KR102237911B1 - Laminating panel type module unit of modular building - Google Patents

Abstract

The present invention relates to a stacked panel type module unit of a modular building, which can improve bending performance and expansion of an internal space. The stacked panel type module unit of a modular building of the present invention comprises: a ceiling part (100) for forming an upper space part (130); a bottom part (200) for forming a lower space part (230); and a reinforcing structure (300) installed to be connected to both sides in a longitudinal direction of the ceiling part (100) and the bottom part (200).

Description

Laminate panel type module unit of modular building {LAMINATING PANEL TYPE MODULE UNIT OF MODULAR BUILDING}

The present invention relates to a laminated panel-type module unit of a modular building, and more particularly, a cross-laminated timber (CLT) or a structural plywood core composite (SPCP) on a glulam structure having a fixed diameter. panel), a cross-layered panel member and a cross-layered timber panel composed of any one of structural plywood core composite faceted structures, respectively, to improve the bending performance and reduce the thickness of the cross-layered panel member and the cross-layered timber panel of the long-span structure. It relates to a laminated panel-type module unit of a modular building that allows the internal space of the module unit to be expanded through.

The modular system is an innovative method of manufacturing modules in the factory and assembling unit modules in the field. Since it is manufactured by the dry method, all-weather construction is possible, and it is easy to reuse resources and expand and renovate using unit modules.

Existing modular systems were mainly made of steel or concrete, but interest in buildings using wood is increasing due to carbon reduction and the development and distribution of various engineered wood. Currently, the thinning period is almost over in Korea and the beolyeong period is approaching. Wood, which is a block of carbon, should be actively used as a high value-added material and as a building material for long-term carbon storage, and demand must be promoted.

In addition, the biggest advantage of the modular system is the construction period and economical efficiency. The construction period can be reduced to one-third, and the construction cost can be drastically reduced, as well as being reusable, so it is excellent in economics. In addition, by reducing field work, waste generation can be suppressed as much as possible, and civil complaints such as noise and dust can be minimized.

On the other hand, the lower frame and the upper frame forming the module unit of a modular building have the same size and standard, because it can facilitate the supply and demand of materials by inducing standardization of materials.

However, when a plurality of module units are stacked upward, the thickness of the lower frame or upper frame is increased in order to support the load, resulting in a problem that the internal space is reduced. This will lead to an increase in costs and labor costs.

As a background technology of the present invention, a beam-to-column joint structure of a modular building of Korean Patent Registration No. 10-0705697 is disclosed.

The present invention has been invented in view of the above circumstances, and an object of the present invention is a cross-laminated timber (CLT) or SPCP (Structural plywood core composite panel) on a glulam structure having a fixed diameter. ), by attaching and integrating the cross-layered panel member and the cross-layered timber panel made of any of the structural plywood core composite faceted structures, respectively, to increase the bending performance of the cross-layered panel member and the cross-layered timber panel of the long span structure. ,It is possible to sufficiently secure the internal space of the module unit by reducing the thickness of the substructure bundle material, and improve the flexural modulus and flexural strength by the tendon members installed in the upper and lower structure bundle materials. It is to provide a laminated panel-type module unit of a modular building that can increase the durability of the product.

