KR101372261B1 - Box form structure for culvert construction - Google Patents

Abstract

The present invention relates to a box form structure for constructing a culvert which is provided not only to construct a concrete culvert continuously as well as sturdily enough to bear distributed load, the box form structure comprising: outer form materials which are disposed on the right and left sides of a concrete culvert respectively before construction and which maintain a fixed interval therebetween to construct outer wall units of the concrete culvert; inner form materials which are positioned in between the outer form materials and spaced with a fixed interval apart from the outer form materials and which are installed to construct inner wall units of the concrete culvert; a form material-operating unit which has the inner form materials connected thereto in between the outer form materials, and which moves along a rail to construct the next concrete culvert after finishing the construction of the concrete culvert by being provided to separate the inner form materials of the inner wall units of the constructed concrete culvert from the inner wall units.

Description

Box form structure for culvert construction

The present invention relates to the construction of civil concrete culverts, and more specifically, to construct the concrete culverts not only firmly but also to construct the concrete culverts continuously to sufficiently support the distribution load using the culvert box construction form. It relates to the box form structure for culvert construction.

The culverts generally applied in civil engineering work include rainwater treatment or sewerage in large residential districts and dense houses, waterways of agricultural and industrial waterways, passageways such as sidewalks and roadways, underground roadways, telecommunications zones, underground community areas, and oil tanks. It is used in various ways such as port, pier, plant, river and dam.

Conventionally, a bottom plate, a side plate, and a top plate, which are rigid wall-shaped structures made of reinforced concrete, are manufactured, respectively, and then assembled at the site, that is, the floor plate is laid on the ground at the position where the culvert is to be installed. The side plates are coupled to both sides, and the culvert is constructed through an assembly process between the respective structures for coupling the top plate to each side plate while the top plate is placed on the top of each side plate.

However, such a conventional culvert construction can take the prefabricated structure and shorten the air according to the culvert construction by assembling in the field, but due to the characteristics of the material that has the material economy and weight, Engineering disadvantages, namely, the greater the load of the fill layer, the larger the size of the buried culvert has to be proportionately larger, so there are many disadvantages in terms of economics, construction and production.

In addition, the culverts constructed by assembling between the structures have a problem that they do not sufficiently support the distribution loads (horizontal loads, vertical loads, etc.) due to the fill load and traffic load, and the culverts constructed on the soft ground are grounds on the soft ground. Due to the settlement phenomenon, there is a problem that the culvert is damaged due to the additional load and the immersion of the culvert foundation due to the stress concentration and settlement in the connection between the structures.

The present invention has been proposed to solve the problems in the prior art as described above, by having a culvert construction box form for constructing concrete culverts, a solid that can sufficiently support the distribution load by the culvert construction box form In addition to the easy construction of concrete culverts in the structure, easy installation of the culvert construction box form and easy separation of the culvert construction box form from the constructed concrete culverts, the concrete culvert can be continuously The purpose is to make it possible to construct.

The present invention for achieving the object as described above, in the culvert construction box form for continuously constructing concrete culverts, respectively installed on the left and right of the concrete culverts before construction to construct the outer wall portion of the concrete culvert Outer formwork member to maintain a constant interval; An inner formwork member disposed between the outer formwork members so as to be spaced apart from the outer formwork members at predetermined intervals and installed to construct an inner wall portion of the concrete culvert; The inner formwork member is coupled between each outer formwork member and provided to separate the inner formwork member from the inner wall portion of the constructed concrete culvert, and the formwork moves along the rail for the construction of the next concrete culvert after completion of the concrete culvert construction. And a member operating device unit, wherein the form member operating device unit includes a plurality of formwork fixing members to which the inner formwork members are coupled, and a frame portion installed inside the formwork fixing member to support and fix the formwork fixing member. A plurality of hydraulic cylinders coupled between each of the die fixing members and the frame portion to construct the inner wall of the concrete culvert and to reciprocate the form fixing member to separate the inner form member from the inner wall of the concrete culvert; It is installed coupled between each die fixing member and the frame portion The ergonomic box form structure is characterized by consisting of a plurality of brazing to support each of the formwork fixing members, and a plurality of wheels rotatably coupled to the lower portion of the frame portion to move the formwork member operating unit along the rail Is provided.

