KR102060692B1 - Construction method using road soundproof wall concrete retaining wall construction device - Google Patents

Abstract

The present invention is to construct a foundation of a noise barrier wall provided at the boundary between a road and a residential area. More specifically, the present invention uses a support device that can be moved and used, and enables a simple installation and demolding of a form by using a plurality of cylinders and screw jacks mounted and supported on the support device. Therefore, according to the present invention, a formwork is very convenient, and the stability is improved by the solid support of the concrete placing pressure. In particular, even when demolding, it is possible to demold by simple operation and to improve workability and shorten a construction period accordingly. In addition, by enabling the support device to move, it is easy to move and reuse a support structure in accordance with the integral movement of the cylinder to improve the workability further.

Description

Road Soundproof Wall Concrete Retaining Wall Construction Device

The present invention is for the construction of the foundation of the soundproof wall installed on the boundary between the road and residential area, more specifically, the convenience of construction and shortening of air through the convenience of securing the stability of the foundation concrete and the convenience of the deforming formwork The road soundproof wall concrete retaining wall construction method using the road soundproof wall concrete retaining wall factory factory which makes it possible is possible.

In general, road noise barriers are installed at the edges along the road to prevent the noise generated by vehicles from spreading to the area around the road. This is a concentrated area, and is especially essential on roads where schools and government offices are located in the surrounding area.

In the conventional road soundproof wall installation used for this purpose, the concrete retaining wall is constructed at the edge along the road, and the H 'shape steel pillar is installed while maintaining a predetermined gap on the top of the concrete retaining wall, and on both sides of the steel pillar. The soundproof panel is formed in the groove formed.

At this time, in the construction of the road soundproof wall as described above, the concrete retaining wall is first compacted surface, the formwork is installed on the upper surface of the fill surface, the concrete is poured into the formwork to be cured construction, to a certain length It will be repeated in succession.

However, the construction of the formwork for the construction of the concrete retaining wall as described above is to fix the form through the construction of the foam and a plurality of supports through the manpower, the installation of the formwork and demoulding work after concrete curing was very inconvenient, There was a problem in that the construction inconvenience, such as a large number of manpower must be input for the construction, and the air is significantly delayed accordingly.

In addition, the form and the plurality of support means of the formwork to be constructed as described above is to be recycled as necessary, there was a problem that the transport and the like is not easy after work.

Korean Utility Model Registration No. 20-0217050. Republic of Korea Patent No. 10-0584093.

The present invention was devised to solve the above problems, using a support device that can be moved, using a plurality of cylinders and screw jacks that are mounted and supported on the support device for easy installation construction and demoulding By making this possible, the formwork is very convenient and the stability is improved by the solid support of the concrete placing pressure, and in particular, even when demolding, it is possible to improve the workability and shorten the air by enabling the demolding by simple operation. It is an object of the present invention to provide a road soundproof wall concrete retaining wall construction method using the road soundproof wall concrete retaining wall factory factory.

In addition, by making the support device moveable, the road soundproof wall concrete retaining wall factory factory is designed to further improve workability, such as easy movement and reuse of the support structure according to the integral movement of the cylinder. It is another object of the present invention to provide a retaining wall construction method.

As a specific means for achieving the above object, the bottom of the movable wheel is formed and both sides of the vertical support is formed parallel to the both sides, while connecting the upper end of the vertical support, one end of the protrusion is formed to protrude to the outside of the vertical support A support device made of a top plate on which a power generating device and a hydraulic device are installed; A hydraulic lifting cylinder which is vertically formed downward from the bottom of the protruding portion, lifts and lowers by a hydraulic device, and has a lifting rod formed at an end thereof with a lifting support beam; A pair of horizontal cylinders installed on both sides of the elevating support beam, each of which has a horizontal rod operating in a direction opposite to each other by a hydraulic device, each having a horizontal rod formed at an end thereof with a horizontal support beam; It is installed vertically on each horizontal support beam so that the casting space can be formed inside to enable concrete pouring. The lower support beam is formed on each lower part, and the inner and outer foams on which the working scaffold is formed on each outer upper part. Including,

