KR101446467B1 - Panel for arranging heating pipe for proofing inter layer noise - Google Patents

Abstract

The present invention relates to a heating pipe panel of a floating floor structure for reducing a floor noise. The heating pipe panel of the floating floor structure for reducing the floor noise according to the embodiment of the present invention maximizes heating efficiency and reduces the floor noise. The heating pipe panel of the floating floor structure for reducing the floor noise according to the embodiment of the present invention includes a base plate part, a plurality of pipe holders which are formed on the upper side of the base plate part with a preset interval, and a protrusion cup part which includes a space with a depth on the lower side of the base plate part. The degree of freedom in the installation of the heating pipe is improved by bending and fixing the heating pipe at a right angle.

Description

TECHNICAL FIELD [0001] The present invention relates to a heating pipe panel for a floor noise reducing floor structure,

The present invention relates to an assembly expansion type heating piping panel capable of maximizing thermal efficiency during heating and reducing interlayer noise. More specifically, the present invention relates to an assembly expansion type heating piping panel capable of correcting a gradient of a concrete slab by a screw adjusting method, It is possible to compensate easily and ensure good flatness so as to ensure a standardized and improved construction quality and to form grooves having different sizes to absorb and distribute noise while minimizing the contact surface with the concrete slab, The present invention relates to a heating pipe panel having a floor structure for reducing interlayer noise, which can effectively suppress the transmission of vibration and vibration, and can increase the degree of freedom in construction by a simple fitting structure of a heating pipe.

Generally, a multi-family house or an apartment house, such as a house, has a plurality of generations living between a floor and a floor of a house, so that the noise of the living room is transmitted to the neighboring house or the house as it is. As the slab is constructed according to the number of stories of the building and the foundation is completed, the heating pipe is installed on the concrete slab and the bottom layer is constructed with the gravel and cement mortar to a predetermined thickness. As a result, Due to the fact that structural vibration can not be reduced in the concrete slab.

In other words, the interlayer noise is the noise of various living (noise of walking or running footsteps, sound of dropping or pulling things, sound of toilet / drainage of the toilet, sound of doors / doors, sound of audio / This phenomenon is transmitted to the lower layer and hinders the habitability due to noise.

In recent years, as the problem of interlayer noise has emerged as a social problem, the government has been working on direct impact noise (sound of running or walking, closing or knocking on doors / windows, hammering, / Noise from cleaning equipment, etc.), it is regulated by law to set certain noise standards, but it has a problem of low effectiveness.

In order to reduce or minimize the interlayer noise, a variety of interlayer floor structures have been proposed. Typically, a heat insulation layer and a lightweight foamed concrete layer are formed on the upper part of the concrete slab in order to attenuate impact noise and noise. The floor layer of heating pipe and finishing mortar is formed and then the floor surface layer is formed of a top board or a tile on the top layer. However, in such an interlayer floor structure, the insulating layer and the lightweight foamed concrete layer have a structure in which impact sound or noise attenuation The effect of this method is to reduce the impact sound and noise due to the low effect. However, the effect is insignificant.

As another conventional technique, there is a method in which an interlayer noise preventing material using a rubber chip and a foamed polyester or urethane foam material is placed on one side of a slab, but it is not only economical, but also has a disadvantage in mass production and poor workability.

In another conventional technique, a shock absorber made of a cushioning material is laid on the concrete slab to attenuate an impact sound or noise. However, not only can a low-frequency sound generated by a heavy and soft impact such as a footstep sound can not be reduced, There is a problem in that the thickness of the vibration insulating material decreases with the elapse of time, and the effect becomes inferior.

In order to solve such a problem, an apartment noise prevention structure has been proposed through Korean Utility Model Registration No. 20-0285260, and in Claim 1, a rubber having a predetermined shape is bonded on a concrete slab layer having a predetermined thickness, A reinforced plate with a certain thickness is laid to form a space between the upper reinforcing plate and the lower concrete slab layer, and the heat insulating material is attached on the reinforcing plate. Then, the wire mesh and the hot water pipe are piped on the heat insulating material, and then the cover bracket and the spring anchor There is disclosed a noise preventing structure of an apartment floor which is configured to fix a hot water pipe and to install a floor heating mortar with a predetermined height on a hot water pipe fixed by a cover bracket.