According to the present invention made as described above, the concrete in the culvert construction box form with the outer formwork member, the inner formwork member, the formwork fixing member, the frame portion, the hydraulic cylinder and the formwork member operating device portion consisting of brazing and wheels By constructing the culvert, the concrete culvert can be easily and rigidly constructed by the culvert construction box form, and the concrete culvert of the rigid structure is distributed load due to the fill load and traffic load (horizontal load). Not only fully supporting the vertical loads, but also supporting the loads and floating settlements caused by stress concentrations and settlements caused by settlements at the connection between concrete culverts and concrete culverts. It is effective to prevent.

In addition, the installation of the culvert box form is very easy, so that the concrete culvert can be installed easily, quickly and safely at the right time, and the concrete culvert according to saving work manpower or time according to the construction of the concrete culvert Work efficiency is improved and construction cost is reduced, and the construction period of concrete culvert can be shortened.

In addition, the culvert construction box form from the constructed concrete culvert can be easily, easily and quickly separated, that is, dismantling, as well as the work efficiency according to the dismantling operation of the culvert construction box form, as well as following the culvert construction box form. There is also an effect that can be moved to the process to be able to continuously construct the concrete culvert.

On the other hand, it is easy to change the structure and design of the outer formwork member and the inner formwork member of the culvert box form not only possible to construct a variety of structures, but also to use the culvert box form for a long time use Not only is it possible, but it also has the effect of reducing material loss and construction costs.

1 is a structural diagram showing the structure of the present invention culvert box form.
Figure 2 is a front view showing a state of the present invention installed culvert box form.
Figure 3 is a plan view of the present invention culvert construction box form viewed from the plane.
Figure 4 is a side view showing the formwork member operating unit coupled to the inner formwork member in the present invention culvert box form.
5 to 8 is a construction state sequentially showing a state of separating the box form from the concrete culvert construction and concrete culvert of the present invention.

Hereinafter, the culvert construction box form structure according to the present invention will be described in more detail with reference to FIGS. 1 to 8 as follows.

The present invention provides a variety of rainwater treatment and sewerage in large residential land districts and dense houses, passages such as sidewalks and driveways, underground roadways or telecommunications, underground troughs, oil tanks, ports (piers), The culvert construction box box for the continuous construction of the concrete culvert as well as the concrete culvert used in various plants, rivers, dams, etc. are installed.

The culvert construction box form, as shown in Figures 1 to 4, the outer formwork member 10 for maintaining the spaced apart at regular intervals on the left and right sides of the concrete culvert before construction to construct the outer wall portion of the concrete culvert Each is installed.

The inner formwork member 20 is installed between the outer formwork members 10 to be spaced apart from the outer formwork members 10 at regular intervals to construct the inner wall portion of the concrete culvert.

The inner formwork member 20 is coupled between each of the outer formwork members 10, and the inner formwork member 20 is separated from the inner wall portion of the concrete culvert that is constructed, as well as the next concrete after completion of the concrete culvert construction. Formwork member operating unit 30 is provided to move along the rail 40 for the construction of the culvert.

At least one safety scaffold 110 is provided on an outer surface of each of the outer mold members 10 to allow an operator to work and move on the outer mold member 10, and each of the outer mold members 10 is provided on the outer surface of the outer mold member 10. A plurality of outer support bars 120 are coupled to each other to support the outer formwork member 10 from the ground so that the outer formwork member 10 does not fall or fall.

