JPS6142070B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a construction movable formwork device for constructing culverts and the like of various shapes.

In recent years, various types of mobile formwork equipment have been developed to construct various types of culverts such as underground passages and tunnels, elevated structures, and building frames. In order to remove the formwork more easily, the height of the formwork is raised and lowered, and the vertical flaps of the side walls are tilted inward, but the width of the upper shedding plate installed on the equipment does not change in the longitudinal direction. Since the reduction of the formwork is carried out integrally over the entire length, for example, when constructing a culvert with a curved part or a complex shape with a bend in the middle, the inside of the structure must be reduced. It is difficult to pull out the movable formwork device smoothly, and it is impossible to use a long movable formwork device especially when there are large bends or bends, so it is recommended to use a short device. It is necessary to connect a large number of molds together or to use a general formwork without using movable formwork, which makes construction extremely troublesome and has the disadvantages of increasing construction costs and prolonging the construction period. It was hot. In addition, in conventional movable formwork equipment, the width can only be adjusted integrally over the entire length of the equipment. It had many drawbacks, such as not being able to be used to construct culverts that have parts that change shape.

The present invention has been proposed in view of the above-mentioned conventional drawbacks, and includes a main frame body that can move and move up and down.
A side wall vertical butterfly is pivotally supported in a tilt-adjustable manner at the end of a slab beam that can be expanded and contracted in the width direction, so that the width of the slab sheath can be arbitrarily adjusted in the longitudinal direction. To make it possible to bend the side wall sheath plate in the longitudinal direction, and to easily set up, demold, and reduce the entire formwork device, and to construct complex-shaped culverts, etc. easily and in a short period of time. The purpose of the present invention is to provide a mobile formwork device for construction that can be used for construction.

Hereinafter, the present invention will be specifically explained based on embodiments shown in the drawings.

Fig. 1 is a front view showing a state in which a culvert is constructed using the construction movable formwork device according to the present invention, Fig. 2 is a plan view thereof, and Fig. 3 is a drawing of the device from inside the constructed culvert. 1 is a main frame framed in a box shape, and wheels 5, which are running devices, run along rails 4 installed on the floor 3 on which the culvert 2 is constructed. It is now possible to move around by running. Further, the legs of the main frame body 1 are equipped with a lifting device 6 such as a screw type or hydraulic type.
is provided, and by operating the lifting device 6, the main frame 1 can be raised or lowered as indicated by the arrows.

In addition, 7 is a slab beam arranged on the upper surface of the main frame 1 via a vertical beam 8, as shown in FIG.
A plurality of them are provided at predetermined intervals so as to be substantially perpendicular to the width direction, that is, the movement direction. and,
This slab beam 7 is configured to be expandable and contractible in its longitudinal direction. That is, the slab beam 7 includes a main body 7a provided with a slide groove 10 in the longitudinal direction, and a main body 7a.
It consists of an elastic member 9 that is inserted into the slide groove 10 from both ends of the main body. 7a and the elastic member 9 are connected to an elastic adjustment device 12 such as a turnbuckle or cylinder.
By operating the expansion/contraction adjustment device, the expansion/contraction material 9 is moved in and out of the main body as shown by the arrow, so that the slab beam 7 can be expanded or contracted arbitrarily in its longitudinal direction.

Furthermore, the structure of the slab beam 7 that is expandable and contractible is not limited to the above-mentioned means; for example, as shown in FIG.
The left and right connecting beams 7' and 7'' may be divided into left and right connecting beams 7' and 7'', which can be moved left and right by the telescopic adjustment device 12, respectively.

At both ends of the slab beam 7, the upper end portions of the side wall vertical butterflies 13 are pivotally supported by pins 14, and the appropriate lower portions of the side wall vertical butterflies 13 are connected to the main frame 1 for expansion and contraction adjustment of turnbuckles, cylinders, etc. Device 1
2, and by operating the telescopic adjustment device 12, each side wall vertical butterfly 13 can be tilted arbitrarily about a pin 14 as shown by the arrow in FIG. . Note that the side wall vertical flaps 13 do not need to be provided on all of the slab beams 7, and may be provided on necessary portions of the slab beams 7, such as every other or every two beams.

