KR101506782B1 - In-Site Molding Apparatus for manufacturing In-site Concrete Culverts with assembled Partial Precast Concrete - Google Patents

Abstract

According to the present invention, a predetermined length of a basic reinforced concrete member installed on an excavation soil so as to form a culvert structure 1000 such as a power sphere or a cavity is formed by using a precast casting mold 600, And the upper inner side surface 110a of the base slab portion 110 is formed by a precast forming mold 600 A lower slab PC member 100 provided on the upper surface of the wall lower end portion 120 so as to be inserted and protruded so that the connecting reinforcing bar 140 protrudes upward; The upper slab 520 connecting the both side walls 510 of the culvert structure 1000 and the upper end of the wall is assembled in advance before the pouring of the concrete in the pouring upper concrete part and the upper slab 520 is placed on the lower slab member 100 An upper reinforcing bar assembly 200 connected to the upper bar assembly 200; The upper reinforcing bar assembly 200 and the lower reinforcing bar assembly 200 are installed and cured in a space supported by the outer mold 300 and the inner mold 400 installed on the outer and inner sides of the upper reinforcing bar assembly 200, There is provided a site-casting culvert structure of a partial pre-casting structure comprising a cast-in-place upper concrete part 500 integrated with the member 100.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to an in-situ assembly molding apparatus for forming a part-pre-casting culvert structure,

The present invention relates to a concrete box structure and a method of constructing a half-precast concrete box structure obtained by a semi-assembled structure of a pre-cast foundation slab member, a concrete wall and an upper ceiling concrete slab member to be installed in the field, and a movable prefabricated formwork The present invention relates to an on-site prefabricated continuous pouring apparatus including a pouring apparatus, a pouring apparatus, and a pouring apparatus.

Currently, reinforced concrete culvert structures provided in sewerage, waterways, communal areas, electric power areas, communication areas, communal areas, and passage boxes are buried in the lower grounds of roads and the like.

The structure of the reinforced concrete culvert can be constructed as a site piling structure. Alternatively, a prefabricated PC culvert for assembling the factory produced reinforced concrete PC (PC) (Precast) on site is used.

Reinforced concrete structure is the most common structure in which reinforced concrete is integrated with concrete. The on-site reinforced concrete work is carried out by placing the concrete after installing the reinforcing steel reinforcement and the formwork. In general, the above-mentioned process is performed by individually separating the work from the construction site. In other words, after the material is brought into the construction site, the reinforcement is placed according to the design at the construction site, the form is installed, the concrete is laid, and the form is dismantled. The construction of a box structure such as an underground joint that houses water, sewerage, telephone cables, gas pipes, etc., will also be done in the same manner as a reinforced concrete structure.

However, the construction of the culvert structure according to the above-mentioned reinforced concrete structure on site has a disadvantage in that the workability and precision are lowered due to the increased workload at the construction site. Particularly, in the case of a joint having an excavation work, it must be excavated to a larger extent than the joints in order to secure an underground work space, so that the amount of excavation increases and thus the amount of embankment also increases. This disadvantage will be directly linked to the increase in air and construction cost, which will lead to a decrease in the efficiency of construction as a whole.

On the other hand, the prefabricated PC culvert is widely used because it provides the effect of reducing the labor cost or the shortening of the air compared with the construction of the above-mentioned cast-in-place structure, , These prefabricated PC culverts are manufactured and transported in various kinds of prefabricated production plants and assembled in the field.

Typically, a prefabricated PC culvert is installed at a separate site (production factory) with a mold conforming to the final specification of the prefabricated PC culvert, pouring concrete into the mold, curing the mold, and demolding the prefabricated PC culvert from the mold . 1A is a perspective view showing a conventional assembled pizza cowling molding apparatus 9 in a perspective view. The molding apparatus 9 of the prefabricated pizza culler includes a front and rear finishing plate member 1, an inner molding member 3, A bottom slab formwork 4, and an outer side wall formwork 2.

