KR101386855B1 - Insulation structure and construction method thereof - Google Patents

Abstract

An insulation structure according to an embodiment of the present invention comprises: a protective plate arranged to form a separation space from a concrete foundation surface; a support part arranged in the separation space in such a manner that the separation space is formed between the protective plate and the concrete foundation surface; and urethane foam charged in the separation space, wherein the support part includes: a charging support part which has a hollow part, an inlet for introducing the urethane foam from the outside into the hollow part, and an outlet formed to communicate with the hollow part to discharge the urethane foam introduced into the hollow part to the separation space; and a floating preventive support part for preventing floating of the protective plate when the urethane foam is discharged to the separation space through the outlet. The protective plate has a communication hole formed to communicate with the inlet so that the urethane foam is introduced into the hollow part through the inlet.

Description

Insulation structure and construction method

The present invention relates to an insulating structure and a construction method thereof, and more particularly, to an insulating structure and a construction method thereof with improved durability and waterproof function.

In general, the wall surface of the building is attached to the insulating material is configured to insulate.

However, the rooftop of the building is not only heated directly at the temperature of the sunlight in summer, but also heated to a higher temperature than the sidewall, and in the winter, the heat of the heated indoor air flows out through the rooftop. Higher degrees of thermal insulation may be required.

For this purpose, conventionally, the foamed hard urethane foam is sprayed directly through a nozzle for foaming and then cured for a predetermined time, and then urethane coating and top coating are applied to the upper part. The foamed surface was not smooth, causing a lot of water to accumulate, causing drainage problems.

In addition, in spite of being a rigid urethane foam, when small scratches are generated on the surface and water is infiltrated, durability is lowered and peeling phenomenon occurs with the base surface.

In addition, despite being a rigid urethane foam, there is also a problem that it is very vulnerable to external impact, such as being easily broken by a sharp or pointed object.

Therefore, there is an urgent need for research on an insulating structure that minimizes water accumulation on the surface, improves durability and strength, and facilitates drainage treatment.

Patent Documents 1 and 2 described in the following prior art document are still susceptible to external shock and at the same time, there is still a problem that water pooling phenomenon is likely to occur on the surface.

1. Korean Patent Publication No. 2006-0080833 2. Korean Registered Patent No. 0950086

One object of the present invention is to provide a thermal insulation structure and a construction method thereof to enable the construction irrespective of the external environment and to facilitate the drainage treatment such as rainwater.

In addition, another object of the present invention is to provide a heat insulating structure and a construction method thereof that improve durability and resist external impact.

Insulating structure according to an embodiment of the present invention is a protective plate disposed while forming a space between the concrete base surface; A support part disposed in the spaced space such that the protection plate forms the spaced space between the concrete base surfaces; And a urethane foam filled in the separation space, wherein the support part includes a hollow and an inlet hole for introducing the urethane foam from the outside into the hollow and the urethane foam introduced into the hollow into the separation space. A filling support part having a discharge hole formed in communication with the hollow to be discharged, and an injury prevention support part for preventing an injury of the protection plate when the urethane foam is discharged into the separation space through the discharge hole; Silver may have a communication hole formed in communication with the inlet hole so that the urethane foam is introduced into the hollow through the inlet hole.

When the protective plate is seated, the anti-floating support part of the thermal insulation structure according to an embodiment of the present invention may be inserted into a fixing hole formed in the protective plate and may include a fixing protrusion for fixing with the protective plate.

The filling support portion of the thermal insulation structure according to an embodiment of the present invention is disposed in the center of the protective plate, the anti-floating support portion is disposed in the corner of the protective plate, the filling plate facing the protective plate and the concrete base surface respectively. Part and one surface of the anti-floating support portion is attached to the double-sided adhesive butyl rubber sheet to improve the adhesion, and at least one of the filling support and the anti-floating support portion, is mounted on the concrete base surface and the protective plate is seated The height may be adjusted to vary the height of the separation space.