Filling surface construction process of compacting the fill surface of the edge of the road; A floor foundation process for constructing a concrete foundation on which concrete is poured on top of the constructed fill surface; Forming process for constructing the formwork to form the interior space using the support device, the lifting cylinder, the horizontal cylinder and the inner wall of the soundproof wall concrete retaining wall of the inner and outer foam on the upper surface of the constructed concrete foundation; Concrete placing process of constructing concrete retaining wall by placing and curing concrete in the placing space of the constructed formwork; And it can be achieved by the construction including the formwork demolition process of dismantling the formwork from the concrete retaining wall in the state where the concrete is cured.

As described above, the road soundproofing wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory is configured with a support device capable of supporting the foam, and in particular, the support device includes a cylinder for easily supporting and demoulding the foam and The screw jack can be easily installed, and with a few manpower, it is possible to install and demolish formwork with simple operation. In particular, the concrete retaining wall works to improve the stability. The performance is further improved, and furthermore, the construction cost is reduced and the air is significantly shortened.

In addition, the support device is configured to be used to move in the construction direction of the concrete retaining wall, the handling of the equipment is very convenient, it is possible to obtain an effect capable of efficient work, such as a quick rework is possible.

1 is an overall view showing the present invention road noise barrier concrete retaining wall factory.
Figure 2 is the overall process diagram showing the road soundproofing wall concrete retaining wall construction method using the present invention road soundproofing wall retaining wall factory.
Figure 3 is a simplified view of the embankment surface construction process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
Figure 4 is a schematic diagram of the floor foundation process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
5 is a schematic view of the formwork process of the road soundproofing wall concrete retaining wall construction method using the present invention road soundproofing wall concrete retaining wall factory.
6 is a schematic diagram of the formwork process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
7 is a schematic view of the concrete pouring process of the road soundproofing wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
8 is a schematic view of the formwork demolition process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
9 is a schematic view of the formwork demolition process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.
Figure 10 is a simplified view of the construction apparatus moving process of the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all of the technical idea of the present invention, which can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

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

Figure 1 is an overall view showing the road noise barrier concrete retaining wall factory factory of the present invention.

As shown in FIG. 1, the road soundproofing wall concrete retaining wall construction device 1 of the present invention includes a support device 100, a lifting cylinder 200, a horizontal cylinder 300, 300 ′, and an inner and outer foam 400. 400 '.

First, the support device 100 is configured to form the foundation in the present invention, the soundproof wall concrete retaining wall construction device 1, the lifting cylinder 200 and horizontal cylinders 300, 300 'and the inside, The outer foams 400, 400 ′ are configured to be installed.

To this end, the support device 100 is configured with a pair of vertical supports 110 and 110 'on both sides of the left and right sides so as to be located on the road side and the outside, and the vertical supports 110 and 110' are parallel to both sides. It is configured to form a vertical form, in the configuration of the present invention can be configured to form a plurality of pillars along each side of the wall or each side of the road.

At this time, the bottom of each vertical support (110, 110 ') is composed of a moving wheel 111 is configured to enable the movement of the support device 100, the moving wheel 111 is a manual drive or separately It can be comprised so that drive by power via a motor (not shown in figure) etc. is possible.

In addition, the support device 100 is connected to the upper end of the vertical support (110, 110 ') is composed of a top plate 120 to close the top.

At this time, the upper plate 120 is configured so that one end thereof protrudes to the outside of the vertical support 110 of one side which is located on the outside.

In addition, the upper plate 120 is configured to be provided with a hydraulic device 140 for controlling the use of electricity or the hydraulic pressure of the lifting cylinder 200 or the horizontal cylinder 300, 300 'which will be described later.