The inner surfaces of the front and rear finishing plate members, the inner molding member, the bottom slab molding member and the outer side wall molding member constituting the prefabricated PC culvert molding apparatus are all formed flat. The outer surface of each of the members need not be formed flat and should be configured to have a certain level of strength so as to withstand the load of the concrete while the concrete is curing while saving the material used to make the member. Therefore, it is advantageous to make a lattice shape in which a plate of a predetermined height is erected as shown in Fig.

As shown in FIGS. 1A and 1B, the molding device 9 of the prefabricated PC culvert is coupled by fastening the components to each other by fastening means such as a bolt. In the past, the front and rear finishing plate members 1, In order to engage the form member 4, a lattice which is provided on the outermost of the front and rear face finishing plate members 1 among the lattices provided on the back face (opposite face of the portion where the concrete abuts) of the front and rear face finishing plate members 1 Bolt holes are formed in the lower part of the bottom slab forming member 4 and bolt holes are formed vertically downward at the front end and the rear end of the bottom slab forming member 4 so that the front and back finishing plate members 1 are placed on the bottom slab forming member 4 The bolts were inserted through the bolt holes and fixed with a nut (B1). Similarly, in order to engage the front and rear face finishing plate members 1 and the outer side wall molding members 2, the outermost edges of the front and rear face finishing plate members 1 of the grids provided on the back face of the front and rear face finishing plate members 1 Bolt holes were made in the treading grid and bolt holes were made in the lattice of the front end and the rear end of the outer side wall forming member 2, and the bolts were inserted through the bolt holes and fixed with a nut (B2). A bolt hole was formed in the lower lattice of the outer sidewall molding member 2 so as to join the outer side wall molding member 2 and the bottom slab molding member 4 and was bolted onto the bottom slab molding member 4 (B3 ).

However, in such a case, a bolting operation must be performed in a narrow space between the lower end gratings of the front and rear finishing plate members 1, and a bolting operation must be performed in a narrow space between the lower end gratings of the outer side wall forming members 2, There has been a drawback that it is difficult to work.

In addition, since the prefabricated PC culvert is constructed by interconnecting several culverts, the mold (molding mold) of the prefabricated PC culvert is not deformed by the load of the concrete while the concrete is cured after the concrete is laid It is important. However, in the molding apparatus of the conventional prefabricated PC culvert, when the concrete is laid, the pressure due to the concrete pouring acts in the direction of the arrow shown in Fig. 1C. As shown in FIG. Also, in the other connecting parts (B1, B3), the pouring pressure of the concrete acts in a direction perpendicular to the direction of the fastening, and the pouring pressure is supported by the shear force on the bolt and the connecting part.

As described above, in the molding apparatus of the conventional prefabricated PC culvert, the mounting pressure of the concrete is only supported by the shear force of the bolts at the connection site, and thus the supporting force is weakened. As a result, In particular, since the bolt tightening force is supported only by the shearing force of the bolt, the coupling force between the forming members is weak, so that the respective forming members are deformed without maintaining the flat state, There is a problem that the shape of the PC box culver is not uniform and thus the culvert is produced poorly. When assembling the PC cullet produced in the field, there is a problem that the installation defect is likely to occur at the joint part. Requires additional supplementary work If I've had some problems with the effect of shortening compared to cast-in-place construction to the original purpose for which the half.

As an alternative to this, in constructing a cavity made of a foundation, a foundation wall, and a slab on a wall with a reinforced concrete structure, the reinforced concrete foundation member is first put into the field, and then the reinforcing bars are brought into the building A technique relating to a field construction structure of a hollow body by semi-assembly type which is intended to shorten a construction period while securing the accuracy and convenience of operation by connecting the foundation reinforced concrete member is disclosed in Korean Utility Model Registration No. 20-0417545 (See FIGS. 2A-2C), the reinforcing support 40 is installed outside the cavity (see FIG. 2A), and the reinforcement support 40 40) are installed inside the cavity (see Figs. 2B and 2C).