Further, FIG. 5 shows another example of the connecting means between the slab beam 7 and the side wall vertical flaps 13, in which the upper end of the side wall vertical flaps 13 is A pin 14' provided in the section is slidably engaged, and by operating the telescopic adjustment device 12, the side wall vertical butterfly 13 can be moved from side to side. With such a configuration, the length of the slab beam 7 can be substantially expanded and contracted with respect to the side wall vertical flap 13.

Note that 15 is a lower formwork auxiliary material separately arranged on the floor surface 3, and the upper end surface of the lower formwork auxiliary material 15 and the lower end surface of the side wall vertical butterfly 13 that abuts this are not shown in the figure. It is cut inward at a predetermined angle so that its lower end surface can be smoothly separated from the upper end surface of the lower formwork auxiliary material 15 when the side wall vertical butterfly 13 is tilted inward. There is.

Next, reference numeral 16 denotes a side wall weir plate disposed on the outer surface of the side wall vertical butterfly 13, and an auxiliary side wall weir plate 17 is similarly disposed on the outer surface of the lower formwork auxiliary material 15. Further, reference numeral 18 denotes a slab weir plate, which is installed on the upper surface of the slab beam 7 so as to form a rectangular shape in plan view, as shown in FIG.
is fixed to each slab beam 7 after adjusting the expansion and contraction of the slab beam 7, so that the framework of the device is formed as a strong rigid body. A slab beam 7 is provided between the slab shear plate 18 and the side wall sheath plate 16.
An adjustment sheath plate 19 formed to match the shape of the gap formed in response to the expansion and contraction of the slab beam 7 is arranged.
It is designed to be installed on the top surface of the

In addition, 20 in the figure is an auxiliary side wall shear plate 17, a side wall shear plate 16, a slab shear plate 18, and an adjustment shear plate 19.
This is concrete poured outside of a box-shaped formwork surrounded by concrete.

In order to construct, for example, a curved culvert 2 using the two movable formwork construction devices A ₁ and A ₂ of the present invention having the above configuration, it is necessary to construct the culvert 2 along the rails 4 as shown in FIG. The movable formwork devices A ₁ and A ₂ are moved to set the main frame 1 at a predetermined height at the construction position, and the slab beams 7 of the devices A ₁ and A ₂ are expanded and contracted to form side wall vertical flaps. Adjust the position of 13,
The side wall sheath plate 16 is made to conform to a predetermined curvature. For example, as shown in Fig. 2, the extension length of the slab beam 7 on both sides is adjusted by inserting and removing the elastic member 9 of each slab beam 7, so that the upper side of the figure is convex and the lower side is concave. You can adjust it so that In this case, the slab weir 18 is the slab beam 7
Since it is constructed with a predetermined width regardless of the expansion and contraction of the slab, the convex and concave shapes of the planar shape of A suitable adjustment sheath plate 19 may be installed. This adjustment sheath plate 19 is
Depending on the shape of the structure, such as the curvature and fold angle, a suitable one will be replaced each time.
Compared to 6, it has a much smaller area, so it can be made lighter and cheaper, and it is extremely easy to replace and transport.

When proceeding with construction using two devices A ₁ and A ₂ , first use device A ₁ to pour concrete, then set up the next device A ₂ and pour concrete. For example, since the concrete poured using the device A ₁ hardens during the work of the device A ₂ , the device A ₁ is tilted inward with the side wall vertical butterflies 13 as shown in FIG. After lowering and reducing the size of the device, pull out the device _A1 in the direction of the arrow, move it separately to _A1 ', set it, and proceed with the construction in order to make the construction more efficient.

In addition, if the curvature of the curved part of the structure is large,
At the level of equipment reduction as described above, equipment A ₁ , A ₂
It is difficult to pull out the adjustment sheath plate 1, but in this case,
By removing the beams 9 and reducing the slab beams 7, the widths of the devices A ₁ and A ₂ can be made sufficiently small, so that they can be easily pulled out.

