KR102055012B1 - Mould segregation system for grid type precast bow - Google Patents

Abstract

The present invention relates to a demoulding apparatus for a precast lattice beam mold.
The present invention is the nut pipe is fastened to the bolt rods mounted on the center of the upper and lower substrates, the left and right links and the left and right side iron plate is connected to the nut pipe in a left and right symmetrical connection,
As the bolt rod rotates, the nut pipe and the link connected thereto move to move the left and right side iron plates inward, thereby removing them from the lattice beams.
A series of front and rear links and front and rear side plates are connected to the outer left and right links in a symmetrical manner.
Until removal of the left and right side steel plates, they are no longer moved by the play of the long holes formed in the front and rear intermediate links.
When the bolt rod is additionally rotated after the first removal of the left and right side steel plates, the front and rear intermediate links are moved further to move beyond the play, and the front and rear sides connected to the ends by pulling the outer front and rear links inward. By moving the iron plate sequentially after the left and right side iron plate, by removing the inner mold from the grid beam,
The left and right side steel plates and the front and rear side steel plates of the inner mold inserted into the hollow of the lattice beams are naturally removed without causing mutual interference so that the production time and manpower of the inner molds are removed without generating noise in the lattice beams. It is to minimize the demoulding.

Description

Demolition device of precast grating beam mold {MOULD SEGREGATION SYSTEM FOR GRID TYPE PRECAST BOW}

The present invention relates to a demoulding apparatus for a precast lattice beam mold.

In particular, in forming the precast lattice beams forming the main frame of a semiconductor factory,

The present invention relates to a demoulding apparatus of a precast grating beam mold for easily and quickly demolding a concrete-shaped grating beam in a mold.

In general, the semiconductor factory is the main core structure constituting the frame, as shown in Figure 1, the grid-shaped beams (2) made of a checkerboard-shaped concrete structure provided with a hollow portion 1 between the grid-like skeleton It is installed in such a way that a clean room is installed thereon.

And since the structure and shape of such lattice beams 2 are already standardized,

In most cases, the segment is manufactured to a size that can be manufactured and transported by the factory in a precast (PC) process, rather than the conventional site casting method, and then moved to the construction site, assembled, and after the necessary joining process, the clean room is placed. have.

In addition, the lattice beams 2 are prefabricated after placing the pre-assembled reinforcing bars in the mold formed in accordance with the shape of the lattice beams 2 and filling the concrete, and after curing, partially molded. To disassemble and demold the member to produce a unit lattice beam (2),

The mold for forming the lattice beam 2 is made of a bottom table mold 3, an outer side mold 4, and a plurality of box-shaped inner molds 5,

After curing, when the grid beam 2 is demolded, the grid beam 2 is separated from the table mold 3 with the inner mold 5 attached thereto, as shown in FIG. The work is done in such a way that the worker taps out each of the internal molds 5, each of which has been slightly inclined, using an iron rod or the like.

However, such a conventional demolding method requires excessive input of time and manpower to remove the internal mold 5,

When working, there is a lot of noise,

Above all, the greater the dance (height) of the grid beams 2, the greater the adhesion of concrete, so that the demoulding of the grid beams 2 becomes very difficult, resulting in low productivity and a significant increase in cost.

The present invention has been studied in view of all the problems of the demoulding method of the conventional precast grating beam mold,

SUMMARY OF THE INVENTION An object of the present invention is to provide a demoulding apparatus for a precast grating beam mold, which can easily and quickly remove an internal mold from a concrete-cured grating beam,

The purpose is to reduce noise, minimize production time and manpower, and greatly reduce costs.

To this end,

The present invention is the nut pipe is fastened to the bolt rods mounted on the center of the upper and lower substrates, the left and right links and the left and right side iron plate is connected to the nut pipe in a left and right symmetrical connection,

As the bolt rod rotates, the nut pipe and the link connected thereto move to move the left and right side steel plates inward, thereby removing them from the grid beam.

A series of front and rear links and front and rear side plates are connected to the outer left and right links in a symmetrical manner.

Until removal of the left and right side steel plates, they are no longer moved by the play of the long holes formed in the front and rear intermediate links.

When the bolt rod is additionally rotated after the first removal of the left and right side steel plates, the front and rear intermediate links are moved further to move beyond the play, and the front and rear sides connected to the ends by pulling the outer front and rear links inward. By moving the iron plate sequentially after the left and right side iron plate, by removing the inner mold from the grid beam,

The left and right side steel plates and the front and rear side steel plates of the inner mold inserted into the hollow of the lattice beams are naturally removed without causing mutual interference so that the production time and manpower of the inner molds are removed without generating noise in the lattice beams. It is characterized in that to minimize the demoulding.

