KR20130122091A - A panel of hot water circulation floor - Google Patents

Abstract

The present invention relates to a panel for a hot water circulating floor in which hot water pipes are installed inside by joining upper and lower plates. More specifically, The present invention includes a downward protrusion (110) formed dowardly on the lateral surface; an upward protrusion (120) formed upwardly on the other lateral surface; a pair of lower plate joining protrusions (130) on the underside, a hot water pipe hole (140) formed between the lower plate joining protrusions (130); the upper plate (10) on which through-holes (150) adjacent to the lower plate joining protrusions (130); a lateral surface protrusion insertion groove (220) which corresponds to the upper plate (10) and includes a lateral surface protrusion (210) and which is formed on the other lateral surface where the lateral surface protrusion (210) is not formed to correspond to the lateral surface protrusion (210); a pair of upper plate joining protrusions (230) inserted into the lower plate joining protrusions (130) of the upper plate (10); and a lower plate (20) on which a hot water pipe hole (240) is formed between the upper plate joining protrusions (230). The panels are joined each other to make hot water pipe (30) be positioned between the upper plate (10) and the lower plate (20).

Description

[0001] A PANEL OF HOT WATER CIRCULATION FLOOR [0002]

The present invention relates to a hot-water circulating floor panel, in which a hot-water pipe circulating hot water is contained inside, and an upper panel and a lower panel are connected to each other.

Generally, I use the method of heating mainly the floor. A representative method of this method is to install a circulation pipe circulating hot water on the floor. For this purpose, most of the methods of installing piping in cement after installing piping in floor construction.

However, not only the thermal efficiency is not high but also the repair of the pipeline is performed after removing the cement structure on the floor, and it takes a long time to cure the cement.

Thus, due to these disadvantages, various methods using floor panels have been disclosed.

The applicant of the present invention is also configured with a top plate and a bottom plate in Korean Patent Registration No. 10-1039317 (panel for hot water circulation flooring, hereinafter referred to as "prior art"), and the upper plate contains a plurality of spaces, A space is also formed on one side of the lower plate so that the upper plate and the lower plate can be combined with each other to function as a heat insulating and sound absorbing member and a plurality of upper and lower plates are coupled to each other to provide a panel for hot- The upper protrusion 110 is formed on the side surface of the upper protrusion 110 and the lower protrusion 110 is formed on the other side surface of the side where the upper protrusion 110 is formed, A top plate 10 having a protrusion formed therein and having a pair of coupling holes 140 formed on a lower side thereof and a circulation hose insertion hole 150 formed between the pair of coupling holes 140, Side projections 210 are formed on the side surfaces of the side surface protrusions 210 and the side surface protrusions 210 are formed on the other side surface of the side surface protrusions 210, Is formed,

And a lower plate 20 formed with a pair of coupling protrusions 230 inserted into a coupling hole 140 of the upper plate 10. A hot water circulation hose 30 is provided between the upper plate 10 and the lower plate 20, So as to be combined with each other, thereby completing a technique for hot water circulation flooring.

Although the above-described prior art is provided to provide improved technology than the heating method of supplying hot water among the conventional floor heating systems, it is necessary to prepare the panel necessary for the work by examining the size and specification of the work surface at the time of installation It is required to develop a technique for improving the point that has been made.

In addition, there is an urgent need to develop a technology with higher thermal efficiency than prior art or conventional panel-based heating methods.

In order to cope with the above technical improvement request, it is an object of the present invention to provide a hot-water circulation floor panel which can be easily applied to on-site work without preliminary examination of the size and standard of a work site.

Another object of the present invention is to provide a panel for hot-water circulation flooring that can maximize the thermal efficiency of the bottom surface on which the panel for hot-water circulation flooring is installed.

In order to accomplish the object of the present invention, a hot water pipe 30 is disposed between an upper plate 10 and a lower plate 20 and between the upper plate 10 and the lower plate 20, 10 and the lower plate 20 are combined.

