KR20180113689A - Finishing materials for roof - Google Patents

Abstract

The present invention relates to a finishing material for a roof, comprising: a main body provided on the roof of a building and having a groove-like insertion path formed in a plate shape so as to change an absorption rate of sunlight and including a zeotropic pigment whose color changes according to a temperature change; a heat insulating member disposed in the insertion path to prevent an abrupt temperature change of an internal temperature according to an external temperature of the building; and a phase change member disposed in the insertion path together with the heat insulating member and performing phase change in accordance with the phase change reference temperature, so that heat due to the sunlight irradiated to the main body can be absorbed or emitted.

Description

{Finishing materials for roof}

The present invention relates to a roof finishing material, and more particularly, to a roof finishing material having improved structure for reducing heat island phenomenon due to overheating of a building roof and increasing thermal efficiency.

Generally, roof finish means green urethane waterproofing material, asphalt shingle, roofing zinc, slate, steel sheet, etc., and it is installed on the roof of the building. These roofing finishes meet the fire resistance requirements and prevent rain and snow penetration. In addition, the roof finishing material is painted with paint to have a variety of colors, thereby enhancing the beauty of the building and blocking noise from the outside.

Roof coverings are exposed to sunlight for a long time because they are installed on the roof of the building. Therefore, general roof finishing has a problem of generating heat at high temperature and increasing heat island phenomenon. Recent roofing finishes have been introduced to increase solar reflectance. Roof finishes for solar reflectance are surface treated with cool paint or a membrane sheet. Such a conventional roof finishing material has a problem of lowering the thermal efficiency of the building during the winter season due to high reflectance to sunlight and making it difficult to maintain the room temperature due to the external temperature of the building.

Korean Patent Publication No. 10-1570104 entitled " Finishing Material for Roof and Outer Wall of a Building "

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a roof heating system capable of reducing heat island phenomenon by preventing high temperature heat from being generated on a roof, To provide a roofing finish capable of effectively maintaining the temperature.

The objects of the present invention are not limited to those mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the roof finishing material according to the present invention comprises a quaternary pigment which is provided on a roof of a building and is in the form of a plate so that the absorption rate of sunlight can be changed, A main body having a groove-like insertion path formed therein; A heat insulating member disposed in the inserting passage so as to prevent abrupt temperature change of an internal temperature according to an external temperature of the building; And a phase change member disposed in the insertion furnace together with the heat insulating member and capable of performing phase change according to the phase change reference temperature so as to absorb or release heat due to sunlight irradiated to the main body.

Wherein the main body comprises a top plate receiving sunlight and impregnated with the zeolite pigment, and a bottom plate detachably coupled to the top plate and provided with the insertion passage, wherein the phase change member disposed in the insertion passage is in a liquid state And a body sealing member which is provided between the upper plate and the lower plate and surrounds the insertion tube so as not to leak to the outside.

The insertion path includes an insertion groove formed on an inner surface of the insertion path and extending along the longitudinal direction of the insertion path; A separator plate having a plate shape elongated along the longitudinal direction and inserted in the fitting groove so that the heat insulating member and the phase change member can be isolated from each other; And an inflow preventing sealing member provided between the fitting groove and the separating plate so as not to flow into the heat insulating member when the phase change member is a liquid.

The main body may have a connection groove formed along the outer surface.

The present invention may further comprise a connection rib which is fitted to each of the connection grooves facing each other when the main body is in contact with the main body so that the main bodies can be connected to each other when the main bodies are arranged on a plane .

The roofing finishing material according to the present invention having the above-described structure is impregnated with a zeotropic pigment in the main body, and its color is changed according to the external temperature and the temperature change due to sunlight to control the absorption rate of sunlight, And the heat insulating member is disposed in the insertion furnace together with the phase change member to prevent a rapid temperature change of the internal temperature according to the external temperature, It is possible to reduce the heat island phenomenon, maximize thermal efficiency during the winter season, reduce the heating and cooling load of the building, and effectively maintain the indoor temperature of the building.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a perspective view of a roof covering material according to an embodiment of the present invention;
2 is a sectional view taken along the line II-II in Fig.
3 is a partially enlarged view for explaining the insertion furnace employed in one embodiment of the present invention in more detail;
4 is a sectional view for explaining an installation state of an embodiment of the present invention.
5 is a state diagram for explaining an operation state according to a temperature of the embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a roof finishing material according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of a roof covering material according to an embodiment of the present invention, Fig. 2 is a sectional view taken along the line II-II in Fig. 1, Fig. 4 is a cross-sectional view for explaining an installation state of an embodiment of the present invention. Fig.

