KR102249293B1 - Apartment rooftop slab insulation structure - Google Patents

Abstract

The present invention relates to an apartment rooftop slab insulation structure. The apartment rooftop slab insulation structure includes: a rooftop layer comprising a floor surface and a wall surface; a wall protection layer mounted on a wall formed along the circumference of the rooftop layer; an inner divider mounted at a distance in an upper part of the floor surface constituting the rooftop layer and having a square internal space formed therein; a lower insulation layer comprising square lower insulation members individually mounted in the internal space of the inner divider; a heat delivery layer comprising heat delivery members with a viscous substance individually placed in the internal space of the inner divider located in an upper part of the lower insulation layer; a heat source supply part placed in an upper part of the heat delivery layer and the inner divider and supplying hot or cold air; a horizontal cutoff plate mounted in an upper part of the heat source supply part; an upper insulation layer mounted in an upper part of the horizontal cutoff plate and formed by consecutively mounting upper insulation members having a plurality of accepting grooves in the bottom; a coating layer placed in an upper part of the upper insulation layer, and comprising a support plate having a finishing member mounted in a lower part and having a coating support protrusion formed in an upper part, and a coating member mounted in the upper part of the support plate; and a paint layer having an upper part where the coating layer is formed. Therefore, the present invention is capable of improving an insulation effect.

Description

Apartment rooftop slab insulation structure

The present invention relates to an apartment house rooftop slab insulation structure, and more particularly, to an apartment house rooftop slab insulation structure to facilitate installation or separation while improving the insulation effect through a plurality of insulation structures.

In general, the thermal insulation and waterproofing treatment of a building refers to a construction that has an insulation function that keeps the building cool in summer and warms in winter, and a waterproof function that prevents rainwater from leaking into the building.

In a broad sense, waterproofing of a building includes waterproofing for the entire roof and outer walls of a building, but in general, rain falls around the roof end, parapet stand, ceiling, and door or window of the wall. It refers to the treatment of easily leaky parts.

In the government policy business area, the government occupies more construction parts in terms of energy savings, and it is expected to save energy by applying and constructing construction parts that are expected to be energy efficient in design.

However, there is still a desperate need for water leakage and insulation problems, which are expected most effectively in the material field of all construction parts.

Among these parts, especially the roof surface, roof surface, etc., must be treated with a special waterproof treatment because rainwater can penetrate intensively.

In existing concrete structures, rooftops, etc., are under the harshest environmental conditions that are directly exposed to the external environment, so even though various waterproofing materials currently exist, it is difficult to secure insulation performance of waterproofing materials that are actually applied to rooftops.

In winter and summer, if the insulation performance according to the concrete temperature and the moisture according to the moisture content of the base surface are high, the frequency of defects due to the adhesion problem of the waterproofing material increases.

That is, it is difficult to prevent the tearing of the waterproof layer due to the bubble phenomenon and the rupture phenomenon due to the vapor pressure vaporized after construction. Unless this problem is compensated for, it is very difficult to prevent swelling and fracture due to moisture and condensation of the waterproof layer.

Korean Registered Patent Publication No. 10-1771052

The present invention has been proposed in view of the above circumstances, and an object of the present invention is to provide a rooftop slab insulation structure of an apartment house capable of minimizing the temperature change of the floor surface of the rooftop through the upper and lower insulation layers and the heat source supply unit.

In addition, it is an object of the present invention to provide a rooftop slab insulation structure for an apartment house that can easily install a lower insulation layer and a heat transfer layer by mounting an internal partition on the bottom surface of the rooftop layer.

An apartment house rooftop slab insulation structure according to an embodiment of the present invention includes a rooftop layer consisting of a floor surface and a wall surface; A wall protective layer mounted on a wall surface formed along the periphery of the roof layer; An internal partition mounted at an upper portion of the floor surface constituting the roof layer at intervals and having a rectangular internal space formed therein; A lower insulating layer composed of a rectangular lower insulating member mounted in the inner space of the inner partition; A heat transfer layer composed of a heat transfer member provided with a viscous material disposed in the inner space of the inner partition located above the lower heat insulating layer; A heat source supply unit disposed above the inner partition and the heat transfer layer and supplying hot or cold air; A horizontal blocking plate mounted on the upper portion of the heat source supplier; An upper insulating layer formed by continuously mounting an upper heat insulating member having a plurality of receiving grooves formed on a lower surface of the horizontal blocking plate; A coating layer comprising a support plate disposed on an upper portion of the upper insulating layer, a finishing member mounted at a lower portion, and a coating support protrusion formed at an upper portion thereof, and a coating member mounted on the upper portion of the support plate; And a coating layer on which the coating layer is formed.