However, the noise preventing structure of the apartment floor according to the prior art has a problem that the strength of the reinforcing plate is weak and the reinforcing plate is easily broken by the load applied from the upper layer. Also, The width and width of the space can not be controlled, and it is difficult to install the noise-preventing structure suitable for the flatness of an apartment or a building between the building floors.

Korean Patent No. 10-0629249 discloses an inter-floor floor impact sound isolation structure of a multi-storey apartment house. Claim 1 of the present invention relates to a multi-storey multi-storey multi-storey apartment building, A plurality of mass blocks arranged in parallel on a top surface of the slab at a predetermined interval; A multi resonance panel made of a hard material and having a plurality of unit resonance chambers which are located on the slabs and are divided into front, A sound insulating sheet of a flexible material laid on the mass block and the multiple resonance panel; And a finishing layer provided on the upper surface of the sound insulating sheet.

However, since the structure for blocking the inter-floor floor impact sound of the apartment house according to the related art is required to install a plurality of mass blocks separately from the multi resonance panel and the sound insulating sheet, economical construction is impossible and construction costs are increased.

Also, Korean Patent Laid-Open No. 10-2013-0094040 proposes an ondol panel for use in a heating piping and an interlayer noise reduction. In Claim 1 of the present invention, A heat insulation panel for a heating pipe, which is made of any one material selected from the group consisting of polystyrene (EPS), a plurality of low-depth grooves alternately formed in the horizontal and vertical directions from the upper surface to the lower side, and a plurality of deep holes; A noise reducing panel of a foamed polypropylene (EPP) material fitted in and inserted into the hole of the heat insulating panel for the heating pipe; And a cap made of any one of urethane, rubber, and soft PVC, mounted on the end of the cavity of the heat insulating panel for the heating pipe.

However, since the ondol panel for interlayer noise reduction for a heating pipe including the interlayer floor impact sound cut-off structure according to the related art can not compensate the gradient of the concrete slab structurally, the concrete slab is cured, Since the construction process must be accompanied, there was a pedestal of the construction cost increase due to the extension of the working air and the addition of the construction.

In addition, the conventional floor heating and piping noise reduction flooring panels are formed by using a mortar for finishing the upper part of the floor after the construction. However, irregular cracks occur in the mortar curing process or cracks occur after a certain period of time In order to solve this problem, it is necessary to construct a separate wire mesh, but it is excluded because of cost increase due to addition of construction material and construction process and economical reason.

Korean Patent Laid-Open Publication No. 10-2013-0094040, "Ondol Panel for Heating Pipes and Interlayer Noise Reduction" on page 2, Claim 1,

It is an object of the present invention to provide a method of manufacturing a slab of a concrete slab and a method of manufacturing the slab of a concrete slab by a simple operation without involving a horizontal surface mortar operation for correcting a slope of the concrete slab. The present invention has been made to solve the above problems, and it is an object of the present invention to provide a heating piping panel having a float floor structure for reducing noise during economical construction and standardized construction quality by improving workability.

In addition, the present invention can prevent the cracks of the finishing mortar for forming the bottom layer and increase the structural stability, thereby eliminating the closure due to the separate wire mesh construction, thereby achieving economical and improved construction quality. And to provide a heating piping panel having a bottom structure.

Further, the present invention greatly improves the degree of freedom of installation of a heating pipe, thereby making it possible to separate the concentrated heating and non-concentrated heating zones from the conventional uniform heating pipe pattern to enable piping construction, The present invention provides a heating piping panel having a floor structure for reducing interlayer noise that can improve the competitiveness of a product.

According to a preferred embodiment of the present invention, there is provided a heating pipe panel for a floor structure for reducing interlayer noise, the heating pipe panel being disposed on an upper surface of a concrete slab and fixing a heating pipe to an upper portion of the slab, And a plurality of protrusions formed on the upper surface of the base plate portion and spaced apart from each other with a gap therebetween, the pipe holder being provided with a pipe holder for inserting and fixing a heating pipe, The base plate portion, the pipe holder, and the protrusion cup portion are integrally formed by injection molding. The protrusion cup portion is formed with a screw hole at the center of the bottom surface thereof , The height of the base plate portion is adjusted by screwing into the screw hole, Is equipped with a fastening screw member, and that is configured by the base plate are the same relative to the cup when the projecting portion that is formed projecting on the lower or includes a deflection preventing projection which is provided so as to have a low profile with its features more.