More specifically, a downward protrusion 110 having a downward protrusion is formed on a side surface, and an upper protrusion 110 formed on the other side surface of the downward protrusion 110, A pair of lower plate coupling protrusions 130 are formed on a lower side of the lower plate coupling protrusions 130. A hot water pipe hole 140 is formed between the lower plate coupling protrusions 130. The lower plate coupling protrusions 130 A side surface protrusion 210 is formed on a side surface of the upper plate 10 and a side surface of the side surface protrusion 210 on which the through hole 150 is formed A pair of upper plate coupling protrusions 230 inserted into the lower plate coupling protrusions 130 of the upper plate 10 are formed on side surfaces of the upper plate 10, And the lower plate coupling protrusion 230 is formed with a hot water pipe hole 240 And a hot water pipe 30 is positioned between the upper plate 10 and the lower plate 20 to complete the connection.

A lower coupling hole 160 is formed at one end of the upper plate 10 to extend a plurality of upper plates 10 in the longitudinal direction and a lower coupling hole 160 is formed at the other end of the lower coupling hole 160 The upper plate coupling protrusion 130 is further formed with a heat convection groove 170 having a part opened to convect heat generated from the hot water pipe 30, do.

The through holes 150 of the upper plate 10 are connected to the lower plate coupling protrusions 130 so that the heat generated from the hot water pipes 30 can be convected. The heat convection grooves 170 and the heat convection holes 180 are formed so as to correspond to each other in position and number and correspond to the heat convection grooves 170 and the heat convection holes 180 The upper plate coupling protrusions 230 of the lower plate 20 are further formed with the heat convection grooves 250.

A wedge groove 131 is further formed at one side of the lower plate coupling protrusion 130 and a wedge 231 is provided at one side of the upper plate coupling protrusion 230 for interpolating the wedge groove 131 to increase the binding force. The present invention can achieve the object of the present invention by providing a panel for hot water circulation flooring.

By providing the panel for hot water circulation flooring according to the present invention, there is an effect that it can be easily applied to the field work without prior investigation of the size and the standard of the site in the work, and the thermal efficiency of the floor surface on which the hot water circulation floor panel is installed is maximized There is an effect that can be done.

1 is a bottom perspective view of an upper plate of a hot water circulation floor panel according to the present invention.
2 is a top perspective view of a bottom plate of a hot water circulation floor panel according to the present invention.
FIG. 3 is an exploded perspective view showing the combination of the upper plate and the lower plate of the panel for hot water circulation flooring according to the present invention.
4 is a partial cross-sectional view of a panel for hot water circulation flooring according to the present invention.
5 is an exploded perspective view showing a configuration of a bottom plate of a hot water circulation floor panel according to the present invention.
6 is a view showing the state of use of the panel for hot water circulation flooring according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a panel for hot-water circulation flooring according to the present invention will be described in detail with reference to the drawings so that those skilled in the art can easily carry out the present invention.

2 is a perspective view of a bottom plate 20 of a panel for hot water circulation flooring according to the present invention, and FIG. 3 is a perspective view of a panel for a hot water circulation floor according to the present invention. FIG. 4 is a partial cross-sectional view of a panel for hot water circulation flooring according to the present invention. FIG.

1 to 4, the hot-water circulating floor panel of the present invention is constituted by an upper plate 10 and a lower plate 20, and is disposed between the upper plate 10 and the lower plate 20, The piping 30 is positioned and then the upper plate 10 and the lower plate 20 are combined.

The lower protrusion 110 formed on the lower side of the upper plate 10 and the upper protrusion 120 formed on the other side surface of the upper plate 10 on which the downward protrusion 110 is formed are formed in the upward direction, . As described above, the downward protrusion 110 and the upward protrusion 120 are formed on the respective side surfaces of the upper plate to extend and bind the plurality of upper plates 10 so as to contact the respective side portions. More specifically, when another upper plate is joined to one upper plate, the upper protrusion 120 formed on the side surface of another upper plate is correspondingly inserted into the lower protrusion 110 formed on the side surface of the upper plate So as to be extended. By using such a method, a plurality of top plates are extended in the lateral direction to be coupled.