And the wall protection layer is fixedly mounted on the wall surface of the roof layer through a fastener, and a wall inner case in which an installation space is formed therein; An inner heat insulating material mounted in the space of the inner case of the wall; A wall outer case coupled to the inner case and blocking the space; And a plate-shaped buffer member mounted on the outside of the wall outer case, wherein the inner partition is formed in a rectangular shape on a plane and is formed on the partition body supporting the lower heat insulating layer and the partition body while being inside It may include a partition wall for partitioning and supporting the heat transfer layer.

Next, the heat source supply unit is disposed at the upper edge of the inner partition hole and the heat transfer layer, and an edge frame having an accommodation space formed therein; A partition wall disposed at an interval in the receiving space of the edge frame and having a horizontal support surface formed thereon; A heat source supply line comprising a pipe mounted in zigzag along the partition wall and a branch pipe mounted at an end of the pipe; And a heat source supplier comprising a heater and a cooler respectively mounted at the ends of the branch pipe.

The rooftop slab insulation structure of an apartment house according to the present invention has an effect of minimizing the temperature change of the floor surface of the rooftop layer through the upper and lower insulation layers and the heat source supply unit, as well as improving the thermal insulation effect accordingly.

In addition, the rooftop slab insulation structure of an apartment house according to the present invention has an effect that not only can the lower insulation layer and the heat transfer layer be easily installed, but also the installation or separation work can be easily performed by mounting an internal partition on the floor surface of the rooftop layer. There is.

1 is a view showing the installation state of the roof slab insulation structure of an apartment house according to the present invention.
Figure 2 is a block diagram showing a rooftop slab insulation structure of an apartment house according to the present invention.
3 is a rooftop slab insulation structure of an apartment house according to the present invention
Figure 4 is a rooftop slab insulation structure of an apartment house according to the present invention
5 is a rooftop slab insulation structure of an apartment house according to the present invention
6 is a rooftop slab insulation structure of an apartment house according to the present invention
7 is a rooftop slab insulation structure of an apartment house according to the present invention

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms. It is provided to fully inform the scope of the invention to those who have it, and the invention is defined by the description of the claims. Meanwhile, terms used in the present specification are for explaining embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used herein, "comprises" or "comprising" refers to the presence of one or more other components, steps, actions and/or elements other than the recited elements, steps, actions and/or elements, or Does not exclude addition.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings,

The rooftop slab insulation structure 100 of the apartment house of the present invention includes a roof top layer 200, a wall protection layer 300, an internal partition 400, a lower insulation layer 500, a heat transfer layer 600, a heat source supply unit 700, A horizontal blocking plate 800, an upper insulating layer 900, a coating layer 1000, and a paint layer 1100 are included.

The rooftop floor 200 is made of a rooftop of a known building.

Here, the roof layer 200 comprises a floor surface 220 and a wall surface 240, and the floor surface 220 is flattened for smooth installation of various configurations.

The wall protective layer 300 is mounted on the wall surface 240 constituting the roof top layer 200.

That is, the wall protective layer 300 is mounted on the wall surface 240 to improve the thermal insulation effect while blocking a sudden temperature change of the floor surface 220 due to heat transmitted from the outside.

To this end, the wall protection layer 300 is fixedly mounted on the wall surface 240 of the roof layer 200 through a fastener, and the wall surface inner case 310 in which an installation space 312 is formed therein, and the wall surface interior The inner heat insulating material 320 mounted in the space 312 of the case 310, the outer wall case 330 coupled to the inner case 310 and blocking the space 312, and the outer wall case 330 It is composed of a plate-shaped buffer member 340 mounted to the outside.

