KR200351882Y1 - The Prefabricated Heating Floor of Building - Google Patents

Abstract

According to the present invention, by forming a sand layer with a predetermined thickness on the upper surface of the slab and a prefabricated heating floor thereon, it is not only easy to form the horizontal level of the slab floor but also easy to install, low cost and construction air A floor structure of prefabricated hot water ondol is provided, which is shortened and can attenuate floor noise on the lower floor of a building.

Description

Prefabricated Heating Floor of Building

The present invention relates to the floor structure of a building to solve the problem of interlayer noise of high-rise APT, which can catch the rumbling of the upper finish according to the level of the concrete floor in the construction of the heating hot water pipe panel. will be.

The assembly configuration of the prefabricated heating floor of a building similar to the present invention is known in the practical application 92-8091, the utility application 1993-0021383, the utility application 1992-0021094, the utility application 1995-022939 and the like filed by the inventor of the present application.

Conventional construction is a method of leveling on the slab floor by cement mortar construction method, and 50mm of styropol or foam concrete, which is about 50mm of insulation, is poured by about 50mm, and the hot water pipe is fastened thereon to finish with cement mortar. However, in this construction method, the wet construction method (cement mortar construction method) of high-rise APT is carried out in the field, the curing period is long, and the air is delayed, and the load problem is a problem. Therefore, a dry method (prefabricated combined method in the field) is preferred as a solution to shorten the air and lighten the method (see the above practical application).

However, in the installation of the assembled bonded hot water ondol support plate, as shown in FIG. 3, in order to level the irregular slab 1, the construction was performed after the horizontal level was set with the conventional wet cement mortar 4, and the curing time of the cement mortar It also takes a solid transmission sound between the layers, and the separate interlayer noise must be installed a noise prevention material, for example, waste tire rubber plate, compressed polyester resin plate, porous PVC plate material to attenuate the interlayer noise of the lower layer. I could make it.

In addition, when curing with wet cement mortar, even if the horizontal level is often flat, when using the level (horizontal) mortar not only takes the cost and curing period longer, but also thicker thickness of the building up and down space This reduced, impact sound can be slightly attenuated but is inadequate for blocking solid transmission sound.

On the other hand, Korea Utility Model Registration Publication 20-0330863 relates to the floor shock soundproof soundproofing material of the building and manufactured by integrating the soundproofing soundproofing material of the building as a single board by coating the upper and lower surfaces of the styrofoam board which purchased a plurality of soundproofing materials at regular intervals. By providing a floor shock soundproof soundproofing material of the building to improve the construction by this, but the manufacturing cost is expensive and there is a fear of damage to the styro product during construction. In addition, Korean Utility Model Registration Publication No. 20-0321612 relates to a floor structure of a building, and to a floor floor structure of a building that implements functions such as sound insulation, dustproofing, and electromagnetic field shielding by forming a slag mortar layer on the floor structure of the building. However, it still cannot remove solids.

Therefore, the present invention solves the problem of uniformly forming the horizontal level of the slab floor in the floor structure by the dry heating floor construction method of the building, and provides a floor structure of the building that can attenuate the noise between floors to the lower floor. It is for the purpose of devising.

1 is a vertical cross-sectional view of a prefabricated heating floor of a building according to an embodiment of the present invention

2 shows a problem that occurs when the amount of sand is small.

3 shows an embodiment of a prefabricated heating floor of a conventional building.

<Major reference signs>

1 slab 3 sand layers

5 Plate 6 Airtight Material

7 Sound insulation sheet 9 Support plate

11 Heat transfer metal plate 13 Heat medium circulation tube

15 Floor Finishes 17 Soundproof Plates

19 building side wall

In order to achieve the object of the present invention as described above, according to an embodiment of the present invention,

A sand layer formed on the slab bottom upper surface with a predetermined thickness;

A plate installed on an upper surface of the sand layer;

A support plate having a recess formed on an upper surface of the plate;

A heat transfer metal plate inserted into the recess of the support plate; And

There is provided a prefabricated heating floor structure of a building consisting of a heat medium circulation pipe inserted into a groove of the heat transfer metal plate.

The sound insulation sheet is inserted between the plate and the support plate to reduce noise caused by the friction between the plate and the support plate, and to reduce the noise from the support plate to the bottom. In addition, when a plurality of the plate is installed, it is preferable to seal between the plate with an airtight material such as tape to prevent the sand from rising between the gap between the plate.

In addition, a noise prevention plate is inserted vertically between the side wall of the building and the side surface of the support plate, and the sound insulation sheet is inserted to extend between the side wall of the noise prevention plate or the building and the side surface of the support plate and transferred to the side wall of the building. It is desirable to reduce the noise.

