KR102109533B1 - Eco-friendly interior panel with excellent soundproofing effect in construction - Google Patents

Abstract

The present invention relates to an eco-friendly interior construction panel with excellent soundproofing effect. Soundproofing and insulating effects can be obtained by attaching a soundproofing insulation plate, a connecting soundproofing insulation material, a corner connecting soundproofing insulation material, and an end-finishing soundproofing insulation material to a building wall. A vacuum pump provides uniform, periodic, and automatic air circulation for water collecting grooves of a plurality of soundproofing insulation plates so as to automatically discharge or dry the remaining condensation water. Therefore, discoloration or contamination of the interior panel or the growth of mold can be more securely prevented and thus the indoor environment can be kept eco-friendly. In addition, the interior panel is configured with the soundproofing insulation plate of a single sheet structure in order to simplify manufacture and construction and save cost.

Description

Eco-friendly interior panel with excellent soundproofing effect in construction}

The present invention relates to an eco-friendly building interior panel having excellent sound insulation effect in the field of construction technology, and more specifically, while being able to obtain sound insulation and insulation effects, the condensed water remaining in the air is circulated, periodically, and automatically circulated, or forcibly discharged. By making it dry, it prevents discoloration of the interior panel or the reproduction of fouling and mold more reliably, so that the indoor environment can be maintained in an environmentally friendly manner.It is composed of a single-soundproof sound insulation panel that makes it easy to manufacture and construct and reduces cost. It is related to the interior panel of an eco-friendly building with excellent effect.

Since ancient times, soundproof insulation plates have been attached to the walls of buildings for sound insulation and insulation.

However, condensation is generated between the walls of the building and the sound insulation panel due to the difference in temperature between indoor and outdoor.

The condensation water caused by this condensation not only discolors and fouls the interior materials, but also increases the humidity between the building walls and the interior materials, causing fungi to multiply between the building walls and the interior materials, hindering the residential and working environments, and the infants with weak immunity. And serious health effects on the elderly.

In addition, this number of condensation affects not only the wall, but also the floor slab, and also affects the ceiling slab and the wall of the lower floor, which can be a cause of inter-floor dispute.

Conventionally, in order to solve this problem, by attaching a sound insulation board between the wall and the interior material, efforts have been made to reduce the condensation phenomenon due to the temperature difference between indoor and outdoor, but the sound insulation panel alone could not prevent condensation.

Here, comparing the case where the interior material is attached to the inner wall surface of the building wall without using the sound insulation panel and the case where the sound insulation panel is attached between the building wall and the interior material, in the former case, the interior material without tearing off the mold-produced interior material is removed. Not only is it easy to remove the mold that has occurred in the interior, but even if the interior material is torn off, the operation can be easily done at a relatively low cost, whereas in the latter case, because the mold has grown as deep as the sound insulation panel thickness, the insulation panel should not be removed. There is a problem that the mold cannot be removed without being removed, and the operation of tearing off the sound insulation board is relatively complicated and takes a lot of time and money.

Therefore, when the sound insulation panel is simply installed, there are more problems than when only the interior material is attached.

As a prior art related to a conventional thermal insulation composite panel, Korean Patent Registration No. 10-0947053 (Registration on March 4, 2010), "Insulating Composite Panel Structure and Construction Method" (hereinafter referred to as "Prior Art 1") is a styrofoam layer. Disclosed is an insulating composite panel made of a cement layer.

However, the prior art 1 is to attach an insulating composite panel made of a styrofoam layer and a cement layer to a building wall by using an adhesive and a panel spacing control member, and a gap is formed between the insulating composite panel and the building wall. There is a problem that condensation occurs in the crevice, which can not solve the above-mentioned conventional problems, and condensation water flows down to the floor of the building, causing discoloration and fouling of flooring materials such as floor plates, thereby causing mold to multiply in the flooring material.

In addition, as a prior art related to a conventional thermal insulation composite panel, Korean Patent Registration No. 10-1211383 (registered on December 6, 2012), "Insulating Composite Panel and Its Manufacturing Method and Insulation Construction Method Using the Same" (hereinafter referred to as "Prior Art 2") Is) a foamed resin plate material and an inorganic foam plate material bonded by an adhesive, which has excellent mechanical properties such as heat insulation, moisture resistance, moisture resistance, compressive strength and bending strength, and tensile strength, and is lightweight, non-flammable, and heterogeneous. It discloses a technique that not only has excellent bondability with a material, but also facilitates surface cutting to fit inside and outside walls subjected to cutting or uneven surface treatment or surface design.

However, the prior art 2 is simply a foamed resin plate and an inorganic foam plate bonded by an adhesive, and when attached to a building wall, it does not solve the problem caused by condensation as in the prior art.

It can be said that it is actually a very difficult problem to fundamentally solve the condensation phenomenon that cannot be solved by the construction of the insulating composite panel.

As a prior art for solving the problems of the prior arts 1 and 2, Korea Patent Registration No. 10-1518239 (registered on April 30, 2015) "Assembly and installation structure of insulation composite panel for construction" (hereinafter referred to as 'prior art 3') This is due to the condensation phenomenon between the building wall and the wall insulation due to the temperature difference between indoor and outdoor, and the condensation water flowing through the front of the building wall and the back of the wall insulation is collected in the collecting groove, and the inclined connecting passage And flows down to the drainage passage through the vertical connection passage, and the condensation water flowing down the drainage passage can be drained to the outside through the drainage pipe connected to one end of the drainage passage, so that the condensation water generated between the building wall and the wall insulation is real-time. It can be discharged to the interior material to prevent discoloration, fouling, and mold propagation. Remove it, insert the drying air injection pipe of the drying air injector into the air injection path while removing the air injection path plug from the drying air injection path, and connect the connection part to a blowing means such as a hair dryer to blow the means. When activated, the drying air is injected into the air injection passage, vertical connection passage, inclined connection passage, catchment groove and drain passage so that the remaining water can be forcibly discharged or dried. Disclosed is a technique capable of more reliably preventing the propagation of.

However, in the prior art 3, considering that tens of interior panels are attached to the wall of the building depending on the scale, air may be injected into the collecting groove and the drainage passage to forcibly discharge or dry remaining water therein. In order to prevent the discoloration of the interior material or the growth of fouling and mold, the air must be connected to each panel of air injection paths to inject air, so the work is cumbersome and takes a lot of time. However, there is a problem in that it is impossible to prevent the reproduction of fouling and mold.

In addition, depending on the outside temperature, condensation water may remain in the condensation groove and the drainage passage in a frozen state. In this case, condensation water cannot be drained smoothly, and even if air is injected, it is not easily drained and dried. There is a problem that can not be achieved.

In addition, the water collecting groove formed in the wall insulation material is formed in a V-shape with a low center and high sides, forming a vertical connection passage in the middle of the surface of the wall insulation material and the back surface of the interior insulation material, and the water collecting groove and vertical connection passage in the wall insulation material. Forming a connecting connecting slope, the interior panel is composed of two insulation materials, a wall insulation material and an interior insulation material, which makes production and construction cumbersome and increases the cost.

Republic of Korea Patent Registration No. 10-0947053 (Registration on March 4, 2010) "Insulation Composite Panel Structure and Construction Method" Republic of Korea Patent Registration No. 10-1211383 (2012.12.06. Registration) "Insulation composite panel and its manufacturing method and insulation construction method using the same" Republic of Korea Registered Patent No. 10-1518239 (2015.04.30. Registration) "Assembly and installation structure of insulation composite panel for building"

Therefore, the object of the present invention is to prevent the discoloration of the internal panel or the fouling and the growth of mold by reliably allowing the remaining condensed water to be discharged or dried while being able to obtain soundproofing and heat insulation effect, and to circulate, circulate and automatically circulate air. Therefore, it is intended to provide an interior panel with eco-friendly construction with excellent soundproofing effect so that the indoor environment can be environmentally friendly.

Another object of the present invention is to provide an eco-friendly construction interior panel with excellent sound insulation effect, which is constructed of a single-sound insulation board and is simple to manufacture and construct and reduces cost.

The present invention to achieve the above object is a plurality of soundproof insulating plate 100 attached to the inner wall surface of the building wall 10;

A connection sound insulation material 200 inserted and attached between the sound insulation panels 100 on the wall side;

A corner connection sound insulation material 300 inserted and attached between the sound insulation panels 100 at a corner side;

An end-finished sound insulation material 400 attached to both ends of the building wall 10;

A vacuum pump 500 for sucking air and condensation water;

A connection pipe 600 connected to the connection sound insulation material 200, a corner connection sound insulation material 300, and an end-finished sound insulation material 400; And

It comprises a; discharge pipe 700 connected to the discharge end of the vacuum pump 500,

The soundproof insulating plate 100 is formed at regular intervals up and down on the back side, and is formed to open to both sides and the back side in an inverted V-shape with high center and low sides, which occurs between the building wall 10 and the soundproof insulating plate 100. It includes a plurality of collecting grooves 110 for collecting condensation water, and insertion connecting grooves 120 formed at both ends of the collecting grooves 110,

The collecting groove 110 is formed to be inclined downward toward the surface to effectively collect the condensation water between the surface of the building wall 10 and the back surface of the sound insulation panel 100, and the collected condensation water is more indoor than the building wall 10 side. So that it is collected

The connection sound insulation material 200 is formed on both sides of the connection sound insulation material body 210 and the connection sound insulation material body 210 is inserted and attached between the sound insulation plate 100 located on both sides from the wall side, the insertion connection The connection part 220 inserted into the groove 120, and formed at regular intervals up and down on the back surface of the connection sound insulation insulating material body 210 and the connection part 220, communicate with the catchment groove 110 and open to the back side A plurality of connection grooves 230 formed, a vertical connection groove 240 connecting the plurality of connection grooves 230, and connected to the lower end of the vertical connection groove 240, the connection sound insulation insulating material body 210 It includes a discharge hole 250 that is opened on the surface of the, and the blocking plug 260 for opening and closing the discharge hole 250,

The connecting groove 230 is formed to be inclined downward toward the surface, as well as a function as a connecting groove, as well as a collecting function to collect the number of condensation between the surface of the building wall 10 and the sound insulation panel 100 itself, and the number of condensed water collected. It is configured to exhibit the function of collecting water toward the interior rather than the building wall (10).

The corner connection sound insulation material 300 is a corner connection sound insulation material body 310 is inserted and attached between the sound insulation plate 100 located on both sides from the corner side, and the two sides of the interior of the corner connection sound insulation material body 310 It is formed in the insertion connecting groove 120 is inserted into the corner connection portion 320, the corner connection sound insulation material body 310 and the corner connection portion 320 and the wall side is formed at regular intervals up and down the A plurality of corner connecting grooves 330 communicating with the collecting groove 110 and formed to open toward the wall, a corner vertical connecting groove 340 connecting the plurality of corner connecting grooves 330, and the corner vertical connecting groove It includes a corner discharge hole 350 which is connected to the lower end of the 340 and is opened to the indoor side, and a corner blocking plug 360 for opening and closing the corner discharge hole 350,

The corner connecting groove 330 is formed to be inclined downward toward the surface to function as a connecting groove, as well as the function of collecting the number of condensation between the surface of the building wall 10 and the sound insulation panel 100 itself, and the number of condensed condensation. It is configured to exhibit the function of collecting water toward the interior rather than the building wall (10).

The end-finished sound insulation material 400 is formed on one side of the end-finished sound insulation material body 410 and the end-finished sound insulation material body 410 attached to the soundproof insulation plate 100 located at the end portion on the wall side. The end connecting portion 420 inserted into the insertion connecting groove 120, the end closing sound insulation material body 410 and the end connecting portion 420 is formed at regular intervals up and down, and the collecting groove 110 and A plurality of end connection grooves 430 which are formed to communicate and open to the back side, and end discharge holes connected to the lower ends of the end vertical connection grooves 440 connecting the plurality of end connection grooves 430 and opening to the indoor side ( 450), and includes an end closure plug 360 for opening and closing the end discharge hole 450,

Further comprising a control means 800 for controlling the vacuum pump 500,

The control means 800 includes an input unit 810 to which a vacuum pump operation cycle is input, a control unit 820 to output a vacuum pump operation command when the operation cycle input to the input unit 810 is reached, and the control unit 820 It provides an environmentally friendly interior panel with excellent sound insulation, characterized in that it comprises a vacuum pump drive unit 830 for operating the vacuum pump 500 according to the operation command of the.

According to the eco-friendly interior panel with excellent soundproofing effect of the present invention, a plurality of soundproofing by a vacuum pump can be obtained by attaching a soundproofing insulating plate, a connected soundproofing insulating material, a corner connecting soundproofing insulating material, and an end-finished soundproofing insulating material to a soundproofing and heat insulating effect. Batch, periodic, and automatic air circulation to the collecting groove of the insulating plate is forced to discharge or dry the remaining condensation, thereby preventing the discoloration of the interior panel or the growth of fouling and mold, and to keep the indoor environment environmentally friendly. There will be.

Another object of the present invention is composed of a single-layer soundproof insulating plate, which is easy to manufacture and construct and reduces cost.

1 to 7 show a preferred embodiment of the interior panel of an eco-friendly building soundproofing effect according to the present invention,
1 is a perspective view showing an interior panel installed side by side on a wall,
Figure 2 is an exploded perspective view of the interior panel installed side by side on the wall viewed from the interior,
Figure 3 is an exploded perspective view of the interior panel installed side by side on the wall viewed from the outside,
Figure 4 is a longitudinal sectional front view of Figure 1,
Figure 5 is a cross-sectional view taken along line AA of Figure 4,
Figure 6 is a cross-sectional view taken along line BB of Figure 4,
Figure 4 is a perspective view showing the interior panel installed on the corner of the wall,
Figure 5 is an exploded perspective view of the interior panel installed on the corner of the wall viewed from the interior,
Figure 6 is an exploded perspective view of the interior panel installed on the corner of the wall viewed from the outside,
7 is a functional block diagram of the control means.

Hereinafter, an eco-friendly building interior panel excellent in sound insulation according to the present invention will be described in detail according to a preferred embodiment illustrated in the accompanying drawings.

1 to 7 show a preferred embodiment of an eco-friendly building interior panel excellent in sound insulation according to the present invention.

The eco-friendly building interior panel excellent in sound insulation according to this embodiment includes a plurality of sound insulation panels 100 attached to the inner wall surface of the building wall 10, as shown in FIGS.

A connection sound insulation material 200 inserted and attached between the sound insulation panels 100 on the wall side;

A corner connection sound insulation material 300 inserted and attached between the sound insulation panels 100 at a corner side;

An end-finished sound insulation material 400 attached to both ends of the building wall 10;

A vacuum pump 500 for sucking air and condensation water;

A connection pipe 600 connected to the connection sound insulation material 200, a corner connection sound insulation material 300, and an end-finished sound insulation material 400; And

It comprises a; discharge pipe 700 connected to the discharge end of the vacuum pump 500.

The building wall 10 may be a prefabricated panel in the case of a prefabricated building using a prefabricated panel called a sandwich panel, a brick wall in the case of a structure constructed by masonry of a reinforced concrete wall or a brick in the case of a general reinforced concrete structure. .

The soundproof insulation plate 100, the connection sound insulation material 200, the corner connection sound insulation material 300, the end-finished sound insulation material 400 may be made of a rigid urethane foam or polystyrene foam, the surface of which is a cross cell (Cross Cell) type It is preferable to use those molded into.

The sound insulation panel 100 has the same height as the height of the building wall 10, and may be manufactured to have a width of 100 cm to 120 cm.

The sound insulation board 100, the connection sound insulation material 200, the corner connection sound insulation material 300, and the end-finished sound insulation material 400 may be attached to each other by an adhesive.

In the following description, the surface facing the building wall 10 is the back surface, and the surface facing the interior is the surface.

The soundproof insulating plate 100 is formed at regular intervals up and down on the back side, and is formed to open to both sides and the back side in an inverted V-shape with high center and low sides, which occurs between the building wall 10 and the soundproof insulating plate 100. It includes a plurality of collecting grooves 110 for collecting condensation water, and an insertion connecting groove 120 formed at both ends of the collecting grooves 110.

The collecting groove 110 is formed to be inclined downward toward the surface to effectively collect the condensation water between the surface of the building wall 10 and the back surface of the sound insulation panel 100, and the collected condensation water is more indoor than the building wall 10 side. It is desirable to configure it to catch the water.

The connection sound insulation material 200 is formed on both sides of the connection sound insulation material body 210 and the connection sound insulation material body 210 is inserted and attached between the sound insulation plate 100 located on both sides from the wall side, the insertion connection The connection part 220 inserted into the groove 120, and formed at regular intervals up and down on the back surface of the connection sound insulation insulating material body 210 and the connection part 220, communicate with the catchment groove 110 and open to the back side A plurality of connection grooves 230 formed, a vertical connection groove 240 connecting the plurality of connection grooves 230, and connected to the lower end of the vertical connection groove 240, the connection sound insulation insulating material body 210 It includes a discharge hole 250 opening on the surface of the, and a blocking plug 260 for opening and closing the discharge hole 250.

The connecting groove 230 is formed to be inclined downward toward the surface as in the collecting groove 110, as well as a function as a connecting groove, and collects condensation water between the surface of the building wall 10 and the soundproof insulating plate 100 itself. It is preferable to configure a function and a function of collecting the condensed water to collect indoors rather than the building wall 10.

The corner connection sound insulation material 300 is a corner connection sound insulation material body 310 is inserted and attached between the sound insulation plate 100 located on both sides from the corner side, and the two sides of the interior of the corner connection sound insulation material body 310 It is formed in the insertion connecting groove 120 is inserted into the corner connection portion 320, the corner connection sound insulation material body 310 and the corner connection portion 320 and the wall side is formed at regular intervals up and down the A plurality of corner connecting grooves 330 communicating with the collecting groove 110 and formed to open toward the wall, a corner vertical connecting groove 340 connecting the plurality of corner connecting grooves 330, and the corner vertical connecting groove It includes a corner discharge hole 350 which is connected to the lower end of the 340 and opens to the indoor side, and a corner blocking plug 360 that opens and closes the corner discharge hole 350.

The corner connecting groove 330 is formed to be inclined downward toward the surface like the collecting groove 110 to collect condensation water between the surface of the building wall 10 and the sound insulation panel 100 itself as well as a function as a connecting groove. It is preferable to configure a function and a function of collecting the condensed water to collect indoors rather than the building wall 10.

The end-finished sound insulation material 400 is formed on one side of the end-finished sound insulation material body 410 and the end-finished sound insulation material body 410 attached to the soundproof insulation plate 100 located at the end portion on the wall side. The end connection portion 420 inserted into the insertion connection groove 120, the end closing sound insulation material body 410 and the end connection portion 420 is formed at regular intervals up and down, and the collecting groove 110 and A plurality of end connection grooves 430 which are formed to communicate and open to the back side, and end discharge holes connected to the lower ends of the end vertical connection grooves 440 connecting the plurality of end connection grooves 430 and opening to the indoor side ( 450) and an end closing plug 360 for opening and closing the end discharge hole 450.

The vacuum pump 500 may use a vacuum pump capable of inhaling air.

The connection pipe 600 may be composed of a plastic resin pipe or a metal pipe.

The discharge pipe 700 may be composed of a synthetic resin pipe or a metal pipe.

The discharge pipe 700 extends to a drain hole (not shown) existing in the building so that the condensed water discharged can be discharged to the drain hole.

In order to control the vacuum pump 500, it further includes a control means 800.

The control means 800 includes an input unit 810 to which a vacuum pump operation cycle is input, a control unit 820 to output a vacuum pump operation command when the operation cycle input to the input unit 810 is reached, and the control unit 820 It comprises a vacuum pump driving unit 830 for operating the vacuum pump 500 according to the operation command of the.

The control means 800 may be installed in a control box and disposed in a corner portion of the indoor space.

The installation process and operation of the eco-friendly building interior panel excellent in sound insulation according to the present invention configured as described above will be described.

While connecting a plurality of sound insulation plates 100 to the connection sound insulation material 200 and the corner connection sound insulation material 300, the soundproof insulation plate 100, the connection sound insulation material 200 and the corner connection sound insulation material 300 are constructed by adhesive Attached to the wall (10).

The adhesive may be any conventional adhesive used to bond rigid urethane foam or expanded polystyrene.

At this time, in connecting the sound insulation panel 100 by the connection sound insulation panel 200, the connection sound insulation panel main body 210 is placed between the two sound insulation panel 100, glued with an adhesive, and also inserts the connection portion 220 Inserted into the connecting groove 120 so that the collecting groove 110 and the connecting groove 230 communicate with each other, and when connecting the soundproof insulating plate 100 by a corner connecting sound insulating material 300, the corner connecting sound insulating material 300 Is placed between the two sides of the sound insulation plate 100, and the adhesive portion is attached with the adhesive, and the connection portion 320 is inserted into the insertion connection groove 120 so that the catchment groove 110 and the connection groove 330 communicate with each other.

The ends of the soundproof insulating plates 100 installed at both ends of the soundproof insulating plates 100 installed as described above are glued to the end-finished insulating insulating material body 410 with an adhesive, and also connect the connecting portion 420 to the insertion connecting groove 120. It is inserted into the insertion connecting groove 120 so that the collecting groove 110 and the connecting groove 430 communicate with each other.

At this time, the connecting portion (220, 320, 420) is attached to the insertion connecting groove 120 using an adhesive.

In addition, the soundproof insulating plate 100 is punched through the through hole 130 corresponding to the corner discharge hole 350 in the field.

The discharge hole 250 of the connection sound insulation insulating material body 210 and the corner discharge hole 350 of the corner connection sound insulation material body 310 are both closed by inserting the blocking plug 260 and the corner blocking plug 360, and End of the soundproof insulating plate 100 is connected to the soundproof insulating plate 100 located at one end of the end of the soundproof insulating material body 410 formed in the end discharge hole 450 is connected to the discharge pipe 700, and connected to the discharge pipe 700 Connected to the suction end of the vacuum pump 500, the end discharge hole 450 formed in the end-finished sound insulation material body 410 connected to the sound insulation panel 100 located at the other end of the end plug (460) Removed and kept open.

Also, the discharge hole 250, the corner discharge hole 350, and the end discharge hole 450 that are not connected to the discharge pipe 700 are all blocked plugs 260, corner plugs 360, and end plugs 460. It can also be removed and kept open.

In this state, when the operation period of the vacuum pump input to the input unit 810 of the control means 800 is reached, the control unit 820 outputs a vacuum pump operation command, and the vacuum pump according to the operation command of the vacuum pump of the control unit 820 The driving unit 830 transmits a vacuum pump operation signal, so that the vacuum pump 500 is operated.

When the vacuum pump 500 is operated, suction force is generated at the suction end, and the suction force is collected through the connection pipe 700, the end discharge hole 450, the end vertical connection groove 440, and the end connection groove 430. It is applied to (110), the air in the collecting groove 110 is sucked and discharged,

The suction power of the vacuum pump 500 is applied to the collecting groove 110 of the sound insulation plates 100 by the connection groove 230 of the connection sound insulation material 200 and the connection groove 330 of the corner connection sound insulation material 300. Therefore, the air in the collecting groove 110 of the entire sound insulation panel 100 is sucked and discharged.

In addition, the suction force of the vacuum pump 500 is applied to the end discharge hole 450 where the end blocking plug 460 is removed, so that indoor air is sucked through the end discharge hole 450, and the end vertical connection groove 440, It is introduced into the catchment groove 110 of the sound insulation panel 100 through the end connecting groove 430, the connecting groove 230, the collecting groove 110, the corner connecting groove 330, the collecting groove 110, and the end connection It is discharged to the discharge end through the groove 430, the end vertical connection groove 440, the end discharge hole 450, the discharge pipe 700 and the vacuum pump 500.

Accordingly, the collecting groove 110 and the connecting groove 230, the corner connecting groove 330, the end connecting groove 430, the vertical connecting groove 240, the corner vertical connecting groove 340, the end vertical connecting groove 440 , The exhaust hole 250, the corner discharge hole 350, the air in the end discharge hole 450 and indoor air circulate.

Therefore, the collecting groove 110, the connecting groove 230, the corner connecting groove 330, the end connecting groove 430, the vertical connecting groove 240, the corner vertical connecting groove 340, the end vertical connecting groove 440, It is possible to dry the condensation water remaining inside the discharge hole 250, the corner discharge hole 350, and the end discharge hole 450.

In addition, the collecting groove 110, the connecting groove 230, the corner connecting groove 330, the end connecting groove 430, the vertical connecting groove 240, the corner vertical connecting groove 340, the end vertical connecting groove 440, In the process of circulating the air and indoor air inside the discharge hole 250, the corner discharge hole 350, the end discharge hole 450, the collecting groove 110, the connecting groove 230, the corner connecting groove 330, End connection groove 430, vertical connection groove 240, corner vertical connection groove 340, end vertical connection groove 440, discharge hole 250, corner discharge hole 350, end discharge hole 450 Condensation water remaining inside is also discharged.

Therefore, the collecting groove 110, the connecting groove 230, the corner connecting groove 330, the end connecting groove 430, the vertical connecting groove 240, the corner vertical connecting groove 340, the end vertical connecting groove 440, The inside of the discharge hole 250, the corner discharge hole 350, and the end discharge hole 450 can be completely dried.

Accordingly, condensation water is discharged together with air to the discharge pipe 700, and the air is discharged to the room, and the condensation water is discharged to the drain.

As described above, according to the eco-friendly building interior panel having excellent soundproofing effect of the present invention, the soundproofing insulating plate, the connected soundproofing insulating material, the corner connecting soundproofing insulating material, and the end-finished soundproofing insulating material are attached to the wall. Since condensation water between the soundproof insulation plates can be discharged or dried, it is possible to more reliably prevent discoloration of the interior panel caused by condensation water, or the growth of fouling and mold.

In addition, the condensation water in the entire soundproof insulating plate can be periodically discharged or dried by a vacuum pump that runs at every operation cycle set by the control means, which makes it convenient to use.

In addition, since the interior panel is composed of a single panel structure, it is easy to manufacture and construct, and the cost can be reduced.

The present invention is not limited to the technical spirit and scope by the above-described embodiments, and those of ordinary skill in the art to which the present invention pertains will be capable of various modifications and variations without departing from the technical spirit and scope of the present invention. , These modifications and variations should be construed as belonging to the scope of the present invention.

10: wall 100: sound insulation board
110: catchment groove 120: insert connection
200: connection sound insulation material 210: connection sound insulation material body
220: connecting portion 230: connecting groove
240: vertical connecting groove 250: vent hole
260: blocking plug 300: corner sound insulation material
310: corner sound insulation insulation body 320: corner connection
330: corner connecting groove 340: corner vertical connecting groove
350: corner discharge hole 360: corner blocking plug
400: end sound insulation insulation material 410: end sound insulation insulation body
420: end connection 430: end connection groove
440: end vertical connection groove 450: end discharge hole
460: end plug plug 500: vacuum pump
600: connecting pipe 700: discharge pipe
800: Control means 810: Input unit
820: control unit 830: vacuum pump driving unit

Claims (1)

A plurality of soundproof insulating plates 100 attached to the inner wall surface of the building wall 10;
A connection sound insulation material 200 inserted and attached between the sound insulation panels 100 on the wall side;
A corner connection sound insulation material 300 inserted and attached between the sound insulation panels 100 at a corner side;
An end-finished sound insulation material 400 attached to both ends of the building wall 10;
A vacuum pump 500 for sucking air and condensation water;
A connection pipe 600 connected to the connection sound insulation material 200, a corner connection sound insulation material 300, and an end-finished sound insulation material 400; And
It comprises a; discharge pipe 700 connected to the discharge end of the vacuum pump 500,
The soundproof insulating plate 100 is formed at regular intervals up and down on the back side, and is formed to open to both sides and the back side in an inverted V-shape with high center and low sides, which occurs between the building wall 10 and the soundproof insulating plate 100. It includes a plurality of collecting grooves 110 for collecting condensation water, and insertion connecting grooves 120 formed at both ends of the collecting grooves 110,
The collecting groove 110 is formed to be inclined downward toward the surface to effectively collect the condensation water between the surface of the building wall 10 and the back surface of the sound insulation panel 100, and the collected condensation water is more indoor than the building wall 10 side. So that it is collected
The connection sound insulation material 200 is formed on both sides of the connection sound insulation material body 210 and the connection sound insulation material body 210 is inserted and attached between the sound insulation plate 100 located on both sides from the wall side, the insertion connection The connection part 220 inserted into the groove 120, and formed at regular intervals up and down on the back surface of the connection sound insulation insulating material body 210 and the connection part 220, communicate with the catchment groove 110 and open to the back side A plurality of connection grooves 230 formed, a vertical connection groove 240 connecting the plurality of connection grooves 230, and connected to the lower end of the vertical connection groove 240, the connection sound insulation insulation body 210 It includes a discharge hole 250 that is opened on the surface of the, and the blocking plug 260 for opening and closing the discharge hole 250,
The connecting groove 230 is formed to be inclined downward toward the surface, as well as a function as a connecting groove, as well as a collecting function that collects the number of condensation between the surface of the building wall 10 and the sound insulation panel 100 itself, and the number of collected condensation. It is configured to exhibit the function of collecting water toward the interior rather than the building wall (10).
The corner connection sound insulation material 300 is a corner connection sound insulation material body 310 is inserted and attached between the sound insulation plate 100 located on both sides from the corner side, and the two sides of the interior of the corner connection sound insulation material body 310 It is formed in the insertion connecting groove 120 is inserted into the corner connection portion 320, the corner connection sound insulation material body 310 and the corner connection portion 320 and the wall side is formed at regular intervals up and down the A plurality of corner connecting grooves 330 communicating with the collecting groove 110 and formed to open toward the wall, a corner vertical connecting groove 340 connecting the plurality of corner connecting grooves 330, and the corner vertical connecting groove It includes a corner discharge hole 350 which is connected to the lower end of the 340 and is opened to the indoor side, and a corner blocking plug 360 for opening and closing the corner discharge hole 350,
The corner connecting groove 330 is formed to be inclined downward toward the surface to function as a connecting groove, as well as the function of collecting the number of condensation between the surface of the building wall 10 and the sound insulation panel 100 itself, and the number of condensed condensation. It is configured to exhibit the function of collecting water toward the interior rather than the building wall (10).
The end-finished sound insulation material 400 is formed on one side of the end-finished sound insulation material body 410 and the end-finished sound insulation material body 410 attached to the soundproof insulating plate 100 located at the end portion on the wall side. The end connection portion 420 inserted into the insertion connection groove 120, the end closing sound insulation material body 410 and the end connection portion 420 is formed at regular intervals up and down, and the collecting groove 110 and A plurality of end connection grooves 430 which are formed to communicate and open to the back side, and end discharge holes connected to the lower ends of the end vertical connection grooves 440 connecting the plurality of end connection grooves 430 and opening to the indoor side ( 450), and includes an end closure plug 360 for opening and closing the end discharge hole 450,
Further comprising a control means 800 for controlling the vacuum pump 500,
The control means 800 includes an input unit 810 to which a vacuum pump operation cycle is input, a control unit 820 to output a vacuum pump operation command when the operation cycle input to the input unit 810 is reached, and the control unit 820 Eco-friendly building interior panel excellent in sound insulation, characterized in that it comprises a vacuum pump drive unit 830 for operating the vacuum pump 500 according to the operation command of the.

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