Insulating structure construction method according to another embodiment of the present invention comprises the first step of cleaning the concrete base surface; A second step of installing a supporting part at a predetermined position on the concrete base surface; A third step of forming a spaced space between the concrete base surface and the protective plate by mounting a protective plate on the support part; And a fourth step of filling the space between the urethane foam through the support portion, wherein the support portion includes a hollow and has an inflow hole to allow the urethane foam to flow from the outside into the hollow. In order to prevent the injuries of the protective plate when the urethane foam is discharged into the separation space through the filling support portion having the discharge hole formed in communication with the hollow so that the urethane foam is discharged into the separation space and the discharge hole. The protective plate includes a polyvinyl chloride (PVC) plate having a fiber reinforcing material on at least one surface thereof, and the protective plate is in communication with the inflow hole so that the urethane foam is introduced into the hollow through the inflow hole. It may be provided with a communication hole formed.

One side of the filling support portion and the anti-floating support portion facing the protective plate and the concrete base surface of the insulating structure construction method according to another embodiment of the present invention is attached to the butyl rubber sheet to improve adhesion The third step may include disposing the leak prevention plate at the boundary of the separation space to prevent the urethane foam from leaking out of the protective plate when the fourth step proceeds.

Insulating structure construction method according to another embodiment of the present invention comprises a fifth step of finishing the butyl rubber sheet for waterproofing the joint portion of the neighboring protective plate; And a sixth step of coating the urethane or epoxy paint on the upper surface of the protective plate.

According to the thermal insulation structure and the construction method thereof according to the present invention, it is possible to form a liquid for drainage treatment such as rainwater, it is possible to enable the construction regardless of the external environment.

In addition, it is possible to maximize the insulation and waterproof effect by improving the adhesion between the urethane foam and the concrete base surface.

In addition, it is possible to improve the durability of the urethane foam and at the same time does not require a separate waterproof treatment can provide convenience to the user.

In addition, it is possible to implement a semi-permanent life is strong against external shocks.

1 is a schematic perspective view showing an aggregate of a heat insulating structure according to an embodiment of the present invention.
Figure 2 is a schematic perspective view showing a heat insulating structure according to an embodiment of the present invention.
Figure 3 is a schematic exploded perspective view showing a heat insulation structure according to an embodiment of the present invention.
Figure 4 is a schematic side view showing an insulating structure according to an embodiment of the present invention.
Figure 5 is a schematic perspective view showing the filling portion provided in the heat insulating structure according to an embodiment of the present invention.
Figure 6 is a schematic perspective view showing the anti-floating support provided in the insulating structure according to an embodiment of the present invention.
7 is a flowchart illustrating a construction method of an insulating structure according to an embodiment of the present invention.
8 is a schematic view for explaining the construction method of the thermal insulation structure according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

1 is a schematic perspective view showing an aggregate of a heat insulating structure according to an embodiment of the present invention.

Referring to FIG. 1, the aggregate 10 of a heat insulating structure according to an embodiment of the present invention may include at least one or more heat insulating structures 100 disposed on a concrete base surface 200, and may include a wall and a roof of a building. Alternatively, the roof may be covered to perform insulation and waterproofing.

Here, the concrete base surface 200 may be a wall surface, a rooftop, or a roof of a building, but is not necessarily limited thereto, and any concrete wall may be applied as long as a heat insulation treatment is required.

Hereinafter, assuming that the concrete base surface 200 as a roof of a building (including an old house) will be described.

On the other hand, the number of the insulating structure 100 required to insulate one rooftop is not fixed, the number may vary depending on the size, and various sizes of the insulating structure 100 may be applied.

In some cases, one thermal insulation structure 100 may be applied to thermally insulate one rooftop, and as a result, the size of the thermal insulation structure 100 may be variously changed according to the intention of the builder according to the construction site.

When a plurality of heat insulation structures 100 are applied to heat insulation of one roof, the boundary between the heat insulation structures 100, that is, the joint portion, may be finished with a butyl rubber sheet 300 for waterproofing.

Then, when the finish is treated with the butyl rubber sheet 300, the urethane or epoxy paint, which is the top finish, may be painted 400 (indicated by hatched in FIG. 1).

