KR101150829B1 - The mold with self-propelled type trolley for construction of retaining wall - Google Patents

Abstract

The present invention relates to a self-propelled formwork for retaining wall construction and a continuous construction method of the retaining wall using the self-propelled formwork, a plurality of horizontal width frames formed horizontally in the width direction, a plurality of horizontal length frames formed horizontally in the longitudinal direction, An outer frame having a plurality of vertical frames integrally formed with respect to the horizontal width frame and the horizontal length frame and having an integrated hexahedron shape, the lower frame having a plurality of wheels and height adjusting means; A retaining wall formwork composed of a pair of side formwork for forming a wall surface of the retaining wall and a pair of end formwork blocking both ends of the side formwork is located inside the outer frame; A pair of upper interval adjusting cylinders that linearly move in the longitudinal direction of the horizontal width frame are fixed to operate in opposite directions, and rods of the upper interval adjusting cylinders are fixed to rolling members rolling along the horizontal width frame, respectively. , The rolling member constitutes the width adjusting means of the structure connected to the top of the side frame by the support; The width adjusting means of the structure is composed of a self-propelled formwork having a plurality of structures along the longitudinal direction of the outer frame and the wall frame; It is easy to adjust the width by the wheel of the outer frame and the width adjusting means, and the fast retaining wall construction is achieved by the easy installation and movement of the self-propelled formwork, and the faster retaining wall construction by adding steam curing. This would be possible.

Description

Self-propelled formwork for retaining wall construction {the mold with self-propelled type trolley}

The present invention relates to a self-propelled formwork for retaining wall construction and a continuous construction method of the retaining wall using the self-propelled formwork, a plurality of horizontal width frames formed horizontally in the width direction, a plurality of horizontal length frames formed horizontally in the longitudinal direction, An outer frame having a plurality of vertical frames integrally formed with respect to the horizontal width frame and the horizontal length frame and having an integrated hexahedron shape, the lower frame having a plurality of wheels and height adjusting means; A retaining wall formwork composed of a pair of side formwork for forming a wall surface of the retaining wall and a pair of end formwork blocking both ends of the side formwork is located inside the outer frame; A pair of upper interval adjusting cylinders that linearly move in the longitudinal direction of the horizontal width frame are fixed to operate in opposite directions, and rods of the upper interval adjusting cylinders are fixed to rolling members rolling along the horizontal width frame, respectively. , The rolling member constitutes the width adjusting means of the structure connected to the top of the side frame by the support; The width adjusting means of the structure is composed of a self-propelled formwork having a plurality of structures along the longitudinal direction of the outer frame and the wall frame; It is easy to adjust the width by the wheel of the outer frame and the width adjusting means, and the fast retaining wall construction is achieved by the easy installation and movement of the self-propelled formwork, and the faster retaining wall construction by adding steam curing. This would be possible.

Generally, the retaining wall is the most common structure that resists earth pressure. It is used for the optimal use of land due to the limitation of the land such as roads, railways, harbors, embankments, shifts, and redevelopment apartments. It is installed on the slopes of residential sites and foothills bordering roads, and is responsible for preventing them from collapsing due to natural conditions such as earth pressure and storm water.

In general, a method of constructing a retaining wall includes a retaining wall construction method through formwork and mortar casting and a retaining wall construction method using retaining wall blocks.

First of all, the retaining wall construction method through the formwork and mortar casting method is to install the formwork as the installation height and width where the retaining wall is to be installed. It is a method of construction.

The retaining wall construction method using the retaining wall block is a method in which a retaining wall block of a unit size molded and cured concrete structure is transported to a site and laminated in a factory, and the retaining wall block has a plate shape according to its type. A panel retaining wall block and a planting retaining wall block having a space formed therein, and the retaining wall block is a method of constructing a retaining wall by laminating it to a desired height using equipment.

However, in the case of the retaining wall construction method through the formwork and mortar casting, if the retaining wall is long, it requires a lot of formwork, a lot of time and a lot of manpower to assemble and dismantle the formwork, the general curing method of the general mortar When applied, the length of the formwork is long, the air is long, the uniformity of the thickness along the length of the retaining wall in the construction process should be maintained, and there is a problem that the safety of the worker falls in the process of dismantling the formwork.

In addition, in the case of the retaining wall construction method using the retaining wall block, heavy equipment is required in the construction process due to the weight of the retaining wall block, and as the length of the retaining wall becomes longer, a large amount of retaining wall block is required, and the construction cost increases. In addition, since the retaining wall block is formed by the inter-block insertion, the retaining wall block has a risk of collapsing after the work process or the retaining wall construction, depending on the type of the retaining wall block, the finishing method, the weather and the environment after the construction, etc. There was this.