In addition, a hot water pipe hole 140 is formed at the center of the top plate 10 in the longitudinal direction. The lower plate coupling protrusion 130 is formed on both sides of the hot water pipe hole 140 and the through hole 150 is formed adjacent to the lower plate coupling protrusion 130. The lower plate coupling protrusion 130 is formed on both sides of the hot water pipe hole 140, . At this time, a pair of the through holes 150 are formed on both sides of the hot water pipe hole 140.

The through hole 150 absorbs external impact applied to the top plate 10, thereby reducing noise and preserving the heat supplied through the hot water pipe 30.

A plurality of wedge grooves 131 are further formed in the lower plate engaging protrusion 130. When the lower plate 20 is engaged with the wedge groove 131, the coupling force between the upper plate 10 and the lower plate 20 .

A lower coupling hole 160 and an upper coupling hole 190 are formed at the end of the upper plate 10, respectively. More specifically, a lower coupling protrusion 160 is formed at one end of the upper plate 10, and an upper coupling protrusion 190 is formed at an end of the opposite end of the lower coupling protrusion 160, .

The upper plate 10 can be extended in length by connecting a plurality of upper plates 10 in the longitudinal direction at the time of installation. The lower plate 10 has a lower coupling hole And the upper coupling hole 190 of another one of the upper plates 10 is coupled to the lower coupling holes 160 to extend in the longitudinal direction.

The upper plate 10 has a lower plate coupling protrusion 130 and a through hole 150 formed at one side thereof with a heat convection groove 170 having a part opened to convect heat generated from the hot water pipe 30, And a heat convection hole 180 are further formed.

More specifically, the heat convection groove 170 has a plurality of grooves that open a part of the lower plate coupling protrusion 130 to uniformly convect the heat generated from the hot water pipe 30 to the entire area of the top plate 10 Thereby forming the heat convection grooves 170. At this time, the heat convection grooves 170 are formed by forming a plurality of open grooves by maintaining a constant distance in the longitudinal direction of the lower plate coupling protrusions 130 provided at both sides of the hot water pipe hole 140 .

The heat convection hole 180 is formed in one side of the through hole 150 adjacent to the lower plate coupling protrusion 130, that is, a hole in which a part of the side surface and the lower side adjacent to the lower plate coupling protrusion 130 are open . At this time, the position and the number of the heat convection holes 180 are formed to correspond to the heat convection grooves 170.

The heat generated from the hot water pipe 30 is uniformly transmitted to the entire area of the top plate 10 through the formed heat convection grooves 170 and the heated convection holes 180 and the heat generated from the hot water pipe 30 Thereby preventing the top plate 10 from being thermally deformed. This is because the heat convection grooves 170 and the heat convection holes 180 form a buffer space. In addition, when a worker operates the heat convection grooves 170 and the heat convection holes 180 , And the upper plate 10 can be cut off, thereby facilitating the operation.

Side projections 210 and side surface projection insertion grooves 220 are formed on side surfaces of the bottom plate 20 coupled to the top plate 10. The side surface protrusions 210 and the side surface projection insertion grooves 220 So that a plurality of the lower plates 20 can be easily extended in the lateral direction so as to be in contact with the side surfaces. The side surface protrusion insertion groove 220 is formed on the other side surface of the side surface portion where the side surface protrusion 210 is formed and the side surface protrusion 220 of the another bottom surface plate 20 210 are made to be in contact with each other, thereby inserting a plurality of lower plates.

An upper plate coupling protrusion 230 is formed on an upper surface of the lower plate 20 to correspond to a lower plate coupling protrusion 130 formed on the upper plate 10.

