KR102492782B1 - Construction method using prefabricated structures - Google Patents

Abstract

Disclosed is a construction method using a prefabricated structure with improved construction convenience. The construction method using a prefabricated structure uses the prefabricated structure which comprises: a base module installed on the ground surface; a plurality of first side wall modules coupled to the base module to have an adjustable length in a vertical direction; a plurality of second side wall modules movably coupled to the base module between the plurality of first side wall modules, and capable of forming a side wall body by being connected to the plurality of first side wall modules, and adjusting the size of a curvature of an upper side; a reinforcing module for connecting the plurality of second side wall modules to each other; and a roof module having an adjustable area corresponding to the size of curvature of the plurality of second side wall modules. The construction method using the prefabricated structure comprises: a step of fixing the base module on the ground surface; a step of coupling the plurality of first side wall modules to the base module; a step of respectively arranging the plurality of second side wall modules on the parts between the plurality of first side wall modules, and coupling the plurality of second side wall modules to the base module; a step of sliding a plurality of side wall plates arranged on an upper side of the second side wall modules and adjusting the size of curvature of the second side wall modules; a step of adjusting the height of the plurality of first side wall modules and connecting the plurality of first side wall modules to the second side wall modules so that both end units of the second side wall modules with the adjusted size of curvature can be supported; a step of respectively coupling the reinforcing modules with the plurality of second side wall modules with the adjusted size of curvature; a step of sliding a plurality of roof plates of the roof module corresponding to the size of curvature of the plurality of second side wall modules, and adjusting the size of curvature of the roof module; and a step of coupling the roof module with the adjusted size of curvature to the plurality of second side wall modules.

Description

Construction method using prefabricated structures}

The present invention relates to a construction method using a prefabricated structure, and relates to a construction method using a prefabricated structure with improved construction convenience.

In general, in the case of various performances or events outdoors, a tent is installed to avoid intense sunlight, snow or rain, etc., while the tent as described above is simply a prefabricated tent installed in a limited and small space, There is a prefabricated structure that has a large size and is installed over a relatively large area.

Here, the prefabricated structure described above is not temporarily installed and then demolished or disassembled again, but is a sculpture installed in the relevant place for a mid/long term. Prefabricated structures having various shapes and structures that also serve as landscaping objects have been proposed.

However, most of the tent sculptures as described above have a problem in that they do not have both a beautiful appearance and solid fixing power. Because it becomes thicker or larger, it does not have a beautiful appearance, and when a beautiful appearance is important, the strength and fixing power of various structures and frames are relatively low, and durability is lowered.

In particular, as the prefabricated structure gradually increases in size, rigidity and supporting capacity are required to effectively support the prefabricated structure, which is a heavy weight. Therefore, a large prefabricated structure with a beautiful appearance and strong fixing and installation power is urgently required. to be.

KR 10-2011-0013731 A1

The present invention provides a construction method using a prefabricated structure with improved construction convenience.

In addition, the present invention provides a construction method using a prefabricated structure that can easily assemble and separate the prefabricated structure.

A construction method using a prefabricated structure according to an embodiment of the present invention for solving the above problems includes a base module installed on the ground, a plurality of first sidewall modules coupled to the base module to be adjustable in length along the vertical direction, and , It is movably coupled to the base module between the plurality of first side wall modules and is linked to the plurality of first side wall modules to form a side wall body, the size of the curvature of the upper part can be adjusted, and the plurality of second A construction method using a prefabricated structure including a side wall module, a reinforcing module for connecting between a plurality of second side wall modules, and a roof module whose area can be adjusted in response to the size of curvature of the plurality of second side wall modules. As a, the process of fixing the base module to the ground; coupling the plurality of first sidewall modules to the base module; arranging a plurality of second sidewall modules between the plurality of first sidewall modules and coupling them to the base module; adjusting the amount of curvature of the second side wall module by sliding the plurality of side wall plates provided on the top of the second side wall module; connecting the plurality of first sidewall modules with the second sidewall modules by adjusting heights of the plurality of first sidewall modules so as to support both ends of the second sidewall modules whose curvature is adjusted; coupling a reinforcing module to each of the plurality of second sidewall modules whose curvatures are adjusted; adjusting the curvature of the roof module by sliding and moving the plurality of roof plates of the roof module in response to the curvature of the plurality of second sidewall modules; and coupling the roof module, the curvature of which is adjusted, to the plurality of second sidewall modules.

The process of adjusting the amount of curvature of the second side wall module is a first adjustment process of extending or shortening the height or width of the second side wall module by moving a part of the second side wall module in the vertical or width direction. ; and a second adjustment process of moving the plurality of side wall plates vertically or in a width direction with a length shorter than the adjustment length of the first adjustment process, wherein the first side wall module and the second side wall module are connected to each other. The process of doing may include changing the length of a part of the plurality of first side wall modules by sliding upward in correspondence with the heights of both ends of the plurality of side wall plates; The step of supporting both ends of the plurality of side wall plates by the plurality of first side wall modules, wherein the step of adjusting the curvature of the roof module includes one side of the plurality of roof plates and a plurality of second side walls. spreading the plurality of roof plates to make surface contact with the plurality of side wall plates while in contact with one of the modules; and bringing the other side of the plurality of unfolded roof plates into contact with the other one of the second side wall modules.