The thickness of the sand layer is preferably 10 mm to 30 mm in consideration of the horizontal formation of the slab floor and the interlayer space of the building. After the heat transfer plate, the heat medium circulation tube, etc. are installed on the support plate, an upper sensing material is installed thereon.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

At the time of construction, the top surface of the slab 1 floor of the building is not completely level. The sand layer 3 having a suitable thickness is formed on the upper surface of the bottom of the non-horizontal slab 1. The sand layer 3 is preferably 10 mm to 30 mm in consideration of the horizontal formation of the slab floor and the interlayer space of the building, and dry sand is appropriate. In other words, if the thickness of the sand layer is too thin, a high portion of the slab 1 is exposed as shown in part A shown in FIG.

A plate having a predetermined thickness is installed on the upper part of the sand layer 3, and the plate 5 has a function of preventing the lower sand from rising upward, a function of keeping the lower sand layer 3 horizontally, and a noise transmission to the lower part. It may have a function to reduce the, the function of supporting the upper structure horizontally. The plate 5 may be any hard solid plate such as a wooden board, plywood, or plastic board. As for the thickness of the said board | plate material 5, 2 mm or more is suitable. That is, the plate 5 has a function of flattening the lower sand layer 3 when the upper structure works on the plate 5 as well as the noise blocking effect to the lower layer. Since the sand of the lower part may rise during the operation between the said board | plate materials 5, it is preferable to seal with a suitable airtight material 6, for example, a tape or a bond. The sealing operation is also performed at the point where it meets the noise preventing plate 17, which is the horizontal end of the sound insulating sheet 7 to be described below, it is preferable to prevent the sand from rising to the top.

It is preferable to install a sound insulating sheet 7 on the upper plate 5. The sound insulating sheet 7 is assembled to the assembly hot water hot stone support plate (9). The sound insulation sheet 7 has a function of reducing noise to the lower side while reducing noise caused by friction between the plate 5, which is a hard material, and the support plate 9, which is different from the plate 5. Therefore, a somewhat soft material is preferable. For example, there exists a rubber plate, the nonwoven fabric in which the vinyl layer was formed, and the thickness is 1 mm or more, Preferably 2 mm-5 mm are suitable. The sound insulation sheet 7 is preferably extended to the side surface of the support plate 9 installed on the upper portion 7 'to reduce the noise transmission to the side wall 19 of the building. In addition, between the sound insulation sheet 7 ′ extending to the side of the support plate 9 and the building side wall 19, the noise prevention plate 17 is vertically vertically to further reduce the transmission of sound to the lower floor of the building through the side wall. Can be installed. The noise prevention plate 17 is 10 mm or more, preferably 20 to 50 mm in thickness is suitable, for example, waste tire rubber plate, compressed polyester resin plate, porous PVC plate material and the like.

The support plate 9 is a generally known support plate as described in the prior art section. Conventional utility model applications described in the prior art, Korean Patent Application Publication No. 2000-12295, Korean Patent Application No. 2003-0053480 filed by the present inventors, etc. are incorporated by reference in the present invention. The upper surface of the support plate (9) is usually formed with a U-shaped groove portion, the heat transfer metal plate 11 is inserted in the groove portion, the heat medium circulation pipe 13 of the pipe shape is inserted thereon. The heat of the heat medium circulation tube 13 is transmitted to the heat transfer metal plate 11, and the transferred heat is transferred to the bottom finish 15 installed on the upper surface through the heat transfer metal plate 11 to warm the bottom. The upper finisher 15 is installed only on the support plate 9 in FIG. 1, but is extendable to the side wall 19. In addition, as in the Korean Patent Application No. 2003-0053480, it is possible to reduce interlayer noise or room noise between the upper finishing material 15 and the heat transfer metal plate 11, and to have an appropriate heat storage and heat generating function, and to have soundproofing and cushioning properties. When a top panel for heating panel formed of an inorganic heat storage material is further stacked on the upper surface of the base material layer of the compressed fiber material having heat, heat is transferred to the bottom finish 15 installed thereon through the top plate.

This will be described in more detail together with the operation.

The noise is transmitted to the lower floor of the building, firstly, the impact sound of the upper floor is transmitted to the solid transmission sound of the slab itself, and secondly, it is transmitted to the lower floor through the wall or by the outside air through the window. 1, when the heavy impact sound applied to the slab 1 in the upper layer is absorbed and buffered by the resonance between the voids and the voids, the vibration and noise can be attenuated in the lower layer. Through the transmission can be reduced by the noise prevention plate 17 and the sound insulating sheet (7 ') installed in the upper layer and can reduce the impact light weight by the air gap formed in the assembled hot water ondol support plate (9).

