WO2012144729A2

WO2012144729A2 - Air pocket-type hot-water flooring panel

Info

Publication number: WO2012144729A2
Application number: PCT/KR2012/001341
Authority: WO
Inventors: 박상언
Original assignee: Park Sang Eon
Priority date: 2011-04-22
Filing date: 2012-02-22
Publication date: 2012-10-26
Also published as: CN103492811A; WO2012144729A3; KR101104013B1

Abstract

The present invention relates to a flooring material for a Korean underfloor heating system, and more particularly, to a flooring panel consisting of an extruded resin plate. A plurality of passages and air pockets are integrally formed in a lattice shape in the flooring panel, and hot water is caused to flow through passage joints so as to effectively perform cooling and heating. By forming air pockets, heat-insulation effects can be achieved, and noise between the floors of a building, which causes problems between the floors of a building, can also be reduced. The passage joints are formed into two different types, and screw threads are formed opposite one another, so as to enable two sheets of panels to be coupled together or separated using one nut, thereby minimizing the risk of leakage. A concavo-convex coupling structure is formed for coupling one panel to another, and a drill bit groove is formed in a recessed surface so as to enable the panel to be fixed to a plywood board thereunder using a drill bit, such that assembly and construction can be simply and quickly carried out, thereby significantly reducing costs.

Description

Air pocket type hot water flooring panel

The present invention relates to a hot water floor panel system. Up to now, the floor heating in the room has been heated by heating up the bulbs and burning firewood. Now, most of the floor heating is done by cement mortar, pipe excel pipe, and circulating hot water in the boiler.

This floor heating has a disadvantage in that the thermal efficiency is lowered due to the need to warm the cement mortar layer. At present, various technologies for floor heating are being developed. At the present time when Korea's only ondol culture is spreading around the world, it is important to develop products with good thermal efficiency, easy construction and low cost.

The development of flooring for ondol is in full swing when the ondol culture is spreading in Korea. Cement mortar and Excel pipe piping ondol has a problem in that the construction process is complicated, time-consuming and thermal efficiency is also low.

Flooring using flooring boards is also appearing, flooring made of pipes with excel pipes or bending iron plates on insulating materials is also appearing, and flooring using heat pipes is also being introduced.

[Preceding technical literature]

[Patent Documents]

(Patent Document 1) Korean Patent: No. 10-0712826

[Revision under Rule 91 06.06.2012]
In the floating panel, it is necessary to make a plurality of flow paths to become hot water passages, and to increase the thermal efficiency by making a panel having a heat insulation effect and a sound insulation effect to block heat flowing to the floor.

There is a need for a joint connection structure of the panel to prevent lifting from the floor, which is a drawback when constructing the panel, and an effective and easy fixing method. Existing products require a lot of effort and time to frame and level the floor with wood, etc.

The hot water circulation connection passage connecting the panel should be made. The one-touch connection structure that is easy to be combined with the panel should be made to reduce the risk of leakage by reducing the connection part that can be leaked.

The present invention is made by extruding the resin, such as ABS, PP, PVC into an extrusion mold of the floating panel, to make a separate air pocket in the lower portion of the flow path in order to prevent heat transfer to the bottom with the flow path for the circulation of hot water. The hole is sealed when the flow path joint is attached to the panel, so that the insulation noise and the interlayer noise can be reduced.

The joints to prevent the panel from lifting up are made in the form of unevenness, widen the lower part of the uneven part, and secure the piece to the floor plywood so that the panel does not lift.

The lower part of the resin panel is bonded to a plywood with a heat reflecting film of aluminum foil or silver foil to minimize heat consumption, and the resin panel is fixed to the plywood by a piece so as not to be lifted. The lower part should be insulated to prevent heat from dissipating to the floor as much as possible.

The flow joint connecting the panel to the panel should be made into two types with different left and right sides, and the screw is different in direction to tighten or loosen the two flow joints with one nut to reduce or reduce the coupling area that can be leaked. do.

A silicone packing is made between the threads joining the two flow path joints to prevent leakage.

Air pocket type hot water floating panel according to the present invention can maximize the thermal efficiency due to the insulation effect to the floor by making the air pocket with the flow path.

Compared to cement mortar excel pipe, energy consumption is reduced by about 50 ~ 60%, and energy cost can be minimized by rapid heating, and air pockets can reduce the damage of interlayer noise.

It is easy to install, saves time and saves money.

1 is a perspective view of a coupling of the flow panel 100 and the flow path joint 300 and the fixing piece 106 is provided with a plurality of grid-like flow paths and air pockets,

2 is provided with a plurality of flow paths 101 and a plurality of air pockets 102 in the floating panel 100, a coupling portion 103. 104, a piece groove 105, and a fixing piece 106 for connection of the panel. ) Fastening structure diagram.

3 is a layout view and a coupling view of the heat reflecting film 202, the plywood 200, and the heat insulating material 201 installed at the bottom of the floating panel 100.