According to a preferred aspect of the present invention, the height adjusting screw member includes a screw portion formed in a spiral and screwed to the screw hole to be moved in a vertical direction, and a head formed by expanding an upper diameter of the screw portion, And a plate-shaped mesh plate having a cross-sectional size of 50 to 300% based on the diameter of the upper surface of the portion.

In another preferred aspect of the present invention, the pipe holder is provided so that the heating pipe can be inserted and fixed transversely or transversely across the pipe, so that four 'A' shaped posts are disposed to form a cross- And each of the pillars is formed with a latching jaw so as not to be released when the heating pipe is inserted in the direction facing each other.

According to another preferred aspect of the present invention, the base plate portion includes: a coupling flange formed with a fitting groove and a fitting protrusion along the rim so as to be connected to another adjacent base plate portion with a fitting structure; And a reinforcing rib which is formed so as to protrude from the upper surface and separates and separates the plurality of projecting cup portions.

In another preferred aspect of the present invention, the base plate portion is formed by projecting a plurality of acoustically dispersing cup portions having different sizes and depths at positions that do not interfere with the projecting cup portions.

The heating pipe panel of the floor structure for reducing interlayer noise according to the present invention can be appropriately assembled and expanded according to the size of the upper surface of the concrete slab, that is, the surface of the concrete slab, Since the height adjustment is performed only by the simple operation of turning the head of the head to the left and right, it is possible to uniformly adjust the horizontal plane by compensating the gradient of the cone-shaped slab. As a result, In addition, there is a useful effect of ensuring a high quality of construction regardless of the skill level of the work, as well as enhancing the economical efficiency through shortening the air.

In addition, in the heating pipe panel of the floor structure for reducing interlayer noise of the present invention, the cracking of the finish mortar is suppressed by the expanded mesh plate portion of the head of the screw member and the structural stability is improved, There is an advantage that economical construction can be performed by eliminating the closed ends due to the wire mesh construction.

Further, the heating pipe panel of the floating floor structure for reducing the inter-layer noise of the present invention improves the structure of the holder so as to firmly support and support the heating pipe in the direction of the arrow, so that the heating pipe is separated And a stable bending fixation to the heating pipe can be achieved. As a result, there is an advantage that the degree of freedom in the construction of the heating pipe can be increased. Particularly, in the past, since the adjustment of the interval between the heating pipes was manually performed, the heating pipe pattern was applied in a predetermined (uniformized) heating pattern. However, since the present invention is capable of adjusting the gap and fixing the position A useful effect of increasing indoor heating efficiency is expected.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a construction example in which a heating pipe panel of a floor structure for reducing interlayer noise according to the present invention is applied;
2 and 3 are perspective views illustrating a heating pipe panel of a floor structure for reducing interlayer noise according to the present invention,
FIG. 4 is a perspective view of a heating pipe panel of the floor structure for reducing inter-layer noise in FIG. 2,
FIG. 5 is a perspective view of the heating pipe panel of the floor structure for reducing inter-layer noise in FIG. 2,
FIG. 6 is a side view of the heating pipe panel of the floor structure for reducing inter-layer noise in FIG. 2,
FIG. 7 is a sectional view showing the line AA in FIG. 4,
Fig. 8 is a cross-sectional view showing the BB line in Fig. 4,
Fig. 9 is a cross-sectional view showing the line CC in Fig. 4,
10 is a perspective view showing another embodiment of the present invention,
Fig. 11 is a perspective view of Fig. 10,
12 is a top plan view of Fig. 10,
13 is a cross-sectional view showing the DD line of Fig. 12,
Fig. 14 and Fig. 16 are views showing examples of installation of a heating pipe according to the present invention,

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a heating pipe panel according to an embodiment of the present invention will be described with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings are denoted by the same reference numerals as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a view showing a construction example in which a heating pipe panel of a floor structure for reducing interlayer noise according to the present invention is applied. The figure shows a state in which a base plate portion 3 provided in a rectangular plate shape is assembled and connected in the longitudinal and lateral directions and a heating pipe p is fixedly disposed on the upper surface of the base plate portion 3. In the upper portion of the base plate portion 3, a protruding cup portion 20 and an acoustic dispersion cup portion 30 functioning to induce and reduce irregular reflection and dispersion of sound are formed in the pipe holder 10 And the height adjusting screw member 25 is screwed so that the height of the protruding cup portion 20 can be adjusted with respect to the base plate portion 3 .