A plurality of first interval maintaining members 131 are coupled between the outer formwork members 10 to connect the outer formwork members 10 to each other, as well as to maintain a constant distance between the outer formwork members 10. The outer formwork member 10 and the inner formwork member 20 are connected to each other between the outer formwork member 10 and the inner formwork member 20, as well as the respective outer formwork members 10. ) And a plurality of second interval maintaining members 132 for maintaining a constant gap between the inner mold member 20 and the inner mold member 20.

Both side lower portions of the inner formwork member 20 are provided with a lower formwork 210 which can be rotated by an angle to be separated from the inner wall portion of the culvert after the inner wall portion of the concrete culvert is constructed and constructed. The inner formwork member 20 and the bottom formwork 210 are connected and coupled by a hinge 211, and the lower formwork 210 and the lower portion of the frame portion 320 of the formwork member operating device 30 to be described later. A plurality of cylinders 220 for pivoting the bottom die 210 around the frame part 320 are coupled therebetween, and the cylinder 220 uses a hydraulic cylinder, a pneumatic cylinder, or the like.

That is, each of the cylinders 220 not only supports the bottom formwork 210 so as to construct the lower portion of the inner wall portion of the concrete culvert by the bottom formwork 210, and the construction of the concrete culvert is completed to the inner wall of the concrete culvert When the bottom formwork 210 is separated from the lower part, one end of each cylinder 220 coupled to the frame part 320 is separated to form one end of each of the separated cylinders 220. The concrete culvert while being coupled to the left and right fixing members 311 and 312 of the form fixing member 310, which will be described later, by rotating the bottom formwork 210 around the hinge 211 according to the operation of the respective cylinders 220. Smoothly separating the bottom formwork 210 from the lower inner wall portion.

The central formwork 230 to be separated from the inner formwork member 20 is movable on the central portion of the upper surface of the inner formwork member 20, and the formwork fixing member of the formwork member operating device 30 to be described later ( 310 is fixed to the central portion of the upper fixing member 313, the fixing bolt 240 to the end is coupled to the bottom of the central formwork 230 to move the central formwork 230 in the vertical direction It is.

The upper front surface of the inner formwork member 20 is formed to protrude toward the front of the inner formwork member 20, that is, the form fixing member 310 upper front of the formwork member operating unit 30 to be described later, that is, the formwork fixing member On the front of the upper fixing member 313, which is one of the respective components of the 310, a support fixing member 317 for supporting the inner formwork member 20 protruding to the front is provided, the inner formwork protruding forward The upper front surface of the member 20 is provided with a front working portion 350 that can be moved and operated by the operator.

The formwork member operating device 30 has a plurality of formwork fixing members 310, the inner formwork member 20 is coupled to the outer surface is installed, the formwork fixing member 310 inside the formwork fixing member (310) The frame part 320 which supports and fixes 310 is provided.

The gap between the form fixing member 310 and the frame part 320 maintains a constant distance between the form fixing member 310 and the frame part 320 as well as the form fixing member 310 and the frame part 320. ) Is provided with a plurality of coupling members 340 to be fixedly coupled or detachably coupled.

Between the formwork fixing members 310 and the frame portion 320, the inner wall portion of the concrete culvert is constructed and the formwork fixing member 20 is separated to separate the inner formwork member 20 from the inner wall portion of the concrete culvert. A plurality of hydraulic cylinders 330 for reciprocating are coupled, and a plurality of wheels 328 for moving the formwork member operating unit 30 along the rail 40 are provided below the frame part 320. It is rotatably coupled.

Between the die fixing members 310 and the frame portion 320, a plurality of brazing for supporting each of the die fixing members 310 in the frame portion 320 is coupled.

Each of the brazing is as shown in Figure 2, as well as maintaining a constant distance between the upper fixing member 313 of each die fixing member 310 to be described later and the vertical frame 323 of the frame portion 320 to be described later A plurality of upper brazing 360 for supporting the upper fixing member 313 from the vertical frame 323 of the frame part 320, and the left and right fixing members 311 and 312 of each form fixing member 310 to be described later and The interval between the left and right horizontal frames 321 and 322 of the frame unit 320 is kept constant, and the left and right fixing members 311 and 312 are supported from the left and right horizontal frames 321 and 322 of the frame unit 320, respectively. It is composed of a plurality of side brazing (370).

