KR20140112464A - Home is equipped with piping hot water floor heating Panel noise insulation pocket - Google Patents

Abstract

In a floor heating panel having a groove for laying a pipe and a pocket for isolating noise, the floor heating panel includes a U-turn base (60) which automatically forms a groove (21) for U-turning of the pipe at an outer side when panels are assembled, a rubber seal (40) which is inserted to the floor heating panel (10) to prevent liquid such as water and urine of a pet or foreign substances from permeating into the lower part of the floor heating panel through a gap between panels, and which provides a waterproofing effect and noise isolation effect by the resilience of the rubber seal (40) making tight contact at the time of assembling the floor heating panels, and a rubber pad which is applied at the cross section of an extruded side of the floor heating panel (10) and which has a proper thickness to achieve a waterproofing effect and noise isolation effect and to counteract the effects of shrinkage and expansion of the floor heating panel (10). A groove (21) for laying a pipe is formed at the extended portion to make a hose (30) U-turned from the U-turn base (60) be inserted to the groove. The U-turn base (60) has an incised opening (66) for laying the hose in a U shape so that the hose (30) is laid from the bottom surface to the upper surface of the floor heating panel. Since the U-turn base (60) is bi-directional, one U-turn base (60) can be used, rather than using two unidirectional U-turn bases.

Description

Noise insulation pocket with piping groove Hot-water ondol panel. {Home is equipped with piping hot water floor heating Panel noise insulation pocket}

The present invention relates to a sound insulation effect that can reduce interlayer noise and a noise insulation effect with a piping groove capable of simultaneous heating and water heating simultaneously with a structure in which a wiring groove for hose piping is automatically provided at the time of assembly, Panel. " Sound insulation flooring materials have been developed as the interlayer noise has become a social issue, but the effects are insufficient even when the construction is necessary or the cost is high.

The floor heating of the room has heated floors, heating the oven to raise the temperature, and now most of them have the wet floor heating, which pipes the XL pipes, makes the ointol with cement mortar and circulates the hot water in the boiler.

Such a wet floor heating has to heat the cement mortar layer, resulting in a reduction in thermal efficiency and a high heating cost. Various products for floor heating are being developed. At present, Korea's unique ondol culture is spreading to the world, it is important to develop flooring materials that have low floor noise, high thermal efficiency, easy construction and low cost.

As a result of the generalization of the apartment complex, the noise between the floors has become a social problem, and the neighboring parties have become disputes, so that the sound insulating materials and the noise flooring materials are being developed but the effect is still insignificant.

XL pipe piping and cement mortar wet ondol have many problems such as complicated construction, long time, low thermal efficiency.

Flooring materials using hot water flooding panels have also been introduced. These flooring materials provide energy savings of 50 to 60% compared to the wet ondol of XL pipe cement mortar. Flooring made by piping XL pipe on the insulation or bending an iron plate is also appearing.

Korean Patent No. 10-1039317 (hereinafter referred to as patent 1) Korean Patent: No. 10-1104013 (hereinafter referred to as patent 2) Korean Patent: No. 10-0712826 (hereinafter referred to as patent 3) Korean Patent No. 10-1235166 (hereinafter referred to as patent 4)

An effective structure capable of simultaneously obtaining a piping groove capable of accommodating a hose used as a channel for hot water, an effective noise structure for blocking interlayer noise, and an insulating effect for blocking heat flowing to the floor, Noise heat insulation pockets with hot water piping grooves and hot water ondol panels "should be made so that the noise effect and thermal efficiency can be increased at the same time and assembled easily.

It is effective and easy to construct the panel joining structure to prevent the float on the floor, which is a drawback of panel construction, so that it is easy to construct. Conventional products required a lot of effort and time to frame and level the floor.

In the hot water circulation channel that connects the panel and the panel, the risk of leaking should be minimized by minimizing the amount of leaking connections.

The room or space in which the panel is to be installed should be easy to install in a room that is not square, inclined or angled.

In the present invention, a plurality of quadrangular or polygonal noise insulating pockets are formed on a panel for a noise structure for effectively reducing the interlayer noise of the apartment, which is a social problem,

For the noise effect, many W type mountains and bones are made by slope of the pocket, so that the sound wave is diffused from the W type mountain and the bony, and the sound wave is annihilated so that the noise is maximized.