The demoulding apparatus of the precast lattice beam mold of the present invention,

By allowing the left and right side steel plates and the front and rear side steel plates of the inner mold inserted into the hollow part of the lattice beams to be naturally removed without causing mutual interference,

In the lattice beams, the internal mold can be demolded by minimizing production time and manpower without generating noise.

1 is a perspective view showing a construction state of a general precast grid beam;
2 is a view showing a demoulding method of a conventional inner mold,
3 is an external perspective view of the demolding apparatus of the preferred embodiment of the present invention;
Figure 4 is a perspective view showing the configuration of the inner mold applied to the present invention,
5 is a perspective view showing a state in which the left and right side of the inner mold is removed by the demolding apparatus of the present invention;
Figure 6 is a perspective view showing a state before and after removing the side,
7 is a partial plan view showing a process of removing the inner mold of the present invention.

Hereinafter, the demoulding apparatus of the precast lattice beam mold according to the present invention will be described in detail with reference to the accompanying drawings.

3 is an external perspective view of the demolding apparatus of the preferred embodiment of the present invention;

The demoulding apparatus of the precast lattice beam mold of the present invention,

It consists of a bottom table mold (3), the outer side side mold (4) and a plurality of box-shaped inner mold (6) ended up in the shape of a lattice beam as a whole,

When fabricating the lattice beams 2 having the hollow part 1 formed therein, the reinforcing bar is placed inside the space part 7 formed between the side mold 4 and the inner mold 6, and the concrete is poured and cured. Thereafter, the side mold 4 and the inner mold 6 are removed to obtain the lattice beams 2.

Figure 4 is a perspective view showing the configuration of the inner mold applied to the present invention,

5 is a perspective view showing a state in which the left and right side iron plate of the inner mold is removed by the demolding apparatus of the present invention;

Figure 6 is a perspective view showing a state before and after removing the side iron plate,

Bolt rod 13 is mounted on the bearing 15 in the center of the upper and lower substrate 11,

A nut pipe having the same structure is fastened to the bolt rod 13, and the nut pipe has a left and right middle link 17 ', respectively, symmetrically about the inner left and right links 17 on the outside of the nut pipe. And outer left and right links 17 "

Left and right side iron plates 19 and 19 'are attached to left and right ends of the outer left and right links 17 ", respectively.

In addition, the outer left and right links 17 "include front and rear intermediate links 21 'and outer front and rear links 21, respectively, in front and rear symmetry around the inner front and rear links 21 in the front and rear directions. ") Is positioned, and the front and rear side iron plates 23 and 23 'are attached to the front and rear ends of the front and rear links 21", respectively.

Long holes 25 and 25 'are formed in the front and rear intermediate links 21', and when the outer front and rear links 21 "are initially moved, the gap t of the long holes 25 and 25 'is formed. By not moving

After the first removal of the left and right side iron plates 19 and 19 ', the intermediate link 21' is further moved by the additional rotation of the bolt rod 13 to move beyond the clearance t.

Pull the outer front and rear links 21 "inward in the forward and rear directions to connect the front and rear side plates 23 and 23 'attached to the front and rear ends of the outer front and rear links 21". The left and right side iron plates 17 and 17 'are sequentially moved to remove the inner mold 6 from the lattice beams 2.

The demoulding apparatus of the precast lattice beam mold of the present invention configured as described above,

At the time of manufacture of the lattice beams (2),

First, the table mold 3 is installed on the bottom in accordance with the shape of the lattice beams 2, and then the side molds 4 and the plurality of box-shaped inner molds 6 are assembled inside and outside the four sides.

After reinforcing the reinforcing bar inside the space portion 7 formed between the side mold 4 and the inner mold 6 and pouring concrete to cure,

The side mold 4 is first removed from the cured lattice beam 2.

With the side mold 4 separated in this way,

When the bolt rod 13 of the inner mold 6 located in the hollow part 1 of the lattice beam 2 is rotated,

As the nut pipe fastened to the bolt rod 13 rotates, the left and right links 17 fixed to the nut pipe are raised together, and the left and right links 17 connected to the left and right links 17 are raised. The left and right side steel plates 19 and 19 'attached to the left and right ends of the outer left and right links 17 " To be separated in (2).

