KR101908945B1 - Molding system using sound insulator and construction method therefor - Google Patents

Abstract

The present invention relates to a molding system using a sound insulation material and a construction method thereof, wherein the sound insulation material is detachably coupled to a truss material, and detachment of the truss material and movement of a truss fitting material are easily performed in accordance with the diagonal cut of the molding system using a sound insulation material. The molding system using a sound insulation material comprises: a sound insulation material, wherein a wide bottom and narrow top type truss material insertion groove is extended from a surface in a recessed groove shape; a board material coming in contact with the surface of the truss material insertion groove of the sound insulation material and integrated with the truss material insertion groove; and a truss fitting material having an insertion hole fitting material horizontally inserted along an insertion hole unit of the board material formed on the truss material insertion groove and a truss bottom chord fitting material formed to be exposed from the upper surface of the board material in the upper portion of the insertion hole fitting material to enable the truss material to be detachably installed.

Description

TECHNICAL FIELD [0001] The present invention relates to a molding system using a sound insulating material,

The present invention relates to a formwork system using a sound insulating material and a method of construction thereof. More specifically, it relates to a formwork system using a sound insulating material which is easy to detach a truss material and to which a truss fitting material can be moved by being combined with a sound insulating material and a truss material serving as a sound absorption will be.

Korean Unexamined Patent Publication No. 10-2007-0033618 (a method for producing an interlaminar insulating sound insulating material by using a rigid polyurethane foam as a main material and an interlaminar insulating sound insulating material produced by the method) discloses a rigid polyurethane foam as a conventional heat insulating sound insulating material. That is, it has been disclosed that the hard polyurethane foam pulverized so as to have a particle size of 3-5 mm has properties such as its own heat insulation property, light weight property, buffering property, and the like. The pulverized hard polyurethane foam is mixed with the cement mixture It is possible to put it in.

1A shows a conventional heat insulating deck plate (A).

The heat insulating deck plate A is provided with a heat insulating material between the truss and the work plate so as not to incur the inconvenience of separately installing the heat insulating material in the lower portion of the concrete slab in which the form board is separated after the concrete is laid and cured (40), a heat insulator (50), and a connector (30). And the truss material 10 as shown in Fig.

First, the formwork board 40 has a function of stably supporting the overall load in the course of curing and curing concrete, and it is formed of a rectangular plate such as plywood, synthetic resin, or steel plate.

Next, the heat insulating material 50 is formed of any one of synthetic resin, foamed resin and urethane foam having a function of preventing heat loss from occurring to the upper, lower, lower and upper portions of the cured concrete. And has a constant thickness.

After the concrete poured into the upper portion of the deck plate is cured and then the connection bolts 32 of the connection hole 30 are dismantled, the heat insulating material 50 is detached from the concrete, And the truss member 10 is inserted into the connector 30.

That is, when the heat insulating material as the building deck plate is integrally formed with the truss material, it can be seen that the truss material and the heat insulating material are connected through the connecting bolt provided so as to penetrate the heat insulating material. The heat insulating material is usually made of a foam resin (a kind of styrofoam) Can be used.

However, since insulation materials made of synthetic resin, foamed resin, or urethane foam are not fire-retardant or semi-fire-retardant materials, development of a deck plate based on the premise of using fire-retardant materials and quasi-fire retardant materials has been recently required, .

FIG. 1B shows a glass wool used as a conventional thermal insulation material.

Glass wool is a glass fiber made by melting and processing silicate-based glass, and is also referred to as glass fiber.

These glass wools are excellent in heat resistance, corrosion resistance, moisture resistance, heat insulation, sound absorption and the like, and as the diameter of the glass wool becomes smaller, tensile strength and flexibility increase. It is widely used in a wide variety of industrial fields such as soundproofing, insulation, decorative fabrics, and manure.

In particular, when glass wool is manufactured into a nonwoven fabric by needle punching, it is used as a thermal insulation material for construction.

Further, as shown in FIG. 1B, there is also disclosed a glass wool laminated with a meta-aramid fiber web layer B: an activated carbon fiber web layer C: a glass fiber web layer D: a carbon fiber web layer,

A laminated glass wool panel manufactured by sandwiching a laminated glass wool panel into a predetermined size and sandwiched between the upper and lower glass plates is also disclosed.

Therefore, the glass wool used as a building thermal insulation material may have incombustibility and semi-incombustibility in terms of material, so it can be used as a thermal insulation material used for a building deck plate.