Each of the upper brazing 360 and each side brazing 370 is a vertical frame 323 of the frame part 320 and the upper fixing member 313 of the form fixing member 310 when constructing concrete culvert, The left and right horizontal frames 321 and 322 of the frame part 320 and the left and right fixing members 311 and 312 of the form fixing member 310 are connected to each other, and the upper brazing is completed when the construction of the concrete culvert is completed. One end of the 360 is separated from the upper fixing member 313, and each side brazing 370 is completely separated from the form fixing member 310 and the frame portion 320 in accordance with the operation of the hydraulic cylinder 330 The formwork fixing member 310 is detachable from the inner wall portion of the concrete culvert.

The form fixing member 310 of the form member operating device unit 30 is located on both sides of the form fixing member 310, as shown in Figure 2 to 4, the inner formwork member 20 is coupled to each hollow The left and right fixing members 311 and 313 of the shape are respectively provided, and a hollow shape in which the inner mold member 20 is coupled between the upper portions of the left and right fixing members 311 and 312 which are the upper sides of the mold fixing member 310. An upper fixing member 313 is installed, and one end is coupled to the upper end of the left fixing member 311 between the upper end of the left fixing member 311 and one end of the upper fixing member 313 and the upper The other end is inserted into one end of the fixing member 313 so as to be movable to move the left fixing member 311 and the upper fixing member 313 so that the left fixing member 311 and the upper fixing member 313 are movable. First connecting member 314 to connect It is installed, and one end is coupled to the upper end of the right fixing member 312 between the upper end of the right fixing member 313 and the other end of the upper fixing member 313 and at the other end of the upper fixing member 313 A second connection member which connects the right fixing member 312 and the upper fixing member 313 such that the other end is inserted and movable so that the right fixing member 312 and the upper fixing member 313 are movable; 315 is installed.

A fixing bolt 240 is rotatably coupled to the central portion of the upper fixing member 313 to move the central formwork 230 in the vertical direction as shown in FIGS. 1 and 2.

In order to prevent the first and second connection members 314 and 315 from being detached from both ends of the upper fixing member 313, sliding holes are formed on both end surfaces of the upper fixing member 313, respectively. Two connecting members 314 and 315 are formed with guide holes corresponding to the sliding holes, respectively, and end portions of the first and second connecting members 314 and 315 are inserted into the upper fixing member 313 according to the movement of the upper fixing member 313. The movable hinge is inserted into and engaged in each matching ball.

Frame portion 320 of the formwork member operating device 30 is on the wheel 328 or the upper surface of the rail 40 to rotate to move along the rail 40 on the bottom as shown in Figures 2 to 4 A plurality of left and right horizontal frames for supporting and fixing the form fixing member 310 are coupled to the upper fixing member 313 of the form fixing member 310 as well as the support fixing portion 327 to be seated and fixed ( 321 and 322 are respectively provided, and a plurality of vertical frames 323 are connected between the left horizontal frame 321 and the right horizontal frame 322 to connect the left horizontal frame 321 and the right horizontal frame 322. The vertically coupled is installed, and each of the left horizontal frame 321 and the right horizontal frame 322 is connected to each of the left horizontal frame 321, as well as the right horizontal frame 322 each. Connect the liver to each other Each of the plurality of the fixed frame 324 fixed to the support respectively the left horizontal frame 321 and a right horizontal frame 322 are coupled respectively.

On the upper surface of each vertical frame 323 of the frame part 320 is provided at least one or more working scaffold 325 to be stepped by the worker to work.