Figure 2 is a schematic perspective view showing a heat insulating structure according to an embodiment of the present invention, Figure 3 is a schematic exploded perspective view showing a heat insulating structure according to an embodiment of the present invention, Figure 4 is an embodiment of the present invention It is a schematic side view which shows the heat insulation structure which concerns on.

In addition, Figure 5 is a schematic perspective view showing a filling support provided in the insulating structure according to an embodiment of the present invention, Figure 6 is a schematic diagram showing the anti-floating support provided in the insulating structure according to an embodiment of the present invention. Perspective view.

2 to 6, the insulating structure 100 according to an embodiment of the present invention is a protective plate 110 is disposed while forming a space (S) and the concrete base surface 200, the space ( It may include a urethane foam 130 filled in the support portion 120 and the separation space (S) disposed in the S).

The protective plate 110 may be a thin plate having a predetermined thickness (for example, 0.5 mm to 1 mm) and an area, and acts as a protective member to protect the urethane foam 130 from the outside. 130) can be prevented in advance.

Here, the protective plate 110 may include a PVC (Poly Vinyl Chloride) plate, at least one surface of the fiber reinforcing material is to be surface-treated in order to increase the durability and adhesion to the top finish urethane or epoxy-based paints Can be.

Here, the fiber reinforcing material may be a kind of glass fiber mesh, and by attaching the glass fiber mesh as the fiber reinforcing material to one surface of the PVC plate, the protective plate 110 is prevented from cracking due to external impact at the same time. It can increase the tensile strength.

However, the fiber reinforcement is not necessarily limited to the glass fiber mesh, various reinforcement may be applied.

On the other hand, the protective plate 110 may be provided with a fixing hole 112 for fixing the support portion 120 and the communication hole 114 for introducing the urethane foam 130, a detailed description thereof The description will be made at the same time while explaining the support 120.

Support portion 120 may be disposed in the spaced space (S) so that the protective plate 110 to form a space (S) between the concrete base surface 200, the filling support 140 and preventing injury It may include a support 150.

Here, the filling support unit 140 may be a structure to support the load having the protective plate 110 and at the same time to the urethane foam 130 to fill the separation space (S) from the outside, the injury The support 150 may be generated when the urethane foam 130 is filled in the space S through the filling support 140 while supporting the load applied to the protection plate 110. It may be a structure that can prevent the injury of the protective plate 110.

That is, the anti-floating support part 150 prevents the protection plate 110 from being lifted by the urethane foam 130 discharged to the separation space S at a high pressure, thereby preventing the protection plate 110 from smoothing. It can prevent it beforehand.

The filling support unit 140 and the anti-floating support unit 150 may be improved adhesion to the protective plate 110 by the double-sided adhesive butyl rubber sheet 160, specifically, the protective plate 110 and One side of each of the filling support portion 140 and the anti-floating support portion 150 facing the concrete base surface 200 may be attached to a double-sided adhesive butyl rubber sheet 160 to improve adhesion to each other. .

Here, the anti-injury support 150 may include a first anti-injury support 153 and a second anti-injury support 156, the first anti-injury support 153 and the second Height adjustment may be possible according to the fastening degree of the anti-injury support 156.

In other words, the first anti-floating support part 153 may have a plate-shaped first support part 151 having a predetermined width and a columnar first shape extending from a bottom surface of the first support part 151. The connection part 152 may be provided, and the second anti-floating support part 156 may extend from an upper surface of the plate-shaped second support part 154 and the second support part 154 formed in a predetermined width. The column-shaped second connection portion 155 may be provided.

The first connection portion 152 and the second connection portion 155 may be capable of adjusting the height of the anti-injury support portion 150 according to the degree of rotation by the screw fastening method, the first support portion 151 ) Is a component on which the protection plate 110 is seated, and the second support 154 may be a component seated on the concrete base surface 200.

Here, the aforementioned double-sided adhesive butyl rubber sheet 160 is attached to one surface of the first support portion 151 and the second support portion 154 to the protective plate 110 and the concrete base surface 200 The adhesive force with can be improved.

On the other hand, the anti-floating support 150 may be provided with a fixing protrusion 157 for fixing the initial position of the protective plate 110, the fixing protrusion 157 from the upper surface of the first supporting portion 151 It may be formed to protrude.

