KR20150094126A - A heating device - Google Patents

Abstract

The present invention relates to a heating device with noiseproof features between floors to stably transmit heat to an indoor floor by uniformly diffusing and absorbing the heat with the minimal loss of the heat, to improve heating efficiency by preventing the heat loss to a slab, and to reduce and minimize noise transmission between floors by absorbing impact, vibration, and noise transmitted to the slab from an indoor floor. The heating device with noiseproof features between floors includes a heating unit to heat the indoor floor with hot water; and a noise reduction unit for minimizing the transmission of impact and vibration to a lower floor through the slab to reduce noise transmission between floors.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heating device having an interlayer noise-

The present invention relates to a heating device having an interlayer noise prevention function, and more particularly, to an improved heating device having a function of reducing interlayer noise while heating the interior of a multi- Quot;

Generally, in a multi-family house such as a single-family house or an apartment, a floor heating is used to heat the floor by heating the floor. Such a heating system is a method in which a hot- The indoor temperature is maintained at a predetermined temperature by reheating the hot water or by supplying the supplied hot water again. In this way, the hot water heated by the heating device such as a boiler is heated to the inside of the hot water pipe.

When the room temperature is maintained at the set temperature for a long time, the number of times of reheating the hot water in the heating device such as a boiler is reduced. On the other hand, when the room temperature is not maintained at the set temperature, The amount of energy that must be input for hot water heating and hot water supply is increased because it must be reheated to the floor.

In recent years, heating efficiency has been satisfied with the development of technology. However, as the interlayer noise has become a social problem, efforts have been made to reduce the interlayer noise along with the heating function.

The technical construction of a conventional heating apparatus to which the conventional technology is applied will be described with reference to FIG.

The heating device 1 of the related art has a heat insulating layer 10 provided on the bottom of the slab and a heat conductive layer 20 on the upper surface of the heat insulating layer 10, 30 are stacked.

A hot water pipe 40 is provided between the heat insulating layer 10 and the thermally conductive layer 20 and a hollow 51 is formed between the heat insulating layer 10 and the thermally conductive layer 20, (50) filled with air into the air discharge pipe (51) and delaying and discharging heat supplied through the hot water pipe (40), and the air discharge hole association (50) The inner tube and the inner tube are configured as an outer tube that accommodates the inner tube to save energy.

Patent Application No. 10 - 2007 - 0032726 Registered Utility Model No. 20 - 0404351 - 0000 Patent No. 10 - 0769416 - 0000 Patent No. 10 - 1311010 - 0000

As described above, the general heating apparatus to which the conventional technique is applied has a heat insulating layer provided below the hot water pipe, but it is generally a heat insulating layer that is typically used when heating the floor of the building, There is no function of reducing the interlayer noise by the heat insulating layer.

In addition, conventional conventional heating apparatuses are provided with means for maximizing the heating efficiency. As mentioned above, there is a content to increase the heating performance by further installing a heat-releasing association, However, there is no technical content to prevent the interlayer noise.

For this reason, in multi-family houses such as apartments, many households are living in multi-storey spaces, and noise caused by daily life such as cleaning, children's beating behavior, adult walking with heel, falling objects, Since the amplitude is increased and transmitted to the lower layer, there are many problems due to noise.

In order to solve this problem, it is possible to live in a floor with a buffer mat. However, since the noise can not be reduced, the fundamental problem can not be solved. In the process of constructing the building, Thin ones are also an important cause of the interlayer noise, and thus they are not helping to solve the original problems.

In order to solve the above problems, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a heating device for heating a floor of a room by hot water and a floor heating device for absorbing impacts or vibrations transmitted to a slab, Noise reduction means for noise reduction;

It minimizes the heat loss and minimizes heat loss while absorbing and spreading the heat evenly. It can be transferred to the floor of the room in a stable manner and prevented from being lost to the slab, thus improving the heating efficiency and absorbing shock, vibration and noise transmitted through the floor to the slab So that it is possible to achieve the object of reducing the interlayer noise by minimizing the noise.