Such a structure does not employ all of the cited patents 1, 2, 3, and 4, and is a breakthrough structure in which even the concepts can not be found.

In order to use a one-line hose as a channel for hot water heating, a piping groove capable of housing a hose integral with the panel is formed integrally with the extension of the panel,

The wiring grooves are automatically formed on the outside at the time of assembling the panel, so that the assembling is easy and the coupling force is strong.

In patent 2, 3, and 4 there is no XL pipe or hose plumbing groove on panel.

In the present invention, as in Patent References 2, 3 and 4, the hoses are housed in the panel by using ultrasonic welding of the channel joints to the panel,

In the present invention, the hose is inserted into the piping grooves of the panel and the panel, so that the flow rate of the circulation flow in the circulation flow path It is intended to be used as a one-line flow path to eliminate the inherent risk of leakage.

In the case of patent reference 1, although the flow path is a circle line, the panel is composed of two sheets of a top plate and a bottom plate for piping, so that there are many differences in production cost, difficulty in assembling, construction cost, and thermal efficiency.

Patent Reference 1 discloses that noise insulation pockets and piping grooves and couplings that are automatically provided at the time of assembly are not integrally formed in one panel, and there are many differences in structure and efficiency from the panel of the present invention have.

In order to prevent the panel from being lifted from the floor, it is necessary to install a rigid heat-reflective insulation under the panel, to join the subsequent panel to the joint, and to insert into the slit of the floor with one nail or piece per panel Fix it.

Patent No. 1 and No. 2 do not have a patent, and Patent No. 2 and 4 have a long length of one panel, so it is necessary to put a lot of nails or pieces. As a result, there is a fatal problem that cracks and a beeping noise occurs during expansion and contraction .

Depending on the length and width of the panel, the spacing between the panel and the panel during assembly should be carefully considered.

In the case of repairing and repairing the panel, the method of fitting the panel such as the patent reference 2 has a problem that the panel of the room must be completely dismantled from the beginning.

In the present invention, the panel is pushed from above, and the panel is fixedly coupled by the three coupling projections, so that only the parts requiring repair are removed at the time of repair and maintenance, so that maintenance can be made easier.

The length of the panel is cut to a certain size as required, and when the coating or the nosquatch film is wrapped, a separate interior such as a long plate is not necessary, so there is no additional cost and the cost is reduced. It is convenient and easy to store materials.

It is fundamentally different from the patents 2, 3, and 4 that cut the length of the panel according to the size of the room and weld the Euro joints by ultrasonic welding.

According to the present invention, since the noise between rooms in a house is reduced, disputes between neighbors are reduced, a quiet and pleasant residential environment is achieved,

The effect of two panels on one panel and the piping grooves are automatically installed on the outside at the time of construction, dramatically speeding up the construction and shortening the time, thereby reducing the cost and reducing the cost of cement mortar XL pipe wet ondol 50 ~ 60% energy saving compared to the previous year.

[Figure 1] FIG. 6 is a perspective view of a panel according to the present invention; FIG.
[Figure 2] Sectional view of the extruded side of the panel.
FIG. 3 is a view showing a coupling structure and a coupling example of the panel. FIG.
[Figure 4] Ondol assembly structure of panel.
[Figure 5] Side view of the U-turn base corresponding to the panel
FIG. 6 is an illustration of a process of joining the side of the U-turn base.
[Figure 7] U-turn base-to-side joint assembly.
[Figure 8] Top view of U-turn base.
[Figure 9] U-turn base.
[Fig. 10] U-turn base piping process diagram (1).
[Fig. 11] Diagram of the completion state of the piping of the U-turn base (2).
12] U-turn-based bidirectional piping example (4).
[Fig. 13] Fig.
[Fig. 14] FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a perspective view of the panel 10. Fig. The panel 10 is provided with coupling projections 11, 14, 17 and 19 and noise insulating pockets 12, noise projections 13, a flow path hose 30, a sealing rubber 40, A piece groove 18, a pipe groove 21, an extension portion 22, and a hose accommodating groove 23 are integrally formed.