That is, after mounting the wall inner case 310 on the wall surface 240 of the roof layer 200, the wall protective layer 300 is used as the space 312 of the wall inner case 310, and the inner heat insulating material 320 Then, after mounting the wall outer case 330 to the wall inner case 310, the buffer member 340 is mounted to the wall outer case 330.

The inner partition 400 is mounted on the roof top layer 200.

That is, the internal partition 400 is mounted on the upper portion of the floor surface 220 constituting the roof top layer 200 at intervals.

Here, the internal partition 400 will be described as an example in which the internal space 420 is mounted on a portion corresponding to the corner portion of the square so that the internal space 420 can be formed into a square shape to facilitate the installation and separation of the configuration.

In addition, the inner partition 400 is formed in a rectangular shape in plan view and is formed on the partition body 440 and the partition body 440 for supporting the lower heat insulating layer 500 to partition the interior thereof, and a heat transfer layer ( It is composed of a partition wall 460 supporting the 600).

That is, the inner partition 400 is a partition wall 460 so as to partition and support the heat transfer layer 600 located in the inner space 420 above the partition body 440 having a predetermined size and height. ) Is formed.

The lower insulating layer 500 is mounted on the internal partition 400.

That is, the lower insulating layer 500 is configured by mounting the insulating member 520 in the inner space 420 of the inner partition 400, respectively.

In addition, the heat insulating member 520 is composed of an insulating case 540 mounted at an interval between the upper and lower portions and an insulating material 560 mounted between the insulating case 540.

That is, the heat insulating member 520 is cut into a square shape according to the shape of the inner space 420 of the inner partition 400 after mounting the heat insulating case 540 on the upper and lower portions based on the heat insulating material 560. Next, it is inserted and mounted in the inner space 420.

The heat transfer layer 600 is disposed on the lower heat insulating layer 500.

In addition, the heat transfer layer 600 includes a plurality of heat transfer members 620 having a viscous material 640 therein.

That is, the heat transfer layer 600 includes a viscous material 640 in the inner space 420 of the inner partition 400 located above the heat insulating member 520 constituting the lower heat insulating layer 500. Each of the heat transfer members 620 is mounted to absorb heat transmitted through the heat source supply unit 700 through the viscous material 640, and then heat to the lower heat insulating layer 500 located under the heat transfer layer 600. Will be delivered.

The heat source supply unit 700 is disposed above the internal partition 400 and the heat transfer layer 600.

That is, the heat source supply unit 700 supplies hot air or cool air according to seasons and environments to minimize thermal change of the floor surface 240 constituting the roof top layer 200.

In addition, the heat source supply unit 700 is disposed at the upper edge of the inner partitioning hole 400 and the heat transfer layer 600, and the edge frame 710 in which the receiving space 712 is formed, and the edge frame 710 The partition wall 720, which is disposed inside the accommodation space 712 at intervals and has a horizontal support surface 722 formed at the top, a pipe 732 mounted in a zigzag along the partition wall 720, and the pipe ( A heat source supply line 730 composed of a branch pipe 734 mounted at the end of the 732 and a heat source supplier composed of a heater 742 and a cooler 744 respectively mounted at the ends of the branch pipe 734 ( 740).

In other words, the heat source supply unit 700 is installed at an interval of the partition wall 720 into the receiving space 712 of the edge frame 710, and then a pipe between the partition wall 720 and the partition wall 720 After mounting 732 in a zigzag manner, after mounting the branch pipe 734 to the end of the pipe 732, a heat source supplier comprising a heater 742 and a cooler 744 to the branch pipe 734 By installing the 740, hot air or cold air is selectively supplied according to the season and environment.

Here, forming the horizontal support surface 722 on the upper portion of the partition wall 720 absorbs heat transmitted through the pipe 732 while absorbing the horizontal blocking plate 800, the upper insulating layer 900, and the coating layer ( 1000) is to support smoothly.

The horizontal blocking plate 800 is mounted on the heat source supplier 700.

In addition, the horizontal blocking plate 800 is formed in a plate shape, supports a configuration positioned at the top, and minimizes the discharge of a heat source to the top.