The lifting cylinder 200 is configured to intermittently move up and down the inner and outer foams 400 and 400 'which will be described later in configuring the road soundproof wall concrete retaining wall construction apparatus 1 of the present invention.

To this end, the lifting cylinder 200 is configured as a hydraulic type controlled by the hydraulic device 140, and is configured vertically downward from the bottom surface of the protrusion 121 of the upper plate 120, the lifting rod 210 during operation It is configured to operate up and down.

In addition, in the present invention, the lower end of the elevating rod 210 is configured to support the lifting support beam 220 that can be mounted and supported the horizontal cylinder 300, 300 'to be described later, the lifting support beam 220 is "H" It consists of a beam.

On the other hand, although the lifting cylinder 200 is not shown in the figure in the present invention, it will be obvious that a plurality of installation may be configured along the length of the concrete retaining wall that is constructed along the road direction at the bottom of the protrusion 121.

The horizontal cylinder (300, 300 ') is configured to enable the adjustment of the left and right intervals of the inner, outer foam (400, 400') to be described later in configuring the road soundproof wall concrete retaining wall construction apparatus 1 of the present invention. The left and right pairs are symmetrically configured.

To this end, each of the horizontal cylinders 300, 300 'is configured of a hydraulic type controlled by the hydraulic device 140 and is connected to the lifting cylinder 200, preferably of the lifting support beam 220 It is configured in a horizontal form on each side, the horizontal rod 310 during operation is configured to operate horizontally on the road side and the outside.

At this time, the horizontal support beam 320 to which the inner and outer foams 400, 400 ', which will be described later, is mounted at the end of each horizontal rod 310 in the present invention, each horizontal support beam 320 Is composed of an "H" beam.

On the other hand, although the lifting cylinder 200 is not shown in the figure in the present invention, it will be obvious that a plurality of installation may be configured along the length of the concrete retaining wall that is constructed along the road direction at the bottom of the protrusion 121.

The inner and outer foams 400 and 400 ′ are configured to secure a space for placing concrete in constructing the road soundproofing wall retaining wall construction device 1 of the present invention.

To this end, the inner and outer foams 400 and 400 'are respectively installed in the horizontal support beams 320 of the two horizontal cylinders 300 and 300'.

At this time, the inner and outer foams 400 and 400 ′ which are installed, first, the upper end of the inner foam 400 is connected to the horizontal support beam 320 formed in the inner horizontal cylinder 300 located on the road side. The upper end of the outer form 400 'is connected to the horizontal support beam 320 formed at the outer horizontal cylinder 300', and configured to oppose each other to operate both horizontal cylinders 300 and 300 '. The interval is configured to be narrowed or widened.

In addition, on the outside of each of the inner and outer foam (400, 400 '), the working scaffold 420 is integrally configured to enable the worker to work up.

On the other hand, the inner and outer foams (400, 400 ') applied in the present invention is not limited, it will be applicable to a variety of flow paths, gang foams, al foams, etc. that are usually used when the retaining wall or wall construction.

Hereinafter, a road soundproofing wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall having a construction as described above will be described in detail with reference to the accompanying drawings.

2 is an overall process diagram showing a road soundproofing wall concrete retaining wall construction method using the present invention road soundproofing wall concrete retaining wall factory.

As shown in Figure 2 with reference to Figure 1 road soundproofing wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory installation, the soil surface construction step (S100), floor foundation step (S200), formwork process ( S300), the concrete pouring process (S400) and the formwork demolition process (S500) is performed.

First, the filling surface construction process (S100), with reference to Figure 3, the process of laying the foundation of the ground for installing the road soundproof wall at the edge of the road 10, the ground surface 20 by constructing the soil piles Done.

At this time, it is preferable to construct the fill surface 20 to a predetermined lower height than the surface of the road 10 for the concrete foundation 30 to be described later.