In the present invention for achieving the above object, a pair of upper structural adhesives 110 are spaced apart from each other by a certain distance, and a cross-laminated panel member 120 is mounted on the upper side of the upper structural adhesive 110 A ceiling portion 100 forming an upper space portion 130 between the upper structure assembly material 110; It is spaced from the ceiling part 100 at a certain interval in the downward direction, a pair of lower structural adhesives 210 are spaced apart from each other by a predetermined interval, and a cross-laminated timber panel 220 on the lower side of the lower structural adhesive 210 A bottom portion 200 configured to be mounted in succession to form a lower space portion 230 between the lower structure assembly material 210; A reinforcing structure 300 installed so that both sides in the length direction are connected to both sides in the length direction of the ceiling part 100 and the floor part 200; Tendon member 400 installed in the tension member installation groove 150 formed in the longitudinal direction of the upper and lower structural adhesive members 110 and 210, and seated at both ends of the upper and lower structural adhesive members 110 and 210 in the longitudinal direction Includes a mounting plate 500 to be installed, and a built-in tension part 600 that is inserted into the tension member installation groove 150 while being connected to the mounting plate 500 to fix the tendon member 400 in tension. And the built-in tension member 600 is inserted into the tension member installation groove 150 while being installed on the seating plate 500, and the inner diameter gradually decreases from one side in the length direction to the other side. Tendon member 400 that is installed to be inserted into the header hole 610 and the inner side of the header hole 610 is tensioned while pressing the outer periphery of the tendon member 400, but the outer diameter is length It is configured to include a split wedge mechanism 620 made to gradually decrease from one side to the other side in the direction, and a joint hole 510 and the joint hole for allowing the header hole 610 to pass through the seating plate 500 A seating engagement end 520 formed inclined inward from the edge of the 510 is formed, and a contact seating port 611 that is engaged with the seating engagement end 520 is formed in the header hole 610, and the contact The mounting hole 611 has a structure in which the outer circumferential diameter gradually increases so as to correspond to the mounting engagement end 520 so that when the contact mounting hole 611 is caught in the mounting engagement end 520, the header hole ( It is characterized in that one side of the 610) is made so as not to protrude to the outside of the seating plate (500).

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In addition, the reinforcement structure 300 is a cross-laminated timber (CLT) structure made to have a certain area by intersecting and stacking the stacking plates of a predetermined thickness, or by stacking each other so that the fiber direction of the wood is flat. It is characterized in that it is any one of the glue ram member made to have a length.

According to the present invention, the cross-layered panel member and the cross-layered wood panel are respectively mounted and integrated in the upper and lower structural composite materials, thereby improving the bending performance of the cross-layered panel member and the cross-layered wood panel of a long span structure. Durability can be increased, and assembleability of the module unit can be improved, and the inner space of the module unit can be sufficiently secured by reducing the thickness of the upper and lower components of the module unit.

1 is a state diagram showing a state of a laminated panel type module unit of a modular building according to the present invention,
2 is a cross-sectional view showing a cross-sectional state of a laminated panel-type module unit of a modular building according to the present invention;
3 is a state diagram showing a state in which the seating plate and the built-in tensioning unit according to the present invention are applied;
4 is a state diagram showing a state in which the seating plate and the built-in tensioning part are mounted according to the present invention;
Figure 5 is a state diagram showing the state of the split wedge mechanism according to the present invention,
Figure 6 is a state diagram showing another embodiment of the mounting plate and the built-in tension according to the present invention,
7 is a state diagram showing a state in which the cross-laminated panel member and the cross-laminated wood panel according to the present invention are installed in succession to the upper and lower structural composite materials in case of a small size;
Figure 8 is a state diagram showing an embodiment made to have a structure of a reinforcing structure according to the present invention a square material.

Hereinafter, a laminated panel type module unit of a modular building according to the present invention will be described in detail with reference to the accompanying drawings. Prior to this, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, terms to be described later are terms set in consideration of functions in the present invention, and these terms may vary according to the intention or custom of the producer or manufacturer producing the product, and the thickness of the lines or the size of the components shown in the drawings. And the like may be exaggerated for clarity and convenience of description, and the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical ideas of the present invention. As such, it should be understood that there may be various equivalents and modified examples that can replace them at the time of the present application.

In addition, when a part of the specification is said to be'connected' with another part, this includes not only the case that it is'directly connected', but also the case that it is'indirectly connected' with another element in the middle. do. In addition, "including" a certain component means that other components may be further included rather than excluding other components unless specifically stated to the contrary.