The panel 10 is made of an extrusion die, and the material thereof is extruded and made of resin such as ABS or PVC. The panel 10 may be cut to a predetermined size of a rectangular shape, and an upper portion of the panel 10 may be wrapped with an environment-friendly non-scratch film having a pattern and a color as required.

Four coupling protrusions 11, 14, 17 and 19 are formed in the panel 10 to provide a strong coupling force when the panel 10 and the panel 10 are assembled.

2 is a side sectional view of the extrusion die. A coupling protrusion 11 descending from the upper portion is formed on the left side of the panel 10 and used for assembly. A coupling protrusion 14 descending from the upper portion is formed in the center portion in a direction opposite to the coupling protrusion 11, 22, the two coupling protrusions 17, 19 corresponding thereto are formed in the upward direction, and are coupled at four places, so that they are assembled with strong coupling force.

At the center of the right extension 22 is formed a piece groove 18 which is formed by a nail 20 in the central part of the panel 10 or a slab 51 As shown in Fig.

Attention should be paid to the expansion and contraction of the panel 10 when assembled. When one or more nails 20 or pieces are put on one panel 10, there is no space for expansion and contraction, so that cracks are generated in the panel 10 or a lethal noise is generated which causes a beep.

Since it is problematic to insert one or more nails 20 or pieces while using the panel 10 for a long period of time, it is preferable to fix the panel 10 with a single nail 20 or piece by appropriately shortening it.

A hose housing groove 23 is formed in the central portion of the panel 10 to accommodate the hose 11 to be used as a flow path and a heat transfer protrusion (15) is formed thicker on the upper side of the hose accommodating groove (23) so that heat transfer to the upper part is performed well.

A noise insulating pocket 12 is formed on the right and left sides of the hose accommodating groove 23. In order to enhance the sound insulation effect, a grid-like structure is formed. Inside the hose accommodating groove 23, a noise projection 13 protruding with a sharp W- And thus serves as a noise effect and an insulation for heat shielding downward. It can be made of polygons in addition to rectangles. The noise insulating pocket 12 has two purposes of reducing the interlayer noise and insulating space for energy saving.

The hose 30 is inserted into the piping groove 21 of the panel 10 to form a one-line flow path and a plurality of connecting portions connecting the panel 10 and the panel 10 are eliminated, Of the risk.

In order to prevent liquid or foreign matter from being poured into the space between the panel 10 and the panel 10 due to water or urine of the pet dog when the subsequent panel is engaged, And the sealing rubber 40 is wired to adhere to the panel 10 by the elastic force of the sealing rubber 40 at the time of joining of the panel 10 to achieve a waterproof effect and a soundproof effect at the same time. A rubber pad having an appropriate thickness is cut and adhered to the extruded side end surface of the panel 10 as shown in the sectional view on the extruded side of FIG. 2 to maximize the waterproofing and soundproofing effect and to cope with the contraction and expansion of the panel.

A piece groove 18 for preventing lifting of the panel is formed in the extension portion 22 extending to the right from the right coupling projection 17 so as to be fixed to the slab 51 with nails 20 or pieces .

The coupling protrusions 19 and the pipe grooves 21 are integrally formed in the extended portion 22 of the panel 10 and the piping grooves 21 are automatically provided at the time of assembling the panel to form the U- So that the hose 30 can be inserted. Two panels can be produced with one panel without forming the panel 10 into two pieces. It is a breakthrough method that can be easily and quickly assembled.

3 shows a state in which the hose 30 is inserted into the pipe groove 21, and the state of the sealing rubber 40 and the state of engagement of the engaging projection 17.

4 is an assembled state in which the heat insulating material 50 is fixed to the bottom of the slab 51 by a fixing nail 20 or a piece.

5 is a side cross-sectional view of the U-turn base 60 corresponding to the extrusion panel 10. Fig. The U-turn base 60 is made of an injection mold. Further, the fixing protrusion 63 is formed, which is necessary for adjusting and fixing the position with respect to the panel 10.

6 is a diagram illustrating a state in which the U-turn base 60 is coupled to the U-turn base 60 in a side-by-side fitting manner, not in a top fitting structure. Since the injection molds 11, 14, 17 and 19 can not be formed as the injection molds, the side fitting method is adopted.