The floor foundation process (S200), with reference to Figure 4, the concrete is laid in a process for supporting the load of the road soundproofing wall and the planarization work for installing the road soundproofing wall on the upper part of the constructed soil surface (20) To construct the concrete foundation 30.

At this time, the concrete foundation 30 to be constructed is possible by constructing the formwork (not shown in the drawing) and concrete, as in the normal concrete floor construction, it will be possible through manpower.

The formwork process (S300), the support device 100, the lifting cylinder 200 and the horizontal cylinder (300, 300 ') and in the upper surface of the concrete foundation 30, with reference to Figure 5, By using the road soundproof wall concrete retaining wall construction device (1) made of the outer form (400, 400 '), the formwork 40 forming the pouring space 41 is constructed therein.

To this end, the formwork construction process (S300) first, but performs the device installation process (S310), which moves the support device 100 to the position to be installed the formwork 40, the support device 100 of The protrusion 121 of the upper plate 120 may be positioned to be positioned above the concrete foundation 30 using the moving wheel 111.

Then, the interval adjusting process (S320) is carried out, which is, by raising and lowering the lifting cylinder 200 formed on the protrusion 121 with reference to Figure 6, the inner and outer foams 400, 400 'from the ground to the top The horizontal cylinders 300 and 300 'of both sides are operated in a spaced apart state, and the horizontal cylinders 300 and 300' are intended to construct an interval between the inner and outer foams 400 and 400 '. The thickness of the concrete retaining wall, that is, the spacing may be adjusted to form a pouring space 41 for placing concrete.

Thereafter, a foam installation process (S330) is performed, which is performed by lowering and operating the lifting cylinder 200. Accordingly, the lower end of the inner and outer foams 400 and 400 'is the upper portion of the concrete foundation 30. You can install it on the

Thereafter, the interval maintaining process (S340) is performed, which is to fix the inner and outer foams 400 and 400 ', which are adjusted as described above, and to fix the spacing space 41, the interval maintaining means ( Being possible through 700, wherein the gap maintaining means 700 is composed of a Sepha bolt 710 and the body bolt (720).

On the other hand, the Sepha bolt 710 and the body bolt 720 to be applied in the present invention is not newly implemented, it is possible to be used as a gap maintaining means in the usual formwork.

That is, the Sepha bolt 710 is formed in the form of a rod formed on both sides of the thread, both sides of the thread is configured to be connected to the deacon 711 forming a through-type female thread, both sides of the inner, outer foam (400, 400 ') The deacon 711 is supported on the inside to maintain the spacing.

In addition, the main body bolt 720 is configured to form a rod-shaped thread formed around the inner, outer foam 400, 400 'is fastened to the deacon 711, the inner, outer foam 400 ( The washer 721 and the casting nut 722 are fastened and fixed to the circumference of the outside of the 400 ′, thereby fixing the Sepha bolt 710.

That is, first, using the sepabolt 710 of the interval maintaining means 700, the deacon 711 is coupled to both ends of the sepabolt 710, the deacon 711 in the inner, outer form ( What is necessary is just to support and fix each inside 400 (400 ').

And the main body bolt 720 is installed in the deacon 711, the main body bolt (720) through the inner and outer foams (400, 400 ') and screwed to the deacon 711 body bolt ( The washer 721 may be fixed to the inner and outer foams 400 and 400 ′ on the outer and inner foams 400 and 400 ′ by fastening and supporting the casting nuts 722 to the inner and outer foams 400 and 400 ′.

Accordingly, the inner and outer foams 400 and 400 ′ of both sides can be fixed at a space between the pouring spaces 41 by the separing bolts 710 on the inner side, and the body bolts 720 and the casting nuts 722 on the outer side. The sepabolt 710 is fixed by the bar, and the space between the inner and outer foams 400 and 400 ′ and the pour space 41 can be fixed.