1 is a state diagram showing the state of the laminated panel-type module unit of the modular building according to the present invention, Figure 2 is a cross-sectional view showing the cross-sectional state of the laminated panel-type module unit of the modular building according to the present invention, Figure 3 is the present invention A state diagram showing a state in which the seating plate and the built-in tensioning part are applied according to the present invention, FIG. 4 is a state diagram showing a state in which the seating plate and the built-in tensioning part according to the present invention are mounted, and FIG. 5 is a state diagram showing the state of the split wedge mechanism according to the present invention. Figure 6 is a state diagram showing another embodiment of the mounting plate and the built-in tension according to the present invention, Figure 7 is a cross-layered panel member and cross-layered timber panel according to the present invention in the case of a small, upper and lower structural composite material It is a state diagram showing a state of being installed in succession, and Figure 8 is a state diagram showing an embodiment made to have a structure of a reinforcing structure according to the present invention to have a structure of a square member.

As shown in FIGS. 1 to 8, the laminated panel-type module unit of the modular building according to the present invention includes a ceiling part 100 formed to mount the cross-laminated panel member 120 on the upper part of a pair of upper structural assembly materials 110. ), and the floor part 200 on which the cross-laminated wood panel 220 is mounted on the lower part of the pair of sub-structure adhesives 210, and installed on both sides in the longitudinal direction of the ceiling part 100 and the floor part 200 It is configured to include a reinforcing structure (300).

That is, the laminated panel-type module unit of the modular building according to the present invention is a cross-laminated timber (CLT) or a structural plywood core (SPCP) on the upper and lower structural composite materials (110, 210) of a glulam structure having a predetermined diameter. composite panel), the cross-laminated panel member 120 and the cross-laminated wood panel 220 made of any one of the structural plywood core composite faceted structure are mounted and integrated into the cross-laminated panel member 120 of the long-span structure and the cross-laminated type. To achieve expansion of the inner space of the module unit by improving the bending performance and reducing the thickness of the wooden panel 220.

The ceiling portion 100 is a configuration constituting the ceiling of the module unit, a pair of upper structural adhesives 110 are spaced apart from each other by a predetermined distance, the cross-laminated panel member 120 on the upper side of the upper structural adhesive 110 ) Is integrally mounted so that the upper space portion 130 can be formed between the upper structure assembly material 110.

That is, the ceiling part 100 is a cross-laminated timber (CCLT) or a structural plywood core composite panel (SPCP) on the upper part of the upper structural composite material 110 of a glulam structure having a certain thickness, and a structural plywood core composite facet By integrally forming the cross-laminated panel member 120 made of any one of the structures to increase the assembling property of the module unit, as well as allowing the upper space part 130 to be formed on the inner upper side of the module unit, construction construction This is to prevent the internal space of the module unit from becoming narrower by allowing the installation space of electrical equipment, piping equipment, and insulation equipment, which must be provided at the time, to be provided.

At this time, the cross-laminated panel member 120 made of any one of CLT (Cross Laminated Timber) or SPCP (Structural plywood core composite panel), and structural plywood core composite faceted structure is a small area according to the site situation or manufacturing conditions. It is to be noted that the member may be formed in a structure that allows the member to be installed in succession along the longitudinal direction of the upper structure assembly material 110.

This is, in the case of manufacturing a large cross-layered panel member 120 having a long span structure, it is necessary to provide expensive large CLT manufacturing machinery equipment, but small CLT manufacturing in situations where expensive large CLT manufacturing machinery equipment cannot be provided depending on manufacturing conditions. A small cross-layered panel member having a single span structure is manufactured using mechanical equipment and is easily installed in succession on the upper portion of the upper structural assembly 110 so as to solve the manufacturing difficulties.

In addition, the floor part 200 is spaced downward from the ceiling part 100 at a certain interval, a pair of substructure gluing materials 210 are spaced apart from each other at a certain interval, and the lower part of the substructure gluing material 210 A cross-layered wood panel 220 is mounted on the side so that the lower space part 230 can be formed between the lower structure composite material 210.