More specifically, the reinforcement support 40 installed inside the cavity is formed by horizontally connecting the wall molds 20a located inside the reinforced concrete building wall formwork 20 installed side by side as shown in FIGS. 2B and 2C, And a tilt brace 42 fixed to the base 10 while being connected to the horizontal brace 41. More specifically, the horizontal brace 41 is installed on both sides of the reinforcing bars And the tilt brace 42 is connected to the horizontal straps 41 by connecting the tilt braces 42 to the wale strap 21 while the anchors 11 so as to be fixed on the base 10.

However, in order to complete a reinforced concrete culvert structure having a considerable length of section such as a power hole and a cavity, such a wall and slab formwork and a steel assembly must be continuously used on a foundation reinforced concrete member , There is no means for easily moving the formwork for the wall and the slab on the foundation reinforced concrete member previously laid on the floor in the case of the above-described conventional art, so that it takes a considerable time to install the formwork used in the previous step Therefore, there is a problem in that the original purpose of shortening the construction period is not achieved. Even if the form for the wall and the slab is to be moved on the foundation reinforced concrete member, the upper plane of the foundation reinforced concrete member is not uniform, Number There has been a problem that it is difficult to adopt a step.

In addition, there is a problem in that a leakage phenomenon occurs when cracks are generated in the connecting connection portion because proper exponent means are not provided at the joint between the ground reinforced concrete reinforcing member and the wall to be subsequently connected.

In addition, when the culvert structures to be installed are different in size, internal mold members supporting various sizes of inner formwork are required to support the inner side of the structure.

SUMMARY OF THE INVENTION The present invention has been made in an effort to solve the problems of the above-described conventional mold assembly for a culvert having a semi-assembled structure, and it is an object of the present invention to maximize the effect of shortening the construction period, It is another object of the present invention to provide a means for easily moving a wall and slab formwork on a pre-installed foundation reinforced concrete member so as to minimize the time required for re-installation of the formwork for continuous construction.

In addition, when the micro-cracks are generated in the joint between the foundation reinforcing concrete member and the wall to be connected, the bottom wall slab portion of the cul-de-sac structure is prevented from leaking, As another technical problem of the present invention.

In addition, it provides the variable standard structure of the inner formwork in the construction of the culvert with various specifications and improves the economical efficiency by providing the device means that minimizes the time required for disassembling and reassembling the formwork for continuous construction Another technical problem of the present invention is as follows.

In the technical solution of the present invention as described above, it is possible to maximize the effect of shortening the construction period while ensuring the stability of the construction site installation, and further, to minimize the time required for moving and reinstalling the formwork for continuous construction, As a solution for providing a means for easily moving the form for a pre-installed foundation reinforced concrete member,

A concrete reinforcing concrete member having a predetermined length, which is installed on the excavation soil so as to form a culvert structure such as a power hole or a cavity, is made of a precast concrete (PC) using a precast casting mold, The lower slab portion is integrally formed with the lower slab portion, and the upper inner side surface of the foundation slab portion is formed as a smooth surface by the precast casting mold, and a lower slab A PC member;

An upper reinforcing assembly assembled in advance and connected to the lower slab plate member before concrete pouring of the pouring upper concrete portion forming an upper slab connecting both side walls of the culvert structure and the upper end of the wall; And

A part of the upper portion of the upper reinforcing bar assembly including the upper reinforced concrete assembly and the lower concrete slab part being poured into a space supported by the inner molding and being cured so as to be integrated with the upper reinforcing steel assembly and the lower slab- Providing a pre-casting structure of a site-piling culvert structure.

In this case, an outer mold fixing insert for supporting the wall is inserted into the upper outer side of the lower end of the wall, and a supporting flange for supporting the wall supporting outer mold at the lower portion is protruded outward from a lower portion of the lower end of the wall, And an insert for fixing the formwork guide plate is inserted into the lower outer side of the lower end of the wall.