Formwork member operating device in the left, right horizontal frame (321, 322) located on the front side of the left, right horizontal frame (321, 322) of each of the formwork fixing members 310, that is, the front side of the formwork member operating device (30). Clamps 326 fixed to the rail 40 are installed to limit the movement of the unit 30, respectively, and the bottom of any one of the left and right horizontal frames 321 and 322, respectively. The seat fixing is fixed to the upper surface of the rail 40 as well as the support fixing portion 327 is separated from the rail 40 is coupled to each other so as to move in the vertical direction.

The left and right fixing members between the left fixing member 311 and the first connecting member 314 of the form fixing member 310 and between the right fixing member 312 and the second connecting member 315. A plurality of connection support bars 380 are installed to connect and support the 311 and 312 and the first and second connection members 314 and 315, and the left and right fixing members 311 and 312 of the form fixing member 310 are coupled to each other. A plurality of fixing support bars 316 are coupled and installed between the upper fixing members 313 to support the left and right fixing members 311 and 312 and the upper fixing member 313 to each other. ) Supports a plurality of frames to connect and support the left and right horizontal frames 321 and 322 and the vertical frame 323 as well as to connect and support the left and right horizontal frames 321 and the right horizontal frames 322. The bar 329 is provided.

Each frame of the frame part 320, that is, the left and right horizontal frames 321 and 322, the vertical frame 323, and the fixed frame 324 are formed as a single unit or a plurality of pieces are connected to each other so as to be adjustable in length. It can be configured to be, which is to provide a frame portion 320 of various structures according to the purpose of use or effect and manufacturing conditions of the formwork member operating device unit 30, the buyer's requirements.

According to the present invention configured as described above, the ground to be constructed with concrete culvert is dug to a certain depth, and then concrete is placed on the bottom surface of the dug ground to construct the bottom surface of the concrete culvert.

Then, the rail 40 is laid on the bottom surface of the concrete culvert, and then the outer formwork members 10 for constructing the outer wall portions of the concrete culvert are installed on both sides of the dug ground, respectively, and then the Forming member operating device portion 30, which is coupled to the inner formwork member 20 for constructing the inner wall portion of the concrete culvert is installed between both outer formwork members (10).

At this time, the formwork member operating unit 30 coupled to the inner formwork member 20 is manufactured to be installed on the outside of the site and transported to the concrete culvert construction site using a vehicle, and then lowered to be installed on the ground of the ground dug by a crane. The wheel 328 coupled to the lower left and right horizontal frames 321 and 322 of the frame member 320 of the formwork member operating device 30 to be lowered is movably seated on the upper surface of the rail 40. Install.

Then, the support fixing part 327 coupled to the lower portion of the left and right horizontal frame (321,322) of the left and right horizontal frame (321,322) to the upper surface of the rail 40 and at the same time the form fixing member ( The form member operating device unit 30 is fixed by installing the clamps 326 installed on the left and right horizontal frames 321 and 322 respectively located at the front side of the left and right horizontal frames 321 and 322 of the 310, respectively. ) Is fixed in a state that does not move in the rail (40).

In this state, the front and rear between the outer formwork member 10 and the inner formwork member 20, the rear formwork member (not shown) is installed, when the first construction of the concrete culvert, The rear formwork member may be installed, but the rear formwork member may not be installed when the concrete culvert is constructed continuously so as to be connected to the concrete culvert already constructed.

As described above, when the installation of both the outer formwork member 10 and the inner formwork member 20 and the front, rear formwork member is completed, the concrete between the two outer formwork member 10 and the inner formwork member 20. After pouring, the poured concrete is hardened through a curing process for a predetermined time to separate the front and rear formwork members.

Then, the inner formwork member 20 is removed and separated from the inner wall portion of the completed concrete culvert, and then the form member operating device 30 is moved, that is, the front side of the concrete culvert already constructed along the rail 40. Move the mold member operating device portion 30 to which the inner mold member 20 is coupled.

Then, by placing the outer formwork member 10 and the inner formwork member 20 in front of the concrete culvert already constructed by the above method, the concrete is connected so as to be connected to the front of the concrete culvert already constructed. As the next concrete culvert is constructed by pouring, the construction of the concrete culvert is made continuously.