However, since the glass wool is manufactured in the form of nonwoven fabric through needle punching, it is difficult to secure the shear force in which the connecting bolt is fixed in the glass wool when the conventional connecting bolt is passed through and the truss material is joined to the connecting bolt When the glass wool is used alone, the structural weakness is also a problem as a member constituting the deck plate.

In addition, Rock Wool is a fiber made by melting heat-resistant minerals mainly composed of lime and silicate, and can cause the same problem in using glass wool as a deck plate.

1C shows a deck plate in which a conventional insulating material 50 and a truss member 10 are joined by a spacer 20. Fig.

That is, the truss member 10 is connected to the upper surface of the spacer 20 in such a manner that the spacer 20 can be installed on the upper surface of the heat insulating member 50. In this case, A connecting bolt to be fastened to the spacer 20 is not shown.

If the heat insulating material 50 is glass wool, the spacers 20 may be detachably attached. If the operator operates the trussing material 10 brightly, the heat insulating material may be damaged and local damage may occur. There was a limit to the point that the problem of the occurrence was inevitably pointed out.

Korean Patent No. 10-0993879 (entitled "Insulation Deck Plate", Published Date: November 11, 2010) Korean Patent No. 10-1628255 (Title of the Invention: Installation Method of Insulation Deck and Insulation Deck, Disclosure Date: June 08, 2016) Korean Patent No. 10-1784236 (Title of the Invention: Glass Fiber Mat for Architectural Uses, Method for Manufacturing the Same, and Manufacturing Device, Disclosure Date: Oct. 11, 2017) Korean Patent No. 10-0192130 (Title of the Invention: Glass wool panel for architectural structure and its manufacturing method, published on Aug. 12, 1997) Korean Patent No. 10-1618695 (entitled Deck plate with stepwise thermal insulation material, published on May 09, 2016) Korean Patent Laid-Open No. 10-2007-0033618 (Title of the Invention: Process for producing an interlayer insulating sound insulating material using a rigid polyurethane foam as a main material and interlayer insulating sound insulating material produced thereby) Published Mar. 27, 2007

Accordingly, it is an object of the present invention to provide a formwork system using a sound insulating material capable of securing structural rigidity while effectively integrating a sound insulating material and a truss material, and a method of constructing the same.

The present invention can also be applied to a formwork system using a sound insulating material which can easily form a formwork system in accordance with a slanting cut surface by simply moving the gap joining apparatus when it is necessary to cut a slanting line according to an end surface of a bottom plate, And to provide a method of constructing the same.

In order to provide a formwork system using the sound insulating material and a construction method thereof,

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A sound insulating material in which a truss reinsertion groove is extended in the form of a groove on the surface; A plate member integrated with the truss reinforcement groove of the sound insulating material and in contact with the surface; A truss fitting member including an insertion hole fitting member horizontally inserted along the insertion hole portion of the plate member having the truss insertion groove formed therein and a truss fitting member formed to be exposed on the plate member upper surface of the insertion hole fitting member, ; And a truss member having a lower portion fitted in the truss fitting member and detachably attached to one surface of the plate member,
Wherein the plate member is a steel plate having a horizontal portion tangent to one side of a sound insulation, a downwardly bent portion between the horizontal portion and the horizontal portion, and an insertion hole portion corresponding to a sectional shape of the truss insertion hole successively formed integrally therewith, Hole is inserted horizontally so that the structural rigidity of the sound insulating material is compensated and when it is necessary to cut the formwork system using the sound insulating material in accordance with the oblique cut surface of the bottom plate, the sound insulating material and the plate material are cut along the oblique cut surface, After the truss fitting is horizontally pulled out from the reinsertion hole, the truss material is separated and cut in accordance with the oblique cut surface. After the truss fitting is moved along the truss insert hole, the cut truss is connected to the truss fitting Thereby providing a docking system using a sound insulating material.

By the molding system using the sound insulating material according to the present invention and the construction method thereof, sound insulation and sound absorption performance of the sound insulating material can be ensured, the structural rigidity of the sound insulating material can be effectively secured, and the truss material can be quickly fixed to the sound insulating material It is possible to integrate and disassemble the workpiece. Therefore, when it is necessary to cut the formwork system in the field in a simple manner, the workpiece system can be quickly installed by cutting the formwork system by separating the truss material. .

1A shows a conventional heat insulating deck plate A,
1B is a perspective view of a glass wool used as a conventional thermal insulation material,
1C is a truss-coupled perspective view of a deck plate and a heat insulating material,
FIGS. 2A, 2B and 2C are a perspective view and a connection perspective view of a formwork system using the sound insulating material of the present invention,
FIG. 3 is a cross-sectional view of a die system using a sound insulating material according to the present invention,
4A and 4B are construction drawings of a formwork system using the sound insulating material of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Formwork System (100) Using Sound Insulation Material of the Present Invention)

2A and 2B are perspective views illustrating a molding system 100 using the sound insulating material of the present invention.