Therefore, the present invention, in order to solve the above problems, a plurality of horizontal width frame is formed horizontally in the width direction, a plurality of horizontal length frame is formed horizontally in the longitudinal direction, is formed perpendicular to the horizontal width frame and the horizontal length frame It is a hexahedral shape in which a plurality of vertical frames are integrated, the lower frame having a plurality of wheels and height adjusting means; A retaining wall formwork composed of a pair of side formwork for forming a wall surface of the retaining wall and a pair of end formwork blocking both ends of the side formwork is located inside the outer frame; A pair of upper interval adjusting cylinders that linearly move in the longitudinal direction of the horizontal width frame are fixed to operate in opposite directions, and rods of the upper interval adjusting cylinders are fixed to rolling members rolling along the horizontal width frame, respectively. , The rolling member constitutes the width adjusting means of the structure connected to the top of the side frame by the support; The width adjusting means of the structure is composed of a self-propelled formwork having a plurality of structures along the longitudinal direction of the outer frame and the wall frame; Easy to adjust the width of the retaining wall formwork by the easy movement by the wheel of the outer frame and the width adjusting means, to facilitate the construction of the retaining wall.

In addition, a side interval adjustment cylinder is fixed to the vertical frame of the outer frame in the vertical direction, the rod of the side interval adjustment cylinder is assembled to the side formwork, the lower side of the side formwork is connected to the hinge of the haunting surface, The tooth form die is folded by a separating cylinder, the wheel of the outer frame is operated by a motor or hydraulic pressure, the height adjusting means of the outer frame is operated by hydraulic pressure, so that the self-propelled formwork can be easily installed, moved and disassembled. .

In addition, the horizontal length frame and the vertical frame is divided into at least two in the longitudinal direction, the separated portion is to enable the connection and length and height adjustment by the length adjusting means consisting of the hydraulic cylinder, the fixing member and the connector. .

And when the self-propelled formwork is installed on the foundation slab, set the desired width, steam piping to the self-propelled formwork, after pouring mortar into the self-propelled formwork, steam property curing by spraying steam to the steam pipe, and the mortar is hardened The self-propelled formwork is demolded, the foreign matter of the self-propelled formwork is removed, and by the continuous construction method of the retaining wall which continuously constructs the retaining wall in the above-described method, it is possible to construct the fast retaining wall and shorten the air.

As described above, the present invention provides a plurality of horizontal width frames formed horizontally in the width direction, a plurality of horizontal length frames formed horizontally in the longitudinal direction, and a plurality of vertical frames formed perpendicular to the horizontal width frames and the horizontal length frames. It is an integrated hexahedron shape, the lower portion having an outer frame having a plurality of wheels and height adjustment means; A retaining wall formwork composed of a pair of side formwork for forming a wall surface of the retaining wall and a pair of end formwork blocking both ends of the side formwork is located inside the outer frame; A pair of upper interval adjusting cylinders that linearly move in the longitudinal direction of the horizontal width frame are fixed to operate in opposite directions, and rods of the upper interval adjusting cylinders are fixed to rolling members rolling along the horizontal width frame, respectively. , The rolling member constitutes the width adjusting means of the structure connected to the top of the side frame by the support; The width adjusting means of the structure is composed of a self-propelled formwork having a plurality of structures along the longitudinal direction of the outer frame and the wall frame; Easy to adjust the width of the retaining wall formwork by the easy movement by the wheel of the outer frame and the width adjusting means, it is easy to install the retaining wall.

In addition, a side interval adjustment cylinder is fixed to the vertical frame of the outer frame in the vertical direction, the rod of the side interval adjustment cylinder is assembled to the side formwork, the lower side of the side formwork is connected to the hinge of the haunting surface, The tooth form die is folded by a separating cylinder, the wheel of the outer frame is operated by a motor or hydraulic pressure, the height adjusting means of the outer frame is operated by hydraulic pressure, easy to install, move, disassemble the self-propelled formwork There is.

In addition, the horizontal length frame and the vertical frame is composed of at least two separated in the longitudinal direction, the separated portion has an effect capable of connecting and length and height adjustment by the length adjusting means consisting of a hydraulic cylinder, a fixing member and a connector. have.

And when the self-propelled formwork is installed on the foundation slab, set the desired width, steam piping to the self-propelled formwork, after pouring mortar into the self-propelled formwork, steam property curing by spraying steam to the steam pipe, and the mortar is hardened The self-propelled formwork is demolded, the foreign matter of the self-propelled formwork is removed, and by the continuous construction method of the retaining wall for constructing the retaining wall continuously in the above-described method, it is possible to construct the retaining wall quickly and to shorten the air.