At this time, a wedge 231 is further formed on one side of the upper plate coupling protrusion 230 so that the coupling force between the upper plate 10 and the lower plate 20 can be increased. More specifically, the wedge 231 is inserted into the wedge groove 131 formed at one side of the lower plate coupling protrusion 130 of the upper plate 10 so that the wedge 231 of the upper plate coupling protrusion 230 is inserted It is possible to maximize the bonding force.

A pair of upper plate coupling protrusions 230 formed as described above are formed and a hot water pipe hole 240 in which the hot water pipe 30 is located is formed at the center of the pair of upper plate coupling protrusions 230, A plurality of heat convection grooves 250 are further formed in the longitudinal direction of the pair of upper plate coupling protrusions 230.

The number and positions of the heat convection grooves 250 are formed to correspond to the plurality of heat convection grooves 170 formed in the lower plate coupling protrusions 130 and the heat convection holes 180 formed in the through holes 150.

5 is an exploded perspective view showing a configuration of a bottom plate of a hot water circulation floor panel according to the present invention.

5, the lower plate 20 formed as described above is further provided with a thermal insulation film 40 and a buffer film 50 for soundproofing and insulation when installed for installation.

The heat insulating film 40 is provided on the lower side of the lower plate 20 to prevent the heat supplied to the lower plate 20 from being leaked to the outside. The heat insulating film 40 has a heat insulating effect such as an ordinary aluminum foil or silver foil foil. A film of a metal material is used.

The lower surface of the lower plate 20 formed as described above is further provided with a buffer film 50 for buffering and sounding on the lower side of the heat insulating film 40. The buffer film 50 can be directly contacted with the floor for installation, A buffer film is used to maintain the elasticity of the rubber material.

The heat insulating film 40 and the buffer film 50 may be bonded to the bottom plate 20 using an adhesive or may be bonded to the bottom plate 20 using a thermal fusion method.

6 is a view showing the state of use of the panel for hot water circulation flooring according to the present invention.

6, the hot-water circulating floor panel of the present invention is composed of an upper plate 10 and a corresponding lower plate 20, and is disposed between the upper plate 10 and the lower plate 20 A hot water pipe 30 capable of circulating hot water is located.

The upper plate 10 and the lower plate 20 are provided in the same number and the lower plate 20 is installed on the floor for installation according to the number of the upper plates 10 to be installed. At this time, after the lower plate 20 is installed in the horizontal direction and the vertical direction, the upper panel 10 is coupled to the upper side to provide a panel for hot-water circulation flooring.

At this time, the length of the terminating end of the bottom plate 20 is shorter than the length of the terminating end of the top plate 10. Here, since T is bent to a degree that it does not interfere with the circulation of hot water when the inner hot water pipe 30 is bent to be inserted into another upper and lower plates 10 and 20, , It should be within 50mm. Therefore, the length of the bottom plate 20 should be 100 mm shorter than the length of the top plate. This is because when the bottom plate 20 is installed on the floor, the hot water pipes 30 are bent at both ends, (20). ≪ / RTI >

The upper plate 10 and the lower plate 20 prepared as described above are formed such that the upper surface of the lower plate 20 is directed upward from the floor surface where the hot water circulation floor is to be installed, And the side projecting insertion grooves 220 of another bottom plate 20 are brought into contact with the side projecting insertion grooves 210 of the bottom plate 20 so that the plurality of bottom plates 20 are extended by using the above-described method.

When the plurality of lower plates 20 are installed at the installation site through the above process, the hot water pipe 240 of the hot water pipe hole 240 of each lower plate 20 is positioned. At this time, the hot water pipe 30 is one hose, which is bent at the end portion of each lower plate 20 and positioned in the hot water pipe hole 240 of the next lower plate 20.

When the hot water pipe 30 is positioned on the bottom plate 20 installed on the floor as described above, the plurality of top plates 10 corresponding to the bottom plate 20 are pressed downward from the top direction to form the bottom plate 20 . At this time, the hot water pipe 30 is positioned in the hot water pipe hole 140 formed on the lower side of the upper plate 10, and the upper plate coupling protrusion 230 of the lower plate 20 is connected to the upper plate 10 So that the upper plate 10 and the lower plate 20 are brought into contact with the lower plate coupling protrusion 130.