On the other hand, in order to provide a means for enhancing the exposing function of the joint between the foundation reinforced concrete member and the wall to be connected, the upper part of the lower portion of the wall of the lower slab member, constituting the field- It is preferable that an exponential blocking plate is installed on the inner side of the connecting reinforcing bar, and an inner exponential blocking plate is installed on the inner side of the connecting reinforcing bar and an outer exposing block may be installed on the outer side of the connecting reinforcing bar.

Further, it is further preferable that the waterproof sheet further includes a waterproof sheet installed to surround the lower slab member of the construction joint when the site-curing culvert structure of the partial precast structure is continuously constructed in the longitudinal direction.

In order to achieve the object of the present invention, there is provided a device for minimizing the time required for disassembling and reassembling a mold for continuous construction, There is provided a molding apparatus used for forming a site-casting culvert structure, that is, a pre-casting mold for molding the lower slab member; And

And an on-site assembly molding apparatus for providing a form for supporting a cast-in-place upper concrete part,

The on-site assembly and molding apparatus includes:

A lower slab member which is preformed and fixed on the lower outer side of the lower end of the wall of the lower slab member so as to support the molding space for the concrete wall installed on the lower end of the wall of the lower slab member, More specifically, a wall supporting outer die fixed by a fastening member to be fastened to an outer die fixing insert for wall supporting inserted into the upper outer side of the lower end of the wall;

A side wall supporting plate, and an upper supporting plate, which are installed to support a molding space for a concrete wall and an upper slab, which are installed on the lower end of the wall of the lower slab member, An inner die including a horizontal and vertical support frame for supporting and a brace member for supporting the side support plate;

A first telescopic member provided on the brace member so that a lower end portion of the side support plate constituting the inner mold can be separated from the molded and cured concrete wall and moved to the inner space;

A second telescopic member provided on the vertical support frame so as to separate the upper support plate constituting the inner mold from the upper concrete slab of the molded and cured concrete and move to the inner space; And

When the side support plate and the upper support plate are separated from the concrete wall and the upper slab by the first telescopic member and the second telescopic member, the brace member and the horizontal and vertical support frames, And a first roller member that supports the rolling member so as to be able to move in a longitudinal direction of the installation of the culvert structure on the upper inner side surface of the slab portion.

Here, the joining portion between the both ends of the upper support (the portion forming the upper hook when the upper hook is provided) and the upper end of the side support plate absorbs the angle change when the lower end of the side support plate is rotated inward A hinge supporter bar is provided between the side support plate and the vertical support frame so that the inner and outer pivotal movement of the lower end of the side support plate is better supported and the rotation angle is maintained, It is preferable that the fixed hinge constituting one end of the hinge supporter bar is installed in the side support plate and the movable hinge constituting the other end is installed in the hinge slider provided in the vertical direction to the vertical frame.

In addition, it is preferable that a second roller member, which is capable of rolling on the support flange of the lower end of the wall, is installed on the lower part of the outer mold for supporting the wall.

Further, in order to provide a variable standard structure of the inner formwork in the construction of the culvert structures having various specifications, the horizontal support frame and the vertical support frame are composed of two segments which are divided into two along the lengthwise direction, It is preferable that a gap adjusting member having a constant width be further disposed and interconnected.

According to the present invention, it is possible to maximize the effect of shortening the construction period while securing the stability of the installation structure in the field during construction of the culvert structure, and to minimize the time required for moving and reinstalling the formwork for continuous construction do.

In addition, according to the present invention, cracks can be suppressed even when fine cracks occur in a joint between a foundation reinforced concrete member and a wall to be connected, which corresponds to a bottom slab portion of a culvert structure, .

In addition, there is an effect of improving the economical efficiency of construction by providing a variable standard structure of the inner formwork in the construction of the culvert structure having various specifications and minimizing the time required for disassembling and reassembling the formwork for continuous construction.