Here, the process of moving the formwork member operating unit 30 to separate the inner formwork member 20 from the inner wall portion of the constructed concrete culvert and to construct the next concrete culvert, as shown in Figure 5 When the concrete culvert is constructed by the outer formwork member 10 and the inner formwork member 20, the central formwork 230 installed at the center of the inner formwork member 20 of the formwork member operating device 30 is as shown in the drawing. Move to the lower side.

That is, when the fixing bolt 240 is fastened to the upper fixing member 313 of the form fixing member 310 of the form member operating device portion 30, which is the lower side of the central formwork 230, the fixing bolt ( In accordance with the rotation of 240, the central die 230 moves to the lower side of the inner die member 20 as shown in FIG.

The fixing bolt 240 is rotated by a worker by manually climbing on the work step 325 installed in the vertical frame 323 of the frame part 320 of the form member operating device unit 30, or the fixing bolt A separate control unit may be connected to the 240 to automatically rotate according to a signal sent from the control unit.

When the central formwork 230 moves downward, the bottom formwork 210 installed on both lower sides of the inner formwork member 20 is rotated inward to move the bottom formwork 210 from the lower portion of the inner wall of the concrete culvert. Remove and remove.

That is, the bottom formwork 210 is supported and fixed by the cylinder 220 when the concrete culvert is constructed, but when the construction of the concrete culvert is completed and is to be separated from the inner wall part of the culvert, After separating one end of the cylinder 220 coupled to the lower left and right horizontal frame (321,322) and then fixed to one end of the cylinder 220 to the left and right fixing members (311,312) of the die fixing member (310) When the cylinder 220 is operated, the bottom formwork 210 is rotated inward with respect to the hinge 211 and folded, and is separated from the lower portion of the inner wall of the concrete culvert.

Then, each upper brazing 360 installed between the upper fixing member 313 of the form fixing member 310 and the vertical frame 323 located on the upper side of the vertical frame 323 of the frame part 320. While removing and removing each side brazing 370 installed between the left and right fixing members 311 and 312 of the form fixing member 310 and the left and right horizontal frames 321 and 322 of the frame part 320. Remove

At this time, each of the upper brazing 360 and each side brazing 370 is completely separated from the form fixing member 310 and the frame portion 320 or removed, or fixed to the frame portion 320 and the form fixing Only the member 310 can be removed, which can be selected by the operator according to the purpose or effect of the work and the work efficiency.

When the brazing 360 and 370 are separated and removed, the left and right fixing members 311 and 312 and the frame portion between the form fixing member 310 and the frame portion 320, that is, the form fixing member 310, are removed. By simultaneously operating the plurality of hydraulic cylinders 330 respectively installed between the left and right horizontal frames 321 and 322 of the 320, as shown in FIG. 7, the entire formwork fixing member 310 moves downward, The inner formwork member 20 coupled to the upper fixing member 313 side of the formwork fixing member 310 is separated from the upper surface of the inner wall portion of the concrete culvert.

Then, when the inner formwork member 20 is separated from the upper surface of the inner wall portion of the concrete culvert, the hydraulic cylinders 330 operate in the opposite direction to the above, that is, the shafts of the hydraulic cylinders 330 are inserted. When operated, the left and right fixing members 311 and 312 of the form fixing member 310 are moved inward by the hydraulic cylinders 330, respectively, so that the left and right fixing members 311 and 312 are coupled to the left and right fixing members 311 and 312. The inner formwork member 20 is separated from the left and right sides of the inner wall portion of the concrete culvert as shown in FIG.

That is, since the other ends of the first and second connection members 314 and 315 are movably coupled between upper ends of the left and right fixing members 311 and 312 and both ends of the upper fixing member 313, As the hydraulic cylinders 330 operate, the left and right fixing members 311 and 312 move inwardly of the form member operating device unit 30, respectively.