1 is a perspective view of the installation of self-propelled formwork for retaining wall construction according to the present invention.
Figure 2 is a front view of the self-propelled formwork for the retaining wall construction according to the present invention.
3 is a side cross-sectional view of the portion A of FIG.
4 is a front view showing the tie assembly for part B of FIG.
Figure 5 is a side view of the self-propelled formwork for the retaining wall construction according to the present invention.
Figure 6 is a front view showing the demoulding process of the retaining wall construction using the self-propelled formwork for the retaining wall construction according to the present invention.
Figure 7 is a perspective view showing a continuous retaining wall construction process using the self-propelled formwork for retaining wall construction according to the present invention.
8 is a process diagram of the retaining wall construction using the self-propelled formwork for the retaining wall construction according to the present invention.

The present invention relates to a self-propelled formwork for retaining wall construction and a continuous construction method of the retaining wall using the self-propelled formwork, a plurality of horizontal width frames formed horizontally in the width direction, a plurality of horizontal length frames formed horizontally in the longitudinal direction, An outer frame having a plurality of vertical frames integrally formed with respect to the horizontal width frame and the horizontal length frame and having an integrated hexahedron shape, the lower frame having a plurality of wheels and height adjusting means; A retaining wall formwork composed of a pair of side formwork for forming a wall surface of the retaining wall and a pair of end formwork blocking both ends of the side formwork is located inside the outer frame; A pair of upper interval adjusting cylinders that linearly move in the longitudinal direction of the horizontal width frame are fixed to operate in opposite directions, and rods of the upper interval adjusting cylinders are fixed to rolling members rolling along the horizontal width frame, respectively. , The rolling member constitutes the width adjusting means of the structure connected to the top of the side frame by the support; The width adjusting means of the structure is composed of a self-propelled formwork having a plurality of structures along the longitudinal direction of the outer frame and the wall frame; It is easy to adjust the width by the wheel of the outer frame and the width adjusting means, and the fast retaining wall construction is achieved by the easy installation and movement of the self-propelled formwork, and the faster retaining wall construction by adding steam curing. This would be possible.

The self-propelled formwork for retaining wall construction according to the present invention comprises an outer frame and retaining wall formwork, describes the structure of the self-propelled formwork for retaining wall construction, and sequentially describes the construction method of the retaining wall using such self-propelled formwork.

First, the outer frame 10 constituting the self-propelled formwork for the retaining wall construction, as shown in Figures 1, 2, 5 and 6, a plurality of frames (beam, pipe, round bar, square bar, etc. can be used. There is a horizontal pipe 11, the horizontal frame 12, the vertical frame 13 is composed integrally consisting of a frame structure consisting of a hexagonal frame, the horizontal width frame 11 ) Is a frame formed horizontally in the width direction of the retaining wall 300, the horizontal width frame 11 is configured to be separated into at least two, the horizontal width frame 11 to be separated is connected by the length adjusting means.

As shown in FIG. 5, the horizontal length frame 12 is a frame formed horizontally in the longitudinal direction of the retaining wall 300, and the vertical frame 13 is a frame formed vertically in the vertical direction. 13 is configured to be separated into at least two, the vertical frame 13 is configured to be separated is connected by the length adjusting means.

Thus, the horizontal width frame 11 and the horizontal length frame 12 are integrated into a square shape having a horizontal structure, and the horizontal width frame 11 and the horizontal length frame 12 which are assembled in the square shape are at least a top and bottom pair. Arrange the plurality of vertical frames 13 in the vertical direction in between, and constitutes the outer frame 10 of the hexahedral structure.

In addition, as shown in Figures 2 and 5, the lower portion of the outer frame 10 is configured with a wheel 14 and the height adjusting means 15, the wheel 14 uses a caster excellent in strength, the height Adjusting means 15 is a member capable of height adjustment, the degree of height adjustment is configured to be configured to be shorter or longer than the wheel 14, the means of height adjustment can be manually adjusted by screwing, Various methods such as adjustment through hydraulic pressure and adjustment by a motor may be applied. When the outer frame 10 is moved, the height adjusting means 15 is shorter than the wheels 14 so that the outer frame 10 is moved through the wheels 14. In order to allow this movement, the installation of the outer frame 10, by placing the outer frame 10 in a desired position, the height adjusting means 15 is installed to be longer than the wheel 14, the height adjusting means The bottom of (15) is preferably flat , The strength of the height adjustment means 15 itself is preferably used superior.