FIG. 1A is a perspective view showing a combined state of a molding apparatus for a conventional prefabricated PC culvert. FIG.
Fig. 1B is a front view of the conventional prefabricated PC-culvert molding apparatus in a coupled state. Fig.
1C is a partial cross-sectional view taken along line AA of FIG. 1B;
FIGS. 2A to 2C are views showing a field construction structure of a hollow by a semi-assembling method, wherein FIG. 2A shows a construction process, and FIGS. 2B and 2C are views showing a state where a site placement molding device is assembled.
FIG. 3A is a perspective view showing the entire configuration and the enlarged configuration of a lower slab member to constitute a site-pierced culvert structure of a partial precast structure according to the present invention; FIG.
Figs. 3b and 3c are cross-sectional views showing various embodiments of the lower slab member, and Fig. 3d is a side view of the lower slab member shown in Figs. 3a to 3c.
4 is a view showing a process of forming a lower slab sheet member through a pre-casting molding mold;
FIG. 5A is a perspective view showing a state in which the lower slab member is continuously installed on the ground, and FIGS. 5B and 5C are perspective views showing a state in which the upper reinforcing bar assembly is installed on the lower slab member.
FIG. 6A is a perspective view showing a state where a field assembling and molding apparatus is installed to connect the on-the-laid upper concrete unit to be integrated with the lower slab member to which the upper reinforcing steel assembly is installed, FIG. 6B is a perspective view, FIG. 6 is a perspective view showing an internal device portion excluding a support outer mold; FIG.
FIG. 7A is a view showing a state where the on-site pouring upper concrete part is poured on the lower slab piece member using the field assembly molding machine.
7B is a view showing a state in which the side support plates of the inner formwork constituting the field assembling and forming apparatus are retracted and separated into the inside of the culvert structure after the curing of the on-site pouring upper concrete part is completed, And FIG. 7D is a view showing a cross section of the culvert structure in a state where the field assembly and molding apparatus is completely removed.
FIG. 8 is an enlarged view of an example of a field assembly and forming apparatus according to another embodiment of the present invention in which a roller member is installed at a lower end of an outer mold for supporting a wall. FIG.
9 is a view showing a state in which a field assembly and molding apparatus according to a preferred embodiment of the present invention is used for constructing a culvert structure of another standard.

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

3A and 3B are perspective views showing the entire structure and the enlarged configuration of the lower slab member according to the present invention. FIGS. 3B and 3C are perspective views showing various embodiments of the lower slab member And Fig. 3d is a side view of the lower slab member shown in Figs. 3a to 3c.

According to the present invention, the lower slab member 100 according to the preferred embodiment of the present invention is constructed on the excavation soil so as to form a culvert structure 1000 such as a power hole or a cavity. (Precast Concrete PC) using a precast casting mold 600 as shown in FIG. 4 as a base reinforcing concrete member having a predetermined length ('L1' length shown in FIG. 3A: about 5 m) And the upper inner side surface 110a of the base slab portion 110 is smoothly formed by the precast casting mold 600. The precast casting mold 600 has a shape that includes the base slab portion 110 and the wall lower end portion 120 on both sides integrally, And a connection reinforcing bar 140 is inserted and provided on the upper surface of the wall lower end portion 120 so as to protrude upward.

Here, the upper inner side surface 110a of the base slab portion 110 is formed as a smooth surface by the smooth lower surface of the mold lower end portion 610 of the precasting molding die 600. On the other hand, the pre-casting work site of the lower slab member 100 to be pre-formed by using the pre-casting forming mold 600 can be arranged in the vicinity of the construction site since its standard is not large.

3A, an outer mold securing insert 122 for inserting a wall is inserted into the upper outer side of the wall lower end portion 120, and a wall support outer side wall 120 is formed at a lower portion of the wall lower end portion 120, A support flange 120a supporting the form 300 (see FIG. 6A) from below is protruded outward to form a lower outer side surface 120b and a lower outer side surface 120b of the wall lower end 120, A form guide plate fixing insert 124 is inserted and fixed so that the form guide plate 310 (see FIG. 6A) for supporting the wall supporting outer formwork 300 from the outside is fixed.