The second side wall module includes a support portion including a load distributing bar formed to be adjustable in length so as to support the plurality of side wall plates and the plurality of side wall plates, at least partially overlapping and being slidably connected to each other; A curvature portion connected to the support portion and rotatably coupled to the load distributing bar so as to adjust at least one of a size of an area of the support portion and a size of curvature of the support portion, wherein the plurality of sidewall plates are A guide groove penetrates vertically and extends in the longitudinal direction of the side wall plate, and a guide pin protrudes downward from the side wall plate, and the guide pin of one side wall plate is inserted into the guide groove of the other side wall plate, The curvature unit includes a pair of first curvature changers at least partially movable in the vertical direction so as to change the size of the area and the size of curvature by unfolding the plurality of sidewall plates; and a second curvature changer installed between the first curvature changers such that at least a portion thereof is movable in a width direction so as to change the size of an area and the size of curvature by unfolding the plurality of sidewall plates. a third curvature changer movable in the vertical direction to adjust the size of the curvature of the plurality of side wall plates; and a fourth curvature changer movable in the width direction so as to adjust the curvature of the plurality of side wall plates.

After the process of adjusting the curvature of the second sidewall module, a tertiary adjustment process of moving the plurality of sidewall plates in the vertical direction or width direction with a length different from the adjustment length of the second adjustment process; includes, In the tertiary adjusting process, the lengths of the plurality of side wall plates of one of the plurality of second side wall modules are adjusted in the vertical direction or the width direction, and then, the lengths of the plurality of side wall plates of the other second side wall module are adjusted. Adjusting the vertical or widthwise length of the side wall plate; and retracting the plurality of unfolded roof plates so as to overlap each other in correspondence to the changed lengths of the plurality of side wall plates in the vertical direction or width direction.

The first curvature changer may include a first main frame extending in a vertical direction and having an inner space; a first adjusting frame, at least a part of which is inserted into the inner space of the first main frame, and installed on the first main frame to be movable in a vertical direction; and a first fixing pin insertable into the first adjusting frame and the first main frame so as to fix the first adjusting frame to the first main frame, wherein the second curvature changer comprises: A second main frame extending to and having an inner space; a second adjusting frame inserted into the inner space of the second main frame and installed on the first adjusting frame to be movable in a width direction; and a second fixing pin capable of fixing the second control frame to the second main frame; the third curvature changer including a first length changer; a first support shaft coupled to a lower portion of the first length changer and rotatably installed in the second curvature changer; and a second support shaft coupled to an upper portion of the first length changer and rotatably installed on the side wall plate, wherein the fourth curvature changer includes: a second length changer; a third support shaft coupled to a lower portion of the second length changer and rotatably installed in the first curvature changer; And a fourth support shaft coupled to an upper portion of the second length-changing body and rotatably installed on the side wall plate; including, the first length-changing body and the second length-changing body, the upper portion and the lower portion thereof. A screw thread is formed on the top, and the screw thread formed on the upper part and the screw thread formed on the lower part are opposite to each other.

According to the present invention, the volume can be easily changed according to the user's intention by adjusting the curvature of the second side wall module. Accordingly, the structure can be formed with a desired volume by the user without adding a separate structure.

In addition, the prefabricated structure can be rapidly assembled and disassembled.

In addition, since the structure can be installed on the site without using bolts or nails, damage to the site can be suppressed or prevented.

In addition, the durability of the prefabricated structure can be improved through the reinforcing module. Thus, even if an external impact occurs, it is possible to suppress or prevent the prefabricated structure from collapsing.

1 is a flowchart of a construction method using a prefabricated structure according to an embodiment of the present invention.
2 is an exploded side view of a prefabricated structure.
3 is a view showing the structure of a second side wall module.
4A to 4C are diagrams illustrating how the size of the curvature of the second side wall module is adjusted.
5 is a view showing the structure of a reinforcement module according to an example.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, since various changes can be made to the embodiments, the scope of the patent application is not limited or limited by these embodiments. It should be understood that all changes, equivalents or substitutes to the embodiments are included within the scope of rights.

Specific structural or functional descriptions of the embodiments are disclosed for illustrative purposes only, and may be modified and implemented in various forms. Therefore, the embodiments are not limited to the specific disclosed form, and the scope of the present specification includes changes, equivalents, or substitutes included in the technical spirit.

Although terms such as first or second may be used to describe various components, such terms should only be construed for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element.

It should be understood that when an element is referred to as being “connected” to another element, it may be directly connected or connected to the other element, but other elements may exist in the middle.

Terms used in the examples are used only for descriptive purposes and should not be construed as limiting. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person of ordinary skill in the art to which the embodiment belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

In addition, in the description with reference to the accompanying drawings, the same reference numerals are given to the same components regardless of reference numerals, and overlapping descriptions thereof will be omitted. In describing the embodiment, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the embodiment, the detailed description will be omitted.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims.