In addition, the wheel 14 uses a general manual wheel, or, the wheel 14 can be driven by a motor or hydraulic pressure, and the height adjusting means 15 is to allow height adjustment by hydraulic pressure, It is also possible to use a conventional product provided in the unit form so that the wheel 14 and the height adjusting means 15, the operation of the control box 40 when the wheel 14 is operated by a motor or hydraulic pressure. In addition, when the wheels 14 are operated by a motor or hydraulic pressure, only a pair of front wheels are operated by a motor or hydraulic pressure, and the remaining wheels 14 use ordinary manual wheels. You may use it.

On the other hand, the length adjusting means of the horizontal width frame 11 and the vertical frame 13 can be connected to the separated frame, at the same time to adjust the distance of the separated frame, the length adjusting means is the length and length by the hydraulic cylinder The height adjustment and the position fixing through the fixing member is made at the same time, looking at the specific method with reference to Figs.

First, the hydraulic cylinder (not shown) constituting the length adjusting means, the length of the horizontal width frame 11 and the vertical frame 13 is adjusted by the hydraulic pressure, at least one such hydraulic cylinder on the horizontal width frame (11) It is installed, at least one installed in the vertical frame 13, the length can be adjusted by the hydraulic pressure, the hydraulic cylinder of the length adjusting means to be controlled in the control box 40, the hydraulic cylinder is each horizontal It may be installed inside the width frame 11 and the vertical frame 13, or may be installed outside.

And the position fixing through the fixing member (11a) (13a) of the length adjusting means, the frame of the horizontal width frame 11 is composed of pipes (pipes) that are fitted to each other, each frame through holes (holes) ), And after matching the positions of the holes of the frame fitted to each other, the structure to fix the position by putting into the fixing member (11a), such as pins, bolts and screws, the horizontal width frame by adjusting the insertion position of the frame The length can be adjusted for (11), and about the same, the vertical frame 13 is also configured to be fitted with each other, so that the height can be adjusted by fitting the fixing member (13a) in the hole to be fitted and matched.

In addition, as shown in Figures 2 and 5, further provided with a pipe, or plate-shaped connector (11a ') (13a') that can be fitted to the horizontal frame 11 and the vertical frame 13 ( If there is a connector, the frame constituting the horizontal frame or the vertical frame may not be fitted together), and the connector 11a '(13a') forms a hole and the connector 11a '(13a). ´) are assembled to the horizontal frame 11 and the vertical frame 13, respectively, to match the holes formed in the horizontal frame 11 with the holes of the connector 11a ', so that the pins, bolts and screws Put the same fixing member (11a) to fix the position, and similarly, the hole formed in the vertical frame 13 and the hole of the connector (13a ') to match, fixing member (13a) such as pins, bolts and screws in each hole Can be fixed in position, in which case the horizontal width press according to the position where the fixing members (11a) (13a) are assembled It can be fixed in position 11 and the vertical frame 13.

When the horizontal width frame 11 and the vertical frame 13 are assembled using the connector as described above, the actual horizontal width frame 11 is provided through the lengths of the connectors 11a 'and 13a' together with the reinforcement of strength. ) And the length of the horizontal frame 11 and the vertical frame 13 longer than the vertical frame 13 is characterized.

The length adjusting means composed of the hydraulic cylinder and the fixing member, or the length adjusting means composed of the hydraulic cylinder, the connector, and the fixing member, the length of the horizontal width frame 11 and the vertical frame 13 can be adjusted.

Next, the retaining wall formwork 20 constituting the self-propelled formwork for the retaining wall construction is a form formed in accordance with the outer shape of the retaining wall to be constructed of the retaining wall 300, and a pair of side surfaces corresponding to both sides of the retaining wall 300. It consists of end dies (22) blocking both ends of the formwork (21) and the side formwork (21).

In addition, the lower side of the retaining wall (300) further forms a haunch (haunch) for dispersing stress, for this purpose the retaining wall formwork (20) further comprises a haunch surface formwork corresponding to the haunch, so the retaining wall The formwork 20 is composed of the side formwork 21, the end formwork 22, and the haunch surface formwork 23.

First, as shown in Figures 1 and 2, the side formwork 21 is a form corresponding to both sides in the longitudinal direction of the retaining wall 300, a pair is configured to be installed facing each other, the side formwork 21 If a plurality of perforated tie holes (holes) are formed on the front surface of the tie holes, the tie holes are formed at the same position when the side dies are erected to face each other, thereby allowing the tie 201 to be assembled through the tie holes. Both ends of the formwork 21 are provided with holes or female screws 21a, which are intended to fix the end formwork 22.

As shown in FIGS. 2 and 6, the haunch surface formwork 23 is a form corresponding to both lower haunch surfaces of the retaining wall 300, and holes or female screws 23a are provided at both ends of the haunch surface formwork 23. To form, such a hole or a female screw is for fixing the end die 22.