In order to enhance the exponential cutoff function of the joint between the lower slab member 100 as a foundation reinforcing concrete member and the wall to be connected thereto, An inner exponent blocking plate 130a is installed on the inner side of the connecting reinforcing bar 140 and an outer expansive blocking plate 130a is provided on the outer side of the connecting reinforcing bar 140. [ An exponent blocking plate 130b may be installed.

Prior to the concrete pouring of the cast-in-place upper concrete part forming the upper slab 520 connecting the side walls 510 of the culvert structure 1000 according to the preferred embodiment of the present invention and the upper end of the wall, An upper reinforcing bar assembly 200 is preassembled and connected to the lower slab member 100. As shown in FIG. 5A, a plurality of lower slab member 100 having a length of, for example, Can be continuously connected to the foundation foundation (excavation site) to enlarge the construction length once (refer to 'L3' in FIG. 5A), thereby further shortening the construction period. Here, the method of connecting and disposing the lower slab member 100 may include a method of pulling out the PC steel wire disposed through the inner hanging portion of the continuous lower slab member 100 and fixing the same as the fixing port 150 10-0910055, etc.) can be used.

Meanwhile, as shown in FIGS. 5C and 6A, when the site-curing culvert structure of the partial pre-casting structure is continuously constructed in the longitudinal direction, the waterproof sheet 160 in advance.

Then, after the assembly, the upper reinforcing bar assembly 200 is connected to the connection reinforcing bar 140 of the lower slab member 100 to complete the assembly of the upper reinforcing bar assembly 200 as shown in FIGS. 5B and 5C, A molding space is formed which is supported by the outer mold 300 and the inner mold 400 when the outer mold 300 and the inner mold 400 are installed on the outer and inner surfaces of the upper reinforcing bar assembly 200, Casting the upper reinforced concrete assembly 200 and the lower slab reinforced concrete member 100 by molding and pouring concrete (concrete mixer) The culvert culvert structure is completed.

As shown in FIG. 3C, which shows one example of a power hole or a cavity in a culvert structure according to the present invention, a bottom slab 110h is formed on both sides of the upper inner side surface 110a of the base slab portion 110, The PC member 100 may be used.

Hereinafter, a preferred embodiment of the field assembly molding apparatus according to the present invention will be described with reference to FIGS. 6A to 9.

6A is a perspective view of a state in which a field assembling and molding apparatus for installing and piling a field mounted upper concrete part 500 to be integrated therewith is installed on a lower slab member 100 provided with an upper steel bar assembly 200, FIG. 7A is a perspective view showing an internal apparatus part excluding the wall supporting outer mold 300 among the parts constituting the field assembling and molding apparatus. FIG. And the concrete part 500 is poured.

In the present invention, as shown in FIG. 7D having a structure in which the lower slab member 100 pre-cast by the pre-casting mold 600 described above and the cast-in-place upper concrete part 500 are interconnected, 6A to 7A, there is provided a field assembling and molding apparatus used for forming the structure 1000, which is a preformed and installed on the ground, and the lower end portion of the lower slab member 100 of the lower slab member 100, A wall supporting member fixedly installed in contact with the upper outer surface of the lower end portion 120 of the wall of the lower slab member 100 so as to support the molding space for the concrete wall body 510, An outer mold 300; And a molding space for the concrete wall body 510 and the upper slab 520 to be installed and installed on the wall lower end portion 120 of the lower slab member 100 installed in the ground, Horizontal supporting frames 421 and 422 supporting the upper supporting plate 410u and the upper supporting plate 410u and a brace member 423 supporting the side supporting plates 410s, And an inner mold 400 including the inner mold 400.