The formwork system 100 using the sound insulating material includes a sound insulating material 110, a plate material 120, a truss fitting 130, and a truss 150 as shown in FIG.

For example, as shown in FIG. 2A, the sound insulating material 110 is made of, for example, a hard urethane having a predetermined size and thickness in order to secure sound insulation (sound absorption and insulation) performance.

In this sound insulating material 110, a truss insert hole 111 having a truncated triangular cross section is formed on one surface, for example, a surface of the truss 150 in the extending direction (longitudinal direction) of the truss 150.

Since the truss insertion hole 111 is difficult to be processed in the field, the truss insertion hole 111 is formed in advance in the factory when the sound insulating material 110 is manufactured. The truss insertion hole 111 is formed so that the truss 150, which will be described later, And has a shape of a wavy groove formed continuously.

Also, a plurality of truss re-insertion holes 111 may be formed on the surface of the sound insulating material 110 so as to be spaced apart from each other, and the truss re-insertion holes 111 may be adjusted according to the installation amount of the truss material 150.

2A, the plate member 120 is made of a steel plate fitted to the surface of the sound insulating material 110 while being fitted in the truss insert hole 111 formed in the sound insulating material 110. [

In other words, since the steel plate is used, the truss insert 150 can smoothly finish the inner surface of the truss insertion hole 111 while complementing the structural rigidity of the sound insulating material 110, So that insertion and separation are facilitated.

The plate member 120 includes a horizontal portion 121 contacting one surface of the sound insulating material 110 and an insertion hole portion 122 corresponding to a cross sectional shape of the truss insertion hole 111, So that the plate member 120 is inserted into the sound insulating member 110 so that the insertion hole 122 is inserted horizontally into the truss insertion hole 111.

2A and 2B, the truss fitting 130 serves to install the truss 150 corresponding to the truss girder (triangular reinforcing truss) to the sound insulating material 110 so as to be easy to attach and detach, .

2A and 2B, the truss fitting 130 is configured to include an insertion hole fitting member 131 and a truss fitting member 132. As shown in FIGS.

The insertion hole fitting member 131 is a member horizontally inserted into the truss insertion hole 111. The cross-sectional shape of the insertion hole fitting member 131 is such that it can be horizontally inserted into the truss insertion hole 111. For example, And it can be seen that it is possible to use a tube member.

The upper portion of the insertion hole fitting member 131 is formed as a vertical portion so that the truss lower fitting member 132 that surrounds and fixes the lattice root 153 of the truss member 150 is fixed by the fixing bolt 133 It can be seen that it is installed.

The truss lower fitting member 132 includes a body passage plate 132a extending across the extending direction of the truss insertion hole 111 and a lattice root 153 of the truss member 150 on both sides of the body passage plate, And the upper and lower curved portions 132b are formed integrally with each other. That is, it can be seen that the truss 150 is inserted into the truss fitting member 132 of the truss fitting member 130 to be connected.

At this time, it is understood that a fastening hole is formed at the center of the body passage plate 132a, and the fastening bolt 133 horizontally mounts the truss lower fitting member 132 at right angles.

The truss fitting 130 is pulled out horizontally from the truss insertion hole 111 together with the truss 150 and the fixing bolt 133 is loosened so that the truss fitting 150 ) Can be easily separated by the truss fitting 130. [0054]

The truss fittings 130 may be spaced apart from one another along the lattice roots of the truss 150. The truss fittings 130 may be disposed along the truss insertion holes 111, Can be moved while being slid, so that it is possible to move the position according to cutting of the die system 100 using the sound insulating material of the present invention, which will be described later.

That is, since the insertion hole fitting member 131 can slide along the truss insertion hole 111, the truss fitting member 130 can be moved.

2A and 2B, the insertion hole fitting member 131 and the truss lower fitting member 132 may be integrally formed without the fixing bolt 133, and the insertion hole fitting member 131 integrally formed therewith, And the truss lower fitting member 132 can be horizontally separated and drawn along the truss insertion hole 111 as it is.

Also, as shown in FIGS. 2A and 2B, the insertion hole fitting member 131 and the truss fitting member 132 may be integrally formed with the truss 150. FIG. That is, the truss lower fitting member 132 is integrated with the lattice root of the truss 150 so as to intersect the inside of the lattice of the truss 150, and the central lower portion and the vertical portion of the truss lower fitting member 132 are integrated And the V-shaped portion may be engaged with the narrow inner surface of the truss insertion hole 111 so as to be slidable.