4 is a view illustrating a coupling position between the flow path joint structure 300 and the floating panel 100.

5 is a perspective view of two types of flow path joints 300 and a coupling nut 400 in which the directions of threads 1 and 2 of the flow path joint 300 are different.

FIG. 6 is a view illustrating a coupling state of a flow path joint 300 and a flow path joint 300 and a direction of a thread. FIG.

7 is a layout view of the hot water circulation circuit and the flow path joint 300.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a structure in which the flow path joint 300 is bonded to the floating panel 100, and the flow path joint 300 of the next panel is connected to one nut 400, and the coupling part 103 is a piece 105. It is a structure fixed to the plywood 200 below.

In the coupling portion 103 of the floating panel 100, a piece groove 105 for drilling is made so that the drilling piece 106 can be fixed to the lower plywood 200 at an appropriate interval.

On the nut 400 connected to the two flow path joints 300, the plastic pipes are covered with a c-shaped plastic or metal plate finishing material 500 to finish.

2 is a structural diagram of the floating panel 100. The flooring panel 100 is made by extrusion molding of a resin such as ABS, PVC, AS. In the floating panel 100, a plurality of flow paths 101 are formed in a lattice shape to circulate hot water, cold water, brine, refrigerant, and the like to obtain a cooling and heating effect. Downwards, a plurality of air pockets 102 are gridded for insulation and noise.

In order to join the plurality of floating panels 100, the

coupling portions

103 and 104 are formed in an uneven form so that the floating panel 100 is firmly coupled, and the lower portion of the concave coupling portion 103 is made wide to make a piece groove. 105 is made and fixed to the plywood 200 at regular intervals with the drilling piece 106 to prevent the floating panel 100 from lifting.

As shown in FIG. 3, a heat reflecting film 202 (aluminum foil, silver foil) for thermal insulation is adhered to the plywood 200 to reflect the heat rays coming from the floating panel 100 in the form of a hot wire at the bottom of the floating panel. To get.

Arrange the plywood 200 under the heat reflecting film 201 to fix the floating panel 100 to the piece 106, and add a heat insulator 201 at the bottom to obtain the maximum heat insulation effect, and Cost saving by quick construction.

4 is a structural diagram of the flow path unit 300 bonded to the flow path 101 of the floating panel 100. The flow path unit 300 has a screw 301 formed on one side and a side flow path 302 formed on the side. The side fixing projections 303 are formed at both sides to control the position at the time of bonding the floating panel 100 to the side so as to be fixed to the channel 101 so as to be ultrasonically bonded to a predetermined position.

The material of the flow path unit 300 is manufactured by injection molding with the same material as the floating panel 100 so that ultrasonic welding with the floating panel 100 can be performed well.

The side flow path 302 of the flow path unit 100 is formed to pass through the plurality of flow paths 101, and the lower portion of the air pocket 102 is adhered to be sealed to prevent the penetration of moisture and to increase the insulation effect and noise effect. .

The flow path unit 300 of FIG. 5 allows the nut 301 to be combined and disassembled as shown in FIG. 6 when the flow path unit 100 is coupled to each other by changing the direction of the screws 301.

Directions of the threads 301 of the first and second flow path units 300 should be made to be different from each other as shown in FIG. 5. When the nut 400 is rotated in one direction, the two flow path units 300 may be pulled together to be coupled to each other, and on the contrary, the two are loosened and disassembled from each other.

Since the two panels of the floating panel 100 are simply combined with one nut 400, the risk of leakage can be reduced and the assembly construction can be simplified.

7 is an arrangement diagram of Nos. 1 and 2 of the hot water circulation circuit and the flow path unit 300.

It is easy to install, saves time and saves money.

Claims

[Revision under Rule 91 06.06.2012]
It is made by extrusion molding the floating panel 100 with resin such as ABS, PVC, PP, and a plurality of flow paths 101 and a plurality of air pockets 102 are integrally formed, and the flow path joint 300 is bonded by ultrasonic welding. And air pocket type hot water floating panel, characterized in that the next panel and the hot water circuit is connected by the flow path joint (300).
[Revision under Rule 91 06.06.2012]
Coupling portions (103, 104) of the floating panel 100 in the form of concave-convex shape and the portion of the coupling portion 103 is made wide to make a piece groove 105 to the plywood 200 and the heat insulating material (201) Air pocket type hot water flooring panel
[Revision under Rule 91 06.06.2012]
The flow path joint 300 is made of two kinds of threads having different thread directions as shown in 1 and 2 of FIG. 5, and the flow path joints 300 and 1 having a different thread are used for the two panels 100. The air pocket type hot water floating panel having a structure that can be assembled or disassembled by combining two welded flow path joints 300 with one nut 400 as shown in FIG. 6.
[Revision under Rule 91 06.06.2012]
The air pocket type hot water floating panel according to claim 1, wherein the plurality of flow paths 101 and the plurality of air pockets 102 are formed integrally by extrusion molding under the flow path 101 in a lattice shape.