In the present invention, a means for reducing the interlayer noise while applying a heating device to the floor of a building is further improved, thereby solving the problem caused by the interlayer noise of the house while improving the heating efficiency, thereby maintaining a pleasant indoor environment of the house And the like.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a heating apparatus having an interlayer noise prevention function to which the technology of the present invention is applied. Fig.
FIG. 2 is a cross-sectional view taken along the line A - A of FIG. 1 showing a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied.
3 is a cross-sectional view taken along the line B - B of FIG. 1 showing a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied.
FIG. 4 is a schematic view showing an important part showing a heating device having an interlayer noise prevention function to which the technique of the present invention is applied; FIG.
5 is a configuration diagram showing another example of a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied.
6 is a schematic view of a general heating device to which a conventional technique is applied.

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

FIG. 1 is a perspective view showing a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied, FIG. 2 is a sectional view taken along the line A - A of FIG. 2 showing a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied FIG. 3 is a cross-sectional view taken along the line B - B of FIG. 3 showing a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied, and FIG. 4 is a schematic view showing an important part showing a heating apparatus having an interlayer noise- Fig. 5 is a block diagram showing another example of a heating apparatus having an interlayer noise prevention function to which the technique of the present invention is applied.

The heating apparatus 100 having an interlayer noise prevention function to which the technique of the present invention is applied includes a heating means 101 for heating the floor of the room with hot water and a heating means 101 for absorbing impacts or vibrations transmitted to the slabs, And noise reduction means 102 for minimizing the interlayer noise.

The heating means 101 is arranged such that angles 105 made of metal or non-ferrous metal material having a roughly A shape and excellent in thermal conduction and diffusion are equally spaced on the slab 107 in accordance with the installation interval of the heating pipe 106 .

The vertical pipe 108 of the angle 105 is connected to the boiler and closely contacts the heating pipe 106 through which the heating water circulates, and is tightly fixed by a binding means such as a tie band or a wire.

A diffusion plate 110 made of a metal material or a nonferrous metal material having excellent thermal conductivity is closely attached to the horizontal portion 109 of the angle 105 and fixed to the angle 105 using a fixing means such as a screw or the like, do.

The heating pipe 106 is fixed so as to be directly connected to the vertical portion 108 of the angle 105 and the diffusion plate 110 so that the heating water circulating through the heating pipe 106 is diffused by the angle 105, So that it can be transmitted to the indoor floor 111 through the plate 110.

The high heat transferred from the heating pipe 106 is directly conducted to the floor 111 of the upper part of the diffusion plate 110 so as to prevent a safety accident in which users are burned, A heat absorbing plate 112 made of the same material as the plywood is fixed so as to be gradually transferred to the indoor floor 111 in order to increase thermal conductivity.

The noise reducing means 102 fixes the core member 120 serving as a skeleton to the vertical portion 108 of the angle 105 opposite to where the heating pipe 106 is fixed by welding or the like, A plurality of steel wires 121 are fixed to the bottom surface of the slabs 120 while maintaining equal spacing in a direction intersecting the angles 105 so that the slabs 107 can be maintained horizontal with respect to the slabs 107.

The core member 120 may have various shapes such as a shape in which the mountain shape is repeatedly repeated or a shape in which the concave-convex shape is repeated or the shape of the wave is repeated as shown in FIG. 5, Not to be limited.

The urethane foam 125 is injected into the space between the slab 107 and the diffusion plate 110, the angle 105 and the core member 120 to absorb shocks, vibration and noise transmitted from the floor 111 of the room So that heat required for heating can be prevented from being conducted to the slab 107. [

The core member 120 is further protruded downward from the angle 105 to support the heating means 101 and to prevent the urethane foam 125 from being conveyed from the indoor floor 111 while maintaining the shape thereof It is desirable to simultaneously perform the function of absorbing and buffering shock and vibration.

The use state of the heating apparatus 100 having the interlayer noise prevention function to which the technology of the present invention is applied will be described as follows.