In the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are the same as those commonly understood by one of ordinary skill in the art to which the present invention belongs. It has meaning. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the embodiments of the present invention, an ideal or excessively formal meaning not be interpreted as

The shapes, sizes, ratios, angles, numbers, etc. disclosed in the drawings for explaining the embodiments of the present invention are illustrative, so the present invention is not limited to the details shown. In addition, in describing the present invention, if it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. When 'includes', 'has', 'consists of', etc. mentioned in this specification is used, other parts may be added unless 'only' is used. In the case where a component is expressed in the singular, the case including the plural is included unless otherwise explicitly stated.

In interpreting the components, even if there is no separate explicit description, it is interpreted as including the error range.

In the case of a description of a positional relationship, for example, 'on top of', 'on top of', 'at the bottom of', 'next to', etc. Or, unless 'directly' is used, one or more other parts may be located between the two parts.

When an element or layer is referred to as “on” another element or layer, it includes all cases where another element or layer is directly on top of another element or another layer or other element intervenes therebetween. Like reference numbers designate like elements throughout the specification.

The size and thickness of each component shown in the drawings are shown for convenience of description, and the present invention is not necessarily limited to the size and thickness of the illustrated components.

Each feature of the various embodiments of the present invention can be partially or entirely combined or combined with each other, and as those skilled in the art can fully understand, various interlocking and driving operations are possible, and each embodiment can be implemented independently of each other. It may be possible to implement together in an association relationship.

1 is a flowchart of a construction method using a prefabricated structure according to an embodiment of the present invention, FIG. 2 is an exploded view of the prefabricated structure, FIG. 3 is a view showing the structure of a second side wall module, and FIGS. 4C is a view showing how to adjust the size of the curvature of the second side wall module, and FIG. 5 is a view showing the structure of a reinforcing module according to an example.

In the following, prior to explaining the construction method using the prefabricated structure according to the embodiment of the present invention, the structure of the prefabricated structure will be described in more detail.

A prefabricated structure according to an embodiment of the present invention may be an installation structure that is easy to separate and assemble.

Another prefabricated structure 1000 according to an embodiment of the present invention includes a base module 1100 installed on the ground, a plurality of first side wall modules 1200 coupled to the base module 1100 so as to be able to adjust the length along the vertical direction, and , It is movably coupled to the base module 1100 between the plurality of first side wall modules 1200 and is linked to the plurality of first side wall modules 1200 to form the side wall body of the prefabricated structure 1000, and the top of the A plurality of second side wall modules 1300 capable of adjusting the size of curvature, a reinforcing module 1400 for connecting between the plurality of second side wall modules 1300, and a plurality of second side wall modules 1300. A roof module 1500 whose area can be adjusted corresponding to the size of curvature may be included. In the following, a case in which four first side wall modules 1200 are provided and two second side wall modules 1300 are provided will be described as an example, and the second side wall module 1300 is a part of the prefabricated structure 1000. A case of being disposed on the front and rear sides will be described as an example. Here, the front and rear sides of the prefabricated structure 1000, as shown in Figure 2, the front end relative to the longitudinal direction in which the prefabricated structure 1000 is extended, its front end may be the rear end.

The base module 1100 is installed on the ground and may form the bottom surface of the prefabricated structure 1000 . The base module 1100 may be formed in a rectangular parallelepiped shape having a predetermined length. The base module 1100 may be provided with a moving slit 1110 recessed thereon. A second sidewall module 1300 to be described below may be movably inserted into the above-described movable slit 1110 . The base module 1100 may be formed in a rectangular shape (ie, rectangular shape).

The plurality of first sidewall modules 1200 may be coupled to the base module 1100 . The plurality of first side wall modules 1200 are provided in four pieces, and may be installed, for example, at the upper corner of the base module 1100. The first side wall module 1200 may be formed to be stretchable and contractible in the vertical direction. For example, the first side wall module 1200 may be provided as a jack supporter or cylinder capable of extending and contracting in the vertical direction. Meanwhile, the first side wall module 1200 may include a friction member (not shown) on the upper portion thereof. Accordingly, when the first side wall module 1200 comes into contact with the side wall plate 1311 of the second side wall module 1300 to be described later, the side wall plate 1311 can be more firmly supported from its lower side.

The second sidewall module 1300 may be formed to be in contact with the roof module 1500 so as to support the front and rear sides of the roof module 1500 in the longitudinal direction. The second sidewall module 1300 includes the support portion 1310 and a curvature portion 1320 connected to the support portion 1310 so that at least one of the size of the area and the curvature of the support portion 1310 can be adjusted. can do. In addition, the second sidewall module 1300 may further include a driving unit (not shown) capable of moving the curvature unit 1320 along the width direction (ie, a direction perpendicular to the horizontal direction with respect to the length direction).

The supporting part 1310 may include a plurality of side wall plates 1311 and a load distribution bar 1312 . The side wall plate 1311 may contact the roof module 1500 and support the roof module 1500 while in contact with the roof module 1500 . In addition, at least a portion of the plurality of side wall plates 1311 may be disposed to overlap, and may be slidably movable along a circumferential direction, which is a circumferential direction of a circle having a longitudinal direction as a central axis. The side wall plate 1311 may be formed in a curved plate shape so as to be movable in a circumferential direction.