It is further preferable that a reinforcing plate 425 is provided between the upper support plate 410u and the horizontal support frame 421. [

In addition, in the field assembly and molding apparatus according to the present invention, the lower end of the side supporting plate 410s constituting the inner mold 400 can be separated from the molded and cured concrete wall 510 and moved to the inner space A first stretchable member 423j provided on the brace member 423; Provided on the vertical support frame 422 so that the upper support plate 410u constituting the inner mold 400 can be separated from the upper concrete slab 520 after the molding and curing is completed and moved to the inner space, A moving member 422j; When the side support plates 410s and the upper support plate 410u are separated from the concrete wall body 510 and the upper slab 520 by the first and second stretchable and movable members 423j and 422j, With the brace member 423 and the horizontal and vertical support frames 441 and 442 of the culvert structure 421 on the upper inner side surface 110a constituted by the smooth surface of the foundation slab portion 110 of the lower slab member 100, And a first roller member 430 for supporting the roller so as to be movable in the installation longitudinal direction.

7B, the first stretchable and contractible member 423j is retracted and retracted as shown in FIG. 7B, so that the on-site assembly and molding apparatus The side support plates 410s of the inner mold 400 to be constructed can be retracted into the inside of the culvert structure 1000 to be easily separated and then the second stretchable member 422j The upper support plate 410u and the side support plates 410s can be separated from the concrete wall 1000 by being retracted and retracted to the inside of the culvert structure 1000 to the upper support plate 410u of the inner mold 400. [ 510 and the upper slab 520, the first and second roller members 430 and 430 support the brackets 423 and the horizontal and vertical support frames 441 and 442, respectively, Can be moved in the installation longitudinal direction of the culvert structure on the upper inner side surface 110a formed by the smooth surface of the foundation slab portion 110 of the lower slab cover member 100 so as to enable rapid relocation movement to the subsequent construction site It is possible to conveniently carry out continuous construction in which a shortening effect of the construction period can be obtained.

Here, the wall supporting outer mold 300 is fixed by a fastener 302 fastened to an outer mold securing insert 122 for supporting a wall, which is inserted into the outer surface of the upper part of the wall lower end 120, The joint between the both ends of the upper support plate 410u and the upper end of the side support plate 410s is angularly displaceable so that the lower end of the side support plate 410s can be pivoted inward And a hinge supporter bar 424 is provided between the side support plates 410s and the vertical support frame 422 so that the inner and outer pivotal states of the lower end portions of the side support plates 410s are better supported and the rotation angle is maintained, A fixed hinge constituting one end of the hinge supporter bar 424 is installed on the side supporting plate 410s and a movable hinge constituting the other end is provided on the vertical frame 422, It is preferable to be provided in the hinge slider 424s provided in the straight direction.

According to a preferred embodiment of the present invention shown in FIG. 8, a second roller member (not shown) capable of rolling on the support flange 120a of the wall lower end portion 120 is provided at a lower portion of the wall supporting outer mold 300 305 can be easily installed to move the outer mold 300 for supporting the outer mold as well as the inner mold 400.

In this case, a mold guide plate 310 for guiding the outer surface of the wall supporting outer mold 300, which is moved by the second roller member 305, is additionally installed, and the mold guide plate 310, Is fastened by a fastening tool (312) to a mold guide plate fixing insert (112) inserted into a lower outer side surface (120b) of the wall lower end (120).