FIG. 2 is a perspective view of a heating pipe panel of a floor structure for reducing interlayer noise according to the present invention, and FIG. 3 is a perspective view from below. The figure shows a base plate portion 3 forming an overall body and a pipe holder 11 integrally formed on the base plate portion 3 and having a column 11 shaped like a figure, A protruding cup portion 20 protruding in a cup shape to the lower side of the pipe holder 10 at a position not interfering with the position of the pipe holder 10 and a protruding cup portion 20 fastened to the protruding cup portion 20, The height of the height adjustment screw member 25 for adjusting the height of the plate portion 3 is set at a position that does not interfere with the protruding cup portion 20 from the protruding cup portion 20, (30) for heating the floor panel is shown.

FIG. 4 is a perspective view of a heating pipe panel of a floor structure for reducing inter-layer noise in FIG. 2 viewed from above. The figure shows a base plate 5 having a coupling flange 5 formed in a rectangular plate shape and having a fitting groove 5a and a fitting projection 5b selectively formed along the rim thereof so as to be assembled and extended with mutually- A piping holder 10 having a cross section formed with cross-shaped grooves 10h as an element for fitting and fixing a heating pipe p, which is disposed at an interval above the base plate section 3, The protrusion cup portion 20 is formed at a position that does not interfere with the position of the piping holder 10 and is screwed to the height adjusting screw member 25. The protrusion cup portion 20 has a plurality of protrusions There is shown a heating piping panel of a floating floor structure for reducing inter-layer noise, which is constituted by an acoustic dispersion cup portion 30 provided in a size equal to, smaller than, or larger than that of the cup portion 20.

FIG. 5 is a perspective view of a heating pipe panel of a floor structure for reducing inter-layer noise in FIG. 2 as viewed from below. The figure shows a base plate portion 3 having a fitting flange 5 formed with a fitting groove 5a and a fitting projection 5b along the rim and a base plate portion 3 projecting from the lower surface of the base plate portion 3 A height adjusting screw member 25 for adjusting the height of the base plate 3 by being screwed to the protruding cup portion 20 and a height adjusting screw member 25 for adjusting the height of the base plate portion 3, And an acoustic dispersion cup portion 30 provided at the same or smaller or larger size in a position that does not interfere with the position of the floor panel.

5 and 6, the acoustic dispersion cup portion 30 includes a first acoustic dispersion cup portion 31 and a second acoustic dispersion cup portion 33. As shown in FIG.

FIG. 6 is a side view of the heating pipe panel of the floor structure for reducing interlayer noise shown in FIG. 2; FIG. The figure shows a base plate portion 3 having a rectangular flange-like shape with a coupling flange 5 formed along its rim, a plurality of protruding cup portions 20 protruding downward from the lower surface of the base plate portion 3, And a height adjustment screw member 25 for adjusting the height of the base plate portion 3 by exposing the lower end of the screw portion to the lower portion of the protrusion cup portion 20, A protrusion protrusion protruding at the same or a lower height with respect to the lower surface of the protruding cup portion 20 so as to allow the operator to step on the upper portion of the base plate portion 3 or to prevent sudden deflection when the finishing mortar is poured, There is shown a heating piping panel of a floating floor structure for reducing inter-layer noise,

FIG. 7 is a cross-sectional view showing the line AA of FIG. 4. FIG. 7 is a cross-sectional view of the heating pipe panel of the floor structure for reducing the noise of the present invention, which is applied to the upper surface of the concrete slab s. 3 and the projecting cup portion 20 and the acoustically dispersing cup portion 30 integrally protruding downward from the lower surface of the base plate portion 3 and the projecting cup portion 20 are screwed to the base plate portion 3 And a height adjusting screw member (25) for adjusting the height of the floor panel.

8 is a cross-sectional view showing the BB line in Fig. The cup-shaped protruding cup portion and the acoustic dispersing cup portion protruded downward from the lower surface of the base plate portion 3 and the height adjustment for screwing the protruding cup portion 20 into the protruding cup portion 20 are shown in Fig. There is shown a heating pipe panel of a floor structure for reducing interlayer noise in which a screw member 25 and a sag preventing protrusion 35 protruding at the same or lower height with respect to the lower surface of the protruding cup portion 20 are formed.