When the upper and lower plates 10 are coupled to another lower plate 20 by using the above-described method, the upper protrusion 110 of the upper plate 10, The upper plate 10 and the lower plate 20 are coupled to each other and the plurality of upper plates 10 are continuously installed.

When a plurality of upper plates 10 are extended in the longitudinal direction of the upper plate 10, the ends of another upper plate 10 are connected to the lower coupling holes 160 formed at the ends of the upper plate 10, The upper plate 10 is extended in the longitudinal direction so as to correspond to the upper coupling hole 190 formed in the upper plate 10 and the upper plate 10 is coupled to the lower plate 20 corresponding to the extended upper plate 10, The hot-water circulation floor panel of the invention is installed.

10: top plate 20: bottom plate
30: hot water piping 110: downward projection
120: upper projection 130: lower plate coupling projection
131: Wedge groove 140: Hot water piping hole
150: through hole 160: downward coupling hole
170: Heated convection groove 180: Heated convection groove
190: upper fitting hole 210: side projection
220: side projection insertion groove 230: upper plate coupling projection
231: Wedge 240
250: Heat convection groove

Claims (8)

In the panel for hot water circulation floor,
A downward protrusion 110 having a downward protrusion formed on a side surface thereof and an upper protrusion 120 having a downward protrusion formed on the other side surface of the downward protrusion 110, A pair of lower plate coupling protrusions 130 are formed on the lower side and a hot water pipe hole 140 is formed between the pair of lower plate coupling protrusions 130. The lower plate coupling protrusions 130 are formed adjacent to the lower plate coupling protrusions 130, 150) are formed on the upper plate (10);
Side projections corresponding to the upper plate 10, side projections 210 are formed on the side, side projection insertion grooves formed to correspond to the side projections 210 on the other side of the side projections 210 is formed A 220 is formed, and a pair of upper plate coupling protrusions 230 are inserted into the lower plate coupling protrusions 130 of the upper plate 10, and hot water pipes are disposed between the upper plate coupling protrusions 230. It consists of a lower plate 20 is formed with a hole 240, the hot water circulation floor panel, characterized in that completed by combining the hot water pipe 30 is located between the upper plate 10 and the lower plate 20. .
The method of claim 1,
A lower coupling hole 160 is formed at one end of the upper plate 10, and an upper coupling hole 190 is further formed at the other end of the terminal in which the lower coupling hole 160 is formed. Hot water circulation floor panel.
The method of claim 1,
The hot plate circulation is characterized in that the lower plate coupling projection 130 of the upper plate 10 is further formed a warm convection groove 170 of the open form so as to convection the heat generated from the hot water pipe (30). Flooring panels.
The method of claim 1,
The through-hole 150 of the upper plate 10 to convection the heat generated from the hot water pipe 30, the side convex side and the lower portion adjacent to the lower plate coupling projection 130 is open convection hole 180 Hot water circulation floor panel characterized in that the further formed.
The method according to claim 3 or 4,
And the positions and the numbers of the heat convection grooves (170) and the heat convection holes (180) are formed to correspond to each other.
6. The method of claim 5,
The upper plate coupling protrusion 230 of the lower plate 20 is further formed with a heat convection groove 250 corresponding to the heat convection groove 170 and the heat convection hole 180 of the upper plate 10 Panel for hot water circulation flooring.
The method according to any one of claims 1 to 4,
A wedge groove 131 is further formed at one side of the lower plate coupling protrusion 130 and a wedge 231 is inserted at one side of the upper plate coupling protrusion 230 so as to be inserted into the wedge groove 131 to increase the binding force. Wherein the panel is made of a transparent material.
The heat insulating film (40) according to claim 7, wherein a heat insulating film (40) is provided on the lower side of the lower plate (20) for heat insulation and a buffer film (50) Wherein the panel is made of a transparent material.

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