KR101616500B1 - Self-assembly and waterproof structure for roof slab - Google Patents

Abstract

According to the present invention, a prefabricated waterproof heat insulating structure for a rooftop slab is a platelet made of any one of a metallic material, a synthetic resin, or a plywood; comprising: a plurality of panels arranged in a matrix structure at regular intervals; a gutter groove indented in a U-shape which extends between the panels in a longitudinal direction of the panel; a gutter bent and extended on both ends of the gutter groove which supports a lower side of a circumferential portion of the panel; a second supporter including a first coupling part located on a lower side of a portion where each edge of the panel meets to be coupled by being inserted into an end part of the gutter, which supports an edge portion of the panel, and a second coupling part coupled to a column; a pillar erected to extend at a certain height, and coupled to a second coupling part of the second support; and a first support which fixates the pillar to a rooftop slab by connecting the rooftop slab and the pillar by connecting the pillar to the rooftop slab. According to the present invention, the prefabricated waterproof heat insulating structure for a rooftop slab provides an effect of improving functions of heat insulation and waterproofing while efficiently utilizing rooftop space by providing an additional planar assemblage structure on the rooftop slab.

Description

{SELF-ASSEMBLY AND WATERPROOF STRUCTURE FOR ROOF SLAB}

More particularly, the present invention relates to a structure for providing an improved waterproof and heat insulating function on the surface of a roof slab by virtue of an assembled simple construction method in comparison with a truss structure or a bottom drain structure. will be.

In the buildings such as houses, houses, and high-rise buildings, the roof slab is generally flat, so it can secure a separate activity space on the roof. It has the advantage of expanding the utilization area. However, There is a point to be careful.

As a thermal insulation and waterproof structure of the roof slab, it is common to construct a waterproof layer, a thermal insulation material and a protective concrete on a concrete structure. However, such a structure causes a problem that leakage occurs little over time.

The cause of leaking phenomenon of roof slab is caused by defects in construction, but concrete cracking is a main cause of leaking phenomenon.

The concrete pouring method is improved to prevent the leakage phenomenon due to the cracks of concrete, but a construction method of laminating a coat or a steel plate on concrete is used.

However, when a coating method using a coating or a steel sheet is used, it takes a lot of time and cost, and there is a problem that a utilization area, which is a unique advantage of a roof slab, is extremely limited due to a slope of a steel sheet at the time of steel sheet construction.

The waterproof panel and the waterproof structure of the roof slab, which is the domestic patent No. 696065, include a water permeable layer made of a waste tire chip or a urethane chip, a waterproof layer formed on the permeable layer, and a moisture- Moisture generated from the roof slab including the exhaust member is introduced into the pores of the permeable layer, and moisture located in the pores of the permeable layer is exhausted to the outside through the exhaust member, and moisture generated from the roof slab, And the waterproof layer can be prevented from being lifted.

However, according to the structure in which the layers are laminated in close contact with each other like this technique, since the physical properties such as the expansion coefficient and the stress of the respective layers are different from each other, the adhesiveness between the layers is lowered or warped There is still a problem that an unnecessary gap is generated and thus a leakage problem is generated.

Therefore, in order to prevent the limitation of the multi-layer type heat insulating / waterproofing structure, it is necessary to provide a separate pre-heating / structure in the upper space spaced apart at a predetermined height on the slab, There is a need to develop a new and advanced roof slab insulation / waterproof structure that can maximize the installation convenience and space available on the roof slab while strengthening the waterproof / insulation function.

DISCLOSURE OF THE INVENTION The present invention has been made to overcome the above problems, and it is an object of the present invention to provide a heat insulation / waterproof structure which is composed of a prefabricated structure of a panel and a pedestal with a height of a column on a roof slab, The main objective is to enhance the insulation and waterproofing function while maximizing the utilization of the roof space.

Another object of the present invention is to provide a means for guiding rainwater at boundary portions between panels and at the same time to seal the respective assembled portions to maximize the waterproof function.

It is a further object of the present invention to provide a heat insulating layer further along the periphery of the prefabricated structure to reinforce the heat insulating function.

It is a further object of the present invention to enhance the durability and convenience by promoting an organic bonding relationship between the details of the structure.

In order to attain the above object, a roof-and-slab waterproofing and heat insulating structure for a roof slab according to the present invention is a plate made of any one of a metal material, a synthetic resin material and a plywood, comprising a plurality of panels arranged in a matrix at regular intervals; A water receiving groove formed between the panels along the longitudinal direction of the panel, the water receiving grooves being formed in a U shape and embedded in the water receiving grooves; and a bending portion extending from both side ends of the water receiving groove to support the lower side of the peripheral portion of the panel. A second coupling part formed on the lower side of a portion where the corners of the panel meet each other, the first coupling part being fitted to the end of the water receiver and supporting a corner part of the panel, and the second coupling part being coupled with the pillars; A pillar coupled to the second coupling portion of the second bearing and extending upright at a predetermined height; And a first support connecting the roof slab and the column to fix the column to the roof slab.

In addition, a foreign matter filtering net is formed on the upper end of the water receiving groove, and a plurality of through holes are formed through the through holes and an end portion is seated on the panel.

In addition, the first engaging portion is a three-dimensional structure having four sides, and each surface has a water-receptacle fitting portion formed in a shape corresponding to the shape of the water-receptacle groove, and an inner hollow space penetrating through the water- And a panel coupling portion which is supported by the water receiving portion and is supported on both sides of the water receiving portion so as to support a corner portion of the panel on an upper surface of the water receiving portion, and a waterproof groove is additionally formed in the inlet of the water receiving portion, And the water receiving groove is coupled to the sealing member.

In addition, the column is characterized by being adjustable in height.

According to the roof-slab constructional waterproofing and heat insulating structure according to the present invention,

1) Providing a separate planar assembly structure on the roof slab to increase the insulation and waterproof function while efficiently utilizing the roof space,

2) Maximize the waterproof function by effectively sealing the joints between the panels,

3) It provides the effect of enhancing the convenience of assembly and durability through a close and organic connection between the components.

1 is a schematic perspective view of a structure according to the present invention;
2 is a partially enlarged cross-sectional view of a structure according to the present invention.
3 is a plan view of a structure according to the present invention.
4 is an enlarged perspective view showing a combined structure of a panel, a water receiver and a second support according to the present invention.
5 is a sectional view showing a modified embodiment of a coupling structure of a panel, a water receiver and a second support according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The accompanying drawings are not drawn to scale and wherein like reference numerals in the various drawings refer to like elements.

FIG. 1 is a schematic perspective view of a structure according to the present invention, FIG. 2 is a partially enlarged cross-sectional view of a structure according to the present invention, and FIG. 3 is a plan view of a structure according to the present invention.

1 to 3, the roof type slab-type waterproofing and thermal insulation structure according to the present invention is installed on the roof slab 1, and is provided on the roof slab 1 via a first support 20 The standing pillars 50 support the panel 10 through the second support 30 and the panels 10 are connected to each other through the water receiving member 40 as a result of which the number of the panels 10 is increased by the height of the pillars 50 And is separated from the roof slab (1) to form a plate-like structure.

The structure of the present invention is constructed so as to cover the entire area or the entire area of the roof slab 1, and the roof slab 1 is formed so as to stand vertically (i.e., along the roof slab) The heat insulating layer 60 capable of preventing the heat loss from occurring between the outer periphery of the structure of the present invention and the edge portion of the roof slab can be prevented.

The heat insulating layer 60 is a sheet or panel made of a heat insulating material used in a building, and performs a material or function similar to a known heat insulating material, so that a separate explanation will be omitted.

The pillar 50 of the present invention is attached to the surface of the roof slab 1 via the first pedestal 20 and is erected at a predetermined height and is installed at a predetermined matrix spacing with respect to the entire roof slab That is, the number and interval for efficiently supporting the plurality of panels 10. [

 As shown in the figure, the insertion portion 52 is inserted into the hollow pipe 51, and the inner diameter of the pipe 51 and the inner diameter of the insertion portion 52 It is more preferable to form the screw thread 53 at the outer diameter so as to be adjustable in height through the thread engagement of the two. In the present invention, the two column structures by the threaded (or other type) (50 ').

The elevation control pillars 50 'have the function of adjusting the inclination of the specific panel 10 so as to guide the rainwater in a specific direction, as well as the details of the lengths of the plurality of pillars 50, Or may provide features that can be modified into various other shapes. In addition, a space between the panel 10 and the surface of the roof slab 1 may provide a function that can be utilized for rainwater drainage or various other uses.

As shown in the drawing, the column 50 supports the panel 10 together with the second support 30. However, the present invention is not limited thereto. In a state where the second support 30 is not provided, It is also possible to serve as an auxiliary support for directly supporting the panel 10 between the pillars 50 supporting the second support 30.

The first support 20 of the present invention provides a function of connecting the column 50 on the surface of the roof slab 1 and is located at the lower end of the column 50 described above.

The first pedestal 20 is basically characterized by connecting the column 50 to the surface of the roof slab 1 in a rigidly assembled manner. Particularly, it is preferable to connect the roof slab 1 to the surface of the roof slab 1 in a assembling / disassembling manner instead of a fixed type as in a concrete casting method, for maintenance / repair / construction.

For example, the first support 20 may include a flange having a plurality of engagement holes for engaging with an anchor or a bolt, or other fasteners having various shapes and functions. or when the column 50 directly contacts the roof slab 1, the contact area in the roof slab 1 is small and the partial pressure applied to the roof slab 1 is increased more than necessary It is also possible to form a panel that extends the area contacted by a certain area or more.

The panel 10 of the present invention is a plate-like body spaced apart from the roof slab 1 with a predetermined height by the above-mentioned pillars 50, and a plurality of panels 10, 40 and the second support 30. The space provided at the upper part by the panel 10, that is, the flat surface provided at the upper part of the panel 10, serves as a rooftop utilization space and can be used by users for various purposes.

Such a panel 10 can be made of various materials such as a plywood such as a particle board, as well as a plywood to which a metal material, a synthetic resin material and a combination of two or more materials are bonded. An important key function of such a panel 10 is to have a constant thickness and strength (Shock resistance), and at the same time, breakage and deformation prevention by external force (external impact, user's load, rainwater, etc.) can be prevented.

At the edge of the panel 10, an inclined guide portion 11 may be additionally mounted. 3, the warp inducing portion 11 is bent in the direction of the water receiving groove 41 from the edge of the panel 10 and is further bent so as to have a tapered shape Respectively. As a result, the warp inducing portion 11 provides a function of guiding rainwater or the like to the water receiving groove 41 with inclination compared with other portions of the panel 10.

The panel 10 and the panel 10 are arranged in a matrix structure, but are not in close contact with each other, but are spaced apart from each other at regular intervals, and the water receptacle 40 is positioned at the predetermined interval.

In addition, the panel 10 may further include a coupling extension 12 extending downward from a portion of the panel 10 spaced a certain distance from the warp inducing portion 11 in order to ensure tight coupling with the water- 5, the coupling extension 12 is inserted into the coupling groove 44 of the water receiver 40. As shown in FIG.

4 is an enlarged perspective view of a coupling structure of a panel, a water receiver and a second support according to the present invention.

The water receptacle 40 of the present invention is connected to a part of the peripheral portion of the panel 10 which is coupled and supported on the second support 30 to connect the panel 10 and the panel 10, And serves as a channel for guiding the rainwater to the drain port shown in Fig. 3 by a slope (slope).

Specifically, the water receiver 40 of the present invention includes the water receiver groove 41 and the bending portion 42 in a basic configuration.

The water-catching groove 41 has a groove structure that can receive water and can serve as a water channel. As mentioned above, the water-catching groove 41 can be provided with a constant inclination for smooth movement to the drain.

The bent portion 42 is a portion bent at both ends of the water receiving groove 41 to be engaged with the panel 10 and is in close contact with the inner side portion of the warp inducing portion 11 of the panel 10 and fastened by a fastener such as a bolt . A fastening hole 90 may be formed in the corresponding portion of the panel 10 and the bent portion 42 so that the fastener can be inserted.

The second support 30 of the present invention contacts and supports the edge of the panel 10 in the upper part (referred to as a first coupling part in the present invention) 10 and the water receptacle 40 and is coupled with the column 50 in the lower part (in the present invention, this is referred to as a second coupling part) to connect the panel 10 / water tray 40 and the column 50 It is an intermediary role for

4, the first engaging portion 31 of the second bearing 30 is formed of four surfaces, and each surface of the second bearing 30 has a U-shaped water- A hollow portion 33 penetrating through the water-bearing coupling portion 32 inwardly; legs 34 erected on both sides of the water-bearing coupling portion 32; (35).

That is, the overall shape of the first coupling portion 31 has a shape similar to that of a four-legged desk in which the legs are inverted between the legs.

The panel fitting portion 35 is formed on the upper surface of the leg 34. The panel fitting portion 35 is joined to the edge of one panel 10 and fastened to the panel 10 through the fastener to support the panel 10 .

The water catching part 32 can fasten the water catching 40 through the fastener by sandwiching the end of the water catching 40. The water catching part 32 has a structure that extends from the water catching groove 41 of the water catching 40 to the bent part 42 And it is more preferable to support the entire lower portion.

In addition, a watertight groove 32a for inserting the sealing member 70 is formed in the water receptacle engagement portion 32, and a sealing member 70 can also be fitted to the end of the water receptacle 40. FIG. The sealing member 70 functions to seal the joint portion between the water-receptacle engagement portion 32 and the water-retaining wall 40 for waterproofing. The sealing member 70 has a bending property as an elastic material. For example, Or a strap made of a material.

In another embodiment of the present invention, the water receiving portion 32 and the water receiving portion 40 are combined with each other in the absence of the sealing member 70, and then a sealing treatment process is performed through a silicone or other waterproof material, sealing or packing.

The second engaging portion 36 of the second bearing 30 is located between the first engaging portion 31 and the pillar 50 and has a basic function of connecting the same. It is also possible to detachably engage with a column provided with a thread 53, that is, a pipe 51 of the above-mentioned height adjusting column 50 '.

Referring to FIGS. 2 and 3 again, a foreign matter filtering net 80, which is a mesh-type structure having a plurality of through-holes so that foreign substances can be caught, can be additionally mounted on the periphery of the panel 10 So that foreign matters are accumulated in the water receiver 40 to prevent a problem of closing the drain port. The foreign matter filtering net 80 may be seated or fitted to the filter receiving part 13, which is additionally formed on both sides of the panel 10.

With this structure, the column 50 can securely support the panel 10, and the water receiving portion 40 between the panels 10 functions as a water channel to perform a waterproof function for the roof slab 1, It is possible to provide a characteristic that various heat insulating functions are retained depending on the material of the material.

5 is a cross-sectional view showing a modified embodiment of a coupling structure of a panel, a water receiver, and a second support according to the present invention.

As shown in FIG. 5 (a), the surface of the bending portion 42 of the water receiver 40 may be provided with a load supporting protrusion 42a protruding upward.

The load supporting protrusions 42a prevent the bending portion 42 from being easily fatigued because the load of the panel 10 having a heavy weight is biased to the coupling portion with the bending portion 42 in comparison with a relatively different configuration .

The load supporting protrusions 42a are made of an elastic material and serve to buffer the load of the panel 10. The fastening holes 90 to which the fasteners are coupled are formed around the load supporting protrusions 42a. It is preferable that the load supporting protrusions 42a are repeatedly formed at a plurality of positions at regular intervals in a portion other than the coupling portion with the first support 20, that is, in the extending portion in the longitudinal direction.

As shown in FIG. 5 (b), the water receiver 40 may further include a support foot 43, and the support foot 43 may include a portion other than the joint portion with the second support 30 That is, extending from one side of the outer surface of the water-receiving groove 41 to one side of the bending portion 42 at an extended portion in the longitudinal direction to support the bending portion 42, The second support 30 supports the bent portion 42 which is not supported by the second support 30 by the panel 10 having a relatively high weight.

5 (c), the panel 10 is formed with a coupling extension 12 extending downward at a predetermined distance inward from the warp inducing portion 11, and correspondingly, The thickness of the water receiving grooves 41 is increased so as to smoothly extend from the bent portions 42 to the water receiving grooves 41 without the bent portions 42 being formed in the engaging extension portions 12 of the panel 10 It is possible to prevent the panel 10 from sagging while engaging grooves 44 are formed in the corresponding portions so that the load of the panel 10 is dispersed and supported by the engagement of the engagement grooves 44 with each other.

As described above, the construction and action of the roof-slab constructional waterproofing and heat insulating structure according to the present invention are described in the above description and drawings, but the present invention is not limited to the above description and drawings, And various changes and modifications may be made without departing from the technical spirit of the present invention.

1: roof slab 10: panel
11: warp guide portion 12: engaging extension portion
13: Sealing part 20: First base
30: second base 31: first coupling portion
32: water receiving portion 32a: waterproof groove
33: hollow portion 34: leg
35: panel coupling portion 36: second coupling portion
40: water receiver 41: water receiver groove
42: bent portion 42a: load supporting projection
43: supporting foot 44: engaging groove
50: Column 50 ': Height adjustable column
51: pipe 52:
53: thread 60: insulating layer
70: sealing member 80: foreign matter filtering mesh
90: fastening ball

Claims (7)

A roof-mounted slab-mounted, waterproof,
A panel made of a material selected from the group consisting of a metal material, a synthetic resin material and a plywood, the panel comprising: a plurality of panels arranged in a matrix at regular intervals;
A water bending groove extending in the longitudinal direction of the panel between the panels to form a U-shape; a bending portion extending from both side ends of the water-bending groove to support a lower side of the peripheral portion of the panel; A water pan including a support foot extending obliquely from one side to one side of the bend;
A second coupling part formed on the lower side of a portion where the corners of the panel meet each other, the first coupling part being fitted to the end of the water receiver and supporting a corner part of the panel, and the second coupling part being coupled with the pillars;
A column extending upright at a predetermined height so as to be adjustable in height, coupled to the second coupling portion of the second base;
A first pedestal connecting the roof slab and the column to fix the column to the roof slab;
And a foreign matter filtering net formed at an upper end of the water receiving groove and having a plurality of through holes formed therein and having an end seated on the panel,
The bending portion
Further comprising a plurality of load supporting protrusions protruding from the surface of the panel in contact with the lower surface of the panel. The method according to claim 1,
At the edge of the panel,
And a tapered guiding portion that is further bent and extended in the direction of the water receiving groove, and tapered so that the width of the inclined guiding portion becomes narrower as it extends. The method according to claim 1,
Wherein the first engaging portion is a three-dimensional structure having four faces,
A water-receptacle coupling portion formed on each surface and having a shape corresponding to the shape of the water-
A hollow portion penetrating inwardly from each of the water catching portions and having an inner hollow space;
And four panel legs which are erectly supported on both sides of the water-receptacle coupling portion and have a panel coupling portion for supporting a corner portion of the panel on an upper surface thereof,
Wherein a waterproof groove is additionally formed in an inlet of the water-bearing coupling portion, and the water-bearing groove is coupled to the water-bearing groove, thereby sealing the water-proof and heat-insulating structure for a roof slab. delete delete delete delete

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