9 is a cross-sectional view showing the line CC in Fig. The figure shows a base plate 3 provided in the form of a rectangular plate, a protruding cup portion protruding downward from the base plate portion 3 and an acoustically dispersed cup portion, and protruding portions And a sag preventing protrusion 35 for preventing sudden sagging against load or an external force applied to the upper portion of the base plate portion 3 is formed.

1 to 9, the structure of the heating pipe panel of the floor structure for reducing interlayer noise according to the present invention will be described.

The heating pipe panel of the floor structure for reducing interlayer noise according to the present invention is assembled and connected to the upper surface of a concrete slab s. The heating pipe (p) As a result, the space between the concrete slab (s) and the bottom layer formed by the mortar for finishing is floated so as to minimize sound and vibration transmission such as impact noise due to interlayer noise.

That is, according to the present invention, since the base plate portion 3 is supported by point contact from the upper surface of the concrete slab s at a predetermined interval to take up floating floors, sound or vibration can be transmitted to the concrete slab s In order to achieve the above object, the present invention provides a heating pipe panel for a floor structure for reducing noise, the heating pipe panel comprising: A base plate portion 3 having a rectangular shape that can be extended according to an area of the work to be mounted by the fitting structure and a pipe holder 10 integrally protruding from the upper surface of the base plate portion 3 for fitting and fixing the heating pipe p, And a space (a) is formed at a lower portion of the base plate portion (3) by being protruded so as to have a cup shape from the lower surface of the base plate portion (3) A plurality of projecting cup portions 20 and an acoustically dispersing cup portion 30 having a plurality of protrusions at positions where the projecting cup portions 20 are not interfered with each other and the projecting cup portions 20, A height adjusting screw member 25 capable of adjusting the height of the base plate portion 3 by projecting downward so as to accurately compensate a gradient which is a slope generated in the curing process of the concrete slabs s, (35) for preventing the base plate portion (3) from being suddenly locally sagged by an operator or the like at the upper portion of the base plate portion (3) when the operator steps on the base plate portion (3) .

The base plate portion 3 is provided by injection molding a synthetic resin material. The base plate portion 3 is integrally formed in a rectangular plate shape. The base plate portion 3 is provided with a coupling flange 5 in the form of a thin band along the four corners and a projecting cup portion 20 And a reinforcing rib 6 provided in a form of a thin band protruding upwards so as to divide and separate the acoustic dispersion cup portion 30 are integrally formed.

As shown in the figure, the coupling flange 5 is formed with a plurality of fitting grooves in the coupling flange formed on one edge of the base plate, And a plurality of fitting protrusions 5b are formed on the coupling flange formed on the rim surface. It is preferable that the coupling flange 5 is assembled by fitting the fitting groove 5a and the fitting projection 5b as in the present invention, but it is also possible to use a screw, a nail, or an adhesive will be.

The reinforcing ribs 6 are provided in a thin strip shape integrally projecting vertically from the upper surface of the base plate portion 3 to reinforce the rigidity against an external force acting in a vertical direction. In the present invention, It is proposed to protrude in the form of wrapping the periphery of the projecting cup portion 20 and the acoustic dispersion cup portion 30.

The pipe holder 10 is an element for fitting the heating pipe p in a state where the heating pipe p is disposed transversely or laterally across the pipe. As shown in the figure, four pillars 11 are arranged to form cross- 12 are formed.

As shown in the figure, the pillars 11 are moved in a downward direction so as not to be released when the heating pipe p is inserted in a direction opposite to each other, A latching step 12 on a triangular piece whose cross-sectional area is increased is formed.

Further, as shown in the drawing, the column 11 is provided with a thin thickness, and the structural stability of the column 11 is improved. In order to prevent deformation or damage when the operator steps on the base plate 3 for construction, Is formed in an empty cylindrical shape.

The protruding cup portion 20 is a cup-shaped member integrally protruding downward from the bottom surface of the base plate portion 3, and as shown in the figure, a height adjusting screw member 25 is screwed A spiral hole 21b having a helix is formed to penetrate.

3, the protruding cup portion 20 of the present invention is provided with ribs (not shown) around the threaded portion of the height adjusting screw member 25, as shown in FIG. 3, The projecting cup portion 20 of the present invention should be formed at all four corners of the base plate portion 3 and the base plate portion 3 may be formed in accordance with the size of the base plate portion 3, In a stable position.