That is, the bottom part 200 is a cross-laminated timber (CLT) or SPCP (Structural plywood core composite panel) on the upper part of the lower structure composite material 210 of a glulam structure having a certain thickness, and a structural plywood core composite By integrally forming the cross-layered timber panel 220 made of any one of the icosahedral structures, it is possible to increase the assemblability of the module unit, as well as to allow the lower space part 230 to be formed at the lower side of the module unit. This is to prevent the reduction of the internal space of the module unit and the convenience of construction of the module building by allowing the installation space of electrical equipment, piping equipment, insulation equipment, heating equipment, etc., which must be provided during construction, to be provided.

At this time, the cross-laminated timber panel 220 made of any one of CLT (Cross Laminated Timber), SPCP (Structural plywood core composite panel), and structural plywood core composite faceted structure is a small area according to the site situation or manufacturing conditions. It is to be noted that the member may be formed in a structure such that it can be continuously installed along the longitudinal direction of the lower structure assembly material 210.

In addition, the reinforcement structure 300 is installed so that both sides in the length direction are connected to both sides in the length direction of the ceiling part 100 and the floor part 200 to form sidewalls of the module unit. Cross Laminated Timber (CLT) or SPCP (Structural plywood core composite panel) made to have a certain area by intersecting and stacking each other so that the fiber direction of the wood is flat It may be any one of the glulam members of each member made to have a predetermined length by stacking.

In addition, the front part and the rear part between the ceiling part 100 and the floor part 200 to which the reinforcing structure 300 is not installed have an open structure or a window to be installed depending on the construction situation or design condition of the modular building. It should be noted that a wall of a hard alley structure or a wall of a CLT structure can be installed.

As described above, in the laminated panel-type module unit of the modular building according to the present invention, the ceiling part 100 and the floor part 200 are CLT (Cross Laminated Timber) or SPCP (Structural plywood core composite panel), among structural plywood core composite faceted structures. It is integrated with any one panel and a glulam-structured structural bonding material to improve the bending performance and reduce the thickness of the long-span panel to achieve expansion and economy of the internal space, and the assembling ability of the module unit. It is improved and it is possible to increase the constructability of the modular building.

On the other hand, in the present invention, the tendon member 400 installed in the tension member installation groove 150 formed in the longitudinal direction of the upper and lower structural adhesive members 110 and 210, and the length of the upper and lower structural adhesive members 110 and 210 A mounting plate 500 installed to be seated at both ends of the direction, and a built-in tensioning part that is inserted into the tension member installation groove 150 while being connected to the mounting plate 500 to fix the tendon member 400 in tension. It may be configured to further include 600.

In other words, the tendon member 400 is installed along the longitudinal direction of the upper and lower structural assembly members 110 and 210, and the tendon member 400 can be tensioned in a high tension state by the built-in tension member 600. By preventing the increase in the thickness of the upper and lower structural bundling materials 110 and 210 of the ceiling part 100 and the floor part 200, the modulus of flexural elasticity and the flexural strength of the tendon member 400 are improved. This is to increase the durability and to secure enough internal space of the module unit.

In this case, in the case of a high-rise module building, the load resistance must be increased, so the size or thickness of the upper and lower structural bundling members 110 and 210 must be increased, thereby causing a problem that the inner space of the module unit is narrowed. Accordingly, the tendon member 400 is installed inside the upper and lower structural assembly members 110 and 210 to provide high tension through the built-in tensioning part 600 to improve the flexural modulus and flexural strength, thereby narrowing the inner space of the module unit. This is to ensure that effective resistance to high loads can be exhibited while preventing the loss phenomenon.

At this time, the tendon member 400 may be made of any one of a deformed iron wire, a PC steel wire, a steel rod, and a twisted wire in which a plurality of strands are spirally rolled around an axis. At this time, it will be preferable to use the tendon member 400 having a low elongation.

In addition, the built-in tension part 600, which is a tension part for high tension in the tendon member 400, has a built-in structure that is hidden inside the tension member installation groove 150, so that when installing side connections between a plurality of module units, By preventing the formation of unnecessary spaced space between adjacent module units, space can be secured with maximum efficiency in a designated building area.

