KR101899248B1 - Fixing tool of insulating materials for concrete wall - Google Patents

Abstract

The present invention relates to a fixture for an insulation of a slab, in which the insulation is disposed on a top surface of a form, and concrete is placed in the form to construct the slab, the fixture comprising: a support (2) of a plate shape disposed on a top surface of the insulation; and a fixing pin (3) protruding downwardly from one end of the support (2). The support (2) is provided with a plurality of locking protrusions (8) protruding downwardly from a bottom surface and engaging with the insulation when the support is mounted on the insulation. The fixing pin (3) has a lower fixing portion (13) downwardly protruding from the bottom surface of the support (2) and penetrating through a hole (21) formed in the form, thereby firmly fixing the insulation not to protrude outwardly from the slab or not to be moved in a lateral direction. It is possible to prevent the insulation from being pushed or broken due to the weight of the concrete at placing the concrete. Moreover, it is possible to prevent the end of the slab from being irregularly formed due to the pushing of the insulation, thereby preventing occurrence of reconstruction costs and additional costs.

Description

{Fixing tool of insulating materials for concrete wall}

The present invention relates to a fixture for fixing a heat insulating material to a concrete slab of a building, and more particularly, to a slab insulator fixture capable of firmly fixing the heat insulating material to an aluminum foam in a state in which a heat insulating material is in close contact with an outer surface of the aluminum foam will be.

In general, a heat insulating material is a material for covering the outside of a portion to be kept at a constant temperature and reducing the heat loss or heat input to the outside. It is made of a cold insulating material having a temperature of 100 ° C or less, (Heat insulating material) of 500-1,100 ℃, and refractory insulation material of 1,100 ℃ or more. It is made porous so as to reduce thermal conductivity.

The above-mentioned heat insulation material is applied to the wall surface and the ceiling surface facing the outside in an indoor space used for a living room in apartment houses or the like to prevent condensation.

Insulation construction is to fix the insulation on the formwork during the formwork and to place the insulation on the concrete surface so that it is exposed to the ceiling and the wall surface.

There are two main ways to install the insulation on the formwork in this insulation construction.

First, in case of a form in which a plywood is installed on a euro form or a steel frame, after fixing the insulation by using a heat insulating material fixing pin, after the concrete is laid and the form is dismantled, the fixing nail is attached to the euro foam or plywood .

Secondly, in order to improve the disadvantages of the Euroform according to the tendency of the superstructure, it is easy to work such as installation and dismantling with a light weight, has a large number of exclusive use, can form the concrete surface smoothly, and aluminum formwork

Although the initial cost of the aluminum die is high, it is extruded and formed by extrusion molding of aluminum. There is no clearance of joint during assembly because of the constant manufacturing standard. The surface is smooth and light and easy to work. There are advantages.

However, conventionally, a method has been adopted in which a step corresponding to the installation area of the heat insulating material is formed on the inner surface of the aluminum die, the plywood is attached to the step, and the heat insulating material is fixed to the plywood without moving during the concrete pouring.

When the heat insulating material is fixed by the nail as described above, the depth of the nail is changed, and when the nail is deeply drawn, the fixing hole is also fined together to sink the outer surface of the heat insulating material, The heat insulation effect is deteriorated.

Domestic Utility Model Registration No. 0130387

SUMMARY OF THE INVENTION It is an object of the present invention to provide a slab insulator fixture improved to solve the problems of the prior art and to easily fix the heat insulator to the mold structure while keeping the heat insulator in close contact with the mold structure.

In order to accomplish the above object, a slab insulator fixture according to the present invention includes a slab insulator fixture for inserting a heat insulator on an upper surface of a mold, placing a concrete on the insulator, As a result,

A plate-like support portion disposed on the upper surface of the heat insulating material,

And a fixing pin integrally protruding at least downward from one end of the support portion,

The supporting portion is formed with a plurality of engaging projections protruding downward from the bottom surface thereof and engaged with the heat insulating material when the supporting portion is mounted on the heat insulating material,

The fixing pin has a fixed lower portion protruding downward from a bottom surface of the supporting portion and penetrating through the hole formed in the formwork to be engaged.

And a bridge portion that is spaced apart from the opening and protrudes from the opening portion and connects both side ends of the opening portion is formed in the support portion, and the concrete to be poured is separated from the opening portion and the lower portion of the bridge portion And integrated with the cured concrete.

The lower end of the fixing pin of the fixing pin protrudes through the hole of the mold and is reduced in diameter in a pointed shape for easy insertion into the hole and inserted into the hole of the mold at a predetermined height from the lower end It is preferable that a catching jaw having a diameter enlarged by a gully is formed on the bottom surface of the hole peripheral portion.

And the notch is formed on the outer circumferential surface of the fixed lower portion so that the portion protruding downward from the bottom surface of the cured concrete can be more easily cut than the other portions by striking for aesthetic purposes.