In addition, the end formwork 22 is a formwork that prevents both ends in the longitudinal direction with respect to the side formwork (21) is formed at both ends of the formwork so that a plurality of holes (22a) are formed at both ends of the side formwork (21).

On the other hand, to form the retaining wall formwork 20 in the structure that the end formwork 22 is assembled at both ends of the side formwork 21 and haunch surface formwork 23, the width of the retaining wall formwork 20 can be adjusted, accordingly On both ends formed in the end die 22 and the haunch surface die 23, holes 21a and 23a are formed at regular intervals along the width, or auxiliary plates protruding perpendicularly to the side die 21. (Not shown) is further formed, so that holes or female screws are further formed in the auxiliary plate at regular intervals, so that the end formwork 22 can be easily assembled according to the width change of the retaining wall formwork 20.

In addition, the side formwork 21 and the haunch surface formwork 23 has an integrated structure, the end formwork 22 is configured to be assembled to the side formwork 21 and the haunch formwork 23, the side The formwork 21 and the haunting surface formwork 23 have a unitary structure by welding, or the side formwork 21 and the haunting formwork 23 are connected by a hinge, and the side formwork 21 and the haunting surface formwork (23) is connected to at least one separation cylinder 24, under the control of the separation cylinder 24, when devoted toward the side die 21, the form 23 can be folded at a certain angle (need to be fully folded The folding structure of the mold 23 is easy to be demolded, and the separation cylinder 24 is configured in plural along the longitudinal direction, and the operation of the separation cylinder 24 is To be controlled from a separate control box (40).

The retaining wall formwork 20 configured as described above has a pair of side formwork 21 and the haunting surface formwork 23 facing each other, and end dies 22 are assembled at both ends thereof, and the retaining wall formwork 20 is Located inside the outer frame 10, as shown in Figure 2, the cross-sectional size of the retaining wall formwork 20 is smaller than the outer frame 10, as shown in Figures 1 and 5, the length of the retaining wall The length of the retaining wall formwork 20 may be longer than the outer frame 10.

In addition, the outer frame 10 and the retaining wall formwork 20 are combined by the width adjusting means 30 to form a self-propelled formwork for the retaining wall construction, the width adjusting means of the rolling member 31 and the support 34 and It consists of an upper gap control cylinder 32 and a side gap control cylinder 33.

First, as shown in Figure 3, the rolling member 31 is a member that can be rolled, such as casters, wheels, rollers, such that the rolling member 31 is rolled along the longitudinal direction of the horizontal frame 11 A pair is installed, so as to roll along the inside of the horizontal frame 11 or the top of the horizontal frame (11).

And, as shown in Figure 3, the upper interval adjusting cylinder 32 is a cylinder for a general linear movement, the linear movement direction of the upper interval adjusting cylinder 32 is installed so as to coincide with the horizontal width frame 11 direction, Install one on each side of the length adjusting means to enable a linear movement in the opposite direction to each other.

In other words, as shown in Figs. 3 and 6, each body of the upper gap adjusting cylinder 32 is installed on both sides of the length adjusting means of the horizontal width frame 11, and each rod of the upper gap adjusting cylinder 32 is installed. Is positioned to face in the outward direction of the width, each rod of the upper gap adjustment cylinder 32 is installed in the rolling member 31, respectively, so that the rolling member 31 moves by the operation of the upper gap adjustment cylinder, see When the horizontal position of the upper gap adjusting cylinder 32 and the rolling member 31 does not match, the auxiliary fixing tool 35 is installed to adjust the height thereof.

In addition, as shown in Figure 2, the vertical frame 13 of the outer frame 10 and the side formwork 21 of the wall frame is provided with a plurality of side interval control cylinder 33, the side interval control cylinder Reference numeral 33 is a cylinder having a general linear motion, the linear movement direction of the side interval adjustment cylinder 33 is preferably installed in a vertical direction, that is, a horizontal direction with respect to the vertical frame 13, the side interval adjustment cylinder 33 ) Body is installed on the outer frame 10, the rod of the side gap control cylinder 33 is fixed to the retaining wall formwork 20 by the operation of the side gap control cylinder 33, each side of the retaining wall formwork (20) The spacing of the formwork 21 is to be adjusted with the upper gap control cylinder (32).

In addition, as shown in Figures 2 and 3, the support (34) connects the outer frame 10 and the retaining wall formwork 20, and is provided in plurality in order to withstand the lateral pressure of the mortar to be poured, the support As a representative example of (34), a turnbuckle may be used. In addition, a rod-shaped support 34 having appropriate strength and length may be used, and one end of the support 34 is fixed to the top of the wall frame. The other end is connected to the rolling member 31, the operation of the upper interval control cylinder 32 to move the rolling member 31 and the side formwork 21 and the haunch surface formwork 23 together.