In the following, a case in which 10 side wall plates 1311 are provided is illustratively described, and in FIG. 3, the side wall plate 1311 disposed at the left end relative to the width direction may be number 1, and The side wall plate 1311 may be number 10. In addition, in describing the plurality of side wall plates 1311, a case in which guide grooves 1311a and guide pins 1311b to be described later are formed only on some of the side wall plates 1311 among the plurality of side wall plates 1311 is an exemplary case. be explained by Here, the support plates No. 5 and No. 6 may be support plates on which the guide grooves 1311a and the guide pins 1311b are not formed, and the support plates No. 1 to 4 and No. 7 to 10 are guide grooves 1311a. It may be a support plate on which and guide pins 1311b are formed. At this time, the 4th, 5th, 6th, and 7th side wall plates 1311 may be rotatably coupled to each other through a hinge member 1311c, respectively. However, the structure and arrangement of the side wall plates 1311 are not limited thereto and may vary.

In describing the structure of the side wall plate 1311, as shown in the drawings, it is assumed that the side wall plate 1311 is disposed in the width direction, which is a direction horizontally orthogonal to the length direction. However, since the side wall plate 1311 moves in the circumferential direction and may be disposed differently, its disposition direction may be changed. The side wall plate 1311 may be a structure that is bent in the width direction, has a predetermined thickness in the longitudinal direction and a vertical direction, which is a direction perpendicular to the width direction, and has a predetermined width in the longitudinal direction. The curved portion of the side wall plate 1311, that is, the curvature change point, may be the center portion of the side wall plate 1311 in the extension direction. That is, both sides of the side wall plate 1311 may be bent symmetrically with respect to the central portion.

Guide grooves 1311a penetrating vertically and extending in the longitudinal direction of the side wall plate 1311 and guide pins 1311b protruding downward from the side wall plate 1311 may be formed in the side wall plate 1311 . At this time, the guide pin 1311b of one side wall plate 1311 among the plurality of side wall plates 1311 may be inserted into the guide groove 1311a of the other side wall plate 1311 . Thus, one side wall plate 1311 and the other side wall plate 1311 can be connected to each other, and in a state of being connected to each other, the guide pins 1311b of one side wall plate 1311 are guided through the guide grooves 1311a of the other side wall plate 1311. can move along

The curvature part 1320 can adjust at least one of the size of the area and the size of curvature of the support part 1310 corresponding to the size to which the roof module 1500 extends (that is, according to the size of the roof module 1500). can Here, the size of the curvature may be the size of the entire curvature of the side wall plates 1311 formed through the plurality of side wall plates 1311 .

The curvature part 1320 includes a first curvature changer 1321 that is movable in the vertical direction so that the side wall plate 1311 can come into contact with the roof module 1500 according to the size of the roof module 1500 set by the user. A second curvature changer 1322 movable in the width direction may be included. In addition, the curvature unit 1320 may further include a third curvature changer 1323 and a fourth curvature changer 1324 capable of minutely adjusting the amount of curvature of the plurality of side wall plates 1311 .

At least a portion of the first curvature changer 1321 may be formed to be movable in the vertical direction, and may be provided as a pair spaced apart in the width direction. The first curvature changer 1321 includes a first main frame 1321a extending vertically and having a space therein, a first adjusting frame 1321b inserted into the first main frame 1321a, and a first adjusting frame. (1321b) may include a first fixing pin (1321c) that can be fixed to the first main frame (1321a).

The first main frame 1321a may have a hollow cylindrical shape in which a support plate 1321aa is formed on the lower side and extends in the vertical direction. A through hole in the longitudinal direction may be formed in the first main frame 1321a. A first fixing pin 1321c may be inserted into the hole. In addition, a moving protrusion 1321ab inserted into the moving slit 1110 of the base module 1100 and a driving unit for moving the moving protrusion 1321ab in the width direction are installed on the base plate 1321aa of the first main frame 1321a. It can be.

The first adjusting frame 1321b is formed in the shape of a hollow cylinder, and at least a part thereof may be movably installed in the inner space of the first main frame 1321a. In this case, the outer diameter of the first adjusting frame 1321b may be smaller than the inner diameter of the first main frame 1321a. Accordingly, the first adjusting frame 1321b is inserted into the first main frame 1321a and moves in the vertical direction so that some of the plurality of side wall plates 1311 may come into contact with the roof module 1500.

In addition, the first adjusting frame 1321b may form a pair of coupling protrusions protruding in the width direction. The fourth curvature changer 1324 may be rotatably coupled to the pair of coupling protrusions. In addition, a plurality of holes penetrating in the longitudinal direction may be formed in the vertical direction in the first adjusting frame 1321b.

