KR101004649B1 - Plywood floor assembly - Google Patents

Abstract

PURPOSE: A hypocaust floor assembly is provided to increase warm-keeping effect and the efficiency of heat transfer and to reduce noise between stories by increment in impact absorption rate. CONSTITUTION: A hypocaust floor assembly(100) comprises a first synthesis resin film(110), an expansion sheet(120), a second synthetic resin film(130), and a hypocaust floor(140). The first synthesis resin film is composed of a first synthesis resin base layer(110a) and a first metal film layer(110b). The first synthesis resin film is replaced on the concrete floor so that the first metal film layer can contact the concrete floor(B1). The first synthesis resin film transfers the heat of the concrete floor upward to the hypocaust floor. The expansion sheet is welded with the first synthesis resin base layer of the first synthesis resin film. The expansion sheet has multiple air holes(121). The air hole shuts up air(A1) to transfer heat transferred from the first synthesis resin film. The second synthetic resin film is composed of a second synthetic resin base layer(130a) and a second metal film layer(130b).

Description

Ondol Floor Assembly {Plywood Floor Assembly}

The present invention relates to an ondol floor assembly, and more particularly, to an ondol floor assembly suitable for increasing heat transfer efficiency, maintaining a warming effect, and reducing interlayer noise.

In general, wooden floors are used as finishing materials in residential spaces, including living rooms for homes.

Figure 1 shows the state of use of the ondol floor 13 according to the prior art.

Looking at the process of construction of the ondol floor 13 according to the prior art, as shown in Figure 1, to block the moisture rising from the concrete floor (B1) PE (polyethylene) vinyl (11) concrete floor (B1) ), The foam sheet 12 for thermal insulation is laid on the PE vinyl 11, and finally, the ondol floor 13, which is wood floor, is sequentially laid on the foam sheet 12, and the construction is completed.

At this time, the PE vinyl 11 and the foam sheet 12 may be constructed by changing the order.

And, the ondol floor 13 is bonded to the foam sheet 120 using an adhesive such as an epoxy bond.

However, the ondol floor structure according to the prior art as described above has the following problems.

First, a heating pipe (not shown) is embedded in the concrete floor (B1), because the heat of the heating pipe is blocked by the foam sheet 12 in the process of being transferred to the ondol floor 13 through the concrete floor (B1) for heating There was a problem that the heat transfer of heat is not good.

Second, the foam sheet 12 is responsible for the shock absorption function for preventing the noise between the layers in addition to the thermal insulation function, but the foam sheet 12 alone has not solved the problem of interlayer noise due to the weak interlayer noise prevention function.

The present invention was created to solve the problems of the prior art as described above, the object of the ondol floor assembly according to the present invention,

First, by bonding a synthetic resin film deposited with a metal film layer on the top and bottom of the foam sheet, and forming a plurality of air holes so that air is trapped in the foam sheet in order to smoothly transfer the heat between the synthetic resin film, heat for heating the concrete floor To increase the efficiency delivered to the ondol floor,

Second, by trapping air in a plurality of air balls formed in the foam sheet to increase the thermal insulation effect,

Third, to provide an ondol floor assembly suitable for reducing the noise between the floor by increasing the absorption rate for the impact acting on the stone floor by forming an air layer by the air contained in the air ball of the foam sheet.

Ondol floor assembly of the present invention for achieving the above object, Ondol floor installed on the concrete floor of the building: a first synthetic resin substrate layer and the first metal film layer formed on one surface of the first synthetic resin substrate layer A first synthetic resin film placed on the concrete floor such that the first metal film layer is in contact with the concrete floor to transfer the heat of the concrete floor upwardly with the ondol floor; A foam sheet bonded to the first synthetic resin substrate layer of the first synthetic resin film and having a plurality of air holes for trapping air for transferring heat transferred from the first synthetic resin film upward; And a second metal film layer formed on one surface of the second synthetic resin substrate layer and the second synthetic resin substrate layer, and the second synthetic resin substrate layer is bonded to the upper surface of the foam sheet to upwardly heat the air in the air hole. A second synthetic resin film to deliver; And an ondol floor bonded to the second metal film layer of the second synthetic resin film.

Ondol floor assembly of the present invention having the configuration as described above has the following effects.