The upper insulating layer 900 is mounted on the horizontal blocking plate 800.

In addition, the upper insulating layer 900 is formed by continuously mounting an upper insulating member 920 in which a plurality of receiving grooves 940 are formed.

That is, the upper heat insulating layer 900 is positioned above the horizontal blocking plate 800 to prevent external heat from being transmitted to the lower side, and accommodates heat through the receiving groove 940 formed on the bottom surface to prevent changes in heat. There is an effect that can be minimized.

The coating layer 1000 is disposed on the upper insulating layer 900.

That is, the coating layer 1000 is installed on the upper insulating layer 900 to block rainwater or water from flowing into the lower portion.

And the coating layer 1000 is composed of a support plate 1020 on which a finishing member 1022 is mounted at a lower portion and a coating support protrusion 1024 is formed at an upper portion, and a coating member 1040 mounted on an upper portion of the support plate 1020 do.

That is, the coating layer 1000 borders the upper insulating layer 900 through the finishing member 1022 mounted under the support plate 1020, and the coating member 1040 through the coating support protrusion 1024 formed thereon. It was made to increase the cohesion with.

The coating layer 1100 has a coating layer 1000 applied thereon.

Here, as the paint layer 1100, a known paint is used depending on the environment and purpose, and a separate description will be omitted.

Looking at an embodiment of the roof slab insulation structure of an apartment house configured as described above is as follows.

First, the wall surface 220 constituting the roof top layer 200 is fixedly mounted through a fastener, and an installation space 312 is formed inside the wall surface inner case 310, the space 312 of the wall inner case 310 ), the inner heat insulating material 320 mounted on the inner case 310, the wall outer case 330 that blocks the space 312, and the plate-shaped buffer mounted on the outside of the wall outer case 330 A wall protective layer 300 composed of the member 340 is mounted.

And the bottom surface 220 of the roof layer 200 is formed in a rectangular shape in plan view, and is formed on the partition body 440 and the partition body 440 supporting the lower heat insulating layer 500, and Internal partitions 400 formed of partition walls 460 for partitioning and supporting the heat transfer layer 600 are mounted at intervals.

Next, the heat insulating case 540 mounted at an upper and lower portion with an interval in the inner space 420 formed through the installation of the inner partition 400 and the heat insulating material 560 mounted between the heat insulating case 540 Each of the configured insulating members 520 is mounted to form a lower insulating layer 500.

In addition, a heat transfer member 620 provided with a viscous material 640 is mounted in the inner space 420 of the inner partition 400 located above the heat insulating member 520 constituting the lower heat insulating layer 500, respectively. Thus, the heat transfer layer 600 is formed.

Next, an edge frame that is disposed on the upper edge of the inner partition 400 and the heat transfer layer 600 and at the upper edge of the inner partition 400 and the heat transfer layer 600, and the receiving space 712 is formed therein. (710), a partition wall 720 disposed at an interval in the receiving space 712 of the edge frame 710 and having a horizontal support surface 722 formed thereon, and a zigzag along the partition wall 720 A heat source supply line 730 consisting of a pipe 732 mounted as a pipe 732 and a branch pipe 734 mounted at the end of the pipe 732, and a heater 742 respectively mounted at the end of the branch pipe 734 A heat source supply unit 700 consisting of a heat source supply unit 740 consisting of a cooler 744 is mounted.

And after mounting the horizontal blocking plate 800 formed in a plate shape on the upper portion of the heat source supplier 700, the upper insulating member in which a plurality of receiving grooves 940 are formed above the horizontal blocking plate 800 ( 920) is continuously mounted to form an upper insulating layer 900.

Next, a support plate 1020 on which a finishing member 1022 is mounted on a lower portion of the upper heat insulating layer 900 and a coating support protrusion 1024 is formed at the upper portion thereof, and a coating member applied on the upper portion of the support plate 1020 After mounting the coating layer 1000 consisting of 1040, if the coating layer 1100 is formed on the top of the coating layer 1000, the installation work of the rooftop slab insulation structure 100 of the apartment house is completed.