The first fixing pin 1321c may be formed in a pin shape extending in one direction, and may fix the first adjusting frame 1321b to the first main frame 1321a. That is, when the hole of the first main frame 1321a and any one of the plurality of holes of the first adjusting frame 1321b overlap, the first fixing pin 1321c is connected to the hole of the first main frame 1321a and the first adjusting frame 1321b. The first main frame 1321a and the first adjusting frame 1321b may be fixed through the hole of the frame 1321b. For example, a screw thread may be formed on an outer circumferential surface of the first fixing pin 1321c, and a nut may be fastened to a portion passing through the first main frame 1321a and the first adjusting frame 1321b. In addition, the first main frame 1321a and the first adjusting frame 1321b may be pipe supports, and the first fixing pin 1321c may be a coupling pin installed in the pipe support. However, the structures and shapes of the first main frame 1321a and the first adjusting frame 1321b are not limited thereto and may vary.

The second curvature changer 1322 is installed between the pair of first curvature changers 1321, and at least a portion thereof may move in the width direction. That is, at least a part of the second curvature changer 1322 may move in the width direction, and the pair of first curvature changers 1321 may be spaced apart or brought closer to each other in the width direction. Accordingly, the size of the curvature of the side wall plates 1311 connected to the second curvature changer 1322 may be changed through the fourth curvature changer 1324 . The second curvature changer 1322 includes a coupling frame 1322a, a second main frame 1322b, a second adjusting frame 1322c inserted into the second main frame 1322b, and a second adjusting frame 1322c. 2 may include a second fixing pin 1322d that can be fixed to the main frame 1322b.

The coupling frame (1322a) extends in the width direction, is provided as a pair and may be spaced apart in the longitudinal direction. For example, the coupling frames 1322a are provided as a pair and may be formed in a rectangular thin plate shape.

The second main frame 1322b may be disposed between the pair of coupling frames 1322a and may have a cylindrical shape extending in the width direction. In addition, a through hole in the width direction may be formed in the second main frame 1322b. A second fixing pin 1322d may be inserted into the hole. Here, the second main frame 1322b may be manufactured as a separate body from the coupling frame 1322a and coupled by welding or the like. In the following, a case in which two second main frames 1322b are provided and integrally formed will be described as an example. However, the structure and shape of the second main frame 1322b is not limited thereto and may vary.

The second adjusting frame 1322c is installed on the first adjusting frame 1321b and is inserted into the inner space of the second main frame 1322b to move in the width direction.

The second fixing pin 1322d may be formed in a 'T'-shaped pin shape extending in one direction, and may couple the second adjusting frame 1322c to the second housing. For example, a screw thread may be formed on an outer circumferential surface of the second fixing pin 1322d, and a screw thread of the second fixing pin 1322d may be formed on the inner circumferential surface of the hole of the second coupling hole 1221b and the second main frame 1322b. A screw thread may be formed so that it can be screwed on. However, the structure and shape of the second fixing pin 1322d is not limited thereto and may vary.

The third curvature changer 1323 may serve to connect the second curvature changer 1322 and the side wall plate 1311 . In addition, the third curvature changer 1323 may precisely adjust the size of the curvature of the plurality of side wall plates 1311 . To this end, the third curvature changer 1323 can rotate in the circumferential direction and can be formed to adjust its length in a direction toward the side wall plate 1311 . For example, the third curvature changer 1323 may include a turnbuckle. In the following, a case in which three third curvature changers 1323 are provided will be described as an example. In addition, a case in which the third curvature changer 1323 is connected to the hinge member 1311c included in the supporting portion 1310 connecting the side wall plate 1311 will be described as an example. However, the third curvature changer 1323 may be directly connected to the side wall plate 1311.

The third curvature changer 1323 is a first length changer 1323a extending in one direction, one side of which is rotatably coupled to the coupling frame 1322a and the other side penetrates the lower portion of the first length changer 1323a. The first support shaft 1323b and one side of which are screwed together are rotatably coupled to the hinge member 1311c and the other side of the second support shaft 1323c screwed through the top of the first length changing body 1323a. can include

Here, the screw threads formed on the lower and upper portions of the first length changing body 1323a may be formed in opposite ways. That is, when the screw thread of the lower part is formed in a right-handed manner, the screw thread of the upper part may be formed in a left-handed manner. Accordingly, when the first length changing body 1323a is rotated, the first support shaft 1323b and the second support shaft 1323c may be brought closer or separated from each other. From this, the side wall plate 1311 connected to the third curvature changer 1323 can be pushed, and the curvature of the plurality of side wall plates 1311 connected to each other can be precisely adjusted. Here, the structure and shape of the third curvature changer 1323 is not limited thereto and may vary.

The fourth curvature changer 1324 may serve to connect the first curvature changer 1321 and the side wall plate 1311 . In addition, the fourth curvature changer 1324 may rotate in the circumferential direction around the coupling protrusion and move the sidewall plates 1311 in the circumferential direction to unfold. In addition, the fourth curvature changer 1324 may finely adjust the size of the curvature of the plurality of side wall plates 1311 . To this end, the fourth adjuster 1240 may be formed to be adjustable in length in a direction toward the side wall plate 1311 . For example, the fourth curvature changer 1324 may include a turnbuckle.

In the following, a case in which the fourth curvature changer 1324 is installed one by one in each of the pair of first adjusting frames 1321b will be described as an example. In addition, a case in which the fourth curvature changer 1324 is rotatably coupled to the first and tenth side wall plates 1311 among the plurality of side wall plates 1311 will be described as an example. However, the fourth curvature changer 1324 may be connected to the second to fourth and seventh to ninth side wall plates 1311 .