As shown in these drawings, a roof finishing material according to an embodiment of the present invention includes a main body 100, a heat insulating member 200, and a phase change member 300. Referring to FIG. 1, the main body 100 is formed in a plate shape, and is installed on a roof of a building. The main body 100 is preferably made of wood.

The main body 100 is impregnated with a quaternary pigment S so that the color can be changed according to a temperature change. In addition, the main body 100 has a plurality of grooved insertion passages P, which are elongated in the inside and are spaced apart from each other by a predetermined distance. Since the main body 100 is made of wood impregnated with a heat sensitive paint S, the color of the main body 100 changes according to the temperature change when the main body 100 is installed on the roof of the building.

For example, when the external temperature is high, the main body 100 is changed to a bright color by the sion pigment S, so that the solar light absorption rate can be lowered (see Fig. 5 (a)). Meanwhile, when the external temperature is low as in the winter season, the main body 100 is changed to a dark color by the sion pigment S, so that the solar light absorption rate can be increased and the phase change member 300 effectively absorbs heat (See Fig. 5 (b)). As described above, the main body 100 can actively adjust the solar absorption rate according to the temperature change and maximize the energy efficiency according to the phase change of the phase change member 300.

The main body 100 is manufactured by impregnating wood with liquid plastic containing sion pigment S and irradiating the wood with radiation to cure the wood. The main body 100 includes the zeolite pigment S to change the color depending on the temperature, thereby enabling effective heat conduction to the phase change member 300.

2, the heat insulating member 200 is inserted into the insertion path P formed in the main body 100, and is preferably made of a waste material such as synthetic resin or wood. The heat insulating member 200 is disposed on the insertion path P provided in the main body 100 to thereby prevent rapid temperature change of the internal temperature according to the external temperature of the building.

The phase change member 300 is disposed on the insertion path P of the main body 100. The phase change member 300 is configured to be laminated on the heat insulating member 200 in the insertion path P. The phase change member 300 absorbs or emits heat due to sunlight and external heat received by the main body 100.

Since the phase change member 300 changes its state into a liquid state when it absorbs heat in a solid state, the insertion path P may be surface-treated with a waterproofing material for sealing. Meanwhile, the phase change member 300 may be inserted into the insertion path P while being accommodated in the tube.

The phase change member 300 absorbs heat transmitted from the main body P and emits heat absorbed when the external temperature or the room temperature becomes lower than the phase change reference temperature, The heating efficiency of the building can be increased and the heating load of the building can be reduced. In addition, since the phase change member 300 emits heat absorbed in the evening hours in which the temperature is relatively low without being irradiated with sunlight, the internal temperature of the building is prevented from being significantly lowered during the evening, Indoor) temperature effectively.

The phase change reference temperature means a temperature at which the phase change member 300 is phase-changed. For example, if the phase change member 300 is phase-changed at a temperature of 20 ° C, the phase-change reference temperature will be 20 ° C. It is a matter of course that the phase change member 300 can set the phase change reference temperature to various temperatures by adopting any one of various phase change materials.

The finish material for a roof according to an embodiment of the present invention having the above-described structure is formed by impregnating the body 100 with a zeotropic pigment P and changing its color depending on the external temperature and the temperature change due to sunlight, The phase change member 300 is disposed on the insertion path P formed in the main body 100 to absorb heat and emit the heat when the temperature is lowered, Temperature heat is prevented from being generated on the roof by preventing an abrupt temperature change of the internal temperature according to the external temperature by being disposed in the insertion path (P) together with the phase change member (300) Maximizing the heating and cooling load of the building can be reduced and the room temperature of the building can be effectively maintained.

Referring to FIG. 3, the main body 100 includes an upper plate 101 and a lower plate 102. The upper plate 101 and the lower plate 102 may be combined or separated in various ways. The upper plate 101 includes the impregnated zeolite pigment (P). The upper plate 101 is in the form of a plate and is engaged with the lower plate 102 to block the insertion path P provided in the lower plate 102 from the outside. It is needless to say that the zeolite pigment P impregnated in the upper plate 101 may be included in the lower plate 102 as well as the upper plate 101.

The lower plate 102 of the main body 100 may be made of the same material as the upper plate 101 or may be made of a different material. The lower plate 102 is preferably detachable from the upper plate 101. The lower plate 102 and the upper plate 101 are provided with a body sealing groove 105 formed on a contact surface where the upper plate 101 and the upper plate 101 are in contact with each other. The main body sealing member 103 is inserted.

The insertion path P provided in the main body 100 includes an insertion groove 10, a separation plate 20, and an inflow prevention sealing member 30. The fitting groove 10 is elongated along the longitudinal direction of the insertion path P and the separating plate 20 is fitted so that the insertion path P can be divided into multiple stages.