First, each of the synthetic resin film is bonded to the top and bottom of the foam sheet, and by forming a plurality of air balls so that air is trapped in the foam sheet in order to transfer the heat between the synthetic resin film smoothly, the heat for heating the concrete floor is transferred to the ondol floor There is an effect that can increase the efficiency.

Second, there is an effect that can increase the thermal insulation effect by trapping air in a plurality of air balls formed in the foam sheet.

Third, there is an effect that can reduce the noise between the floor by increasing the absorption rate for the impact acting on the floor by the air contained in the air ball of the foam sheet.

Next will be described in detail with reference to the accompanying drawings, preferred embodiments of the present invention flooring assembly.

2 is a cross-sectional view of the ondol floor assembly 100 according to an embodiment of the present invention, Figure 3 is an exploded perspective view of FIG.

1 and 2, the ondol floor assembly 100 according to an embodiment of the present invention, in the ondol floor installed on the building concrete floor (B1), and the first synthetic resin substrate layer (110a) It is composed of a first metal film layer (110b) formed on one surface of the first synthetic resin substrate layer (110a) and the first metal film layer (110b) is placed on the concrete floor (B1) to abut the concrete floor (B1) Bonding the first synthetic resin film 110 and the first synthetic resin substrate layer 110a of the first synthetic resin film 110 to transfer the heat of the bottom (B1) on the side with the ondol floor 140 and the first 1 the foam sheet 120, the second synthetic resin base layer 130a and a plurality of air holes 121 for trapping the air (A1) for transferring the heat transferred from the synthetic resin film 110 upward; The second metal film layer 130b formed on one surface of the second synthetic resin base layer 130a. The second synthetic resin film layer 130 is bonded to the upper surface of the foam sheet 120 and the second synthetic resin film 130 to transfer the heat of the air (A1) in the air hole 121 upward And an ondol floor 140 bonded to the second metal film layer 130b of the second synthetic resin film 130.

According to the above configuration, the heating heat of the concrete floor (B1) is transferred to the first metal film layer (110b) having a high thermal conductivity, the heat of the first metal film layer (110b) is a very thin first synthetic resin substrate layer (110a). The air is transferred to the air A1 trapped in the plurality of air holes 121 formed in the foam sheet 120, and the heat transferred to the air A1 is again passed through the second synthetic resin substrate layer 130a having a very thin thickness. Since the thermal conductivity is transferred to the second metal film layer 130b having good thermal conductivity and finally transferred to the ondol floor 140, the overall heat transfer efficiency is increased.

In addition, there is an advantage that the thermal insulation effect of the ondol floor 140 is increased by the air A1 present in the plurality of air holes 121 formed in the foam sheet 120.

In addition, even if an impact is applied to the ondol floor 140 by the air A1 provided in the air ball 121 of the foam sheet 120, the impact is generated at a high rate of air A1 in the air ball 121. Since it absorbs, there is an advantage that can reduce the noise between the layers.

In the ondol floor assembly 100 according to an embodiment of the present invention, the foam sheet 120 is the first synthetic resin substrate layer 110a and the second synthetic resin film 130 of the first synthetic resin film 110 It is characterized in that each of the second synthetic resin substrate layer 130a is bonded by thermal fusion.

According to the above configuration, since the first and second synthetic resin base layers 110a and 130a and the foam sheet 120 closely contact each other, the air A1 of the air ball 121 is semi-permanently stored without leaking. There is an advantage that can be.

In the ondol floor assembly 100 according to an embodiment of the present invention, the first and second metal film layers 110b and 130b may be formed of one selected from silver, copper, and aluminum.

The metal film layers 110b and 130b may be formed by depositing the synthetic resin substrate layers 110a and 130a by any one selected from among silver, copper and aluminum.

Accordingly, the metal film layers 110b and 130b are formed of any one of a silver film layer deposited with silver, a copper film layer deposited with copper, and an aluminum film layer deposited with aluminum.

In the ondol floor assembly 100 according to an embodiment of the present invention, the ondol floor 140 is bonded to the second metal film layer 130b of the second synthetic resin film 130 by an adhesive. .

The following describes the operation of the ondol floor assembly 100 of the present invention having the configuration as described above.