The fourth curvature changer 1324 is a second length changer 1324a extending in one direction, one side of which is rotatably coupled to a pair of coupling protrusions and the other side penetrates the lower portion of the second length changer 1324a. A third support shaft 1324b, one side of which is screwed together, is rotatably coupled to the side wall plate 1311, and the other side of a fourth support shaft 1324c screwed through the top of the second length changing body 1324a. can include Here, the structure and operation method of the fourth curvature changer 1324 may be the same as that of the third curvature changer 1323 . Accordingly, the fourth curvature changer 1324 may push the connected side wall plate 1311 to change the curvature of the plurality of side wall plates 1311 connected to each other, and change the size of the curvature of the plurality of side wall plates 1311. can be precisely adjusted. The structure and shape of the fourth curvature changer 1324 are not limited thereto and may vary.

The driving unit (not shown) may move the curvature unit 1320 forward or backward in the width direction. The driving unit may be installed on the support plate 1321aa of the curvature unit 1320 . The driving unit may include a driving unit and a moving body. The driver may serve to generate a driving force. For example, the actuator may be a motor and may generate power. The driver may be installed inside the support plate 1321aa. However, the location at which the actuator is installed and the method for generating the driving force are not limited thereto and may vary.

Hereinafter, a process of adjusting the size of the area and the size of curvature of the supporting portion 1310 will be described. In the following, first, a process of adjusting the size of an area will be described, second, a process of adjusting the size of curvature, and third, a process of adjusting both the size of an area and the size of curvature.

first, Describe the process by which the size of the area is controlled. At this time, the third curvature changer 1323 and the fourth curvature changer 1324 connect the first curvature changer 1321 and the side wall plate 1311 as described above, and the second curvature changer 1322 and It can only serve to connect the side wall plate 1311.

More specifically, some of the plurality of side wall plates 1311 may be folded by the fourth curvature changer 1324 and overlapped with each other. That is, a pair of fourth curvature changers 1324 are disposed in a state of tilting at a predetermined angle to the left or right with respect to the vertical direction, so that the first to fourth side wall plates 1311 and the seventh to tenth side wall plates 1311 ) can be maintained in a folded state. At this time, the guide pin 1311b of the first side wall plate 1311 is inserted into the guide groove 1311a of the second side wall plate 1311, and the guide pin 1311b of the second side wall plate 1311 is inserted into the third side wall. It may be inserted into the guide groove 1311a of the plate 1311. In addition, the side wall plates 1311 of Nos. 4, 5, 6, and 7 are connected by a hinge member 1311c, and the hinge member 1311c and the coupling frame 1322a are connected through a third curvature changer 1323. may be connected.

The fourth curvature changer 1324 rotates clockwise or counterclockwise around the coupling protrusion to move the plurality of sidewall plates 1311 in the circumferential direction. That is, the fourth curvature changer 1324 can pull the first and tenth side wall plates 1311 in the circumferential direction to unfold the folded side wall plates 1311 overlapping each other. At this time, the guide pin 1311b of the number 3 side wall plate 1311 moves along the guide groove 1311a of the number 4 side wall plate 1311, and the guide pin 1311b of the number 2 side wall plate 1311 moves to the number 3 side wall plate 1311. While moving along the guide groove 1311a of the side wall plate 1311, the side wall plate 1311 may be unfolded. Accordingly, the size of the entire area of the side wall plates 1311 may be increased.

Next, a process of adjusting the size of the curvature will be described. In adjusting the size of the curvature, the size of the curvature is adjusted only through the operation of the first curvature changer 1321 and the second curvature changer 1322, or the first curvature changer 1321 and the second curvature changer In addition to the group 1322, it may be adjusted through the operation of the third curvature changer 1323 and the fourth curvature changer 1324. If the curvature is adjusted only by the first curvature changer 1321 and the second curvature changer 1322, the third curvature changer 1323 and the fourth curvature changer 1324 use the first curvature as described above. It can only serve to connect the changer 1321 and the side wall plate 1311 and to connect the second curvature changer 1322 and the side wall plate 1311 .

Hereafter, a case where the size of curvature is adjusted using the first curvature changer 1321 and the second curvature changer 1322 will be described. At this time, the side wall plates 1311 may be in a state where the side wall plates 1311 numbered 1 to 4 and 7 to 10 are folded. First, the height of the side wall plate 1311 can be adjusted by moving the first adjusting frame 1321b in the vertical direction, and then moving the second adjusting frame 1322c in the width direction to adjust the first adjusting frame 1321b in the width direction. can be spaced in either direction. Accordingly, the arrangement of the fourth curvature changer 1324 may be adjusted from a left or right tilted state to a state consistent with the vertical direction. The side wall plate 1311 connected to the fourth curvature changer 1324 is pushed out by the fourth curvature changer 1324 and the size of the curvature can be adjusted to be larger or smaller.