At this time, the other end of the first connection member 314 is moved in the state inserted into the left fixing member 311 and the other end of the second connection member 315 is moved in the state inserted into the right fixing member 312 In addition, since the inner formwork member 20 located on both sides of the upper fixing member 313 moves into a space formed by moving the lower side of the central formwork 230, the formwork fixing member ( The inner formwork members 20 coupled to the left and right fixing members 311 and 313 of the 310 are separated from the left and right sides of the inner wall portion of the concrete culvert, respectively.

Therefore, the inner mold member 20 coupled to the mold fixing member 310 is separated from the upper and left and right sides of the inner wall portion of the concrete culvert, the construction of the concrete culvert is completed as well as the culvert in the concrete culvert The construction box foam is separated.

Then, the support fixing part 327 coupled to the bottom of any one of the left and right horizontal frames 321 and 322 in the left and right horizontal frames 321 and 322 of the frame part 320 of the form member operating device unit 30 is upward. The clamp 326 fixed to the upper surface of the rail 40 on the front side of the form member operating device part 30 and then released from the rail 40 to release the clamping state from the rail 40. The formwork member operating device 30 to which the inner formwork member 20 is coupled is removed by pushing out of the constructed concrete culvert.

That is, since the wheels 328 coupled to the bottom of the other left and right horizontal frames 321 and 322 of the left and right horizontal frames 321 and 322 of the frame part 320 are rotatably seated on the upper surface of the rail 40, When the die member operating device 30 is pushed, the die member operating device 30 is released from the inside of the concrete culvert that is constructed while the wheel 328 rotates on the rail 40.

In order to continuously construct the next concrete culvert so as to be connected with the constructed concrete culvert, the method described above after placing the formwork member operating device 30 escaped from the constructed concrete culvert on the front side of the constructed concrete culvert Operate each unit in reverse order to restore it to its original state.

That is, the hydraulic cylinders 330 are operated to operate the left and right fixing members 311 and 312 and the upper fixing member 313 and the central mold 230 and the lower mold 210 of the mold fixing member 310. Each of the above devices is restored to its original state, such as connecting the upper brazing 360 and the side brazing 370 together with the original position.

Then, the outer formwork member 10 is installed on both sides of the formwork member operating device 30 to which the inner formwork member 20 is coupled, and then the concrete is poured and cured for a predetermined time in the same manner as described above. The next concrete culvert is continuously constructed so as to be connected to the constructed concrete culvert.

As described above, the culvert box structure for construction according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described herein, and various modifications are made by those skilled in the art within the technical scope of the present invention. Modifications may be made and should not be understood individually from the technical spirit or prospect of the present invention.

10: outer die member 20: inner die member
30: die member operating unit 40: rail
110: safety footrest 120: outer support bar
131, 132: first and second interval holding member 210: bottom die
211: hinge 220: cylinder
230: center die 240: fixing bolt
310: formwork fixing member 311,312: left, right fixing member
313: upper fixing member 314, 315: first, second connecting member
316: fixed support bar 317: support fixing member
320: frame portion 321, 322: left and right horizontal frame
323: vertical frame 324: fixed frame
325: working step 326: clamp
327: Suspended Government 328: Wheels
329: frame support bar 330: hydraulic cylinder
340: coupling member 350: front working part
360: upper brazing 370: side brazing
380: connecting support bar

Claims (9)