On the other hand, in the present invention, the construction of the Sepha bolt 710 and the body bolt 720 as described above will be able to be easily installed by the worker through the working footrest 420 formed on the inner, outer foam (400, 400 ').

Thereafter, the upper support process (S350) is performed, which supports the upper portion of the inner and outer foams 400 and 400 'constructed as described above to enable the upper support to the concrete pressure during concrete pouring, which will be described later. .

To this end, using the upper screw jack 500, the upper screw jack 500 is located on one side of the support device 100, that is, the vertical support 110 and the road side located on the concrete foundation 30 side The support may be fixed to the horizontal support beam 320 of the horizontal cylinder 300.

Thereafter, the lower support process (S360) is performed, which supports the lower portion of the inner and outer foams 400 and 400 'constructed as described above to enable the lower support to the concrete pressure during concrete pouring, which will be described later. .

To this end, the lower screw jack 600 is first used, but the lower screw jack 600 is located on one side of the support device 100, that is, the vertical support 110 and the inner foam 400 located on the concrete foundation 30 side. Support the lower support beam 410 located below.

The lower support beam 410 'positioned below the outer form 400' may be fixedly supported on the concrete foundation 30 by using a separate bracket or support (not shown).

On the other hand, in the present invention, the upper screw jack 500 and the lower screw jack 600 is not newly implemented, it is possible to be used as a support means according to the length adjustment by the rotation control used in a conventional construction site.

That is, in the formwork process (S300) form the pouring space (41) in the interior by using the inner, outer foam (400, 400 ') on the upper portion of the concrete foundation 30 through the above series of processes ( Construction of 40) is possible.

At this time, in the present invention, a plurality of manpower is put in the form construction process (S300) and the lifting cylinder 200 for easy hydraulic operation without the need for fixed installation while adjusting the interval of the inner, outer foam (400, 400 ') and It will be possible through the operation of the horizontal cylinder 300 (300 '), the construction is very convenient, the construction time is also possible to significantly shorten.

In the concrete pouring process (S400), with reference to Figure 7, it is only necessary to pour the concrete using a conventional concrete pump car, etc. in the placing space 41 of the formwork 40 constructed as described above, the poured concrete Is cured to form a concrete retaining wall (50).

At this time, when the concrete is poured as described above, the pressure to push out the inner, outer foam (400, 400 ') to the outer space 41, in the present invention, the upper portion of the horizontal cylinder 300 It is firmly supported by the hydraulic support by the 300 'and the horizontal support beam 320 and the upper screw jack 500, the lower portion of which is firmly supported by the lower screw jack 600 and the lower support beam 410 It becomes possible.

In the form dismantling step (S500), with reference to FIG. 8, the form 40 may be dismantled from the concrete retaining wall 50 in a state in which concrete is placed and the concrete retaining wall 50 is constructed.

To this end, the formwork demolition process (S500), first, but performs a body bolt removal process (S510),

This, the main body bolt 720 is separated from the deacon 711 of the Sepha bolt 710 in a state in which the casting nut 722 and the washer 721 of the body bolt 720 connected to the Sepha bolt 710 are separated. In this case, the sepabolt 710 is embedded in a concrete poured state.

Thereafter, the screw jack separation process (S520) is performed, which is to remove the upper screw jack 500 and the lower screw jack 600, in which case, the removal is not limited to any one side by selecting You can do it first.

Thereafter, the foam dismantling process (S530) is performed, which is made possible by the first operation of the horizontal cylinders 300 and 300 ', and when the horizontal cylinders 300 and 300' of both sides are deployed to both sides. The inner and outer foams 400 and 400 'on which concrete is poured are each opened outwards, and the inner and outer foams 400 and 400' are completely separated from the concrete retaining wall 50.