When adjusting the size of the curvature using the first curvature changer 1321 to the fourth curvature changer 1324, after moving the first adjustment frame 1321b and the second adjustment frame 1322c, the third curvature change The size of the curvature may be adjusted by extending or shortening the lengths of the group 1323 and the fourth curvature changer 1324 . That is, the length of the third curvature changer 1323 is extended or shortened by axially rotating the first length-changing member 1323a, and the fourth curvature changer 1324 is axially rotated by the second length-changing member 1324a. length can be extended or shortened. Accordingly, the side wall plates 1311 connected to the third curvature changer 1323 and the fourth curvature changer 1324 are pushed or pulled, and the total curvature of the plurality of side wall plates 1311 can be adjusted.

Next, a case where the size of the area and the size of the curvature are adjusted together will be described. As described above, the size of the area may be adjusted by first rotating the fourth curvature changer 1324 . After adjusting the size of the area, the first adjusting frame 1321b may be moved in the vertical direction. Subsequently, the second curvature changer 1322 may be moved in the width direction. Accordingly, the pair of first adjusting frames 1321b are moved apart from each other in the width direction, and the number 1 and number 10 side wall plates 1311 connected to the fourth curvature changers 1324 are pushed out and a plurality of side wall plates The size of the overall curvature of (1311) can be adjusted.

After the above process is performed, the size of the curvature may be further adjusted using the third curvature changer 1323 and the fourth curvature changer 1324 . That is, as described above, since the length is adjusted by rotating the first length changing body 1323a and the second length changing body 1324a, the side wall plate 1311 is pushed or pulled and the entirety of the plurality of side wall plates 1311 is pushed or pulled. You can adjust the amount of curvature.

The reinforcing module 1400 may connect between the first main frames 1321a and support the first main frames 1321a in the longitudinal direction. The reinforcing module 1400 includes a first reinforcing member 1410 protruding from the other side of the first main frame 1321a, and a second reinforcing member 1410 extending in the longitudinal direction so that the first reinforcing member 1410 is inserted into the inside of one side thereof. Of the third reinforcing member 1420 and the second reinforcing member 1420, the third reinforcing member 1430 and the second reinforcing member 1420 inserted into the other side and protruding outward of the second reinforcing member 1420. A fourth reinforcing member 1440 protruding from one side of the first main frame 1321a may be included to accommodate the protruding other side therein.

The roof module 1500 extends in the circumferential direction, and at least a portion thereof may be formed to be adjustable in length. At least a part of the roof module 1500 is overlapped, and may be formed in a structure capable of varying its length along the circumferential direction. For example, the roof module 1500 may be provided with rails at an overlapping portion, and may be provided to be unfolded or folded along the above-described rails. In addition, the roof module 1500 may be provided with a plurality of roof plates 1510, and the plurality of roof plates 1510 may be provided with the same structure as the plurality of side wall plates 1311.

On the other hand, the construction method using the prefabricated structure 1000 according to an embodiment of the present invention will be described below while the construction method using the prefabricated structure together with the process.

Hereinafter, a construction method using a prefabricated structure according to an embodiment of the present invention will be described.

The construction method using the prefabricated structure includes a process of fixing the base module 1100 to the ground (S110), a process of coupling the plurality of first sidewall modules 1200 to the base module 1100 (S120), and a plurality of second sidewalls. A process of arranging the modules 1300 between the plurality of first side wall modules 1200 and coupling them to the base module 1100 (S130), a plurality of side wall plates provided on top of the second side wall modules 1300 ( 1311) to adjust the curvature of the second sidewall module 1300 by sliding (S140), a plurality of first sidewalls to support both ends of the second sidewall module 1300 whose curvature is adjusted The process of connecting the plurality of first sidewall modules 1200 and the second sidewall modules 1300 to each other by adjusting the height of the module 1200 (S150), the plurality of second sidewall modules 1300 whose curvature is adjusted A process of coupling the reinforcing modules 1400 to each of the roof modules (S160) by sliding and moving the plurality of roof plates 1510 of the roof module 1500 in response to the size of the curvature of the plurality of second side wall modules 1300. The process of adjusting the size of the curvature of (1500) (S170) and the process of coupling the roof module 1500 whose size of curvature is adjusted to the plurality of second side wall modules 1300 (S180) may be included.

Here, in the process of adjusting the curvature of the second side wall module 1300, a part of the second side wall module 1300 is moved vertically or in the width direction to change the height or width of the second side wall module 1300. It may include a first adjustment process of extending or shortening, and a second adjustment process of moving the plurality of sidewall plates 1311 in the vertical direction or the width direction with a length shorter than the adjustment length of the first adjustment process.

In addition, in the process of connecting the first side wall module 1200 and the second side wall module 1300 to each other, a portion of the plurality of first side wall modules 1200 is formed corresponding to the heights of both ends of the plurality of side wall plates 1311. A process of sliding upward to change the length and a process of supporting both ends of the plurality of side wall plates 1311 by the plurality of first side wall modules 1200 may be included.

In addition, in the process of adjusting the curvature of the roof module 1500, one side of the plurality of roof plates 1510 is in contact with any one of the plurality of second side wall modules 1300, and the plurality of side wall plates 1311 ), and a process of bringing the other side of the plurality of roof plates 1510 into contact with the other of the second side wall modules 1300.

