KR20220035809A - Variable frame module system for versatile use - Google Patents

Abstract

The embodiment of the present invention is provided with a three-dimensional variable framework frame module and a cover frame module, so that various types of structures can be built according to the user's selection, and after use, they can be dismantled and reassembled into a different type of structure to utilize 3-axis structure. The purpose is to provide a multipurpose variable frame module system that can reduce costs and time when building arbitrary spaces and facilities, minimize unnecessary production and consumption of materials, goods, and equipment, and support carbon reduction and a sustainable lifestyle. The multi-purpose frame module system according to an embodiment of the present invention includes frame modules that each have a length-adjustable coupling structure along a preset direction and are selectively variably adjusted to form a framework of a three-dimensional structure, and the frame modules are formed along a first direction. A first rack frame member having a length-adjustable coupling structure, at least one pair of which is provided at a position opposite to each other, and each connected through a multi-connection member to form a first edge frame, and a length-adjustable coupling structure along a second direction, at least A pair of second rack frame members are provided at opposite positions, each connected through a multi-connection member to form a second border frame of the rack surface, and at least two pairs each have a length-adjustable coupling structure along a third direction. It includes support frame members provided at opposing positions to form a support frame.

Description

Variable frame module system for versatile use}

The present invention relates to a multi-purpose variable frame module system.

There are various limitations in opening up the city's idle land to support the various needs and activities of the community, so that such programs can be implemented while ensuring maximum flexibility so that the outdoor and indoor space of the idle space can support a variety of community activities. Supporting physical facilities are absolutely necessary. However, an efficient facility support system is absent. Typically, the lessee pays a high fee to an external service provider to rent, install, and remove equipment. A system is needed that maintains the variability of space, supports a variety of activities in the location, and allows anyone to easily build and dismantle facilities suited to their purpose at low cost with ready-made facilities and a systematic equipment system.

The embodiment of the present invention is provided with a three-dimensional variable framework frame module and a cover frame module, so that various types of structures can be built according to the user's selection, and after use, they can be dismantled and reassembled into a different type of structure to utilize 3-axis structure. The purpose is to provide a multipurpose variable frame module system that can reduce costs and time when building arbitrary spaces and facilities, minimize unnecessary production and consumption of materials, goods, and equipment, and support carbon reduction and a sustainable lifestyle.