If dry sand (3) is laid on the slab (1) layer that maintains irregular horizontality about 10-30 mm, and the level is adjusted, dry sand is filled in the irregular plane of the slab (1) itself to maintain flatness on the top, When the plate 5 having a predetermined thickness is installed thereon, the dry sand itself becomes flat due to the weight of the work process generated while working on the press-formed plate to further form flatness. For example, when installing on dry sand, even if there are human footprints, the board 5 is covered on the dry sand, and when walking thereon, the footprint remaining on the dry sand is lost by the load pressure, and the sound insulation sheet 7 of the upper layer is removed. Dry sand itself forms the density and flatness by the weight generated by the installation process of the assembled hot water support plate 9, the heat medium circulation pipe 13, the heat transfer metal plate 11, the upper finisher 15, and the like. . According to the present invention, it is possible to maintain even more complete flatness than forming horizontal using conventional cement mortar.

In order to catch the ringing noise caused by friction or cavitation between the compression-molded sheet material and the prefabricated hot water ondol support plate, a sound insulation sheet 7 of about 2-5 mm is installed as a sound insulation sheet to reduce the noise, and the local part of the prefabricated hot water ondol support plate Arranged to form a structure that distributes the force to each other in order to distribute the pressure, the effect on the dry sand when a local impact is applied in the finishing material covering the upper layer has the effect of being dispersed by a wide surface pressure.

As the thickness of dry sand is too thin, as shown in FIG. 2, when the bottom of the slab 1 is adhered to the compression plate, a solid transmission sound is transmitted, and when the dry sand is too thick, the height of the building is reduced. In the present invention, it is preferable to dry the dry sand on the slab to about 10mm-30mm. Forming such a sand layer had a noise reduction effect of about 25db or more.

In addition, in order to prevent noise going down the wall, the noise prevention plate 17 is constructed to be in close contact with the slab 1 and the bottom of the wall, and the corners of the sound insulation sheet 7 overlap the noise prevention plate 17. It is desirable to reduce the noise going down the wall 19 when the impact on the upper finish.

The present invention as described above, unlike the conventional method of maintaining the level by cement mortar (4) on the conventional slab (1) as shown in Figure 3, eliminating the toxic from the cement, the level of the upper finishing layer A floor construction or construction method of a building that can dampen inter-layer noise with cheap sand while maintaining it. In addition, instead of using only dry sand, dry sand is filled with one or more of materials such as ocher powder, ganban stone powder, jade powder, and ground flour to improve far-infrared radiation ability. Also, antibacterial or insect repellent, which is beneficial to human health, is mixed with cockroaches. By preventing the same pests or bacteria breeding, a comfortable indoor space can be obtained.

According to the present invention, in the floor structure by dry heating method of the building, it is not only easy to form the horizontality of the slab floor, but also the construction is simple, the cost is low, the construction air is shortened, and the interlayer noise on the lower floor of the building is reduced. A floor structure of prefabricated hot water ondol is provided.

Claims (8)

A sand layer formed on the slab bottom upper surface with a predetermined thickness; A plate installed horizontally on an upper surface of the sand layer; A support plate having a recess formed on an upper surface of the plate; A heat transfer metal plate inserted into the recess of the support plate; And Prefabricated heating floor structure of a building consisting of a heat medium circulation pipe inserted into the groove of the heat transfer metal plate. The prefabricated heating floor structure of claim 1, wherein a sound insulation sheet is inserted between the plate and the support plate. The prefabricated heating floor structure of a building according to claim 1 or 2, wherein when a plurality of said plates are installed, the plates are sealed with an airtight material. The prefabricated heating floor structure of a building according to claim 3, wherein a noise prevention plate is inserted vertically between the side wall of the building and the side surface of the support plate. The prefabricated heating floor structure of a building according to claim 4, wherein the sound insulation sheet is inserted to extend between the noise prevention plate and the side surface of the support plate. The prefabricated heating floor structure of a building according to claim 1 or 2, wherein the sand layer has a thickness of 10 mm to 30 mm. The prefabricated heating floor structure of claim 1 or 2, wherein an upper finishing material is installed on an upper surface of the heating floor structure. The prefabricated heating floor structure of a building according to claim 1 or 2, wherein the sand layer is mixed with at least one material selected from the group consisting of ocher powder, ganban stone powder, jade powder, flour, antibacterial and insect repellent.