Thereafter, the separation process (S540) is performed, which, with reference to FIG. 9, is the concrete retaining wall in which the inner and outer foams 400 and 400 'are constructed by the horizontal cylinder 300 and 300' operation as described above. The lifting cylinder 200 is to be raised in a state that is completely separated from both sides from the 50, so that the inner and outer foams 400 and 400 'are completely separated to the upper part of the concrete retaining wall 50, thereby concrete Construction of the retaining wall 50 is completed.

That is, in the formwork demolition process (S500) it is possible to demolish the formwork 40 from the concrete retaining wall 50 constructed through a series of processes as described above.

At this time, in the present invention, by inserting a plurality of manpower and equipment in the form dismantling process (S500), the horizontal cylinder (300, 300 ') and easily hydraulic operation, not separation of the inner, outer form (400, 400') and It will be possible through the operation of the lifting cylinder 200, the dismantling is very convenient, the dismantling time is also possible to significantly shorten.

In addition, in the present invention, the hydraulic operation of the lifting cylinder 200 and the horizontal cylinder 300, 300 'used in the formwork process (S300) and formwork dismantling process (S500) is the upper plate 120 of the support device 100 Of course it is possible by the power generation device 130 and the hydraulic device 140 is built in).

On the other hand, in the present invention, the construction device moving step (S600) can be further performed for the continuous installation of the concrete retaining wall 50 in a continuous state in the construction of the concrete retaining wall 50 as described above.

At this time, the construction device moving step (S600), with reference to Figure 10, as shown above, while moving the support device 100, the road soundproof wall concrete retaining wall factory factory in the state that the form 40 is completely demolished, which is a support device ( The moving wheels 111 formed on the vertical supports 110 and 110 ′ of 100 may be moved to the next city factory, and the construction of the concrete retaining wall may be continuously performed through the construction as described above.

That is, in the construction apparatus moving process (S600), each device for constructing the formwork 40, that is, the support apparatus 100, the lifting cylinder 200, the horizontal cylinder 300 (300 ') and the inner and outer foam ( 400) (400 ') is to be able to move easily without a separate means of transport, such as the convenience of equipment movement and the rapid work in a continuous operation is possible to be efficiently constructed.

As described above, the road soundproof wall concrete retaining wall construction method using the present invention road soundproof wall concrete retaining wall factory value is that the construction and demoulding of the formwork can be easily performed using the retaining wall factory value, and is simple and quick even with minimal manpower. Work can be done, such as construction convenience and shortening of air is possible.

100: support device 110,110 ': vertical support
111: moving wheel 120: top plate
121: protrusion 130: generator
140: hydraulic system
200: lifting cylinder 210: lifting rod
220: lifting support beam
300,300 ': horizontal cylinder 310: horizontal rod
320: horizontal support beam
400,400 ': inner and outer foam 410,410': lower support beam
420: Work Scaffold
500: upper screw jack 600: lower screw jack
700: spacing means 710: sepabolt
710: Decon 720: Body Bolt
721 washer 722 casting nut
S100: Filling surface construction process S200: Ground foundation process
S300: Formwork process S310: Device installation process
S320: Spacing process S330: Foam installation process
S340: Spacing process S350: Upper support process
S360: Lower support process S400: Concrete pouring process
S500: Formwork demolition process S510: Body bolt removal process
S520: Screw jack separation process S530: Foam dismantling process
S540: Separation process S600: Construction device moving process

Claims (5)