Further, in order to fit the fastening lower portion to the hole 21 of the aluminum foam so that the fastening protrusion having a diameter larger than the diameter of the hole is not damaged and can easily be fitted with the elastic deformation in the width direction of the fastening lower portion, And a long hole penetrating in the width direction may be formed in the longitudinal direction.

According to the present invention, after the heat insulating material is brought into close contact with the aluminum formwork, the fixing pin provided at one side is fixedly fitted to the form foam, and the heat insulating material is engaged with the plurality of bite projections provided at the other side, Thereby preventing the heat insulating material from being pushed due to the weight of the concrete when the concrete is poured and the thermal insulating material from being broken and preventing the slab end from being irregularly formed along with the thermal insulating material being pushed, There is an effect that no additional cost is incurred.

1 is a schematic perspective view of a slab insulator fixture of the present invention.
2 is a side view of the slab insulation fixture of FIG.
3 is a longitudinal sectional view of the slab insulator fixture of FIG.
FIG. 4 is a schematic perspective view showing fixing of a heat insulating material to a mold using the slab insulating material fastener of FIG. 1; FIG.
5 is a cross-sectional view of the heat insulating material fastened to the mold using the slab insulating material fastener of FIG.
6 is a cross-sectional view of a state in which a heat insulating material is fixed to a slab insulating material fixture according to the present invention, and concrete is placed on the heat insulating material.
7 is a cross-sectional view of the concrete in FIG. 6 showing the removal of the projecting end of the fixture pin of the fixture after curing;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown.

1 to 3, a slab insulator fixture 1 according to the present invention includes a plate-like support portion 2, a fixing pin 3 formed integrally up and down at one end of the support portion 2, A bridge portion 7 spaced apart in a protruded shape from the opening and connecting both ends of the opening portion to each other, and a bottom portion of the supporting portion 2, And a boss projection (8) protruding downward and engaged with the heat insulating material when the boss is mounted on the heat insulating material. The slab insulation fixture 1 is formed of a plastic material.

For reinforcing the rigidity of the bridge portion 7 formed to protrude upward from the support portion 2, reinforcing ribs 9 integrally connected to the support portion are formed on both sides of the vertical portion of the connection portion.

The fixing pin 3 includes a fixed lower portion 13 protruding downward from a bottom surface of the supporting portion 2 and penetrating through a hole formed in the formwork and a lower portion 13 protruding upward from the upper surface of the supporting portion 2, And includes projections 14 so that the fastener 1 buries and does not move. A connecting portion 15 connecting the bridge portion 7 and the protruding portion 14 and reinforcing the rigidity is formed on the upper surface of the supporting portion 2. [ A rib (19) is formed in the fixed bottom (13) in a direction perpendicular to the outer peripheral surface.

The fixed bottom 13 of the fixing pin 3 is inserted into the hole 21 formed in the aluminum foam 20 as shown in Figure 4. At this time, And the lower end of the fixed lower portion is reduced in diameter in a pointed shape so as to be easily inserted into the hole 21 while being fixed at a predetermined height position from the lower end portion, When the fixing lower portion 13 of the pin 3 is inserted into the hole 21 of the aluminum foam 20, the engaging protrusion 17 is caught by the bottom surface of the hole peripheral portion, . However, the diameter of the latching jaw 17 is formed to such an extent that it can be fitted into the hole 21 of the aluminum foam downwardly by applying the force to the fixing lower portion 13 of the fixing pin. When the concrete is poured by the ribs 19, the concrete flows into the gap between the hole 20 and the outer circumferential surface of the fixed bottom 13 and is hardened, so that the fixed bottom 13 and the aluminum foam 20 are integrated.

The lower end of the fixed lower portion 13 protruded downward from the bottom surface of the concrete is removed for aesthetic purposes in a state where the slab concrete is completely cured and then the form is removed. The notch 18 is formed on the outer circumferential surface of the fixed lower portion 13 at a position higher than the engagement protrusion 17, that is, slightly higher than the slab bottom surface, It is possible to easily remove the lower end portion of the fixed lower portion 13 protruded from the bottom of the concrete slab by being cut at the notch 18.

The fixed lower portion 13 may be formed with a long hole 16 penetrating in the width direction to the lower side of the engaging protrusion 17 so that the fixed lower portion 13 is inserted into the hole 21 of the aluminum foam, It is possible to easily insert the fastener of the present invention by the elastic deformation in the width direction of the fastening lower portion without damaging the fastening jaw having a diameter larger than the diameter of the hole when the fastener is inserted into the hole. After the fastening lower portion 13 is inserted into the hole 21, the deformation in the width direction is restored and the fastening protrusion 17 is caught by the peripheral portion of the hole 21 of the aluminum foam, Can be stably held on the aluminum foam.

The construction of the concrete slab using the slab insulator fixture 1 of the present invention will be described with reference to FIGS.