On the other hand, after the process of adjusting the size of the curvature of the second side wall module 1300, a third adjustment process of moving the plurality of side wall plates 1311 in the vertical direction or width direction to a length different from the adjustment length of the second adjustment process can include more. Here, in the tertiary adjustment process, the length of the plurality of side wall plates 1311 of any one of the plurality of second side wall modules 1300 is adjusted in the vertical direction or width direction, and then, another The process of adjusting the vertical or widthwise length of the plurality of sidewall plates 1311 of one second sidewall module 1300 and the plurality of the plurality of sidewall plates 1311 spread corresponding to the vertical or widthwise length of the changed plurality of sidewall plates 1311 A process of closing the roof plates 1510 so as to overlap each other may be included.

In this way, the volume can be easily modified according to the user's intention by adjusting the size of the curvature of the second side wall module. Accordingly, the structure can be formed with a desired volume by the user without adding a separate structure. In addition, the prefabricated structure can be rapidly assembled and disassembled. In addition, since the structure can be installed on the site without using bolts or nails, damage to the site can be suppressed or prevented. In addition, the durability of the prefabricated structure can be improved through the reinforcing module. Thus, even if an external impact occurs, it is possible to suppress or prevent the prefabricated structure from collapsing.

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and may be variously modified and implemented without departing from the technical spirit of the present invention. . Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

1000: prefabricated structure 1100: base module
1200: first side wall module 1300: second side wall module
1400: reinforcement module 1500: roof module

Claims (3)

A base module installed on the ground, a plurality of first sidewall modules coupled to the base module to be adjustable in length along the vertical direction, and movably coupled to the base module between the plurality of first sidewall modules and the plurality of A plurality of second side wall modules provided in connection with the first side wall module to form a side wall body, capable of adjusting the size of the upper portion of the curvature, and a plurality of reinforcing modules for connecting between the plurality of second side wall modules; As a construction method using a prefabricated structure including a roof module whose area can be adjusted in response to the size of the curvature of the second side wall module,
fixing the base module to the ground;
coupling the plurality of first sidewall modules to the base module;
arranging a plurality of second side wall modules between the plurality of first side wall modules and coupling them to the base module;
adjusting the amount of curvature of the second side wall module by sliding and moving a plurality of side wall plates provided on an upper portion of the second side wall module;
connecting the plurality of first sidewall modules with the second sidewall modules by adjusting heights of the plurality of first sidewall modules so as to support both ends of the second sidewall modules whose curvature is adjusted;
coupling a reinforcing module to each of the plurality of second sidewall modules whose curvatures are adjusted;
adjusting the curvature of the roof module by sliding and moving the plurality of roof plates of the roof module in response to the curvature of the plurality of second sidewall modules; and
A process of coupling the roof module, the curvature of which is adjusted, to the plurality of second side wall modules;
The process of adjusting the size of the curvature of the roof module,
spreading the plurality of roof plates to make surface contact with the plurality of side wall plates in a state in which one side of the plurality of roof plates is brought into contact with any one of the plurality of second side wall modules;
A construction method using a prefabricated structure comprising: bringing the other side of the plurality of unfolded roof plates into contact with the other one of the second side wall modules. The method of claim 1,
The process of adjusting the size of the curvature of the second sidewall module,
a first adjustment step of extending or shortening the height or width of the second side wall module by moving a portion of the second side wall module in a vertical or width direction; and
A second adjustment process of moving the plurality of sidewall plates in the vertical direction or the width direction with a length shorter than the adjustment length of the first adjustment process; includes,
The process of connecting the first sidewall module and the second sidewall module to each other,
changing a length of a part of the plurality of first sidewall modules by sliding upward in correspondence with the heights of both ends of the plurality of sidewall plates;
A construction method using a prefabricated structure comprising: supporting both ends of the plurality of side wall plates by the plurality of first side wall modules. The method of claim 2,
The second sidewall module,
a supporting portion including a load distributing bar formed to be adjustable in length so as to support the plurality of side wall plates and the plurality of side wall plates, at least partially overlapping and being slidably connected to each other;
A curvature portion connected to the support portion and to which the load distributing bar is rotatably coupled so as to adjust at least one of a size of an area of the support portion and a size of curvature of the support portion,
The plurality of side wall plates,
It includes a guide groove that penetrates vertically and extends in the longitudinal direction of the side wall plate, and a guide pin that protrudes downward from the side wall plate.
The guide pin of one side wall plate is inserted into the guide groove of the other side wall plate,
The curvature part,
a pair of first curvature changers at least partially movable in a vertical direction so as to change the size of an area and the size of curvature by unfolding the plurality of sidewall plates; and
a second curvature changer installed between the first curvature changers such that at least a portion thereof is movable in a width direction so as to change the size of an area and the size of curvature by unfolding the plurality of sidewall plates;
a third curvature changer movable in the vertical direction to adjust the size of the curvature of the plurality of side wall plates;
A construction method using a prefabricated structure comprising a fourth curvature changer movable in the width direction so as to adjust the curvature of the plurality of side wall plates.

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