Specifically, the fixing protrusion 157 is a fixing hole 112 formed in the protective plate 110 when the protective plate 110 is seated on the upper surface of the first supporting portion 151 of the anti-floating support 150. The fixing protrusion 157 may be guided to the position on the anti-floating base 150 of the protective plate 110 by being inserted into the protective plate 110 and exposed to the outside of the protective plate 110 through the fixing hole 112. The cover 160 is covered by the cap 160 can stably fix the injury prevention portion 150 and the protective plate 110 to each other.

Here, the cap 160 may be called a tick button, but is not necessarily limited thereto.

On the other hand, the cap 160 exposed to the upper side of the protective plate 110 may be treated flat with the peripheral portion by a urethane or epoxy paint that is the top finish.

The filling receiving unit 140 has a hollow (O) and the inlet hole (H1) and the urethane foam introduced into the hollow (O) to allow the urethane foam 130 to flow into the hollow (O) ( 130 may be provided with a discharge hole (H2) formed in communication with the hollow (O) so as to be discharged into the separation space (S).

In detail, the filling support unit 140 may include a first filling support unit 143 and a second filling support unit 146, and the first filling support unit 143 and the second filling support unit. Height adjustment may be possible depending on the fastening degree of the (146).

In other words, the first filling receiving part 143 extends in a column shape with a hollow from a bottom surface of the plate-shaped first seating portion 141 and the first seating portion 141 having a predetermined width. The first intermediate part 142 may be formed, and the second filling support part 146 may include a plate-shaped second seating part 144 and a second seating part 144. The second intermediate portion 145 is formed to extend in a columnar shape with a hollow from the upper surface.

The first intermediate portion 142 and the second intermediate portion 145 may be capable of adjusting the height of the filling receiving portion 140 according to the degree of rotation by the screw fastening method, the first seating portion ( 143 is a component on which the protection plate 110 is seated, and the second seating part 146 may be a component seated on the concrete base surface 200.

Here, the aforementioned double-sided adhesive butyl rubber sheet 160 is attached to one surface of the first seating portion 143 and the second seating portion 146 to the protective plate 110 and the concrete base surface 200 The adhesive force with can be improved.

Both the filling support 140 and the anti-floating support 150 can be height-adjustable to vary the height of the separation space, which is the gradient of the protective plate 110, that is, drainage treatment such as rainwater It may be possible to form a liquid for.

On the other hand, the space space (S) may be filled with the urethane foam 130 introduced through the filling receiving portion 140, the filling receiving portion 140 is the inlet hole for the inlet of the urethane foam (130). (H1), hollow (O) and discharge hole (H2) may be provided.

Specifically, the hollow (O) may be formed in the first intermediate portion 142 and the second intermediate portion 145, the inlet hole (H1) is the hollow (O) in the first seating portion (143) It may be formed to communicate with.

In addition, the discharge hole H2 may be formed to communicate with the hollow O on the side surfaces of the first intermediate part 142 and the second intermediate part 145.

Therefore, the urethane foam 130 may be introduced into the inlet hole H1 at a high pressure from the outside, pass through the hollow O, and be discharged into the space S through the discharge hole H2.

Here, a communication hole 114 formed in communication with the inlet hole (H1) may be formed in the protective plate 110 in order for the urethane foam 130 to flow into the inlet hole (H1) from the outside, and eventually The urethane foam 130 may be filled in the separation space S through the communication hole 114 and the inflow hole H1.

7 is a flowchart illustrating a construction method of the insulating structure according to an embodiment of the present invention, Figure 8 is a schematic diagram for explaining the construction method of the insulating structure according to an embodiment of the present invention.

7 and 8, the insulating structure 100 according to an embodiment of the present invention may be constructed by the following steps.

First, the first step S10 of arranging the concrete base surface 200 which is the roof of the place where the insulation structure 100 is to be installed, that is, a building (including an old house) is performed (see FIG. 8A). .

The first step (S10) may include a job of cleaning the concrete base surface 200 and at the same time repairing the crack, etc., may also include applying a primer.