The core member 120 is fixed to the angle 105 and then the steel wire 121 is fixed to the bottom surface of the core member 120 at right angles to the core member 120 at regular intervals to maintain the shape, 105, the heating pipe 106 is fixed and the slab 107 is placed.

It is a matter of course that the angle 105 fixing the heating pipe 106 is maintained in a horizontal state in this process. The diffusion plate 110 is fixed to the horizontal portion 109 of the angle 105, 110, the heat absorbing plate 112 is fixed.

In this state, the urethane foam 125 is injected into the space between the slab 107 and the diffusion plate 110, and then the floor of the room 100 is closed with the top surface of the heat absorbing plate 112 finished, Installation (construction) is completed.

When the heating pipe 106 is connected to the boiler and operates normally as if the boiler is operated, the heating water circulates through the heating pipe 106, and the heat of the heating water is transmitted through the angle 105 and the diffusion plate 110, The temperature of the entire diffusion plate 111 is increased, and the endothermic plate 112 fixed to the upper side of the diffusion plate 110 is again transmitted.

The heat received by the heat absorbing plate 112 can be heated through the indoor floor 111 and prevented from being overheated by the high temperature directly transmitted to the indoor floor 111 through the diffusion plate 111 Even if the temperature of the heating water is lowered, the heat is radiated to the floor 111 of the room while the heat absorbing plate 112 absorbs heat, so that the heating can be performed at a uniform temperature.

Since the shock, vibration or noise is transmitted to the slab 107 through the heating means 101 and absorbed or relaxed through the noise reduction means 102 through the indoor floor 111, It is possible to discharge the noise transmission from the upper floor to the lower floor.

This is because it is injected into the urethane foam 125 in the space between the slab 107 and the diffusion plate 110, so that the shock, vibration and noise generated in the upper layer can be absorbed and mitigated.

The urethane foam 125 can be maintained in a stable shape without being easily separated or damaged by the core member 120 fixed to the angle 105. Therefore, the urethane foam 125 can be maintained in a stable state, Heat can be transferred to the slab 107 to prevent the heat from being lost.

As described above, the present invention minimizes the loss of heating heat while absorbing the heat while uniformly spreading the heat to prevent the loss of the slab from being transmitted to the floor of the room stably, thereby improving the heating efficiency. It is possible to minimize the noise by absorbing the conduction to the slab, thereby reducing the interlayer noise.

100; Heating system with interlayer noise prevention function
101; Heating means 102; Noise reduction means
105; Angle 106; Heating pipe
110; Diffusion plate 112; Endothermic plate
120; Core 121; Steel wire
125; Urethane foam

Claims (3)

A heating means (101) for heating the indoor floor to hot water;
And a noise reducing means (102) for absorbing shocks or vibrations transmitted to the slabs and minimizing conduction to a lower layer to reduce interlayer noise. The method of claim 1, further comprising:
The heating means 101 includes an angle 105 made of a metal or a non-ferrous metal, which is disposed at equal intervals in the slab 107 in accordance with the installation interval of the heating pipe 106;
A heating pipe 106 connected to the boiler and circulating the heating water and fixed to the vertical portion 108 of the angle 105;
A diffusion plate 110 made of a metal or a non-ferrous material and fixed to the horizontal portion 109 of the angle 105 to diffuse and spread the heat of the heating pipe 106;
And a heat absorbing plate (112) fixed to the upper part of the diffusion plate (110) to gradually transfer the heat from the diffusion plate (110) to the room floor (111) while absorbing heat. Heating. The method of claim 1, further comprising:
The noise reducing means 102 includes a core 120 to be fixed to the vertical portion 108 of the angle 105 opposite to where the heating pipe 106 is fixed;
A plurality of steel wires 121 for holding the core member 120 in a horizontal direction with respect to the slabs 107 by holding the same at equal intervals in a direction intersecting the angles 105 on the bottom surface of the core member 120;
A urethane foam 125 is inserted into the space between the slabs 107 and the diffusion plate 110 to block the heating heat from being conducted to the slabs 107 while absorbing impacts, Wherein the heating device has an interlayer noise prevention function.

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