The present invention proposes that the acoustic dispersion cup portions 30 of various sizes are integrally formed in addition to the protruding cup portion 20, and the acoustic dispersion cup portion 30 is formed at a position So that they have different sizes and depths.

The height adjusting screw member 25 is a screw member such as a bolt or the like and has a threaded portion 25a formed by forming a spiral on the outer surface and screwed to the screw hole 21b of the protruding cup portion 20 so as to be spirally moved in the vertical direction A screw hole 25b formed at an upper portion of the threaded portion 25a so as to extend beyond the threaded portion 25a and capable of passing through the helical hole 21b and allowing the operator to apply an operation force in a clockwise or counterclockwise direction, (25b).

Since the head portion 25b of the height adjusting screw member 25 is exposed to the upper side of the base plate portion 3, the worker can rotate the base plate portion 3 Can be adjusted.

Since the lower end of the threaded portion 25a passes through the spiral hole 21b of the protruded cup portion 20 and is brought into contact with the upper surface of the concrete slab s, The plate portion 3 is supported floating from the concrete slab s and the height adjusting screw member 25 makes point contact with the concrete slab s so that vibration or impact sound transmitted to the concrete slab s .

The acoustic dispersion cup portion 30 includes a first acoustic dispersion cup portion 31 having a small size and a second acoustic dispersion cup portion 33 having a large size with respect to the protruding cup portion 20 with respect to the protruding cup portion 20 And the acoustically dispersed cup portion 30 together with the protruding cup portion 20 reduces sound or vibration through the concavo-convex structure.

That is, the projecting cup portion 20, the first acoustically dispersing cup portion 31, and the second acoustically dispersing cup portion 33 are provided so as to have different sizes and depths, The base plate portion 3, the pipe holder 10, and the acoustic dispersion cup portion 30 are integrally formed by injection molding.

Although not shown, the protruding cup portion 20, the first acoustically dispersing cup portion 31, and the second acoustically dispersing cup portion 33 may be formed of a foamed material, a urethane, a rubber, a nonwoven fabric, or the like It is also possible that a sound absorbing member made of a metal is additionally attached.

The sag preventing protrusions 35 protrude downward from the lower surface of the base plate portion 3 and are provided to have the same or a lower height with respect to the lower surface of the protruding cup portion 20, 20 so as to maintain a floating state without contacting the concrete slab s in the construction state.

The sag preventing protrusion 35 prevents the base plate 3 from being permanently deformed or damaged by being locally pressed by the load of the operator. In addition, it is a support structure for preventing the base plate portion 3 from being locally lowered and being permanently deformed by a putting pressure when the finishing mortar for casting the bottom layer is formed.

14 and 16 illustrate examples of the installation of a heating pipe according to the present invention. The heating pipe p in the present invention is firmly fixed to the pipe holder 10, For example, the space between the heating pipes (p) is narrowly allocated to the areas requiring intensive heating, and the spaces where the heating pipes are not provided are wide, or the places where the built- The room heating efficiency can be improved. This is because the cross-shaped cross groove 10h is formed so that the pipe holder 10 of the present invention can be fixed across the heating pipe p in all directions.

FIG. 10 is a perspective view showing another embodiment of a height adjusting screw member in a heating pipe panel of a floor structure for reducing interlayer noise according to the present invention, and FIG. 11 is a perspective view of a floor structure for reducing interlayer noise according to the present embodiment Fig. 12 is a plan view as viewed from above, and Fig. 13 is a cross-sectional view showing the DD line of Fig. 12. Fig.

The height adjusting screw member 25 in this embodiment is a screw member for adjusting the height of the head portion forming the head of the threaded portion 25a so as to replace the role of a wire mesh for suppressing the generation of cracks, In the following description.

That is, in the present embodiment, the height adjusting screw member 25 is formed with a spiral on its outer surface and is screwed to the screw hole 21b of the protruding cup portion 20, And a plate-shaped mesh plate portion 25c which is formed by expanding the upper diameter of the screw portion 25a and has a cross-sectional size of 50 to 300% with respect to the open top surface diameter of the protruding cup portion 20 Lt; / RTI >

The mesh plate 25c is formed in a circular plate shape as shown in the drawing, and a binding hole 25c is formed to take a mesh structure to improve the binding to the finish mortar for forming the bottom layer.

The operation of the heating piping panel of the floor structure for reducing interlayer noise according to the present invention will be described as follows.