As shown in FIGS. 2A and 2B, the insertion hole fitting member 131 supports the two support rods in the truss insertion hole 111 by pressing the upper portion of the intersection of the two support rods overlapping each other in an X- And the pressing member 130 may be formed by pushing the pressing nut fastened to the vertical bolt downward.

2C, the truss 150 may be installed on the upper surface of the plate 120 so that the truss 150 may be detached (forcibly separated from each other at the time of spot welding) without the truss fitting 130. In this case, Has a main function in the long span due to the improvement of the rigidity of the formwork system 100 using the sound insulating material of the present invention.

2C, the truss 150 is formed by extending the upper reinforcing bars 151, the lower reinforcing bars 152 and the lattice roots 153 into a truss truss root form, The lattice root 153 can be inserted into the truss fitting member 132 of the truss fitting 130 and the truss fitting 150 can be formed by the truss fitting 150. [ The plate material 120 and the sound insulating material 110 may be combined with each other or used alone.

[Connection of Formwork System 100 Using Sound Insulation Material of the Present Invention]

FIG. 2C is a perspective view showing a connection of the molding system 100 using the sound insulating material of the present invention.

Original formwork systems using sound insulating materials are manufactured through a process of manufacture, transportation, pouring, and mounting, so they can not be manufactured in a certain size. Therefore, the floor plate construction by the formwork system using the sound insulating material is connected to the formwork system using a plurality of sound insulating materials.

Therefore, the formwork system 100 using the sound insulating material of the present invention is structured such that the formwork systems 100 using the sound insulating materials are mechanically coupled to each other by using the connecting end of the plate material 120 because the plate materials 120 are integrated with the sound insulating material 110. [ .

That is, the connection part of the one plate 120 is formed in the inverted U-shaped hook shape, and the other connection part connected is formed as a bent part to be inserted into the hook so that they are easily connected to each other, S may be further provided with a waterproofing material serving as a sealing material for waterproofing treatment.

Here, it can be seen that the connection parts are connected to each other at a position spaced apart from the connection part of the sound insulating material 110 which is in contact with the side surface, so that the waterproof path is extended. The sound insulating material 110 itself is made of a material .

[Sharp cutting of the formwork system 100 using the sound insulating material of the present invention]

3 is a cross-sectional view of the molding system 100 using the sound insulating material of the present invention.

The formwork system 100 using the sound insulating material of the present invention is manufactured in a rectangular shape and has an advantageous advantage in manufacture, transportation, and installation.

However, when the bottom plate is constructed in such a rectangular shape, there is no problem in other cases. However, in a case where the bottom plate is inclined horizontally, the molding system 100 using the sound- The shape can not be matched.

Therefore, in the field, it is necessary to cut the molding system 100 using the sound insulating material in accordance with the end surface of the bottom plate.

That is, according to FIG. 3, in the formwork system 100 using the sound insulating material of a rectangular shape, a partial incision is required by the incision with the incline, and the truss 150 is separated and cut according to the inclined incision However,

It can be seen that the truss fitting member 130 can be moved along the truss insertion hole 111 by aligning the truss fitting member 130 with the oblique cut surface.

That is, since the truss 150 is inserted and fixed in the truss insertion hole 111 of the sound insulating material 110 by the truss fitting member 130, the molding system 100 using the sound- The truss member 150 is first removed from the truss insert hole 130 and the truss fitting member 130 is moved along the truss insertion hole 111. The truss member 150 is cut into a desired shape in the field,

As shown in FIG. 3, it can be seen that the cut truss 150 can be easily fixed to the truss fitting 130 that is moved again.

When the insertion hole fitting member 131 and the truss lower fitting member 132 constituting the truss fitting member 130 are fastened by the fixing bolt 133, the fixing bolt 133 is loosened and separated from the truss member 150 However,

In the case of the truss fitting member 130 in which the insertion hole fitting member 131 and the truss fitting member 132 are integrally formed, the truss member 150 is first separated from the truss fitting member 130 together with the truss fitting member 130, (130) is installed in the truss insertion hole (111) again.

[Method of constructing the formwork system 100 using the sound insulating material of the present invention]

4A and 4B illustrate a construction flowchart of the formwork system 100 using the sound insulating material of the present invention.

First, as shown in FIG. 4A, the formwork system 100 using the sound insulating material of the present invention is provided.