Meanwhile, in the present invention, it is possible to provide a variable standard structure of the inner formwork 400 in the construction of the culvert structure, wherein the horizontal support frame 421 and the vertical support frame 422 are divided into two The gap adjusting members 421e and 422e are connected to each other by interposing the gap adjusting members 421e and 422e having a predetermined width between the two segments. 6A to 8, the gap adjusting members 421e and 422e are removed, and the divided two segments are directly connected to each other to form a horizontal support frame 421 and a vertical support frame 422 Fig. 9 shows the case of the small cross section of the state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1000: Culvert structure
100: Member of lower slab PC (PC)
110: foundation slab part
110a: upper inner surface
120:
130a: inner exponential plate
130b: outer exponential blocking plate
140: Connecting bars
160: Waterproof sheet
200: upper reinforcing assembly
300: External dies for wall support
305: second roller member
310: die guide plate
400: inner die
410u: Upper support plate
410s: side support plate
421, 422: horizontal and vertical support frame
423: Brace member
423j: first stretchable member
422j: second stretchable member
430: first roller member

Claims (10)

The base slab portion 110 and the wall lower end portions 120 on both sides of the base slab portion 110 where the upper inner side surface 110a is formed as a smooth surface by the precast casting mold 600 are pre- , The lower slab member (100) having a shape including the upper slab member (100) and the cast-in-place upper concrete part (500)
The lower slab member 100 is preformed to support a molding space for the concrete wall 510 installed on the lower end portion 120 of the lower slab member 100 installed on the ground, A wall supporting outer mold 300 fixedly installed in contact with the upper outer side of the wall lower end portion 120 of the wall;
And a molding space for a concrete wall body 510 and an upper slab 520 to be installed on the lower end portion 120 of the lower slab member 100 installed in the ground, Horizontal support frames 421 and 422 for supporting the upper support plate 410u and a brace member 423 for supporting the side support plates 410s, An inner mold 400;
Provided to the brace member 423 so that the lower end of the side support plate 410s constituting the inner mold 400 can be separated from the concrete wall 510 after the molding and curing is completed and moved to the inner space, A moving member 423j;
Provided on the vertical support frame 422 so that the upper support plate 410u constituting the inner mold 400 can be separated from the upper concrete slab 520 after the molding and curing is completed and moved to the inner space, A moving member 422j; And
When the side support plates 410s and the upper support plate 410u are separated from the concrete wall 510 and the upper slab 520 by the first stretchable member 423j and the second stretchable member 422j, Together with the brace member 423 and the horizontal and vertical support frames 441 and 442 on the upper inner side surface 110a constituted by the smooth surface of the foundation slab portion 110 of the lower slab member 100, And a first roller member (430) supporting the roller so as to be movable in the longitudinal direction, and
The joining portion between both ends of the upper support plate 410u and the upper end of the side support plate 410s is formed to be angularly displaceable so that the lower end of the side support plate 410s can be pivoted inward, And,
A hinge supporter bar 424 is provided between the side support plate 410s and the vertical support frame 422 so that the inner and outer pivotal states of the lower end of the side support plates 410s are better supported and the rotation angle is maintained, The fixing hinge constituting one end of the supporter bar 424 is installed in the side supporting plate 410s and the movable hinge constituting the other end is installed in the hinge slider 424s provided in the vertical direction to the vertical frame 422 To-be-assembled molding device. The method according to claim 1,
Wherein the wall supporting outer mold 300 is fixed by a fastener 302 which is fastened to an outer mold fastening insert 122 for supporting a wall which is inserted into the outer surface of the upper part of the wall lower end 120. [ Assembly and molding device. 3. The apparatus according to claim 1 or 2, wherein a second roller member (305) capable of rolling on the support flange (120a) of the wall lower end (120) is installed on the lower part of the wall supporting outer mold (300) And
A form guide plate (310) for guiding an outer surface of the wall supporting outer mold (300) is additionally installed as the on-site assembly molding apparatus,
Wherein the form guide plate 310 is fixed to the mold insert plate fixing insert 112 inserted into the lower outer side face 120b of the wall lower end portion 120 by means of a fastener 312. [ Molding device. The horizontal support frame (421) and the vertical support frame (422) are divided into two parts along the longitudinal direction so as to provide a variable standard structure of the inner formwork in the construction of the culvert structure according to claim 1 or 2, Wherein two spacing adjusting members (421e, 422e) having a predetermined width are additionally disposed between the two segments and connected to each other. delete delete delete delete delete delete

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