On the other hand, both ends of the support 34 and both ends of the upper gap control cylinder 32, both ends of the side gap control cylinder 33 is not fixed completely, rather than fixing holes 32a, 33a, 33b with holes formed therein. 34a and the auxiliary fixture 35, such that the fasteners 32a, 33a, 33b, 34a and the auxiliary fixture 35 are provided with both ends of the support 34 and both ends of the cylinder such as pins. It is desirable to be coupled to the fixing member to allow flow by rotation, thereby minimizing damage to impact or load.

In this way, a pair of upper interval adjusting cylinders 32 are installed on both sides of the length adjusting means in the horizontal width frame 11 of the outer frame 10 in opposite directions, and horizontal widths are formed on the rods of the upper interval adjusting cylinders 32. Rolling member 31 is rolled along the frame 11, the rolling member 31 and each wall frame constitutes a width adjusting means 30 of the structure connected by the fixing means, the width adjusting means 30 of this structure ) Constitutes a plurality along the length of the self-propelled formwork.

Thus, the outer frame 10 is configured to face a pair of wall frames, each wall frame is connected to the outer frame 10 by the width adjusting means 30 to form a self-propelled formwork for the retaining wall construction.

The self-propelled formwork can be moved by the wheels 14 of the outer frame 10, and the retaining wall formwork 20 can be adjusted in width by the operation of the side gap control cylinder 33 and the upper gap control cylinder 32. In addition, the end formwork 22 of the retaining wall formwork 20 can be assembled and disassembled by a screw or the like, and the haunch surface formwork 23 is installed on the floor by the separating cylinder 24 or spaced apart from the floor. Has

In addition, with reference to the process diagram of Figure 8, while describing the general construction method of the retaining wall using the self-propelled formwork for retaining wall construction, the continuous construction method of the retaining wall using the self-propelled formwork will be described as follows.

First, the basic cleaning step (S0) is to clean up the construction site for the retaining wall construction, the floor is to clean the relatively protruding parts to remove the protruding parts, and the severely recessed parts to fill up relatively flat, When the length of the retaining wall 300 is long, it is easier to construct the construction by drawing a reference line on the foundation, and if the retaining wall is constructed on the slope, it is preferable to take measures to prevent the soil from spilling.

As shown in FIG. 1, the foundation slab forming step (S1) constitutes the foundation slab 100 based on the arranged foundation. After the rebar 200 is disposed and the formwork is installed, the mortar 60 is formed. After pouring, and curing for a certain time to form the foundation slab 100, the foundation slab 100 is configured along the entire construction section of the retaining wall 300 to be constructed.

In addition, the reinforcement step (S2), by reinforcing the reinforcement 200 to the upper portion of the foundation slab 100 configured above, to reinforce the reinforcement 200 in accordance with the width and height of the retaining wall 300 and the required strength, The reinforcement 200 is arranged along the foundation slab 100.

Next, the self-propelled formwork installation step (S3), as shown in Figures 1 and 2, is a process of installing the self-propelled formwork with the reinforcement bar 200 configured above, the self-propelled formwork to be installed at this time (exactly, the retaining wall Formwork) to apply the demolding oil sufficiently to facilitate the demolding, and as a continuous construction method of the retaining wall using the self-propelled formwork, a steam supply device is provided with a steam pipe to the self-propelled formwork for rapid curing, and to supply steam to the steam pipe. The installation method of the self-propelled formwork is described as follows.

First, the self-propelled formwork has a standby state in which the mold 23 is folded away from the floor, and also in this standby state, in consideration of the height and width of the retaining wall 300 to be constructed, Through the length adjusting means of the horizontal frame 11 and the length adjusting means of the vertical frame 13 to match the width and height of the outer frame 10.

And to adjust the retaining wall formwork 20, in the situation that the end formwork 22 is separated, the width more than the width of the reinforcement reinforcement 200 and the retaining wall 300, the upper gap control cylinder 32 and the side By controlling the space adjustment cylinder 33 to adjust the distance of the side formwork 21 of the retaining wall formwork (20).

So by moving the self-propelled formwork through the wheel 14 of the outer frame 10, when the reinforcement reinforcement 200 is wrapped in the retaining wall formwork 20, the position is fixed by the height adjusting means (15), In consideration of the thickness of the retaining wall 300 and the distance from the reinforcing bar 200, the distance between the retaining wall formwork 20 is set by the control of the upper gap adjusting cylinder 32 and the side gap adjusting cylinder 33, and the separation is performed. The cylinder 24 controls the cylinder form 24 so that the end form 23 is extended to reach the bottom, and the end form 22 is matched at both ends of the side form 21 and the surface form form 23 at the ends 22a. (21a) and (23a) are assembled using screws, bolts, and the like.