The soundproofing system 100 using the sound insulating material is formed integrally with the sound insulating material 110 having the truss insert hole 111 and the plate material 120 and is preferably formed of a truss material 150 Is horizontally inserted into the truss insertion hole 111 of the sound insulating material 110 finished by the plate member 120. As shown in FIG.

As shown in FIG. 4B, the end of the truss 150 of the molding system 100 using the sound insulating material is supported by the supporting member 200, which is a concrete or steel frame, so that the sound insulating material (sound insulating and incombustible heat insulating material) And is disposed between the inside of the upper end of the member 200.

If the concrete is laid and cured to a certain thickness so that the truss 150 of the formwork system 100 using the sound insulating material is embedded, the sound insulating material may be integrally formed at the lower part of the concrete, so that no separate sound insulating material and heat insulating material are required.

At this time, the part of the docking system 100 using the sound insulating material is required to be cut in a diagonal direction, the truss material is separated, the plate material 120 and the sound insulating material are cut obliquely,

The separated truss member 150 is cut lengthwise along the diagonal line,

The position of the truss fitting member 130 is set in the truss insertion hole 111 of the plate member 120 and the sound insulating material 110,

The formwork system 100 using the sound insulating material is installed in such a manner that the separated truss material 150 is joined to the truss fitting material 130 moved in position.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Formwork system using sound insulating material
110: Sound insulating material 111: Truss insertion hole
120: plate member 121: horizontal part
122: insertion hole 130: truss fitting
131: insertion hole fitting member 132: truss lower fitting member
132a: Body passage plate 132b: Upper bend section
133: Fixing bolt 150: Truss material 151: Upper reinforcement 152: Lower reinforcement
153: Lattice muscle 200: Support member

Claims (8)

delete A sound insulating material 110 in which a lower reinforcing truss insertion groove 111 is extended in a groove shape formed in a surface thereof;
A plate member 120 integrated with the truss insertion groove 111 of the sound insulating material 110 in contact with the surface thereof;
The insertion hole fitting member 131 is horizontally inserted along the insertion hole 122 of the plate member formed in the truss insertion groove 111. The insertion hole fitting member 131 is exposed on the upper surface of the plate member 120 above the insertion hole fitting member, A truss fitting member 130 including a truss bottom fitting member 132 installed to be detachable from the truss fitting member 130; And
And a truss member (150) having a lower portion fitted in the truss fitting member and detachably attached to one surface of the plate member (120)
The plate member 120 includes a horizontal portion 121 contacting one surface of the sound insulation 110 and an insertion hole portion 122 corresponding to a cross-sectional shape of the truss insertion hole 111 as a downwardly bent portion between the horizontal portion and the horizontal portion. And the reinforcing member 110 is inserted horizontally into the truss insertion hole 111 to complement the structural rigidity of the sound insulating material 110,
When it is necessary to cut the formwork system 100 using the sound insulating material in accordance with the oblique cut surface of the bottom plate, the sound insulating material and the plate material are cut along the obliquely cut surface, and the truss inserts 130 After the truss fitting member 130 is moved along the truss insertion hole 111, the truss member is cut into a truss fitting member 130 ) With a sound insulating material. delete 3. The method of claim 2,
The upper portion of the insertion hole fitting member 131 of the truss fitting member 130 is formed as a vertical portion so that the truss lower fitting member 132 that surrounds and fixes the lattice root 153 of the truss member 150 is fixed So that the truss member 150 is inserted into the truss fitting member 132 of the truss fitting member 130 so that the truss fitting member 130 is connected to the truss fitting member 130 by the bolts 133, A formwork system using a sound insulating material installed along a root (153). 3. The method of claim 2,
The upper portion of the insertion hole fitting member 131 of the truss fitting member 130 is formed as a vertical portion and a truss lower fitting member 132 for fixing the lattice root 153 of the truss member 150 is integrally formed So that the truss member 150 is inserted into the truss fitting member 132 of the truss fitting member 130,
A plurality of truss fittings 130 are provided spaced apart from each other along the lattice root 153 of the truss 150 so that the integrally formed insertion hole fitting 131 and the truss fitting fitting 132 are inserted And can be horizontally separated and drawn along the hole (111). 3. The method of claim 2,
The insertion hole fitting member 131 of the truss fitting member 130 is supported by the truss insertion hole 111 with the support base being extended by pressing the upper portion of the intersection of the two support rods which are overlapped with each other in the shape of an x- And the pressing member may be formed by moving the pressing nut fastened to the vertical bolt downward. (a) preparing a docking system 100 using the sound insulating material of claim 2; And
(b) installing the docking system (100) using the sound insulating material transferred to the site first in the bottom plate installation position. delete

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