As described above, in the state where the left and right side iron plates 19 and 19 'of the inner mold 6 are primarily separated from the lattice beams 2,

If you continue to rotate the bolt rod 13 again a little more,

In the first movement, before and after moving inward with the outer left and right links 17 "by the clearance t of the long holes 25 and 25 'formed in the front and rear intermediate links 21'. As the link 21 is shown in FIG. 7, the front and rear intermediate links 21 ′ move out of the play area t while the additional movement of the bolt rod 13 is performed by B. The front and rear side steel plates 23 and 23 'attached to the front and rear ends of the outer front and rear links 21 " 2).

Through this removal process, the left and right side steel plates 19 and 19 'and the front and rear side steel plates 23 and 23' are separated from the lattice beams 2 so that the inner mold 6 is lattice beams ( When it is located inside the hollow part 1 of 2),

The interference of the inner mold 6 with respect to the lattice beam 2 is released, so that the lattice beam 2 can be freely demolded from the table mold 3 to complete the work.

Therefore, according to such a demoulding apparatus of the precast lattice beam mold of the present invention,

When demoulding the concrete-cured precast lattice beams (2),

The front and rear links 21 move inward with the outer left and right links 17 "by the rotation of the bolt rod 13, and the left and right side steel plates 19 by the movement of the outer left and right links 17". Until the 19 'is first removed from the lattice beam 2, it stops without moving any more by the clearance t of the long holes 25 and 25' formed in the front and rear intermediate links 21 '. later,

After the first removal of the left and right side iron plates 19 and 19 ', the intermediate link 21' is further moved by the additional rotation of the bolt rod 13 to move beyond the clearance t.

The front and rear side steel plates 23 and 23 'are connected to the front and rear ends of the front and rear links 21 " by pulling the outer front and rear links 21 " By separating it from the lattice beams 2

The left and right side iron plates 19 and 19 'and the front and rear side iron plates 23 and 23' of the inner mold 6 inserted into the hollow part 1 of the lattice beam 2 do not interfere with each other. To remove naturally without sequential

In the lattice beams 2, there is an advantage that the inner mold 6 can be demolded by minimizing production time and manpower input without generating noise.

In the above described the present invention based on a specific embodiment,

The above embodiment is only one example for describing the technical idea of the present invention, and the technical scope of the present invention is not limited only to the above embodiment.

All changes are included in the meaning and range of equivalency of the technical idea and the claims of the present invention.

1: hollow part
2: lattice beam
3: table mold
4: side mold
5, 6: inner mold
7: space part
9: lattice beam
11: substrate
13: bolt rod
15: bearing
17, 17 ', 17 ": left and right links
19, 19 ': Left and right side iron plate
21, 21 ": before and after links
21 ': Before and after middle link
23, 23 ': Before and after side iron plate
25, 25 ': Longevity
t: play

Claims (1)

Bolt rod 13 is mounted on the bearing 15 in the center of the upper and lower substrate 11,
The nut pipes having the same structure as the upper and lower parts are fastened to the bolt rods 13, and the left and right intermediate links 17 'are respectively symmetrically about the inner left and right links 17 on the outside of the nut pipe. Outer left and right links 17 " are positioned, and left and right side iron plates 19 and 19 'are attached to left and right ends at the left and right ends of the outer left and right links 17 ", respectively. In the demoulding apparatus of the precast lattice beam mold,
The front and rear intermediate links 21 'and the outer front and rear links 21 " are positioned on the outer left and right links 17 " symmetrically with respect to the inner front and rear links 21, respectively. Front and rear side iron plates 23 and 23 'are respectively attached to the front and rear ends of the front and rear links 21 ", and the long holes 25 and 25' are attached to the front and rear intermediate links 21 '. Is formed,
Until the left and right side steel plates 19 and 19 'are removed, the front and rear intermediate links 21' are stopped without moving by the clearance t of the long holes 25 and 25 '. When the bolt rod 13 is further rotated after the first removal of the right side steel plates 19 and 19 ', the front and rear intermediate links 21' are further moved to move beyond the play space t. The front and rear side plates 23 and 23 'connected to the ends by pulling the front and rear links 21 " inwardly are sequentially moved following the left and right side plates 19 and 19', thereby providing a lattice. The left and right side iron plates 19 and 19 'and the front and rear side iron plates 23 and 23' of the inner mold inserted into the hollow part of the beam are sequentially removed without causing mutual interference. Demonstration device for precast lattice beam mold.

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