In addition, when the tie 201 is connected through the tie holes at the corresponding position of the side formwork 21, the installation of the formwork is completed. When the reinforcement 200 is reinforced on a path through which the tie passes, the tie 201 is rope or steel wire, as shown in FIG. 4, so as not to be affected by the reinforcement 200 reinforcement. Installation of a plurality of such ties 201 completes the installation of the self-propelled formwork.

By installing the self-propelled formwork, the reinforcing bar 200, retaining wall formwork 20, and the outer frame 10 are sequentially positioned from the innermost side, the lower part is supported by the base slab 100, and the upper part of the reinforcing bar 200 is visible. It consists of an open structure.

In addition, after the installation of the self-propelled formwork, the steam piping step (S3´) is added as a continuous construction method of the retaining wall. In the steam piping step (S3´), a steam pipe and a steam supply device for applying steam curing are installed. The steam piping pipes the pipes to inject steam into the self-propelled formwork, and the steam supply device supplies the steam through the previously installed steam pipes from the outside. The portion may be steam piped to the self-propelled formwork in advance before the self-propelled formwork installation step (S3).

Next, the mortar pouring step (S4) is a step of pouring mortar into the installed self-propelled formwork, that is, the retaining wall formwork 20, the mortar into the self-propelled formwork in accordance with the retaining wall of the desired height to cover the reinforcement reinforcement. Pour.

The curing step (S5) is to cure the cured mortar to cure, there are natural curing to cure naturally over time, and rapid curing given a certain condition.

In addition, natural curing is a curing method commonly practiced for common concrete structures.

In addition, as a continuous construction method of the retaining wall, rapid curing is applied, for example, steam rapid curing, and in order to apply such steam curing method, in the mortar pouring step (S4), the steam generated in the steam supply device is steamed By supplying steam (steam) to the mortar of the self-propelled formwork along the pipe, shortening the mortar curing time, the air of the retaining wall 300 is further shortened, and the retaining wall construction can be installed even in winter. There is a characteristic that can minimize the occurrence of dry cracks.

For reference, in the mortar placing step (S4), a high temperature curing method may be applied by fast curing, which is heated inside the solid mortar (coal briquettes, coal) or the like through the hot air blower. As a method of shortening the curing time of the mortar by supplying hot air to the poured mortar, a variety of accelerated curing in addition to the steam curing method and the high temperature curing method as described above, there is an advantage to shorten the air.

And the demoulding step (S6), as shown in Figure 6, after curing the pour mortar, the disassembly in the reverse order to install the installed formwork, first, the outer frame 10 is the height adjusting means 15 After the adjustment, the wheel 14 is moved to demould, and the retaining wall formwork 20 is also disassembled in the reverse order of installation. The retaining wall 300 of the concrete structure made of mortar and the reinforcement 200 is completed.

For reference, the tie 201 installed in the retaining wall formwork 20 is generally removed together, but when the buried tie is used, the tie 201 may not be removed separately, and the self-propelled formwork is installed for rapid curing. One steam pipe does not need to be dismantled separately, and does not have to be dismantled until the construction of the entire retaining wall is completed. When the demoulding of the self-propelled formwork is completed, the construction of the retaining wall 300 of one unit size is completed.

In addition, when the construction of the retaining wall 300 of the unit size is completed as described above, the cleaning step (S7) to clean and remove the demolding oil and foreign substances remaining in the retaining wall formwork 20 is carried out.

And for the construction of the retaining wall 300 continuously connected, as shown in Figure 7, by moving the self-propelled formwork to a continuous position in the retained wall 300 of the unit size of the constructed unit, demoulding in the reinforcement step (S2) While repeating the step S6 and the cleaning step S3, it is possible to construct the retaining wall 300 of the desired length, the retaining wall formwork of the self-propelled formwork installation step (S3) for the construction of the first unit retaining wall 300 In (20), the end formwork 22 is installed on both sides, but in the retaining wall formwork 20 of the self-propelled formwork installation step (S3) for the construction of the second unit retaining wall, the end formwork 22 is installed on only one side. Done.

Therefore, such self-propelled formwork can be applied not only to the construction of general retaining walls, but also to the construction of continuous walls, continuous soundproof walls, foundations for soundproof walls, and the like. Due to the rapid curing of mortar and the short dwell time of the self-propelled formwork, the construction is easy, the air is short, and the safety of the worker is high.

As the retaining wall 300 is constructed by such a formwork, the formwork is fixed by the height adjusting means 15 while moving by the wheels 14, so that the installation is quick and easy, and the mold can be demolished after pouring and curing. Even when demolding is easy, when demolding, it is characterized by the separation cylinder 24, the upper gap control cylinder 32, the side gap control cylinder 33 of the retaining wall formwork 20 more easily.