The separation plate 20 is inserted into the fitting groove 10 to separate the insertion path P in multiple stages so that the phase change member 300 and the heat insulating member 200 are separated from each other And can be installed easily. The separator plate 20 is preferably made of a metal material such as aluminum so as to improve the heat conduction characteristics.

The inflow preventing sealing member 30 is disposed between the separating plate 20 and the fitting groove 10 to prevent the liquid phase change member 300 from flowing into the heat insulating member 200 side have.

Referring to FIG. 4, a connection groove 104 is formed on the outer side of the main body 100. The connection groove 104 is elongated along the outer surface of the main body 100. The connection groove 104 may be provided on both sides of the main body 100. Therefore, when a plurality of roof finishing members according to an embodiment of the present invention are arranged on a plane, the connecting grooves 104 are faced with each other as the main bodies 100 are in contact with each other.

This embodiment having such a configuration is characterized in that the insertion path P of the main body 100 is partitioned by the partition plate 20 and the heat insulating member 200 and the phase change member 300 are separated It is possible to increase the efficiency of installation work of the product and to provide the advantage that the energy efficiency according to the phase change can be further maximized as the phase change member and the heat insulating member exhibit functions independent of each other To be expected.

The roof finishing material according to an embodiment of the present invention further comprises a thermal rib C. The connection ribs C are inserted into the connection grooves 104 of the main bodies 100 arranged side by side so that connection work between adjacent main bodies can be performed smoothly.

The preferred embodiments of the present invention have been described above. Hereinafter, an operation state of an embodiment of the present invention will be described with reference to FIG. 5 is a state diagram for explaining an operation state according to the temperature of the embodiment of the present invention.

As shown in FIG. 5, in the present embodiment, when the main body 100 is heated by the sunlight in the summer, and the temperature of the outside is high, the main body 100 of the main body 100 changes to white by the chrysotile pigment P. At this time, the main body 100 lowers the absorption rate of sunlight and lowers the heat absorption rate of the phase change member 300 disposed in the insertion path P of the main body 100. Accordingly, in this embodiment, when the sunlight is strong and the temperature is high as in the summer season, the roof is prevented from overheating and the heat island phenomenon and the cooling load of the building are lowered. (See Fig. 5 (a)).

On the other hand, in the present embodiment, when the external temperature is low as in the winter season, the main body 100 of the main body 100 turns black due to the sion pigment P. At this time, the main body 100 increases the absorption rate of sunlight and increases the heat absorption rate of the phase change member 300 disposed in the insertion path P of the main body 100. The phase change member 300 emits heat absorbed in the evening of the winter season, and the heat insulating member 200 prevents the internal temperature of the building from being lowered due to the external temperature. Accordingly, the present embodiment has the effect of reducing the heating load of the building during the winter season, maximizing the thermal efficiency, and effectively maintaining the room temperature. (See Fig. 5 (b)).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but on the contrary is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Do.

100: main body 101: top plate
102: lower plate 103: body sealing member
104: connection groove 105: body sealing groove
200: thermal insulating member 300: phase change member

Claims (4)

A main body provided on the roof of the building and having a groove-like insertion path formed in the form of a plate so as to change the absorption rate of sunlight and including a zeotropic pigment whose color changes according to a temperature change;
A heat insulating member disposed in the inserting passage so as to prevent abrupt temperature change of an internal temperature according to an external temperature of the building; And
And a phase change member disposed on the insertion furnace together with the heat insulating member so as to absorb or emit heat due to sunlight irradiated to the main body, wherein a phase change is made according to a phase change reference temperature.
The method according to claim 1,
The main body includes:
An upper plate having sunlight impregnated with the zeolite pigment, and a lower plate detachably coupled to the upper plate and provided with the insertion passage,
Further comprising a body sealing member which is provided between the upper plate and the lower plate and surrounds the insertion passage so that the phase change member disposed in the insertion passage does not leak to the outside when the phase change member is in a liquid state.
The method according to claim 1,
In the insertion path,
An insertion groove formed on the inner side of the insertion path and extending along the longitudinal direction of the insertion path;
A separator plate having a plate shape elongated along the longitudinal direction and inserted in the fitting groove so that the heat insulating member and the phase change member can be isolated from each other; And
And an inflow preventing sealing member provided between the fitting groove and the separating plate so as not to flow into the side of the heat insulating member when the phase change member is a liquid.
The method according to claim 1,
The main body has a connection groove formed along the outer side surface,
And a connection rib which is fitted to each of the connection grooves facing each other when the main body is brought into contact with the main body so that the main bodies can be connected to each other when the main body is arranged on a plane, Finish for.

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