First, explain the process of construction.

4 is a process diagram for constructing an ondol floor assembly according to an embodiment of the present invention.

As shown in FIG. 4, the first synthetic resin film 110 is laid on the concrete floor B1 (S410), and the first synthetic resin base layer 110 a and the plurality of air holes 121 of the first synthetic resin film 110 are disposed. ) Is bonded to the lower surface of the foam sheet 120 is formed to bond the first synthetic resin film 110 to the foam sheet 120 (S412), the second synthetic resin substrate layer 130a of the second synthetic resin film 130 And the upper surface of the foam sheet 120 to bond the second synthetic resin film 130 to the foam sheet 120 (S414), and finally to the second metal film layer 130b of the second synthetic resin film 130 When the bottom surface of the ondol floor 140 is bonded with an adhesive such as epoxy bond, the construction is completed.

Next, the heat transfer action will be described.

The heating heat of the concrete floor B1 is transferred to the first metal film layer 110b having a high thermal conductivity, and the heat of the first metal film layer 110b is transferred to the air A1 in the plurality of air holes 121. The heat transferred to (A1) is transferred to the first metal film layer 110b having good thermal conductivity and finally transferred to the ondol floor 140, so that the overall heat transfer efficiency is very high.

Next, the thermal insulation action of the ondol floor assembly 100 according to the present invention will be described.

Since the air A1 present in the plurality of air balls 121 formed in the foam sheet 120 has a relatively high specific heat, the air A1 of the air balls 121 has heat for a long time. The thermal insulation effect of the floor 140 is increased.

Finally, the interlayer noise prevention action is described.

The external impact acting on the floor dolma 140 is simultaneously delivered to the air (A1) in the foam sheet and the air ball 121, since the air (A1) absorbs the impact even better than the foam sheet 120 As a result, the interlayer noise can be reduced as compared with the conventional art.

The above embodiments of the present invention are merely one embodiment of the technical idea of the present invention, and of course, other modifications can be made within the technical idea of the present invention by those skilled in the art.

1 is a state diagram of use of ondol floor according to the prior art.

2 is a cross-sectional view of the ondol floor assembly according to an embodiment of the present invention.

3 is an exploded perspective view of FIG. 2.

4 is a process chart for constructing an ondol floor assembly according to an embodiment of the present invention.

          Explanation of symbols on the main parts of the drawings

100; Ondol floor assembly according to the present invention

110; First synthetic resin film 110a; First synthetic resin base layer

110b; First metal film layer 120; Foam Sheet

121; Air ball A1; air

130; Second synthetic resin film 130a; Second synthetic resin base layer

130b; Second metal film layer 140; Ondol floor

B1; Building concrete floor

Claims (4)

On-floor floor installed on building concrete floor (B1): It consists of a first synthetic resin substrate layer 110a and a first metal film layer 110b formed on one surface of the first synthetic resin substrate layer 110a, the first metal film layer 110b abuts on the concrete floor B1. The first synthetic resin film 110 is placed on the concrete floor (B1) so as to transfer the heat of the concrete floor (B1) to the upper side with the ondol floor 140; An air ball 121 bonded to the first synthetic resin substrate layer 110a of the first synthetic resin film 110 and confining air A1 for transferring upward the heat transferred from the first synthetic resin film 110. Foam sheet 120 is a plurality of perforated; The second synthetic resin substrate layer 130a and the second metal film layer 130b formed on one surface of the second synthetic resin substrate layer 130a, and the second synthetic resin substrate layer 130a is the foam sheet 120 The second synthetic resin film 130 is bonded to the upper surface of the transfer the heat of the air (A1) in the air hole 121 upwards; It comprises a ondol floor 140 to be bonded to the second metal film layer 130b of the second synthetic resin film 130, The foam sheet 120 is bonded to the first synthetic resin substrate layer 110a and the second synthetic resin substrate layer 130a by thermal fusion, respectively. The first and second metal film layers (110b, 130b) ondol floor assembly, characterized in that formed of one selected from silver, copper, aluminum. delete delete The method according to claim 1, The ondol floor 140 is an ondol floor assembly, characterized in that bonded to the second metal film layer (130b) of the second synthetic resin film 130 by an adhesive.

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