 212 when the guide wedge 220 moves upward. This is to increase the area of the manual blade plate 200, that is, the passive earth pressure action area by facilitating the movement in the lateral direction.

That is, even in the long span interfacial construction method using the manual wing plate and the elastic support plate according to the present invention is applied to the conventional method of inserting the H pile 120 when constructing the conventional mud temporarily, but the H file 120 to the H file The manual blade plate guide plate 206 having a few horizontal holes 216 formed on the web 122 of the 120 is spaced apart by the thickness of the manual blade plate plate member 202 and welded thereto, and the manual blade plate guide plate is installed. Between the 206 between the web 122 of the H-pile 120 and the manual blade plate plate body 202 is formed between the manual blade plate guide plate 206 formed with a horizontal long hole 216 spaced at a predetermined interval. The guide wedge 220 is coupled to each other by a washer bolt 208 by using the horizontal long hole 216, and a tension rope ring 214 is formed on a lower surface of the manual wing plate plate body 202 by a tension rope 212. After installing the manual blade plate (200) formed by inserting), before the final excavation When pulling the tension rope 212 in the step, the manual blade plate plate body 202 is moved horizontally in accordance with the horizontal hole 216 to extend to a diameter more than the drilling hole 110 to increase the passive earth pressure action area. It is.

Further, when pulling the tension rope 212 by pulling the tension rope 212 by the manual blade plate blade 204 formed at the lower end of the manual blade plate plate body 202 in order to increase the passive earth pressure action area when pulling the tension rope 212. After the H pile 120 is installed in the drilling hole 110 while the underground purchase of the 120 is smooth, the gap of the H pile 120 is increased due to an increase in the resistance moment. This is to make long span.

On the other hand, as described above, as the interval between the H pile 120 becomes longer as the manual earth pressure action area increases, the length of the earth plate 130 for supporting the back ground 100 becomes longer, which is why the thickness of the earth plate 130 is increased. In order to overcome the difficulty in handling the earth plate 130 due to the increase in manpower, the elastic support plates (400, 500) is installed in the center of the interval of the H pile 120 to form a spring rigid point formed It is shown in Figure 6 to 9 that reduced.

Figure 6 is a front view showing a state of supporting the elastic plate to the earth plate of the long span interlining using the manual blade and the elastic support plate according to the present invention, Figure 8 is a chapter using the manual wing plate and the elastic support plate according to the present invention Figure 1 is an exemplary view showing a state in which the elastic support plate is installed in the central portion of the earth plate of the spanning provisional installation.

As shown in these figures, the movable elastic support plate 400 has a guide groove 404 having a groove portion at the end of the thin elastic support plate plate member 402 to be moved in the strip 140 to the thin elastic support plate plate member 402. Install by welding).

7A to 7D are process diagrams showing a state in which a long span soil membrane using a passive blade plate and an elastic support plate according to the present invention is supported by an elastic support plate on a soil plate of a temporary installation.

As shown in these figures, the construction method of the long span soil wall construction using the manual wing plate and the elastic support plate according to the present invention, the center of the H pile 120 interval between the strip 140 and the strip 140 installed while excavating step by step After the movable elastic support plate 400 is inserted into the flange 140 of the belt 140 at a position far from the position (see FIG. 7 (a)), the center of the flange 124 and the H pile 120 of the H pile 120 are positioned. After installing the earth plate 130 to the position, the movable elastic support plate 400 is moved to the earth plate 130 side and supported (see FIG. 7 (b)), and the earth plate 130 on the other side of the H pile ( 120) After installing the flange 124 of the H pile 120 from the center position (see FIG. 7 (c)), the movable elastic support plate 400 is moved to the center so that both sides of the earth plate 130 are supported. (See FIG. 7 (d)), the spring rigid point is formed to reduce the member force to reduce the thickness of the earth plate 130. Reduced economical, easy to handle has an effect.

Figure 9 is an exemplary view showing a state in which the elastic support plate is installed in the central portion of the earth plate of the long span intercalation facility using the manual wing plate and the elastic support plate according to the present invention.

As shown in this figure, the fixed elastic support plate 500 forms a fixed elastic support plate 500 by attaching the fiber-reinforced plastic support plate plate body 502 to the strip 140 and the strip 140.

After installing the earth plate 130 between the H pile 120 and the flange 124 of the H pile 120 installed during the step-by-step excavation, the fiber-reinforced plastic support plate plate body 502 which is the fixed elastic support plate 500 is H Mounted up to the belt 140 and the belt 140 in the central portion between the pile 120 and the H pile 120 and resin bonded to the earth plate 130, the end of the fiber-reinforced plastic support plate plate body 502 is strip 140 The elastic spring point is formed through the resin end of the flange to reduce the member force, thereby reducing the thickness of the earth plate 130, thereby reducing the thickness of the earth plate 130.

100: ground 102: final digging ground
110: hole 120: H file
122: web 124: flange
125: final root depth 130: earth plate
140: Belt 150: Strut
200: manual blade plate 202: manual wing plate plate body
204: manual blade plate blade 206: manual blade plate guide plate
208: washer bolt 210: inclined hole
212: tension rope 214: tension rope ring
216: horizontal slot 220: guide wedge
400: movable elastic support plate 402: elastic support plate plate body
404: guide groove 500: fixed elastic support plate
502: fiber reinforced plastic support plate plate
A: Long span retaining facility using manual wing plate and elastic support plate

Claims (8)

Excavating the ground 100 to form a drilling hole 110, the H pile 120 is entered into the drilling hole 110, and crosses the strip 140 at a predetermined height of the H pile 120 In the installation method of the temporary wall construction to support the belt length 140 with the strut 150, and to install the earth plate 130 between the H pile 120 to support the ground 100 on the back ,
Passive wing plates 200 are installed on both sides of the bottom web 122 of the final root depth 125 of the H pile 120, and the elastic support plates 400 and 500 are disposed in the middle of the earth plate 130 between the H piles 120. ), But the manual blade plate 200 is the manual blade plate guide plate 206 manual blade plate guide plate 206 formed a few horizontal holes 216 in the web 122 of the final root depth 125 of the H-pile 120 The plate-shaped body 202 is spaced apart by welding and installed, and the horizontal blade 216 is formed between the manual blade plate guide plate 206 and the web 122 of the H-ply 120 at a predetermined interval. The manual blade plate plate body 202 is inserted into the manual blade plate guide plate 206, and is coupled to each other by a rotary washer bolt 208, the guide wedge 220 is a portion of the lower end of the manual blade plate plate body 202 Guide wedge 220 having a triangular shape to be inserted, and a tension rope 212 is installed in a triangular space cut at the bottom of the manual blade plate plate 202. When the guide rope 220 is moved upward when the tension rope 212 is pulled out, the manual blade plate and the sheet using the elastic support plate are characterized in that the manual blade plate plate body 202 is moved and unfolded. Span earthquake temporary construction method.
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