In addition, the outer frame 10 is easy to adjust the width and height adjustment by each length adjusting means, it can be applied to the retaining wall of various sizes, when the gap of the retaining wall formwork 20 to the maximum, the inner mold Easy to clean and clean for oil removal, easy to repair features.

And the wheel 14, the height adjusting means 15 of the outer frame 10 of the formwork, the separating cylinder 24, the upper space adjusting cylinder 32, the side gap control cylinder 33 of the retaining wall formwork 20 In addition, since all the hydraulic cylinders belonging to the length adjusting means of the outer frame 10 can be controlled in the control box 40, the manpower is minimized, and construction is more easily performed.

10: outer frame 11: horizontal frame
12: horizontal length frame 13: vertical frame
14 wheel 15 height adjustment means
20: retaining wall formwork 21: side formwork
22: End die 23: Hunchyeon die
24: separation cylinder 30: width adjustment means
31: rolling member 32: upper interval adjusting cylinder
33: side gap adjustment cylinder 34: support
100: foundation slab 200: rebar
201: Thailand 300: Retaining Wall

Claims (5)

delete A plurality of horizontal width frame 11 formed horizontally in the width direction, a plurality of horizontal length frame 12 formed horizontally in the longitudinal direction, perpendicular to the horizontal width frame 11 and the horizontal length frame 12 The outer frame 10 having a plurality of vertical frames 13 are formed in a hexahedral shape, the lower portion having a plurality of wheels 14 operated by a motor or hydraulic pressure and a height adjusting means 15 operated by hydraulic pressure. and,
It is composed of a retaining wall formwork (20) consisting of a pair of side formwork (21) for forming the wall surface of the retaining wall, and a pair of end formwork (22) blocking both ends of the side formwork (21). 20) is located inside the outer frame 10,
The horizontal gap frame 11 is fixed to a pair of upper gap adjusting cylinders 32 to perform a linear movement in the longitudinal direction so as to operate in the opposite direction, the rod of the upper gap adjusting cylinder 32 is horizontal width frame Fixed to the rolling member 31 rolling along the (11), respectively, the support 34 of the lower end of the rolling member 31 is controlled by the width of the structure connected to the top of the side formwork 21 corresponding to the side frame by It constitutes a means 30, the width adjusting means 30 comprises a plurality in the longitudinal direction of the outer frame 10 and the side formwork 21 which is a wall frame,
The side spacing cylinder 33 is fixed to the vertical frame 13 of the outer frame 10 in the vertical direction, and the rod of the side spacing cylinder 33 is assembled to the side formwork 21, and the vertical frame Adjust the distance between the (13) and the side formwork (21),
Hunting formwork 23 is hinged to the lower end of the side formwork 21, by forming the self-propelled formwork for the retaining wall construction configured to be folded by the separating cylinder 24,
Self-propelled formwork for retaining wall construction, which is easy to install retaining wall by applying self-propelled formwork that is easy to install, move and disassemble to retaining wall construction.
The method of claim 2,
The horizontal length frame and the vertical frame is divided into at least two in the longitudinal direction, the separated part is possible to connect and adjust the length by the length adjusting means consisting of the hydraulic cylinder and the fixing member,
At least one horizontal width frame is provided with a hydraulic cylinder for adjusting the length,
At least one vertical frame is installed with a hydraulic cylinder for adjusting the length,
The horizontal width frame constituting the separation is configured to be fitted with each other, the holes are formed along the longitudinal direction, respectively, to fix the position in the hole corresponding to each other with a fixing member,
The vertical frame constituting the separation is configured to be fitted to each other, each of the holes are formed along the longitudinal direction, to fix the position with a fixing member in the hole corresponding to each other,
Self-propelled formwork for retaining wall construction, characterized in that the width and height of the outer frame can be easily adjusted.
The method of claim 2,
The horizontal length frame and the vertical frame is composed of at least two separated in the longitudinal direction, the separated portion is possible to connect and adjust the length by the length adjusting means consisting of the hydraulic cylinder and the fixing member and the connector,
At least one horizontal width frame is provided with a hydraulic cylinder for adjusting the length,
At least one vertical frame is installed with a hydraulic cylinder for adjusting the length,
Holes are formed in the horizontal width frame and the vertical frame, respectively, in the separation direction along the length direction,
A tubular or plate-shaped connector having a through hole formed thereon is assembled to a horizontal frame and a vertical frame, respectively, and fixed in position by the fixing member.
Self-propelled formwork for retaining wall construction, characterized in that the width and height of the outer frame can be easily adjusted.
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