Fig. 7 shows examples of various planar shapes that can be constructed using the construction movable formwork device of the present invention, in addition to straight ones such as culverts. C shows a curved shape, C shows a one with different widths, D shows a rasp-shaped one, E shows a stepped one with different widths, F shows a one formed with a rasp-like curve, Regardless of the shape, it can be constructed by adjusting the expansion and contraction of each slab beam as necessary.
In addition, it can be easily pulled out and removed from a structure such as a culvert that has been constructed.

Note that depending on the shape of the structure, the side wall sheath plate 16 may be greatly bent or stepped, but in such cases, an adjustment shear plate 16 formed short in the longitudinal direction may be used. , this may be continuously attached to the side wall vertical butterfly 13. Further, the movement of the main frame body 1 can be made to run directly on the floor surface 3 without relying on the rails 4.

As specifically explained above, the present invention includes a plurality of slab beams that are extendable and retractable in the width direction of the main frame at required intervals on the upper surface of the main frame provided with the traveling device and the lifting device. At the end of the slab beam, a side wall vertical flap is pivotably supported, and a side wall sheath plate installed on the side wall vertical flap and a slab shear plate of a predetermined width installed on the top surface of the slab beam. By installing an adjustable shear plate in between, 1. Even if the planar shape of the inside of a structure such as a culvert is complex, by expanding and contracting the slab beam, the side wall sheath plate can be adjusted to follow the shape. Since it can be set by freely bending or bending in the longitudinal direction, this was not possible with conventional movable formwork equipment in which the slab formwork and side wall formwork were integrally provided. , it becomes possible to apply large-scale movable formwork to structures that are curved or bent in the length direction, making it possible to improve construction efficiency and significantly reduce construction costs.

2. When pulling out a constructed structure, by shrinking the slab beam, the width can be reduced by the amount of shrinkage, so it can be easily pulled out and removed even from a curved structure.

3. Since the width of the device can be changed in the length direction, a long device can be used even for structures with bends, etc., and the length of each construction can be increased. Because I can,
Construction efficiency can be increased accordingly.

4. When the width of the structure changes, the adjustment sheath plate can be replaced to match the change, so the work is simple.

5. It has a simple structure and can be manufactured at low cost, and is easy to operate and does not require skill.

It is possible to provide an excellent mobile formwork apparatus for construction, which has many advantages such as, and can be widely applied not only to the construction of culverts but also to elevated structures and building frames.

[Brief explanation of the drawing]

Fig. 1 is a front view showing a state in which a culvert is constructed using the construction movable formwork device of the present invention;
The figure is a plan view of the same, Figure 3 is a front view showing how to pull out the device of the present invention from inside the constructed culvert, Figure 4 is a front view showing another embodiment of the slab beam, and Figure 5 is a slab beam. 6 is an explanatory diagram of how to use it for a curved culvert, and FIGS. 7A to 7F show various types of structures to which the device of the present invention can be applied. It is a figure which illustrated the planar shape. 1... Main frame body, 2... Culvert, 3...
...Floor surface, 4...Rail, 5...Wheel, 6......
Lifting device, 7... Slab beam, 7a... Slab beam main body, 7', 7''... Connecting beam, 8... Longitudinal girder,
9...Elastic material, 10...Slide groove, 11...
... Cash, 12... Telescopic adjustment device, 13...
Side wall vertical flap, 14, 14'...Pin, 15...
...Lower formwork auxiliary material, 16...Side wall shedding board, 17
..... Auxiliary side wall weir plate, 18 ..... Slab weir board, 19 ..... Adjustable weir board, 20 ..... Concrete, 21 ..... Horizontal hole.

Claims (1)

[Claims] 1. A plurality of slab beams, which can be expanded and contracted in the width direction of the main frame, are arranged at main intervals on the upper surface of the main frame in which the traveling device and the lifting device are installed, and , a slab shearing board is constructed with a width shorter than the length of the slab beam, and at the end of the slab beam, the upper end of the side wall vertical butterfly is pivotally supported, and the lower part of the side wall butterfly is attached to the main frame with a telescopic device. The side wall vertical flaps are connected via the slab shear plate, and the side wall vertical flaps are pivotally supported so as to be adjustable in tilt, and a side wall weir plate is installed on the outer surface of the side wall vertical flap, and an adjustable shear plate is installed between the side wall shear plate and the slab shear plate. A mobile formwork device for construction, which is characterized by the following: