KR102457861B1 - Decorating structure of dry heating panel - Google Patents

Abstract

The present invention relates to the finishing structure of a dry heating panel, and more particularly, the heat generated in the hot water panel by the heat reflective panel in which the support clamp is installed so that the upper, sewer pipe and electric wiring can be installed on the base floor of the building. Prevents loss to the floor level, and divides the internal space of a building such as kitchen, bathroom, and living room if the wall is flexible because the upper, sewer pipe and electric wiring are not built on the concrete foundation floor that divides the floors in a multi-story building The finished structure of dry heating panel, which improves construction efficiency by design change, has a floor finishing structure in which soundproofing and finishing materials are laminated on the base floor of the building, so that the upper and lower sewer pipes and electric wires can be fixed on the floor of the building. The clamp is installed on the upper part of the heat-reflecting panel that reflects heat, and the height can be adjusted on the upper part of the heat-reflecting panel to adjust the height to maintain the level, and the buffer member with rubber pads installed on the upper and lower parts to cushion the impact. And a hot water panel seated on the upper rubber pad of the cushioning member and having a semi-circular groove portion formed on the upper surface for a heating and hot water pipe to be installed inside, and a semi-circular groove portion of the hot water panel to be seated on the upper portion of the hot water panel to fix the heating and hot water pipe; It has a structure including a finishing panel in which matching grooves are formed.

Description

Finishing structure of dry heating panel

The present invention relates to the finishing structure of a dry heating panel, and more particularly, the heat generated in the hot water panel by the heat reflective panel in which the support clamp is installed so that the upper, sewer pipe and electric wiring can be installed on the base floor of the building. Prevents loss to the floor level, and divides the internal space of a building such as kitchen, bathroom, and living room if the wall is flexible because the upper, sewer pipe and electric wiring are not built on the concrete foundation floor that divides the floors in a multi-story building It relates to a finished structure of a dry heating panel that allows design changes to improve construction efficiency.

Currently, when the floor layer dividing the floors of a multi-story building such as an apartment building is poured with concrete, various pipes such as a pipe for draining a sink or a pipe for connecting an electric wire are installed inside the bottom layer. It is composed of a concrete pouring layer to be poured with concrete and a floor construction layer for heating pipes that form the floor surface of the upper layer on the upper layer of the concrete pouring layer.

In addition, in a multi-story building, the impact sound generated from the floor directly above the floor that divides the floors is provided as a light impact sound and a heavy impact sound. The impact sound is transmitted as vibration to the slab by the impact applied to the floor structure of the upper floor and then radiated as noise to the lower floor.

Therefore, in order to prevent the impact sound generated from the immediately upper floor of a conventional building from being transmitted to the lower floor, the self-elastic force between the finishing mortar on which a finishing material such as an ondol floor is installed on the upper surface and a floor slab poured into a concrete structure, such as a rubber material, is It is a situation in which stratified earthquake prevention or sound absorbing materials are being installed.

In this conventional interfloor floor impact sound blocking structure, the impact sound generated on the upper floor of the building is insulated and absorbed at the same time by the interfloor vibration isolator installed between the finishing mortar and the floor slab, so that the floor impact sound generated in the upper floor of the building is reduced. It suppresses transmission to the lower layer.

However, in the above structure, the impact sound such as light impact sound and heavy impact sound is transmitted as it is, and due to the change in housing culture according to the increase in income level, the noise between floors in the apartment house, which has been in the category of concession and understanding, which is an oriental virtue, is the right of tenants. As it is defined as damage under the perception of protection, apartment houses are linked to quality and become a civil complaint for social fulfillment.

In particular, the thickness of the slab has been increased from 120m/m~130m/m to 180m/m, but it is 210m due to the regulatory standards applied from July 1, 2005 and the implementation of the apartment housing quality rating system that causes quality competition between companies. /m, as well as higher than 240m/m, it can be expected if you need to increase.

In order to improve these conventional problems, the floor structure for reducing noise and vibration between floors of a building is disclosed in Korean Patent Registration No. 1589525, the upper layer of the concrete pouring layer 110 forming the floor layer 100 that divides the floors of a multi-story building, and The first, second, and third sound insulation plates (20, 40, 60) and the first and second sound-absorbing sheets (30, 50) continuously as the upper layer of the concrete pouring layer between the floor construction layer 120 forming the bottom surface of the upper layer. ) is repeated two or more times to form a layer so that the impact sound generated from the floor construction layer 120 that forms the bottom surface of the upper floor is not transmitted to the concrete pour layer 110 that forms the roof of the lower floor, it occurs in the concrete pour layer In order to prevent resonance from occurring, the first, second, and third sound insulation plates are made of several pieces of boards 20a, 20b, 20c..., and the edges of each of the boards 20a, 20b, 20c... At the connection boundary 1 generated by overlappingly connected in the form of the recess 21 and the protrusion 22 or in the form of the lower jaw 23 and the upper jaw 24 so that there is no gap to be connected, or each In a state where the boards 20a, 20b, 20c... of In order to prevent leakage of sound through the connection boundary (1, 1a) by sealing it sufficiently, and to prevent pressing of the first and second sound-absorbing sheets placed between the first, second, and third sound insulation plates. A spacer 3 is included between the first, second, and third sound insulation plates.

As described above, in the building, the floor layer dividing the floors is poured with concrete in a state in which pipes for draining bathrooms and sinks or pipes for connection of electric wires are installed. There is a problem in that the poured concrete has to wait until the poured concrete is cured because the floor construction layer for the heating pipe and sound insulation plate that forms the surface is separated and constructed. Accordingly, there is a problem that the construction cost and the weight of the building cannot be reduced.

In addition, since various pipes are embedded in concrete and cured in the floor layer, it is not easy to change the design of the interior space of the building, and it is laminated in the form of a plate on the floor layer of the building, and sound insulation boards and finishing materials are installed.

Korean Patent Registration No. 1589525.

The present invention has been devised to solve the problems of the prior art as described above, and an object of the present invention is to provide a heat reflective panel with support clamps installed so that upper, sewer pipes and electric wiring can be installed on the base floor of a building to provide heating It prevents the heat generated by the hot water panel with the built-in hot water pipe from being lost to the floor level of the foundation. In this case, it is possible to change the design of the internal space of the building, such as kitchen, bathroom, and living room, to improve the construction efficiency, and to adjust the level and reduce noise between the foundation floor of the building and the hot water panel. An object of the present invention is to provide a finished structure of a dry heating panel capable of increasing horizontal control and sound insulation effect.

The above object of the present invention is in a floor finishing structure in which a soundproofing material and a finishing material are laminated on the basic floor layer of a building, a support clamp capable of fixing the upper and lower sewer pipes and wire wiring on the floor layer of the building is installed on the upper part, and the heat is reflected It is possible to adjust the height to maintain the level by adjusting the height on the upper part of the heat reflective panel and the heat reflective panel to A hot water panel seated on the upper surface with a semi-circular groove formed so that a heating and hot water pipe is built-in, and a finishing panel having a coupling groove that is equal to the semi-circular groove of the hot water panel so as to be seated on the upper part of the hot water panel to fix the heating and hot water pipe. It is achieved by the finishing structure of the dry heating panel, characterized in that it includes.

In addition, the first cushioning member has a rubber pad installed on the upper end surface of the cushioning member and a screw portion formed on the lower outer circumferential surface, and the threaded portion of the first cushioning member is built-in. It is formed and the bottom surface includes a second cushioning member installed with a rubber pad to cushion the impact, and the second cushioning member is provided with soundproof wing pieces having a plurality of concave and convex grooves formed on the upper and lower surfaces of the outer periphery of the insertion column. characterized.

In addition, it is characterized in that one or two or more soundproof wing pieces formed on the insertion column of the second cushioning member are spaced apart at a predetermined interval.

In addition, a support wing piece having a fastening groove on one side is installed on the outer peripheral surface of the buffer member for buffering and supporting the impact on the lower surface of the hot water panel, and an oval plate spring is provided on the outer periphery of the buffer member to support the lower end of the hot water panel It is characterized in that the buffer support provided with a plate spring which is installed in a vertical form and has a concave-convex groove formed in the horizontal direction so as to be fastened and coupled to the fastening groove of the buffer member is installed on the side of the elliptical plate spring.

In addition, the lower portion of the hot water panel and the upper portion of the heat reflective panel is characterized in that it is further provided with a soundproof panel formed with a concave-convex groove on one side to suppress noise.

The finished structure of the dry heating panel of the present invention as described above makes it easy to change the design of the internal structure of the building by the heat reflective panel installed with support clamps so that upper, sewer pipes and electrical wiring can be installed on the base floor of the building, and the hot water panel It prevents the heat generated from being lost to the base floor surface, and the thickness of the base floor can be reduced because there are no upper, sewer pipes and electrical wiring on the concrete base floor that divides the floors in a multi-story building. It has the effect of reducing costs and reducing the weight of the building.

In addition, there is an effect of increasing the leveling and soundproofing effect by installing a height buffer member and a buffer support that can control the level and reduce noise between the foundation floor layer of the building and the hot water panel.

1 is a cross-sectional view showing a conventional floor construction structure.
2 is a cross-sectional view showing the finished structure of the dry heating panel of the present invention.
Figure 3 is a cross-sectional view showing the hot water panel and the finish panel of the present invention.
Figure 4 is a perspective view showing a buffer member of the present invention.
Figure 5a shows another embodiment of the buffer member of the present invention.
Fig. 5B is an enlarged view of "A" of Fig. 5A;
Figure 6 is another embodiment showing the buffer member of the present invention.
7A is another embodiment showing the finished structure of the dry heating panel of the present invention.
Fig. 7b is an embodiment relative to Fig. 7a;
8 is another embodiment showing the finished structure of the dry heating panel of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all the technical ideas of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations.

As shown in FIG. 2, the floor finishing structure 1 for dry panels of the present invention is a floor finishing structure in which a soundproofing material and a finishing material are laminated on a basic floor layer of a building, and a support capable of fixing upper and lower sewer pipes and electric wires The clamp 12 is installed on the upper part and the heat reflective panel 10 that reflects the heat and the upper part of the heat reflective panel 10 can be adjusted in height to maintain the level by adjusting the height, and the upper part to cushion the impact. and a semicircle with rubber pads 22-2 and 24-2 installed thereon and seated on the upper rubber pad 22-2 of the buffer member 20, and a heating and hot water pipe installed on the upper surface. A finishing panel having a coupling groove 42 equal to the semi-circular groove 32 of the hot water panel 30 so as to be seated on the upper portion of the hot water panel 30 in which the groove 32 is formed and to fix the heating and hot water pipe ( 40), including the structure.

As shown in FIG. 3 , the hot water panel 30 and the finishing panel 40 have a semi-circular groove part 32 and a coupling groove part 42 on their corresponding surfaces so that a heating hot water pipe for heating the inside of the building is installed in the form of a pipe. It is formed on the back side, and the connection of the hot water panel 30 and the finishing panel 40 may be coupled to each other by applying an adhesive to the surfaces in contact with each other. As it is easy to use, it has the effect of shortening the construction period and reducing the construction cost.

As such, the hot water panel 30 and the finishing panel 40 are made of a material with high heat storage to minimize heat loss so as to increase the thermal efficiency generated by the heating hot water pipe, The finishing panel 40 is made of foamed aluminum, which is a material having a high heat transfer rate, and has an effect of increasing thermal efficiency compared to wet heating.

As described above, in the lower part of the hot water panel 30 in which the heating and hot water pipe is installed, a buffer member 20 is provided to adjust the level so that the hot water of the heating and hot water pipe can flow easily, and to cushion external shocks and suppress noise. ) is installed.

As shown in FIG. 4, the cushioning member 20 has a rubber pad 22-2 installed on the upper surface and a screw portion 22-4 on the lower outer circumferential surface so as to suppress the noise by buffering external shocks as shown in FIG. The first cushioning member 22 and the screw portion 22-4 of the first cushioning member 22 are internally installed to form an insertion column 24-4 having a screw groove formed in the center so that it can be adjusted up and down. The bottom surface is made of a second cushioning member 24 provided with a rubber pad 24-2 to cushion the impact.

That is, the buffer member 20 is installed on the bottom surface of the floor to adjust the horizontality of the hot water panel 30 and rotates the screw portion 22-4 of the buffer member 20 to adjust the hot water up and down. The level of the panel 30 is adjusted, and the external impact can be buffered by the rubber pads 22-2 and 24-2 installed on the upper and lower surfaces of the cushioning member 20 and noise can be suppressed at the same time. there is an effect

As described above, since the interlayer noise cannot be suppressed with respect to the light impact sound and the heavy impact sound only with the rubber pads 22-2 and 24-2 of the buffer member 20, it is shown in FIG. As described above, it is preferable that a soundproof wing piece 26 having a plurality of concave-convex grooves 26-2 formed on the upper and lower surfaces of the insertion column 24-4 of the second cushioning member 24 is installed on the outer periphery thereof.

That is, as shown in FIG. 5B , in the buffer member 20 installed under the hot water panel 30 , the noise generated by the external impact sound is the insertion column 24-4 of the second buffer member 24 . Noise is reflected by the soundproof wing pieces 26 in which a plurality of concave-convex grooves 26-2 installed on the outer periphery are formed, thereby suppressing inter-floor noise.

In addition, since the concave-convex grooves 26-2 of the soundproof wing piece 26 are formed in a double shape on the upper and lower surfaces, it is possible to suppress the noise generated in the upper layer and the noise generated in the lower layer, so that the noise between the floors can be further suppressed. there is an effect

In this way, one buffer member 20 can be installed on the lower surface of the hot water panel 30, but a plurality of buffer members 20 are provided on the lower surface of the hot water panel 30 to more stably support and adjust the horizontality. A plurality of them are installed at a predetermined interval on the corner and the center line, and a soundproof wing piece 26 and a plurality of buffer members 20 of the buffer member 20 installed on the lower surface of each of the hot water panels 30 In a portion where the end surface of the soundproof wing piece 26 of the buffer member 20 and the end surface of the soundproof wing 26 of the other buffer member 20 contact each other so that the soundproof wing piece 26 of the To be sealed with an adhesive sealing material, or as shown in FIG. 6 , the soundproof wing pieces 26 formed on the insertion pillars 24-4 of the buffer member 20 are spaced apart from the elastic members with elastic force at predetermined intervals. It is preferable that one or two or more are formed.

That is, two or more soundproof wing pieces 26 are formed in the insertion column 24-4 of the buffer member 20 at a predetermined interval, and the insertion column 24-4 of the other buffer member 20 has By forming the soundproof wing piece 26 so as not to be equal to the soundproof wing piece 26, the concave-convex groove 26-2 formed in the soundproofing wing piece 26 of the buffer member 20 and the other cushioning member 20 Concave-convex grooves 26-2 formed in the soundproof wing piece 26 of the The structure has an effect that can further improve the support force of the buffer member (20).

As described above, it is possible to buffer shock and suppress noise by the buffer member 20 installed on the lower surface of the hot water panel 30, but as shown in FIG. 7a to further cushion the shock and increase the bearing capacity Similarly, on the lower end surface of the hot water panel 30, a support wing piece 28 having a fastening groove 28-2 on one side formed on the outer circumferential surface of the buffer member 20 for buffering and supporting the impact is installed, and the buffer member 20 ) On the outer periphery, an oval plate spring 52 is installed in a vertical form so as to support the lower end of the hot water panel 30, and a fastening groove 28-2 of the buffer member 20 is provided on the side of the oval plate spring 52. ) and it is preferable that the buffer support 50 provided with the plate spring 54 having the concave-convex groove 54-2 in the horizontal direction to be fastened and coupled is installed.

That is, as shown in FIG. 7b , when an impact occurs on the hot water panel 30, the buffer member 20 and the buffer support 50 are fastened to each other to support the hot water panel 30 and provide a buffering force. can be improved, and the elliptical plate spring 52 of the buffer support 50 cushions the vertical direction, thereby distributing the force to the plate spring 54 in the horizontal direction.

A heat reflective panel 10 is installed on the foundation floor of the building to prevent the heat emitted from the heating and hot water pipe installed in the semi-circular groove part 32 of the hot water panel 30 from being lost to the floor layer 100 of the building. However, it is preferable that a support clamp 12 capable of fixing the upper and lower sewer pipes and electrical wiring is installed on the upper portion of the heat reflective panel 10 .

As shown in FIG. 8, the upper portion of the heat reflection panel 10 installed on the foundation floor of the building has the lower portion of the hot water panel 30 and the heat reflection to suppress the noise generated from the water and sewer pipes. It is preferable that the upper portion of the panel 10 is further provided with a soundproof panel 60 having a concave-convex groove 62 formed on one side thereof to suppress noise.

That is, in the lower part of the hot water panel 30 and the upper part of the heat reflective panel 10, a soundproof panel 60 having a concave-convex groove 62 formed on one side to reflect and absorb noise generated from the water and sewer pipes is formed. By providing it, there is an effect of further preventing noise from being transmitted to the inside of the building and the lower floor of the building.

The finished structure of the dry heating panel of the present invention as described above makes it easy to change the design of the internal structure of the building by the heat reflective panel installed with support clamps so that upper, sewer pipes and electrical wiring can be installed on the base floor of the building, and the hot water panel Prevents heat generated from being lost to the base floor surface, and reduces the thickness of the base floor layer and makes it lighter because there are no upper, sewer pipes and electrical wiring on the concrete base floor that divides the floors in a multi-story building. Since it can freely configure the upper and lower sewer pipes and electrical wiring, it is advantageous for various flat configurations, thereby reducing the construction cost and reducing the weight of the building.

In particular, it can contribute to the realization of the dream of a 100-year house by reducing social costs due to reconstruction as it is advantageous for remodeling of buildings.

In addition, there is an effect of increasing the leveling and soundproofing effect by installing a height buffer member and a buffer support that can control the level and reduce noise between the foundation floor layer of the building and the hot water panel.

1: Floor finishing structure for dry panel
10: heat reflective panel 12: support clamp
20: buffer member 22: first buffer member
22-2: rubber pad 22-4: screw part
24: second buffer member 24-2: rubber pad
24-4: insertion column
26: soundproof wing 26-2: concave-convex groove
28: support wing piece 28-2: fastening groove
30: hot water panel 32: semi-circular groove
40: finishing panel 42: coupling groove
50: buffer support 52: oval leaf spring
54: leaf spring 54-2: concave-convex groove
60: soundproof panel 62: concave-convex groove

Claims (5)

There is a floor finishing structure in which soundproofing and finishing materials are laminated on the foundation floor of the building,
a heat reflective panel having a support clamp installed on the upper part to fix the upper and lower sewer pipes and wires on the floor floor of the building and reflecting heat;
a cushioning member having a height adjustable on the upper portion of the heat reflective panel to maintain a level by adjusting the height, and rubber pads installed on the upper and lower portions to cushion the impact;
a hot water panel seated on the upper rubber pad of the cushioning member and having a semicircular groove formed on the upper surface of which a heating and hot water pipe is installed;
It is seated on the upper portion of the hot water panel and is made to include a finishing panel in which a coupling groove equal to the semi-circular groove of the hot water panel is formed so as to fix the heating and hot water pipe,
On the lower end surface of the warm water panel, a support wing piece having a fastening groove on one side is installed on the outer circumferential surface of the cushioning member for buffering and supporting the impact, and an oval plate spring is vertical to support the lower end of the hot water panel on the outer circumference of the cushioning member. and a buffer support provided with a plate spring having concave-convex grooves formed in a horizontal direction so as to be fastened with the fastening groove of the buffer member on the side of the elliptical plate spring.
The method of claim 1,
In the buffer member, a rubber pad is installed on the upper surface, and the first buffer member having a threaded portion on the lower outer circumferential surface and the screw portion of the first buffering member are built-in. and a second cushioning member having a rubber pad installed on the bottom surface to cushion the impact, and a soundproof wing piece having a plurality of concave and convex grooves formed on the upper and lower surfaces of the second cushioning member is installed on the outer periphery of the insertion column. Finishing structure of dry heating panel.
3. The method of claim 2,
The finishing structure of a dry heating panel, characterized in that one or two or more soundproof wing pieces formed on the insertion column of the second cushioning member are spaced apart from each other at a predetermined interval.
delete According to claim 1,
The finishing structure of a dry heating panel, characterized in that the lower part of the hot water panel and the upper part of the heat reflective panel are further provided with a soundproof panel having a concave-convex groove formed on one side to suppress noise.

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