Here, the built-in tension member 600 as an embodiment is inserted into the tension member installation groove 150 while being installed in the seating plate 500, but the inner diameter gradually decreases from one side in the length direction to the other side. It is tension-fixed while pressing the outer periphery of the hollow header hole 610 and the tendon member 400 that is installed to be inserted into the header hole 610 and extends to the inside of the header hole 610, but the outer diameter It is configured to include a split wedge mechanism 620 made to gradually decrease from one side in the longitudinal direction to the other side.

Here, the header hole 610 is formed to extend from the mounting plate 500 in the direction of the tension member installation groove 150, and the inner diameter of the header hole 610 is at one side in the direction of the mounting plate 500 The inner diameter of the header hole 610 is gradually reduced as the tension member installation groove 150 goes toward the other side, and the split wedge device 620 is inserted into the header hole 610 to gradually decrease the inner diameter of the header hole 610. By pressing the outer periphery of the tendon member 400 is fixed.

At this time, the dividing wedge mechanism 620 includes a plurality of arc dividing spheres 621 having an arc shape in the outer periphery and inner periphery, and an elastic wrapping sphere 622 installed to surround one side of the arc dividing sphere 621 A tension member insertion hole 623 is formed in the central portion by which the arc splitting sphere 621 is connected via the elastic wrapping hole 622 so that the tendon member 400 can be inserted.

As described above, in the present invention, as the splitting wedge mechanism 620 has a structure corresponding to the gradually decreasing inner diameter of the header hole 610, the arc splitting hole 621 is tense when the tendon member 400 is tensioned. The distortion phenomenon is prevented, so that the tendon member 400 can be easily pressed and fixed.

That is, in the case of high tension by tensioning one side of the tendon member 400 through an equipment that imparts a tension force, the split wedge mechanism 620 for pressing the outer periphery of the tendon member 400 is provided with the header hole 610 ) By moving a certain length from the inside to the outside direction, the compression state is loosened, and the split wedge mechanism 620 is formed by the contraction of the tendon member 400 when dismantling the equipment that imparts a tension force. Due to the shape of the inner circumference of the header hole 610 while being instantaneously moved to the inside, the plurality of arc splitting holes 621 are not twisted or displaced, and effectively press and fix the outer circumference of the tendon member 400. Tension loss at the moment of disassembly is minimized, so that sufficient tension can be given to the tendon member 400.

Here, the header tool 610 is described as being fixedly installed on the mounting plate 500, but is not limited thereto, and a state in which one side of the header tool 610 in the longitudinal direction is caught by the header tool 610 It could also be installed rotatably.

In this case, the seating plate 500 includes a joint hole 510 through which the header hole 610 can pass and a seating end 520 formed to be inclined from the edge of the joint hole 510 in the inward direction. Is formed, and the header hole 610 has a contact mounting hole 611 that is engaged with the mounting engaging end 520, but the contact mounting hole 611 has an outer circumferential diameter corresponding to the mounting engaging end 520 When the contact mounting hole 611 is engaged with the mounting engaging end 520, one side of the header hole 610 does not protrude to the outside of the mounting plate 500 by having a gradually increasing structure.

That is, as the header tool 610 is rotatably engaged with the seating plate 500, it is possible to easily respond to the rotational force generated during tensioning of the tendon member 400, so that the tension force due to damage or damage to the tensioned portion Loss can be prevented, and as the header hole 610 does not protrude to the outside of the mounting plate 500, when installing side connections between a plurality of module units, the formation of unnecessary spaces is prevented in a predetermined building area. Space can be secured with maximum efficiency.