When the first step (S10) is completed, proceeds to the second step (S20) for installing the support portion 120 in a predetermined position on the concrete base surface 200 is completed (see Fig. 8 (b)). ).

Here, the support 120 may include a filling support 140 and the anti-injury support 150, the anti-injury support 150 is disposed in the corner of the protective plate 110 to be installed and Filling support unit 140 may be disposed in the center.

However, the arrangement of the anti-injury support 150 and the filling support 140 may be variously changed according to the intention of the contractor.

Here, a double-sided adhesive butyl rubber sheet 160 may be attached to the support part 120 disposed on the concrete base surface 200, and thus, the protection plate 110 and the concrete base surface 200 may be attached thereto. Can improve the adhesive force.

Specifically, the double-sided adhesive butyl rubber sheet 160 is the first seating portion 151 and the second support portion 154 of the anti-floating support portion 150 and the first seating of the filling support portion 140 It may be attached to the portion 141 and the second seating portion (144).

In addition, the anti-floating support part 150 and the filling support part 140 is a gradient of the protection plate 110, that is, the filling support part 140 in accordance with the intention of the contractor to form a water for the drainage treatment such as rainwater. ) And the height of the anti-floating base 150 may be adjusted in advance.

On the other hand, prior to installing the filling support 140 and the anti-floating support 150 to the concrete base surface 200, the filling support 140 and the anti-floating support 150 is installed In order to display the exact point for the ink can be carried out, thereby the filling support 140 and the anti-injury support 150 can be fixed to the exact position desired by the contractor.

When the second step (S20) is completed, the base plate 120, that is, the filling plate 140 and the anti-floating support 150 by mounting a protective plate 110 on the concrete base surface 200 ) And a third step S30 of forming the separation space S between the protective plate 110 (see FIG. 8 (c)).

Here, the protective plate 110 may include a PVC (Poly Vinyl Chloride) plate surface-treated fiber reinforcement, the fiber reinforcement may be a glass fiber mesh as an example.

On the other hand, the protective plate 110 is inserted into the fixing protrusion 157 of the anti-floating base 150 to the fixing hole 112 is formed through it can be stably fixed to the anti-floating base 150. The fixing protrusion 157 exposed to the upper side of the protective plate 110 may be covered by the cap 160 as described above.

In addition, after seating and fixing the protection plate 110 to the support part 120, the spaced apart to prevent the urethane foam 130 from leaking to the outside of the protection plate 110 during the fourth step S40. The step of disposing the leak prevention plate 170 at the boundary of the space (S) may be performed.

The leakage preventing plate 170 may be repeatedly used as a kind of coating plate, and the fourth step (S40) is carried out by the external force after being disposed toward the concrete base surface 200 at each corner of the protective plate 110 The state can be maintained for a while.

When the third step (S30) is completed, the fourth step (S40) for filling the urethane foam 130 in the separation space (S) through the support portion 120 proceeds (Fig. 8 (d) and 8). (e)).

Here, the urethane foam 130 may be a foamed rigid urethane foam, but is not limited thereto. Various urethane foams may be applied.

The urethane foam 130 may be introduced through the inlet hole (H1) of the filling support unit 140, specifically, the communication hole 114 and the inlet hole of the filling support unit 140 of the protective plate 110 ( After flowing into the hollow (O) through H1) may be discharged into the space (S) through the discharge hole (H2).

At this time, the urethane foam 130 may prevent the outflow to the outside of the protective plate 110 by the leakage preventing plate 170, the leakage prevention plate 170 when the urethane foam 130 is cured Can be removed.

On the other hand, the heat insulating structure 100 may be installed without being affected by the external environment such as wind when the urethane foam 130 is installed by the boundary plate called the protective plate 110.

In addition, since the heat insulation structure 100 is exposed to the outside of the urethane foam 130 by the protective plate 110 can be maximized durability of the urethane foam 130, the protective plate 110 is Substantially acting as a protective member to protect the urethane foam 130 from the outside it can be prevented in advance to damage the urethane foam 130 due to the external impact.

 In addition, since the urethane foam 130 is directly sprayed into the separation space (S) through the inlet hole (H1) and foamed, the urethane foam 130 can be implemented in close contact with the concrete base surface 200, after all, filling the closed room It is possible to maximize the insulation and waterproof effect.

