KR20110122038A - Insulating panels - Google Patents

Abstract

The present invention relates to a panel for reinforcing heat insulation in a building, and in detail, reinforcing to minimize a change in temperature of a room caused by an influence of a temperature difference on an exterior wall exposed to the outside in a building or a warehouse. The invention is.

In general, in the case of a building, when the weather is very cold or the humidity is high due to the rainy season, the temperature of the indoor air is changed according to the temperature due to the lack of insulation in the walls of the building or the warehouse. By generating, it is using a separate air-conditioner.

Therefore, the present invention will be described in detail with reference to the accompanying drawings,

In order to insulate the wall 50 or the interlayer wall 13 except for the section in which the window 14 is installed in the building 10 for thermal insulation for the interior of the building, the foam layer 22 and the vinyl ( In the wall 50 provided with the brick 32 on both sides of the 23 in a lamination and finished with cement mortar 49,

The heat insulating material 22 and the vinyl 23 formed of the foam layer are in contact with each other, the cylindrical vinyl sheet layer 23, while the contact surface is fixed to the fusion portion 25 by fusion fusion flow space 27 And provided with a jacket (20) having a fixing section 29, respectively, and fixed to the wire mesh 24 to both sides of the jacket 20, fixed band (36) connected to the fixing section (29) And the inlet and outlet 11 are formed on both sides of the jacket 20, respectively, between the jackets 20 that are assembled by connecting to each of the outlets 11 and 11 '. It is an invention provided by connecting.

In addition, the jacket 20 is an invention provided for preventing noise of the interlayer wall 42 by enlarging the flow section 27 while reducing the fusion portion 25 to a smaller size and at the same time reducing the fixing section 29.

In addition, the inlet 11 to the assembly pipe 47 to protrude to the outside with a fusion splicing (25 '), the flexible pipe 45 is formed in the assembly pipe 47, the outlet 11' connected thereto ) To be fixed to the fusion portion 25 'to form a fixing groove (47') assembling groove 28, and to the outer surface of the jacket 20 to form a thermal insulation stand 35 to be exteriorized with a heat insulator (22) In addition, both sides of the heat insulating material 22 is an invention provided to be configured by forming a panel 40 which is integrally provided with the outer wall plate 21.

In addition, the invention is provided by forming the jacket 20 in the brick 32 as a built-in.

Panel, flow section, fixed section

Description

Panels to reinforce insulation

The present invention relates to a panel for reinforcing insulation in a wall of a building, and in detail, reinforcing to minimize a change in temperature of a room caused by an influence of a temperature difference on an exterior wall exposed to the outside in a building or a warehouse. The invention is for giving.

In general, in the case of the outer wall of a newly constructed building, when the weather is very cold or the humidity is high due to the rainy season, the indoor air temperature is high due to the lack of insulation in the walls of the building or the warehouse. As the change occurs, it is using a separate air conditioner.

In addition, in the cold or cold weather it is difficult to provide a heat insulation panel suitable for heating and cooling indoors, it is necessary to operate a separate hot air heater or air conditioner.

In addition, for storage of foodstuffs that are easily deteriorated with the change of temperature, the freezer is used to strengthen the insulation.

In most buildings, such as buildings and freezer warehouses are used by assembling each other into a panel interior structure that provides a strong thermal insulation effect for warming due to changes in temperature. Although heating pipes are used in the wall to be zigzag-shaped, this means that the pipe pipes have a short-circular shape and have a narrow cross-sectional area, so that the heating effect is insufficient in practicality and noise blocking.

Therefore, when constructing a building, pipes for heating are basic on the interior floor, and walls filled with insulation materials such as mud or urethane grooves are used for the interior floor to insulate the exterior wall according to the change of local temperature. It is provided to provide the insulation to the room, where the construction of the building proceeds by sequentially connecting or stacking a plurality of panels or bricks described above according to the size and area of the building.

However, there are cases where the conditions for real life are not met for cooling and heating in cold weather or heat waves, which are seasonal changes.

In addition, a film or sheet made of synthetic resin is used to package a product widely in a packaging material or a bag by fusion or bending by fusion with an appropriate structure.

This is because block-like structures formed by bending and fusion of sheets and the like provide structural rigidity, and are used as packaging materials.

In addition, there is a high interest in energy saving in industrial society where the importance of the environment is highlighted, which means that it is the result of saving energy use for heating and cooling indoors.

The present invention relates to a wall as a whole for building buildings, low-temperature warehouses, and simple buildings, and also to complete insulation for insulation such as foam or loess, which is used for thermal insulation of exterior walls exposed to the outer space, especially in high-rise or multi-family houses. In order to provide a panel made of vinyl sheet, etc., to provide a thermal insulation effect close to, to reduce the heating cost for the room and to maintain a comfortable indoor temperature.

In addition, to provide effective heating and noise protection for the floor surface of the interlayer wall of the building.

In addition, in order to provide perfect insulation for walls in a special warehouse, such as a refrigerated warehouse, the effect of heat insulation is fundamentally reinforced by distributing a heated or cooled air, such as a refrigerant, to a heat insulating material such as a wall or a panel for the purpose of heat insulation.

Insulation material 22 and vinyl (23) formed of a foam layer for insulation to keep the interior of the room 50 in the wall 50 or the interlayer wall 13 except for the section in which the window 14 is installed in the building 10. In the wall 50 provided with brick 32 on both sides of the lamination while being finished with cement mortar 49,

The vinyl 23 has a cylindrical vinyl 23 in contact with each other, the jacket provided with a flow space 27 and the fixing section 29, respectively, while fixing the contact surface to the fusion portion 25 by fusion with each other Provided with 20,

The wire mesh 24 is fixed to both sides of the jacket 20, and is fixed with a fixing band 36 connected to the fixing section 29, and the inlet and the outlet 11 respectively at both sides of the jacket 20. ), But the invention is provided by connecting between the jacket 20 which is assembled by connecting to each of the inlet and outlet (11, 11 ').

In addition, the jacket 20 is an invention provided for preventing noise of the interlayer wall 42 by enlarging the flow section 27 while reducing the fusion portion 25 to a smaller size and at the same time reducing the fixing section 29.

In addition, the inlet 11 to the assembly pipe 47 to protrude to the outside with a fusion splicing (25 '), the flexible pipe 45 is formed in the assembly pipe 47, the outlet 11' connected thereto ) To be fixed to the fusion portion 25 'to form a fixing groove (47') assembling groove 28, and to the outer surface of the jacket 20 to form a thermal insulation stand 35 to be exteriorized with a heat insulator (22) In addition, both sides of the heat insulating material 22 is an invention provided to be configured by forming a panel 40 which is integrally provided with the outer wall plate 21.

In addition, the invention is provided by forming the jacket 20 in the brick 32 as a built-in.

The present invention provides a jacket for reinforcing insulation on an exterior wall of a building, etc., and also effectively blocks cold and heat even in the case of cold or cold, thereby providing an environment such as maintaining a comfortable temperature in the room. It is a very useful invention with good practicality and easy installation in panels and panels.

Hereinafter, the configuration of the most preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

That is, Figure 1 is a schematic perspective view of the main portion according to the present invention, Figure 2 is an enlarged sectional view taken along line AA in Figure 1, Figure 3 is a separate partial perspective view according to the main portion for use in the present invention, Figure 4 3 is a cross-sectional view taken along line BB, and FIG. 5 (a) is a partial perspective view of the state of use in the present invention, FIG. 6 is a partial cross-sectional view of the state of use for the main part of the present invention, and FIG. 8 is a schematic perspective view of an embodiment of the main part of the present invention, FIG. 9 is an enlarged partial cross-sectional view of a state of use for the main part of FIG. 8, and FIG. 10 is a partial cutaway of the embodiment of the main part of the present invention. FIG. 11 is a cross-sectional view taken along line CC in FIG. 10, FIG. 12 is a partially cut away perspective view of the embodiment of the main part of FIG. 10, and FIG. 13 (a) is a cross-sectional view taken along line DD in FIG. Figure 14 (a) is a part of an embodiment of the main portion of the present invention 15 is a partially cutaway view of an application state with respect to FIG.

Therefore, the present invention is described in one embodiment the building 10 is built in a multi-layer structure, such as residential or business office, for the purpose of use for most residential environment or each building, to separate from each other in each floor In order to distinguish between the partition wall 50 and each floor accordingly, if the floor portion 41 and the ceiling 51 are composed of the interlayer wall 42 having a predetermined thickness for heating or noise prevention, In addition, the window 14 is installed in an appropriate structure for the ventilation of the indoor air or to secure a view of the surroundings.

Here, it is an invention for reinforcing the blocking effect against noise while reinforcing the function of heat insulation for cooling and cooling in the partition wall 50 and the interlayer wall 42 which is the object of the present invention.

Therefore, according to one embodiment of the accompanying drawings 1 to 7 in detail,

Description of the structure of the section wall 50, the bricks on both sides of the heat insulating material 22 and the vinyl 23 formed on the foam side to maintain a predetermined thickness for each division or thermal insulation, etc. for the room While providing 32) in a laminate is to be configured to be embedded by finishing with cement mortar (49) against this.

Wherein the description of the embodiment for the heat insulating material 22 described above was formed to give a minimum of the temperature change of the heating and cooling to the external temperature change possible as a synthetic resin material or a filler such as urethane foam or ocher, in the present invention By providing a structure for solving the heated air for the separate air-conditioning to the heat insulating material 22 by circulation,

The vinyl 23 has a cylindrical vinyl 23 in contact with each other, the jacket provided with a flow space 27 and the fixing section 29, respectively, while fixing the contact surface to the fusion portion 25 by fusion with each other It is invention provided with (20).

Here, the description of the vinyl 23 described above, as shown in Figures 1 to 2, the synthetic resin sheet or vinyl is formed in a predetermined thickness and the cross section so as to match the size of the panel 40 described above In addition, the cylindrical sheet is formed while the flow section 27 and the fixing section 29 are formed while fusion unit 25 is welded to each other integrally so as to maintain a predetermined interval continuously and repeatedly in the left and right directions. It is formed as, the sheet of the flat sheet is integrally fused on both sides of the fusion section 25, the section between the formation of the fixed section 29 and the fusion section 25 between the flow section of the air flow section ( The jacket 20 is formed by the 27.

This flow section 27 is a section in which air for warming and the like is circulated by the movement, and the fixing section 29 is a fixture formed by penetrating for fixing or assembling the jacket 20.

In addition, the thickness of the sheet or vinyl described above is adjusted according to the degree of use, and also formed of a three-dimensional block structure by the formation of the flow section 27 and the fixed section 29 to a solid structure in construction It is a jacket 20 to provide.

One embodiment for the cylindrical sheet described above is to form a fusion zone 25 so that the flow section 27 and the fixing section 29 are provided with each other by using a flat plate on both sides, but the edge flows in connection with each other Even if the section 27 is provided so as to be formed, the present invention is suitable for providing the jacket 20 by using waste vinyl in a rural area, and to provide it as an environment-friendly product.

Here, as a description to easily fix the assembly wall in the construction site in the section wall 50 for the jacket 20, the construction by fixing the respective wire mesh 24 to be in contact with each other on both sides of the jacket (20) It is integrated with the section wall 50 to be made.

In addition, while being fixed by a fixing band 36 connected to the fixing section 29, the structure for this is filled with cement mortar 49, it is fixed firmly as curing for a certain time.

Here, the connection to the moving air supplied to the flow section 27 described above, as shown in Figures 3 to 4 attached. The panel 20 stably and stably prevents leakage while moving air or water (hereinafter referred to as air) for heating or cooling with respect to the flow section 27 of the jacket 20 continuously and repeatedly connected to each other. In order to explain an embodiment of providing the connection between the two, the inlet, outlet 11 is formed on both sides of the jacket 20 so as to contact each other in a state in which the jacket 20 is connected to each other, The inlet 11 is an assembly tube 47 to protrude to the outside, the assembly tube 47 is inserted into the fixing tube 47 'to easily connect in adverse conditions at the construction site by the formation of the flexible portion 45 It is to be assembled, which is to fix the air to the flow section 27 by fixing the fusion table (25 ') on one side of the jacket (20).

In addition, the outlet 11 'connected to the fixing pipe 47' inserted into the assembly pipe 47 is provided by fixing the fusion portion 25 'on one side of the jacket 20, as in the assembly groove 28 is formed. Connection device.

That is, the positions of the inlet and outlet (11, 11 ') is configured to match the position where the air flows between the jacket 20 is assembled by connecting to each other.

In addition, the structure of the connection structure of the inlet and outlet ports 11 and 11 'is provided with various methods such as screw tightening and one-touch type in addition to the above-described insertion type, but this is the purpose of the present invention, the connection for the flow of air You can also use the device.

In addition, the description of the state in which the jacket 20 described above is used in the section wall 50, etc., will be described with reference to one embodiment, as shown in Figures 5 to 7, attached to both sides of the jacket 20 Fixing to the wire mesh 24; Stacking the bricks 32 to the outer side of the wire mesh 24 as a cement mortar (49) and the invention is to provide to use to build and finish the outer surface thereof with a finishing material.

In addition, the structure of the inner wall partitioning the inner section of the building 10 in the type of the partition wall 50, as shown in Figure 6, the wire mesh 24 to both sides of the jacket 20, According to the fixing section 29, the fixing band 36 or the like, but the cement 20 mortar 49 or the like by applying a trowel or the like to provide a wall 20.

In addition, the description of one embodiment of the use state in the main part of the present invention, when explaining an embodiment of the present invention for each interlayer wall 50 which is the main structure in the high-rise building 10, attached As shown in Figs. 8 to 9, in the jacket 20, which is the main part of the present invention, not only the purpose for thermal insulation for thermal insulation, but also the noise between the floors and the floor 41 of the interlayer wall 42 is generated. As an invention for reinforcing the absorption to the impact, which is an invention for the expansion of the section, that is, the flow section 27 is formed in the space in which the air flows in the structure of the jacket 20, the jacket 20 In the invention to provide a reduction in the fusion section (25) is formed so that the flow section 27 is enlarged while inducing a reduction in the fixed section (29).

In the blast furnace jacket 20, the fusion portion 25 is reduced to a smaller size, while the flow section 27 is enlarged, and the fixing section 29 is reduced to provide noise prevention of the interlayer wall 42. .

That is, in order to support the ceiling 51 in the interlayer wall 42 to be constructed, the reinforcing bars 33 are arranged at predetermined uniform intervals and arranged, but the jacket 20 is always supported by the auxiliary wire mesh 24 at the upper and lower portions thereof. After fixing it, it is filled with cement mortar 49 and provided with an interlayer wall 42 as a curing for a certain period of time, it is an invention to provide a sound insulation and reinforcement of heat insulation, which is the object of the present invention.

Here, the installation for the interlayer wall 42 to be installed is an invention provided to install the jacket 20 which is the main part of the present invention in a state of being fixed with a not shown formwork.

(Example 1)

In the type of building 10 to protect the structure of a high-rise building or facility, as an invention for one embodiment for a small building, such as a warehouse 12 of a simple structure, such as a warehouse and a simple office, Referring to one embodiment as shown in the accompanying Figures 10 to 14,

The size of the jacket 20, which is the main part of the present invention, is based on a panel which is a heat insulating material widely used for the warehouse 12.

Therefore, the outer surface of the jacket 20 is integrally formed with an insulation stand 35 to the outside to the size to maintain a predetermined thickness and width with the heat insulating material (22).

Here, the heat insulating material 22 fixedly attached to both side surfaces of the jacket 20 is integrally formed while contacting each other with the fixing section 29 formed in the panel 20.

In addition, the invention is provided so as to form a panel 40, which is integrally provided with an outer wall plate 21 formed of an iron plate or the like to protect the foam of the thermal insulation (35).

This is an invention that provides for the warming or cooling of the interior of the warehouse 12 as the use of the inclined surface of the roof 17 as well as the wall 18 in the warehouse 12 and the like described above.

The outer wall plate 21 described above is provided by forming a plurality of bent grooves 21 'while maintaining the same distance in the longitudinal direction, thereby providing durability to the panel 40.

That is, the air is discharged while being supplied to the flow space 27 of the jacket 20 by heating or cooling air or water in a cooling and heating device not shown in the warehouse 12 or the simple work room, that is, in the heat insulating material 22 By reinforcing the thermal insulation of the invention, the invention provides to effectively block the temperature movement in the cold or cold moving from the outside.

In addition, by providing the jacket 20 to the interior of the brick 32 to be used as a stack in the partition wall 50 to provide a built-in, reinforcing the thermal insulation structure for the ocher or other insulating material forming the brick 32 It is an invention provided to make.

In addition, when explaining an embodiment of the heating for the air moving in the flow section 27 of the jacket 20, the automatic control by being provided with power, timer, thermometer and order not shown in the accompanying drawings (30) By supplying to the device that connects the control device, by providing the mobile air to maintain a predetermined safe temperature (about 45 ~ 60 degrees C) by the jacket (20) by heating the stable for indoors or stabilization of buildings, etc. To provide.

1 is a schematic perspective view of a main portion according to the present invention;

FIG. 2 is an enlarged sectional view taken along the line A-A in FIG.

Figure 3 is a partially broken perspective view according to the main portion for use in the present invention

4 is a cross-sectional view taken along the line B-B in FIG.

Figure 5 (a, b) is a partial perspective view of the state of use in the present invention

Fig. 6 is a partial sectional view of a state of use for the main part of the present invention.

Figure 7 is a use state diagram for the present invention

8 is a schematic perspective view of an embodiment of the main portion of the present invention;

9 is an enlarged fragmentary sectional view of a state of use for the main portion of FIG. 8; FIG.

Figure 10 is a partially cut away perspective view of an embodiment of the main portion of the invention.

11 is a cross-sectional view taken along the line C-C in FIG.

12 is a partially cut away perspective view of an embodiment of the main portion of FIG. 10;

Figure 13 (a) is a cross-sectional view taken along the line D-D and the embodiment in Figure 12

Figure 14 (a) is a partial perspective view of an embodiment of the main part of the present invention.

FIG. 15 is a partially broken perspective view of an application state with respect to FIG. 14; FIG.

Explanation of symbols on main parts in the drawing

10: building 11,11 ': entrance and exit 12: warehouse 14: window

15 sheet 17 roof 18 wall 20 jacket

21: outer wall plate 22: insulation 23: vinyl 24: wire mesh

25: welded portion 27: flow space 28: assembly groove 29: fixed section

30: control device 32: brick 33: rebar 35: insulation 40: panel

41 bottom part 42 interlayer wall (floor) 45 flexible part 47 assembly pipe

49: cement mortar 50: partition wall 51: ceiling

Claims (4)

Insulation material 22 and vinyl (23) formed of a foam layer for insulation to keep the interior of the room 50 in the wall 50 or the interlayer wall 42 except for the section in which the window 14 is installed in the building 10. In the partition wall 50 provided with the bricks 32 on both sides of the stack and finished with cement mortar 49, the vinyl 23 is in contact with the cylindrical vinyl 23. The jacket 20 is provided with a flow space 27 and a fixing section 29 respectively while fixing the contact surfaces to the fusion unit 25 by fusion welding. The wire mesh 24 is fixed to both sides of the jacket 20, and fixed to the fixing band 36 connected to the fixing section 29, The inlet and outlet 11 are respectively formed on both sides of the jacket 20, but the jacket 20, which is assembled by connecting to each other, is connected to the respective inlet and outlet 11, 11 ′ to reinforce the thermal insulation provided. Panel. The method of claim 1, In the jacket 20, while reducing the fusion portion 25 to a smaller size, the flow section 27 is enlarged and the fixing section 29 is reduced to reinforce the insulation provided for the noise prevention of the interlayer wall 42. Panel. The method of claim 1, The inlet 11 to the assembly pipe 47 to protrude to the outside with a fusion splicing 25 ', to form a flexible portion 45 in the assembly pipe 47, In addition, the outlet 11 ′ connected thereto is fixed to the fusion portion 25 ′ to form the fixing pipe 47 ′ to form the assembling recess 28, On the outer side surface of the jacket 20 to form a heat insulator (35) to be exteriorized with a heat insulator (22), Panels to reinforce the heat insulation provided on both sides of the heat insulation stand 35 to be formed by forming a panel (40) integrally provided with an outer wall plate (21). The method of claim 1, Panel to reinforce the insulation provided by forming a jacket 20 in the brick (32) as a built-in.

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