KR101705035B1 - Panel for prefabricated building - Google Patents

Abstract

More particularly, the present invention relates to a panel of a prefabricated building, and more particularly, to a method of manufacturing a panel of a building, more specifically, by forming a box of a plate material and filling a heat insulating material therein to minimize the gap between the heat insulating material and the plate material, The present invention relates to a panel of a prefabricated building in which a structural material is further installed in a plate-like box filled with an insulating material, and a thermal insulation phenomenon is interrupted by tightly joining structural members between adjacent panels, will be.

Description

[0001] PANEL FOR PREFABRICATED BUILDING [0002]

More particularly, the present invention relates to a panel of a prefabricated building, and more particularly, to a method of manufacturing a panel of a building, more specifically, by forming a box of a plate material and filling a heat insulating material therein to minimize the gap between the heat insulating material and the plate material, The present invention relates to a panel of a prefabricated building in which a structural material is further installed in a plate-like box filled with an insulating material, and a thermal insulation phenomenon is interrupted by tightly joining structural members between adjacent panels, will be.

* In the recent construction, the unit panel which forms the wall or the floor etc. is built in the factory in advance, and the panel construction method which can form the whole structure in a short time simply by assembling the unit panel manufactured at the factory (Panelized System) is widely used.

In the above panel method, the present applicant proposed a structural composite light-weight panel as a unit panel as Patent No. 792243 (filed on August 14, 2007), and based on this, the patent No. 956741 (filed on April 23, 2008) A structure using a composite lightweight panel for construction and a construction method thereof have been proposed.

The panel of Japanese Patent No. 792243 is composed of a mesh and an interior / exterior finishing structure spaced apart from each other by fins at regular intervals on both sides of the heat insulating material. The edges of the panel are provided with internal / And a plurality of composite lightweight panels are sequentially assembled to form a structure, and the finishing steel contact portion is welded and fastened.

Further, the above-mentioned Japanese Patent No. 956741 discloses an improved type of unit panel in which a composite light-weight panel provided with a steel structural frame having sufficient rigidity functions as a structure itself.

The panel and the building using the panel as described above have proved that the required strength is secured and the air is greatly shortened through the numerous construction examples of the applicant of the present application, thereby excelling in the workability. In addition, it is possible to improve the heat insulating property by using the heat-resistant finishing material including the gypsum board and the heat insulating material inside the structure.

However, the panel of the applicant of the present application has a limitation in realizing a passive house.

The panels are laminated sequentially with a plate material, a heat insulating material and a plate material. After the urethane adhesive is uniformly applied between the heat insulating material and the plate material, pressure is applied to the heat insulating material and the plate material and the reinforcing members are inserted between the heat insulating materials, The strength of the panel was reinforced. In addition, the press-molded panel is used after being cut through a predetermined size according to the specification of the building, and is not used after being cut and cut due to complication of the cutting process.

However, in the above-described panel cutting process, since the cutting blade composed of the disk is usually moved and rotated by the motor, the plate material and the heat insulating material may be separated during the cutting process, and the cut surface may not be smoothly cut This problem is more serious as the thickness of the heat insulating material becomes larger. As a result, the outside air flows into the room through the separated gap or the non-smooth cutting edge, and heat bridge phenomenon occurs, It is not ensured that the heat insulating property is realized. In addition, since the plate material and the heat insulating material are attached during the cutting process, the thickness of the plate becomes thick, And in this case, it is difficult to cut the desired dimension accurately. In addition, there is a problem that the upper and lower dimensions are cut differently depending on the inclination of the cutting edge, Dust Resulting in poor working environment.

In this panel construction method, a finishing steel (frame for steel structure) is installed on the side of the heat insulating material. In this process, the airtightness of the contact surface between the side face of the heat insulating material and the steel frame for finishing There is a problem that the external temperature is transmitted to the inside along the steel frame for the finishing (steel frame) due to the high thermal conductivity of the steel frame for finishing (steel frame for construction) There is a problem that a thermal bridge phenomenon occurs.

As a method for connecting the unit panels, a screw or a welding method is generally used. However, in the case of a panel using a steel stud, it is difficult to apply only the screw between the panel and the panel, There is a possibility of deterioration of the quality. In case of welding, there is a high possibility that the stud base material and the heat insulating material are melted down due to the welding heat. Therefore, the method of connecting the strip with the screw thread is used.

However, in the case of this type of method, the screw can easily penetrate if there are about 2 sheets of overlapping strip plates, but when the number of overlapping plates is 3 or more, it is difficult to install the screw, and the material cost increases as the number of overlapping strips increases As a matter of course, the thickness of the outer insulating layer at the joint portion must be relatively reduced due to the increase in the thickness of the entire strip, and in particular, the problem of deteriorating the heat insulating performance at joint portions between the panels, It will be.

The thermal bridging phenomenon is a phenomenon in which when a portion of a building, such as a wall, a floor, or a roof, where there is no continuous heat insulation, the portion becomes a thermally weak portion and heat transfer through the portion is increased, In order to prevent such a thermal bridge phenomenon, it is necessary to carry out thorough insulation work so as to prevent the insulation design of the joint portion and the insulation from being discontinuous.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a heat exchanger, comprising a plate member for forming a space for filling a heat insulating material, filling a heat insulating material inside the casing, , The compression process is not required, productivity is improved, insulation is improved by preventing gaps between the plate and the insulation, the insulation of the insulation is prevented, and various types of structural materials can be used. To provide a panel of a prefabricated building.

It is another object of the present invention to provide a structure for mounting a structural member on the both sides of a cabinet, which is separated from a space for installing a heat insulating material, and reinforcing the strength of the panel by installing a structural member in the groove, The structural member is installed inside the groove to block the heat transfer inside and outside, and further the hermetically sealed material is further inserted into the groove into which the structural member is inserted so as to prevent the heat bridging phenomenon, thereby further improving the heat insulating property and realizing the passive house There is.

In the case where the structural material is a material having high thermal conductivity such as steel or steel, the structural material provided on the side of the panel is formed in the longitudinal direction of the panel to form a dichromatic structure, thereby blocking the internal / external heat transfer, It is another object of the present invention to improve the airtightness by simultaneously filling the gap formed in the inner space and the groove for installing the outer structural member through the opening by foaming and filling the space through the opening.

In addition, when leveling material is provided on the structural material mounting groove formed on the side surface of the panel and the leveling material is freely dropped and the leveling material is brought into contact with the lower base when the upper level of the panel is adjusted when the panel is coupled, It is possible to make it possible to accommodate the lower reference plane even if the reference plane is not horizontal and non-uniform.

According to an aspect of the present invention, there is provided a heat exchanger comprising: a casing formed of a plate material and having a space filled with a heat insulating material; a heat insulating material filled in the casing space; a structural member attached to both sides of the casing, The panel of the prefabricated building is provided so that there is no gap between the insulation material and the plate material, so that the insulation effect is excellent and it can serve also as a structural material.

In the above, the structural members, the structural members and the hermetic members are installed in the grooves on both sides of the frame to separate structural members from each other, and the structural members are made of wood, steel stud or steel frame.

In the case where the above structural material is a material having high thermal conductivity such as a steel stud or a steel frame, the structural material is formed in the longitudinal direction of the panel in two and the two formed ends are spaced apart from each other.

In this process, when the heat insulator is used as a foaming type, an opening is formed at a predetermined position of the recess located between the diced structural members so that the gap formed outside the space inside the compartment is simultaneously filled with the foam insulation , And the frame and the structural member are tightly bonded to each other, thereby suppressing the thermal bridge phenomenon.

In addition, the leveling material is installed in the groove in which the structural material is installed, so that the lower reference plane such as the foundation can not be kept horizontal and can be accommodated even if it is uneven.

According to the present invention constructed as described above, since the heat insulating material is filled or inserted into the cabinet formed of the plate material, the double heat shielding effect is generated by the heat insulating material and the heat insulating effect is improved, and the heat insulating material is filled in the inside of the cabinet. Since the compression process for bonding is not necessary, the productivity is improved, the heat insulating material is prevented from being contaminated, and the structural strength of the building can be secured by installing the structural members on both sides or both sides and upper and lower portions of the door, The construction of the building becomes possible, and the air is greatly shortened.

In the case of a structural material with a high thermal conductivity, it is installed in the longitudinal direction by inserting an airtight material into the joint portion of the panel, thereby blocking the heat conduction from the outside and inside, thereby improving the heat insulating property and realizing a passive house There is an effect that is possible.

In addition, by providing grooves for attaching structural members to the joints of adjacent panels, protrusions for joining structural members to the outside of the panel are not generated, so that the thickness of the external heat insulating material is not reduced, thereby improving the heat insulating property.

In addition, when leveling material that freely falls on the panel is installed, the lower reference plane such as the foundation can not be kept horizontal and can be accommodated even if it is nonuniform. In addition, when leveling the upper surface of the panel in the leveling process, Thereby improving the workability.

1 to 3 are views showing the structure of a panel according to the present invention
4 to 6 are views showing an embodiment of a structural member according to the present invention
7 to 9 are views showing a coupling structure of a panel according to the present invention
10 to 12 are views showing various embodiments of the panel according to the present invention
13 to 15 are views showing an embodiment of a leveling material

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a first embodiment of the present invention; Fig.

1, a panel of a composite building according to the present invention comprises a box 100 having a space 16 formed by a plate 12 and filled with a heat insulating material 14, And a structural member 200 installed on both sides or both sides of the cabinet 100 and upper and lower portions of the cabinet 100.

As shown in FIG. 2, the container 100 is formed as a hexahedron by using a plate 12 having a low thermal conductivity such as a plywood. An opening 110 is formed on one surface of the hexahedron, The space 16 is filled with the heat insulating material 14. [

In this case, when the heat insulating material 14 uses a foam insulating material, the opening 110 is formed in a small size on the side of the container 100, and the foamed liquid or the like is injected into the space 16 through the opening 110 So that foaming takes place inside the container 100.

3, when one side of the container 100 is opened or one side thereof is opened to form an opening 110, the opening 110 is opened, The plate heat insulating material 14 is inserted through the openings 110 and the plate material 12 is installed on the openings 110 to block the container 100. In this process, A urethane adhesive or the like may be applied.

Examples of the heat insulating material 14 include glass fiber (GLASS WOOL) which is excellent in thermal insulation effect and is nonflammable, urethane or styropol which is excellent in heat insulating property and waterproof property.

In the process of engaging the plate member 12 forming the container 100, the both side plate members 12a are disposed inside the opposite ends of the front and rear plate members 12b, The structural member 200 or the structural member 200 and the hermetic material are installed in the groove 210. [

The structural member may be selected from among wood, steel stud, and steel frame, and embodiments thereof will be described below with reference to the drawings.

As an example of the structural member made of wood, a structural member 200a made of wood may be formed of a single piece 220a having dimensions corresponding to the combined dimensions of the plurality of adjacent grooves 210 as shown in FIG. 4 (a) , Or a plurality of pieces of sheet material 232a connected to each other by a coupling piece 234a as shown in (b) to (g), or a plate material 242a such as a plywood plate as shown in (h) (B) to (d), a structure in which the plurality of grooves 232a are connected to each other by the coupling pieces 234a is used, A guide groove 236a is formed in the longitudinal direction in which the engaging pieces 234a are inserted into the plurality of grooves 232a so that both ends of the engaging pieces 234a are inserted into the plurality of guide grooves 236a, ) To (g), the engaging pieces 234a are attached to a plurality of side walls And the coupling piece 234a is selected from a material such as a plywood which is low in thermal conductivity and can serve as a structural material.

When the structural members 200b and 220c are made of a material having high thermal conductivity such as steel or steel frame, a steel or steel frame 220b forming the structural members 200b and 220c as shown in FIGS. 5 and 6, (220c) is divided into two portions in the longitudinal direction of the panel so that the two formed ends are spaced apart from each other. Further, joint members (234b) and (234c) having heat insulation and strength are further provided on the separated structural members.

As shown in FIGS. 7 to 9, the structural members 200a, 200b, and 220c and the structural members 200a, 200b, and 220c are disposed between the container 100 and the structural members 200a, 200b, 252b, 254b, 252c, and 254c formed between the plate members 242a and 252b and the plate member 242a formed in the case of using the structural member as a wooden member to form a tubular structure member (Gap g) (refer to FIG. 4 (g)) 256a is filled with a gap insulating material or a gas tight material (butyl rubber or the like). In this process, the space 16 of the container 100 is filled with a heat insulating material The openings 110 formed to be connected to the structural material mounting grooves 210 are formed so as to be connected to the gaps and grooves generated between the casing and the structural members in the process of filling the internal space 16 with the heat insulating material. Can be filled. In addition, a gas-tight material such as a heat-insulating tape other than the filling-type heat-insulating material may be provided in the above gap.

The panel P thus formed is formed in a shape of '+', 'T', 'A', or the like as shown in FIGS. 10 to 12, And a groove for inserting a structural member and an airtight member may be formed. In this case, the plate members may be combined to have a space shape of '+', 'T', or 'A' Further, a space and grooves may be further formed by attaching a plate material.

The leveling material 300 is fixed to the mounting groove 310 at the lower part of the structural member 200 and is fixed to the mounting groove 310 by the fastening means including the bolts at the dropping position As shown in FIG. 13 to FIG. 15, a leveling material 300 (see FIG. 13) is provided under the structural member 200 for the purpose of accommodating the unevenness of the lower reference surface, The leveling material 300 is formed so that the leveling material 300 can freely drop while the lower portion is opened. The leveling material 300, which is inserted into the mounting groove 310 and freely dropped according to the lower level, And fastened by fastening means such as screws.

13, when the structural members are made of wood and a plurality of the wood pieces are connected to each other by the coupling pieces, the coupling pieces 234a are fixed from the upper end of the wood material 232a and separated from the lower ends of the wood material by a predetermined distance And the leveling material 300 is formed on the lower surface of the fixing piece 238a so that the thickness of the leveling material 300 is equal to the thickness of the coupling piece 234a, A slide 320 formed with a corresponding thickness and into which both ends are inserted by a guide groove 236a formed in a plurality of the slabs 232a and a slide member 320 integrally fastened to the slide 320, And the fixing member 330 may be fixed to the facing surfaces of the wood material and the wood material and a guide groove 239a through which the fixing member 330 is guided may be formed on the wood material The fixing member 330 in the guide groove 239a, To move by the slide 320, the position is fixed is fastened to the piece or the like.

In addition, a person skilled in the art can carry out the leveling material 300 by various methods, so that the description of other embodiments is omitted.

In the process of installing the structural member 200 including the leveling material 300 having the above-described structure, the upper portion of the structural member 200 is automatically leveled, that is, the level is adjusted, In this process, even if the lower reference plane is uneven, the leveling member 300 falls freely and comes into contact with the uneven lower reference plane, and the horizontal level of the upper reference plane can be maintained without any additional measures.

100: Ship 12: Plate
14: Insulation 16: Space
110: opening part 200: structural material
210: Structural member mounting groove 300: Leveling material
P: Panel

Claims (5)

A box 100 formed of a plate material 12;
A heat insulating material (14) filled into a space (16) formed in the container (100);
A structural member 200 installed at both side portions or both side portions of the box 100 and at upper and lower portions thereof;
Structural material mounting grooves 210 are formed on both sides of the container 100 to be separated from the space 16,
The structural member 200 is formed by connecting a plurality of planar members 232a with coupling pieces 234a,
The coupling piece 234a is formed to be positioned at a position spaced apart from the lower end of the groove 232a by a predetermined distance and is fixed by the fixing piece 238a so that the mounting groove 310 is formed under the fixing piece 238a And,
A leveling material 300 installed in the mounting groove 310 so as to be positioned by fastening means including a bolt at a dropped position in contact with an uneven lower reference plane of the base;
The leveling material 300 includes a slide 320 into which the both ends are inserted by a guide groove 236a formed in the groove 232a and a slide member 320 which is integrally fastened to the slide 320 and fastened to the slide at a free- And a guide groove (239a) formed in the sheet material (232a) so that the fixing member (330) is guided. delete The method according to claim 1,
Wherein the panels (12a) on both sides of the panel are positioned on the inner sides of both ends of the front and rear panel members (12b) of the panel to form structural member mounting grooves (210). The method according to claim 1,
Wherein the structural member is divided into two portions in the longitudinal direction of the panel when the structural material is a material having a high thermal conductivity, and the divided portions are provided in the grooves so as to be spaced apart from each other. The panel of the prefabricated building according to claim 4, wherein an opening is formed at a predetermined position of the recess located between the dichroic structural members, so that a gap outside the space inside the container is filled with the foam insulating material at the same time.

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