7 is a state in which the U-turn base 60 is joined to the subsequent U-turn base 60 in a side fitting manner.

8 is a top view of the U-turn base 60. FIG. A cutout 66 for a U-turn pipe of the hose 30 is formed so that the hose 30 is turned from the bottom to the top. The cutout 66 is formed on both sides to utilize one U-turn base 60 on both sides without making two molds.

When the subsequent U-turn base 60 is assembled, the cut-out paper 66 is covered from above and becomes invisible. Further, fixing projections 63 for fixing the position are formed on both sides so as to be fitted and fixed in the space of the corresponding noise insulating pockets 12 of the extrusion panel 10. [

9 is a bottom view of the U-turn base 60, showing a cutout 66 and forceps 64. As shown in Fig.

10 is a top view of the U-turn base 60. It is a preparation diagram for returning the hose 30 from the bottom surface to the upper surface of the U-turn base through the cutout 66 and piping.

11 is a state in which the U-turn base 60 is U-turned upward through the cutout 66 and is piped. In this state, when the hose is inserted into the pipe groove 21 of the panel 10 and the hose is exposed to the outside, when the subsequent panel 10 is joined, the hose 30 is covered and becomes invisible, A new piping groove 21 is provided.

Fig. 12 is a top view of the U-turn base 60, which is U-turned both sides through the cutout 66. Fig. This is an example of a case where panels are assembled in both directions at the same time.

Fig. 13 is an illustration of a hose 30 piping circuit of the panel 10. Fig. The panels should be arranged in a lattice to strengthen the bonding force.

Fig. 14 is an illustration of a grid-like joining state of a panel. Fig.

10: Panel. 11: coupling protrusion. 12: Noise insulation pockets. 13: Noise protrusion. 14: coupling protrusion. 15: Thermal convection. 16: Multistage coupling chin. 17: Coupling protrusion. 18: Peace home. 19: Coupling projections. 20: Nails. 21: Piping groove. 22: Extension. 23: Hose storage groove. 30: Hose. 40: Sealing rubber. 50: Heat reflective insulation. 51: Slabs. 60: U turn base. 61: Multiple chin. 62: Bottom coupling protrusion. 63: Fixing projection. 64. Powerfulness. 65: Powerfulness. 66: incision.

Claims (4)

(10) is provided with a loud noise insulating pockets (12) and noise projections (13) reinforced with noise and heat insulation effect, and a sound insulation panel The sealing rubber 40 of the one-line channel hose 30 and the multistage coupling jaw 16 for waterproof soundproofing and the rubber pads and the pipe grooves 21 provided in the external extension portion 22 at the time of assembling are integrally formed Characterized in that a U-turn base (60) is formed on one panel (10) with the U-turn of the hose (30) and the hose (30) Pocket hot water all panel. " The multi-stage joining method according to claim 1, wherein the multi-stage joining jaw (16) is provided with a joining jaw (16) for preventing liquids or foreign substances from being poured into the gap between the panels (10) A rubber pad having an appropriate thickness is formed on the extruded side end face of the panel 10 so as to achieve a soundproof effect simultaneously with the waterproof effect of the panel 10 by inserting the sealing rubber 40 into the multi- The panel 10 is cut and adhered and assembled as shown in the sectional view on the extruded side to maximize the waterproof and soundproof effect and to cope with the expansion and contraction of the panel 10. FIG. The piping system according to claim 1, wherein the piping grooves (21) are formed integrally with the extension portions (22) so that the effect of two upper and lower plates can be obtained with one panel, Is provided in the outer extension portion 22 so as to allow the hose 30 to rotate around the U-turn base 60 so that the piping groove 21 can be easily and economically constructed Wherein the sound insulation panel is automatically provided with a sound insulation panel. The U-turn base (60) of claim 1, wherein the U-turn base (60) is made of an injection molding die and the cutter (66) for the U-turn pipe of the hose (30) is formed so that the hose The cutout 66 and the fixing protrusion 63 for adjusting the position are formed on both sides so that one U-turn base 60 can be utilized in both directions, and the piping groove The hose 30 and the cutout 66 are not covered while the U-turn base 60 is provided with the new pipe grooves 21 "Noise insulation pocket warm water ondol panel provided with a back plate groove."

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