On the other hand, the mounting plate 500 is installed to be installed on both ends of the longitudinal direction of the upper and lower structural assembly (110, 210), the reinforcing structure (300) located in the lower direction of the upper and lower structural assembly (110, 210) In a state in close contact with the reinforcing structure 300, an extended pressurizing plate 530 that is pressed and closely attached to the reinforcing structure 300 through a fastener (unsigned) is formed so that the high tension of the tendon member 400 is transmitted to the reinforcing structure 300 It will be possible to increase the overall durability of the module unit.

At this time, the extended pressing plate 530 may have a structure integrally formed with the mounting plate 500 or may be combined by bolting or welding as an example of a separate bonding configuration and bonding method. Preferably, it would be desirable to be integrally formed with the seating plate 500.

As described above, specific embodiments of the present invention have been described in detail, but those of ordinary skill in the field to which the present invention pertains will be able to implement various modifications without departing from the scope of the present invention. Therefore, the scope of the present invention is not limited to the above-described embodiments, and should be defined by the claims and equivalents as well as the claims to be described later.

100: ceiling part 110: upper structure gypsum material
120: cross-layered panel member 130: upper space
150: tension member installation groove 200: bottom
210: substructure adhesive 220: cross-layered wood panel
230: lower space part 300: reinforcement structure
400: tendon member 500: seating plate
510: joint hole 520: seating end
600: built-in ledger 610: Heather-gu
611: contact seat 620: split wedge
621: arc splitting sphere 622: elastic wrapping sphere
623: Tension re-inserter

Claims (5)

A pair of upper structural adhesives 110 are spaced apart from each other at a certain interval, and a cross-laminated panel member 120 is mounted on the upper side of the upper structural adhesive 110 between the upper structural adhesives 110 A ceiling portion 100 forming an upper space portion 130; It is spaced from the ceiling part 100 at a certain interval in the downward direction, and a pair of lower structural adhesives 210 are spaced apart from each other by a predetermined interval, and a cross-laminated timber panel 220 on the lower side of the lower structural adhesive 210 A bottom portion 200 configured to be mounted in succession to form a lower space portion 230 between the lower structure assembly material 210; A reinforcing structure 300 installed so that both sides in the length direction are connected to both sides in the length direction of the ceiling part 100 and the floor part 200; Tendon members 400 installed in the tension member installation groove 150 formed in the longitudinal direction of the upper and lower structural adhesive members 110 and 210, and the upper and lower structural adhesive members 110.210 are seated at both ends of the longitudinal direction of the upper and lower structural adhesive members 110.210 in the longitudinal direction. Includes a mounting plate 500 that is installed to be installed, and a built-in tension member 600 that is inserted into the tension member installation groove 150 while being connected to the mounting plate 500 to fix the tendon member 400 in tension. Is composed of,
The built-in tension portion 600 is inserted into the inner side of the tension member installation groove 150 in a state installed in the mounting plate 500, but is formed to gradually decrease the inner diameter from one side in the length direction to the other side ( 610), and tension-fixed while pressing the outer periphery of the tendon member 400, which is installed to be inserted into the header hole 610 and extends to the inside of the header hole 610, but the outer diameter is different from one side in the length direction. It is configured to include a split wedge mechanism 620 made to gradually become smaller toward the side,
The seating plate 500 has a joint hole 510 through which the header hole 610 can pass and a seating end 520 formed to be inclined inward from the edge of the joint hole 510, The header hole 610 has a contact mounting hole 611 that is engaged with the mounting engagement end 520, and the contact mounting hole 611 has an outer peripheral diameter gradually increasing so as to correspond to the mounting engagement end 520 When the contact mounting hole 611 is engaged with the mounting engaging end 520, one side of the header hole 610 does not protrude to the outside of the mounting plate 500. Laminated panel type module unit of modular building.
The method of claim 1,
The reinforcing structure 300 is a cross-laminated timber (CLT) structure made to have a certain area by intersecting and stacking the laminated plates of a certain thickness, or laminated to each other so that the fibrous direction of the wood is flat to achieve a certain length. A laminated panel-type module unit of a modular building, characterized in that it is any one of the glue ram members of each member made to have.
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