delete Moving wheel 111 is formed at the lower end of the vertical support (110, 110 ') of the two sides formed in parallel to both sides, while connecting the upper end of the vertical support (110, 110') one end of the vertical support ( 110 is a protrusion 121 protruding to the outside is formed and the support device 100 of the upper plate 120 is installed on the top of the power generator 130 and the hydraulic device 140;
A hydraulic lifting cylinder 200 having a lifting rod 210 formed vertically downward from a bottom of the protrusion 121 and lifting and lowering by the hydraulic device 140 and having an lifting support beam 220 formed at an end thereof;
It is installed on both sides of the elevating support beam 220, both sides having a horizontal rod 310 is formed in the opposite direction by the hydraulic device 140 and the horizontal support beam 320 is formed at each end. A pair of horizontal cylinders 300 and 300 '; And
It is installed perpendicular to each horizontal support beam 320 so that the casting space is formed to allow concrete pouring therein, and each of the lower support beams 410 and 410 'are formed at each lower portion, and each outer upper portion Inner and outer foam (400, 400 ') is formed on the working footrest 420;
Road soundproof wall containing concrete retaining wall factory,
Filling surface construction process of compacting the edge fill surface 20 of the road (S100);
A floor foundation process (S200) for constructing a concrete foundation 30 to pour concrete on top of the constructed fill surface 20;
Road retaining wall concrete retaining wall with support device 100, lifting cylinder 200, horizontal cylinder 300, 300 'and inner and outer foams 400, 400' on the upper surface of the constructed concrete foundation 30 Formwork construction process for constructing the formwork 40 to form a pouring space 41 therein using the factory factory (S300);
Concrete pouring process (S400) for constructing the concrete retaining wall 50 by placing and curing concrete in the placing space 41 of the formed formwork 40; And
Formwork demolition step (S500) of dismantling the formwork from the concrete retaining wall 50 in the state where the concrete is cured;
Including;
The formwork process (S300),
A device installation process of placing the support device 100 so that the protrusion 121 is positioned above the concrete foundation 30 (S310);
Placing space 41 corresponding to the thickness of the concrete retaining wall between the inner and outer foams 400 and 400 'by operating the horizontal cylinders 300 and 300' on both sides while raising and lowering the lifting cylinder 200. An interval adjusting step of adjusting the interval to achieve the step (S320);
Foam installation step (S330) for lowering the lifting cylinder 200 by seating and fixing the inner, outer foam (400, 400 ') on the concrete foundation (30) top;
Placement space 41 of the inner and outer foams 400 and 400 'by using the Sepha bolt 710 of the gap maintaining means 700 in a state where the gap between the inner and outer foams 400 and 400' is adjusted. Fixing the gap and the interval maintaining step (S340) for fixing the body bolt 720 to the deacon 711 of the Sepha bolt 710 in the outer and fixed with the washer 721 and the casting nut 722;
An upper support process (S350) for supporting the horizontal support beam 320 of one side vertical support 110 and one side horizontal cylinder 300 of the support device 100 by using the upper screw jack 500; And
The lower screw jack 600 is used to support one vertical support 110 of the support device 100 and the lower support beam 410 on one side, and the lower support beam 410 'below the outer foam 400'. Road soundproof wall concrete retaining wall construction method using the road soundproof wall concrete retaining wall factory factory, characterized in that by performing a lower support step (S360) fixed to the concrete foundation (30).
delete The method of claim 2,
Formwork demolition process (S500),
Body bolt removal process (S510) for removing the body bolt 720 from the Sepha bolt 710;
A screw jack separation process (S520) of removing the upper screw jack 500 and the lower screw jack 600;
Horizontal cylinders 300 and 300 'on both sides are opened to the outside to form inner and outer foams 400 and 400' on both sides from the cured concrete retaining wall 50, and the inner and outer foams 400 and 400 '. Foam dismantling process for completely separating the (S530); And
By using the lifting cylinder 200 to operate the lifting soundproof wall concrete retaining wall city factory characterized in that the separation process (S540) to completely separate the inner and outer foam (400, 400 ') from the concrete foundation 30 Construction of road retaining wall concrete retaining wall.
The method of claim 2,
After the formwork demolition process (S500),
Road soundproof wall concrete retaining wall using the factory of the road soundproof wall concrete retaining wall, characterized in that the installation further comprises a construction device moving process (S600) to move to the next city through the moving wheel 111 of the support device (100). Construction of road retaining wall concrete retaining wall.

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