In addition, the protective plate 110 is surface treated with a fiber reinforcement material can be implemented in a semi-permanent life by being strong against external impact, the separate waterproof treatment is not required by the protective plate 110 having a waterproof performance.

When the first step (S10) to the fourth step (S40) as described above, the construction of one of the thermal insulation structure 100 is completed, a plurality of thermal insulation structures to insulate one concrete base surface 200 ( If necessary 100, the first step (S10) to the fourth step (S40) is repeatedly performed.

When the repetitive implementation of the first step (S10) to the fourth step (S40) is completed, the joint of the protective plate 110 of any one of the thermal insulation structure 100 and the neighboring thermal insulation structure 100 A fifth step S50 of finishing the butyl rubber sheet 300 (see FIG. 1) for waterproofing the site is performed.

When the fifth step (S50) is completed, the butyl rubber sheet 300 for waterproofing the protective plate 110 and the joint portion by painting a urethane or epoxy-based paint that is the top finish on at least a portion of the protective plate 110. 6th step (S60) to increase the durability of the) to complete the construction of the thermal insulation structure 100 to insulate one concrete base surface 200.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

100: insulation structure
110: shield
120:
130: urethane foam

Claims (6)

A protective plate disposed while forming a space between the concrete base surface;
A support part disposed in the spaced space such that the protection plate forms the spaced space between the concrete base surfaces; And
It includes; Urethane foam is filled in the separation space;
[0030]
Filling support portion having a hollow and having an inlet hole for introducing the urethane foam to the hollow from the outside and the discharge hole formed in communication with the hollow so that the urethane foam introduced into the hollow is discharged to the separation space; When the urethane foam is discharged to the separation space through the discharge hole is provided with an injury prevention support for preventing the injury of the protective plate,
The shield plate
The insulating structure having a communication hole formed in communication with the inlet hole so that the urethane foam is introduced into the hollow through the inlet hole.
The method of claim 1, wherein the injury prevention portion,
When the protective plate is seated is inserted into the fixing hole formed in the protective plate having a fixing projection for fixing with the protective plate.
The method of claim 1,
The filling support portion is disposed in the center of the protective plate, the anti-floating support portion is disposed in the corner of the protective plate,
One side of the filling support portion and the anti-floating support portion facing each of the protective plate and the concrete base surface is attached with a double-sided adhesive butyl rubber sheet to improve adhesive strength,
At least one of the filling support portion and the anti-floating support portion, the insulating structure is mounted on the concrete base surface and the protective plate is seated, the height adjustable to vary the height of the separation space.
A first step of cleaning the concrete base surface;
A second step of installing a supporting part at a predetermined position on the concrete base surface;
A third step of forming a spaced space between the concrete base surface and the protective plate by mounting a protective plate on the support part; And
And a fourth step of filling the urethane foam in the separation space through the support part.
The support part has a hollow, and has an inlet hole for introducing the urethane foam into the hollow from the outside and a discharge hole formed in communication with the hollow so that the urethane foam introduced into the hollow is discharged into the separation space. When the urethane foam is discharged into the separation space through the filling support portion and the discharge hole provided with an injury prevention support portion for preventing the injury of the protective plate,
The protective plate includes a PVC (Poly Vinyl Chloride) plate on which at least one surface of the fiber reinforcement is surface-treated, and has a communication hole formed in communication with the inlet hole so that the urethane foam is introduced into the hollow through the inlet hole. Insulation structure construction method.
5. The method of claim 4,
One side of the filling support part and the anti-floating support part respectively facing the protective plate and the concrete base surface is attached with a double-sided adhesive butyl rubber sheet to improve adhesion.
In the third step,
And a spill prevention plate disposed at a boundary of the separation space to prevent the urethane foam from flowing out of the protective plate during the fourth step.
6. The method of claim 5,
A fifth step of finishing treatment with a butyl rubber sheet for waterproofing at joint portions of neighboring protective plates; And
And a sixth step of coating the urethane or epoxy paint on the upper surface of the protective plate.

Images