As shown in FIG. 4, an aluminum foam 20, for example, is used as a formwork for constructing a concrete slab, and a heat insulating material (not shown) is disposed at a position spaced inward at a predetermined interval from the outer end of the foam 20 30) are disposed in the vicinity of the end of the heat insulating member.

In this state, the heat insulating material 30 is fixed to the aluminum foam 20 with the slab insulating material fastener 1 of the present invention. To this end, the fixed bottom 13 of the fixing pin 3 formed on one side of the heat insulating material fastener 1 Is formed in the hole 21 formed around the end of the aluminum foil 20 so that the lower end of the fixed lower portion 13 protrudes downward from the hole 21 and a plurality of The bump projections 8 of the heat insulating material 30 are stuck on the upper surface of the heat insulating material 30 so that the heat insulating material 30 is fixed at its ends to the aluminum foil 20 as shown in the sectional view of Fig.

6, when the end of the heat insulating material 30 is fixed at a position spaced inward by a predetermined distance from the end of the aluminum foam 20, The slab is formed by placing the concrete 40 on the end of the foam 20 and the heat insulating material 30 is fixed to the aluminum foam by the heat insulating fixture 1 according to the present invention even when the concrete is impacted by the concrete And the concrete to be laid is integrated with the opening 5 formed in the upper surface of the heat insulating fixture 1 and the heat insulating fixture 1 of the present invention in the concrete cured by flowing into the inner space of the bridge 7 It is not necessary to separately remove the slab, and the slab construction can be efficiently performed.

The lower end of the fixed lower portion 13 of the fixing pin 3 protruding from the bottom of the concrete by the demolition of the aluminum foam in a state in which the aluminum foam 20 used as the form is demolished after the slab concrete poured is cured The tip protruded by being cut at the notch 18 formed on the outer circumferential surface thereof is easily removed.

As described above, since the heat insulating material is stably fixed to the aluminum foam by the heat insulating material fastener according to the present invention, the problem that the end portion of the heat insulating material is damaged or the position is changed at the time of the conventional concrete pouring is solved easily, The defect generation factor of the slab can be eliminated, the insulation construction can be efficiently performed, and the heat insulation performance at the slab end can be obtained as intended in the initial design.

In the illustrated embodiment, the aluminum mold form 2 is disposed on the surface of the concrete 1 and the heat insulator 3 is fixed on the aluminum mold form 2. However, without using the aluminum foam 2, The heat insulating material can be fixed to the heat insulating material fastener according to the present invention.

The present invention can be used to fix and maintain a heat insulator on an aluminum foam as a form.

1: fixture 2: support
3: Fixing pin 7: Bridge part
8: Bite projection 13: Fixed bottom
14: protrusion 15:
17: latching jaw 18: notch
19: rib 20: (form) foam
21: hole 30: insulation

Claims (5)

delete (2) arranged on the upper surface of the heat insulating material so as to fix the heat insulating material to the mold to place and fix the heat insulating material on the upper surface of the mold and to pour the concrete thereon to construct the slab, And a plurality of bite projections 8 protruding downward from the bottom surface of the support part 2 to be engaged with the heat insulating material when the breech board is mounted on the heat insulating material are formed And the fixing pin 3 has a fixing lower portion 13 which protrudes downward from the bottom surface of the supporting portion 2 and penetrates through the hole 21 formed in the molding,
A bridge portion 7 spaced apart from the opening portion 5 and connecting both ends of the opening portion is formed in the support portion 2 so as to be in contact with the support portion 2, And a protrusion 14 protruding upward from the upper surface of the support portion 2 and connecting the bridge portion 7 and the protrusion portion 14 from the upper surface of the support portion 2 and reinforcing the rigidity, A rib 19 is formed in a direction perpendicular to the outer circumferential surface of the fixed lower portion 13 so that the concrete flows into the space between the outer circumferential surface of the fixed lower portion 13 and the hole 21 formed in the aluminum foam 20, Wherein the slab-insulator fixing member is formed with a plurality of slabs.
3. The method of claim 2,
The lower end of the fixed lower portion 13 of the fixing pin 3 protrudes through the hole 21 of the mold 20 and is reduced in diameter in a pointed shape easily inserted into the hole 21, And a hooking protrusion (17) having a diameter enlarged to be inserted into the hole (21) of the formwork at a predetermined height from the lower end and to be caught by the bottom surface of the hole peripheral portion. The method according to claim 2 or 3,
Characterized in that a notch (18) is formed on the outer circumferential surface of the fixed lower part (13) so that the portion protruding downward from the bottom surface of the cured concrete can be more easily cut than the other part by impact for aesthetic purposes. Insulation fixture. The method according to claim 2 or 3,
So that the engaging protrusion 17 having a diameter larger than the diameter of the hole can be easily inserted into the hole 21 of the aluminum foam when the fastening lower portion 13 is fitted into the hole 21 of the aluminum foam, And a slit (16) extending in the width direction is formed in the fixed bottom (13) in a longitudinal direction.

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