In the culvert construction box form for continuously constructing concrete culverts,
An outer formwork member installed at left and right sides of the concrete culvert before construction to maintain an outer wall portion of the concrete culvert;
An inner formwork member disposed between the outer formwork members so as to be spaced apart from the outer formwork members at predetermined intervals and installed to construct an inner wall portion of the concrete culvert;
The inner formwork member is coupled between each outer formwork member and provided to separate the inner formwork member from the inner wall portion of the constructed concrete culvert, and the formwork moves along the rail for the construction of the next concrete culvert after completion of the concrete culvert construction. Member operating device; is provided,
The formwork member operating device unit, a plurality of formwork fixing member to which the inner formwork member is coupled, a frame portion installed inside the formwork fixing member to support and fix the formwork fixing member, each of the formwork fixing member and the frame portion A plurality of hydraulic cylinders coupled between the plurality of hydraulic cylinders for constructing the inner wall portion of the concrete culvert and reciprocating the formwork fixing member to separate the inner formwork member from the inner wall portion of the concrete culvert; Cultivating construction box comprising a plurality of brazing and coupled to the lower portion of the frame portion rotatably coupled to support the respective die fixing member and a plurality of wheels to move the formwork member operating unit along the rail Foam structure. The method of claim 1,
Crimper construction box foam structure, characterized in that at least one or more safety scaffolding portion is installed on the outer surface of each outer formwork member so that the operator can move. The method of claim 1,
Bottom dies rotatable by hinges are installed on both lower portions of the inner die member, and a plurality of cylinders are coupled between the bottom dies and the lower portion of the frame part to rotate the bottom dies, and each cylinder forms a bottom die. When releasing the bottom formwork from the bottom of the inner wall portion of the concrete culvert as well as supporting the box form structure for culvert construction, characterized in that the one end of the cylinder coupled to the frame portion is separated and fixed to the form fixing member. The method of claim 1,
The formwork fixing member includes a hollow left and right fixing member to which the inner formwork members positioned at both side portions are respectively coupled;
A hollow upper fixing member installed between the left and right fixing members and coupled to an inner mold member positioned at an upper side thereof;
The first connection is coupled to the upper end of the left fixing member and the other end is inserted into the one end of the upper fixing member so as to be movable to connect the left fixing member and the upper fixing member so that the left fixing member is movable. Absence,
A second connection is connected to the upper end of the right fixing member and the other end is inserted into the other end of the upper fixing member so as to be movable to connect the right fixing member and the upper fixing member to move the right fixing member. Culvert construction box foam structure, characterized in that composed of members. 5. The method of claim 4,
A plurality of connection support bars are coupled between the left fixing member and the first connecting member and between the right fixing member and the second connecting member to connect and support the left and right fixing members and the first and second connecting members. The culvert construction box form structure, characterized in that the left and right fixing member and the upper fixing member is coupled between the plurality of fixing support bars for supporting the left and right fixing member and the upper fixing member to each other. The method according to claim 1 or 4,
A central formwork separate from the inner formwork member is installed at the center of the upper surface of the inner formwork member, and an end is coupled to the bottom of the central formwork at the center of the upper fixing member of the formwork fixing member to move the central formwork in the vertical direction. Culvert construction box foam structure, characterized in that the fixing bolt is fastened. The method of claim 1,
The frame part is coupled to the wheel to rotate to move along the rail on the bottom, as well as a plurality of left and right horizontal frames coupled to the upper fixing member of the form fixing member to support and fix the form fixing member,
A plurality of vertical frames installed vertically between the left horizontal frame and the right horizontal frame to connect and couple the left horizontal frame and the right horizontal frame;
The culvert construction box form structure, characterized in that composed of a plurality of fixed frames are installed to connect each of the left horizontal frame and each of the right horizontal frame to support and fix the left and right horizontal frames respectively. The method of claim 7, wherein
The left and right horizontal frames positioned on the front side of the left and right horizontal frames are respectively provided with clamps fixed to the rails to limit the movement of the formwork member operating unit, and any one of the left and right horizontal frames is provided. The culvert construction box foam structure, characterized in that the bottom of the horizontal frame is coupled to each of the support fixing parts that are fixed to the upper surface of the rail. The method of claim 1,
The upper front surface of the inner formwork member is formed to protrude forward of the inner formwork member, the upper front surface of the formwork fixing member is provided with a support fixing member for supporting the upper portion of the inner formwork member projecting to the front, protruding forward The culvert construction box foam structure, characterized in that the front working portion is provided on the upper front of the inner formwork member.

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