Here, it is revealed that the assembly order of the rooftop slab insulation structure of the apartment house may be different from the above.

As described above, the roof slab insulation structure of the apartment house of the present invention has a high insulation effect through a plurality of insulation structures, and it is easy to combine or separate, so that maintenance is easy.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains, various modifications and variations can be made without departing from the essential characteristics of the present invention.

Therefore, the embodiments expressed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed by the following claims, and all technical ideas equivalent to or within the scope should be construed as being included in the scope of the present invention.

100: roof slab insulation structure of apartment houses
200: rooftop 220: floor
240: wall surface 300: wall protective layer
310: wall inner case 312: installation space
320: inner insulation 330: outer wall case
340: buffer member 400: inner compartment
420: inner space 440: compartment body
460: partition wall 500: lower insulation layer
520: insulation member 540: insulation case
600: heat transfer layer 620: heat transfer member
640: viscous material 700: heat source supply
710: edge frame 712: accommodation space
720: partition wall 722: horizontal support surface
730: heat source supply line 732: piping
734: branch pipe 740: heat source supplier
742: heating machine 744: cooler
800: horizontal barrier plate 900: upper insulation layer
920: upper insulation member 940: receiving groove
1000: coating layer 1020: support plate
1022: finishing member 1024: coating support protrusion
1040: coating member 1100: paint layer

Claims (3)

A roof top layer 200 composed of a bottom surface 220 and a wall surface 240;
A wall protective layer 300 mounted on a wall surface 240 formed along the periphery of the roof layer 200;
An internal partition 400 mounted at an interval on the top of the floor 220 constituting the roof top layer 200 and having a rectangular internal space 420 formed therein;
A lower insulating layer 500 composed of a rectangular lower insulating member 520 mounted in the inner space 420 of the inner partition 400;
A heat transfer layer 600 composed of a heat transfer member 620 provided with a viscous material 640 disposed in the inner space 420 of the inner partition 400 positioned above the lower heat insulating layer 500;
A heat source supply unit 700 disposed above the internal partition 400 and the heat transfer layer 600 and supplying hot or cold air;
A horizontal blocking plate 800 mounted on the heat source supply unit 700;
An upper insulating layer 900 formed by continuously mounting an upper insulating member 920 having a plurality of receiving grooves 940 formed on the bottom surface of the horizontal blocking plate 800;
A support plate 1020 disposed above the upper heat insulating layer 900, a finishing member 1022 mounted at a lower portion, and a coating support protrusion 1024 formed at an upper portion thereof, and a coating member applied on the upper portion of the support plate 1020 The coating layer 1000 consisting of 1040; And
A coating layer (1100) on which the coating layer (1000) is applied on the top of the apartment house rooftop slab insulation structure comprising a.
The method according to claim 1,
The wall protection layer 300 is fixedly mounted on the wall surface 240 of the roof layer 200 through a fastener, and an inner wall case 310 having an installation space 312 formed therein; An internal insulating material 320 mounted in the space 312 of the wall inner case 310; A wall outer case 330 coupled to the inner case 310 and blocking the space 312; And a plate-shaped buffer member 340 mounted on the outside of the wall outer case 330;
The internal partition 400 is formed in a rectangular shape on a plane and formed on the partition body 420 supporting the lower heat insulating layer 500 and the partition body 420 to partition the interior and heat transfer layer 600 ) The rooftop slab insulation structure of an apartment house, characterized in that it comprises a partition wall 440 to support.
The method according to claim 1, wherein the heat source supply unit 700,
An edge frame 710 disposed at an upper edge of the inner partition 400 and the heat transfer layer 600 and having an accommodation space 712 formed therein;
A partition wall 720 disposed at intervals within the receiving space 712 of the edge frame 710 and having a horizontal support surface 722 formed thereon;
A heat source supply line 730 comprising a pipe 732 mounted in zigzag along the partition wall 720 and a branch pipe 734 mounted at an end of the pipe 732; And
A heat source supply unit (740) consisting of a heater (742) and a cooler (744) respectively mounted at the ends of the branch pipe (734); an apartment house rooftop slab insulation structure comprising a.

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