The operator measures the area of the concrete slab s to be constructed and interconnects the prepared heating pipe panels 1 and arranges them on the entire floor surface to be constructed.

Subsequently, a heating pipe (p) is fitted and fixed to a pipe holder (10) forming an intersecting groove (12) in the form of a cross groove formed integrally on the base plate part (3).

Then, a bottom layer is formed by placing a finishing mortar on the upper part of the base plate 3 on which the heating pipe (p) is fixed, and then a bottom surface layer made of a long plate or tile is formed thereon.

When the floor construction is completed as described above, the heating piping panel of the floor structure for reducing interlayer noise of the present invention is disposed between the concrete slab s and the finishing mortal (not shown) by the height adjusting screw member 25 The height adjustment screw member 25 is supported in point contact with the concrete slab s as the base plate portion 3 forms a floating bottom structure floating from the concrete slab s, The transmission of the impact sound is minimized. In addition, the acoustic dispersion cup portion 30 including the base plate portion 3, the protruding cup portion 20, the first acoustically dispersing cup portion 31 and the second acoustically dispersing cup portion 33 is entirely provided in a concave- And the like are dispersed and reduced.

In particular, since the height adjusting screw member 25 of the present invention can be selectively provided in the form of a mesh plate 25c to extend the head portion thereof to serve as a conventional wire mesh, the binding force to the finishing mortar , Thereby suppressing the occurrence of cracks and maintaining the structural stability.

Finally, the pipe holder 10 forms the intersecting grooves 12 of the cross shape to stabilize the curve fixing as well as the straight line fixing to the heating pipe (p), so that the interval of the heating pipe (p) As a result, it is possible to construct heating pipes of various patterns.

It is to be understood that the present invention is not limited to the disclosed embodiment and that various changes and modifications may be made without departing from the spirit and scope of the present invention as set forth in the appended claims. It is obvious to those who have knowledge. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: Heating Piping Panel with Floating Floor Structure for Interlayer Noise Reduction
3: base plate portion 5: engaging flange 5a: fitting groove
5b: insertion projection 10: pipe holder 11: column
12: cross-over groove 20: projecting cup portion 25: height adjusting screw member
30: acoustic dispersion cup portion 31: first acoustic dispersion cup portion 33: second acoustic dispersion cup portion
p: piping p1: inlet port p2: outlet port

Claims (5)

A plurality of heat pipes disposed on the upper surface of the base slab and spaced apart from each other on the upper surface of the base slab; a pipe holder for fitting and fixing the heating pipe; And a protruding cup portion protruding downward from the lower surface of the plate portion in a cup shape to form a space having a depth therein, the heating pipe panel comprising:
The base plate portion, the pipe holder, and the protruding cup portion are integrally formed by injection molding, and the pipe holder is provided so that the heating pipe can be inserted and fixed transversely or longitudinally, and the 'A' Wherein the projecting cup portion is formed with a screw hole at the center of the bottom surface thereof,
The threaded hole is formed by expanding the threaded portion and the upper diameter of the threaded portion so that the height of the base plate portion can be adjusted by screwing. The threaded hole has a size such that it can not pass through the threaded hole, A height adjustment screw member having a head portion provided to be able to move,
The base plate portion may further include a sag preventing protrusion formed to protrude from the bottom surface of the base to prevent deformation of the base plate when the base plate is locally lowered, Heating Piping Panel with Floating Floor Structure for Interlayer Noise Reduction.
[3] The apparatus as claimed in claim 1, wherein the head portion of the height adjusting screw member is provided with a plate-like mesh plate portion having a cross-sectional size of 50 to 300% based on a top surface diameter of the protruding cup portion. Floor panel heating piping panels.
The heating pipe panel according to claim 1, wherein each of the pillars of the pipe holder is formed with a latching jaw so as not to be detached when the heating pipe is inserted in a direction opposite to each other.
[2] The apparatus of claim 1, wherein the base plate includes: a coupling flange formed with a fitting groove and a fitting protrusion along the rim so as to be connected to another adjacent base plate;
And a reinforcing rib formed to protrude from the upper surface and to divide and separate the plurality of protruding cup portions. ≪ Desc / Clms Page number 19 >
The floor panel of claim 1, wherein the base plate portion is formed with a plurality of acoustically dispersing cup portions having different sizes and depths at positions that do not interfere with the projecting cup portions. .

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