A multi-purpose frame module system according to an embodiment of the present invention includes frame modules that each have a length-adjustable coupling structure along a preset direction and are selectively variably adjusted to form a framework of a three-dimensional structure, and the frame modules are formed along a first direction. A first rack frame member having a length-adjustable coupling structure, at least one pair of which is provided at a position opposite to each other, and each connected through a multi-connection member to form a first edge frame, and a length-adjustable coupling structure along a second direction, at least A pair of second rack frame members are provided at opposite positions, each connected through a multi-connection member to form a second border frame of the rack surface, and at least two pairs each have a length-adjustable coupling structure along a third direction. It includes support frame members provided at opposing positions to form a support frame. The first rack frame members are each connected to the multi-connection member in the first direction at a position forming a square-shaped border, each of which is formed as a square tube structure with an empty interior and has a plurality of fixing holes preset along the longitudinal direction. The C11 rack member, the C12 rack member that is respectively inserted into the inside of the C11 rack member and coupled to the length adjustment structure, and is selectively coupled to a plurality of fixing holes to control the coupling state of the C11 rack member and the C12 rack member. It may include a C1 rack fixing member. The second rack frame members are each connected to the multi-connection member along the second direction at a position forming a square-shaped border, each of which is formed as a rectangular pipe structure with an empty interior and has a plurality of fixing holes preset along the longitudinal direction. The C21 rack member, the C22 rack member which is respectively inserted into the inside of the C21 rack member and coupled to the length adjustment structure, and is selectively coupled to a plurality of fixing holes to control the coupling state of the C21 rack member and the C22 rack member. It may include a C2 rack fixing member. The support frame members are each connected to the multi-connection member in the third direction at a position corresponding to the corner of the square-shaped edge, and each support frame member is formed as a rectangular pipe structure with an empty interior and has a plurality of preset fixing holes along the longitudinal direction. A C1 support member, a C2 support member that is respectively inserted into the inside of the C1 support member and coupled to a length adjustment structure, and is selectively coupled to a plurality of fixing holes to control the coupling state of the C1 support member and the C2 support member. It may include a C-type support fixing member. It may further include a hinge support member coupled between the multi-connection member and the C1 support member to support hinge folding and unfolding of the support frame member. The hinge support member has a first fixing surface on one side, is fixedly coupled to one side of the multi-connection member, the other side is formed as a first connection part, a first hinge part extending in the direction of the C1 support member, and a second fixing surface on one side. It may include a second hinge portion that is fixedly coupled to one side of the C1 support member, the other side of which is formed as a second connection portion, extends in the direction of the first connection portion, and is hingedly coupled to the first connection portion. Each is coupled between the C11 rack member and the C1 support member or the C21 rack member and the C1 support member to support the link folding and unfolding of the first rack frame member and the support frame member or the second rack frame member and the support frame member. It may further include a link support member. The multi-connection member may include a C12 joint supporting the connection of the first and second rack frame members adjacent to each other, and a C3 joint connected to one side of the support frame member to support the third direction connection. there is. The C12 joint is a C1 body having a plurality of fastening surfaces with fastening holes in the shape of a hexahedron, is connected to the first surface in the first direction of the C1 body, and is connected to one side of the first rack frame member to secure the first rack. A joint coupling part C1 supporting the connection in the first direction of the frame member, and connected to the second surface of the C1 body in the second direction, connected to one side of the second rack frame member and connected to the second direction of the second rack frame member. It may include a C2 join joint that supports the connection. The C3 joint is connected to the C3 main body, which has a plurality of fastening surfaces with fastening holes in the shape of a hexahedron, and to the third surface in the third direction of the C3 main body, and is connected to one side of the support frame member to form the support frame member. It may include a C3 joint coupling part that supports the third direction connection. It is connected to the other side of the support frame member, and further includes a C4 joint that is connected to one side of the support frame member to support the connection of another structure connected to the support frame member, and the C4 joint has a fastening hole in the shape of a hexahedron. It may include a C4 body having a plurality of fastening surfaces. It may further include a magnet portion that is coupled to the seating portion provided at the base of the fastening hole provided in the multi-connection member and transmits magnetic force through the fastening hole. It may further include a C-type two-way joint connection portion connecting joints on both sides of the C12 joint to the C4 joint that are adjacent to each other. The C-type two-way joint connection includes a first fastening part that has threads in a preset direction and is selectively coupled to a fastening hole provided in the multi-connection member, and is provided at an opposite position corresponding to the first fastening part along the longitudinal direction. 1 A second fastening part that has a thread opposite to that of the fastening part and is selectively coupled to a fastening hole provided in the multi-connection member, and a fastening tool is provided between the first fastening part and the second fastening part, and the fastening force of the fastening tool is combined. Alternatively, it may include a fastening transmission unit through which a loosening force is transmitted. The first rack frame member is connected to the multi-connection member on both sides of the third axis direction of the support frame member along the first direction, forming partial edges of a square shape corresponding to the upper and lower parts, respectively, and each has a rectangular pipe structure with an empty interior. The X11 rack member is formed and has a plurality of fixing holes preset along the longitudinal direction, the It may include an X1 rack fixing member that controls the coupled state of the X11 rack member and the X12 rack member. The second rack frame member is connected to the multi-connection member along the second direction on the other side of the third axis direction of the support frame member to form a partial border of a square shape, and each is formed as a rectangular pipe structure with an empty interior, and is preliminarily formed along the longitudinal direction. An X21 rack member having a plurality of fixing holes, an X22 rack member that is respectively inserted into the inside of the It may include an X2 rack fixing member that regulates the coupled state of the rack member. The support frame member is connected downward along the third direction through multi-connection members coupled to both sides in the first direction from the top of the first rack frame member, and includes an upper support member having a length-adjustable coupling structure, and a lower portion of the first rack frame member. A lower support member is connected upward in the third direction through multi-connection members coupled to both sides in the first direction and has a length-adjustable coupling structure, and is provided between the upper support member and the lower support member to provide a center point of each rotation. As a standard, it may include a pair of angle adjustment members whose angles are adjusted by connecting them in a cross-shaped X shape. The upper support member is connected to the multi-connection member in the third direction at a position corresponding to the corner of the square-shaped edge, and is formed as a square pipe structure with an empty interior, and has a plurality of preset fixing holes along the longitudinal direction. A support member, an X2 support member that is inserted into the inside of the It may include a support fixing member. The angle adjustment member includes an 11th coupling portion and a 12th coupling portion, one side of which is coupled to a pair of upper support members and a lower support member, respectively, of the two upper support members and the two lower support members, which are provided in diagonal directions, A first A 21st coupling part and a 21st coupling part which are coupled to the type connection part in an It may include a second The sum of the thicknesses of the first and second articulated connectors is less than or equal to the thickness of the upper support member or the lower support member, thereby preventing external protrusion when the support frame is folded. The first bending connection portion and the second bending connecting portion are each provided with angle-limiting stoppers at both ends in the longitudinal direction, so that when the support frame is unfolded, expansion outside of a preset angle section can be restricted. It further includes an angle fixing member coupled to the angle adjusting member to fix the adjusted angle, wherein the angle fixing member is selectively coupled to a plurality of angle fixing holes provided in preset fixing holes to fix the adjusted angle. may include. The angle adjustment member may further include an angle display unit provided around the plurality of angle fixing holes to display the angle of the corresponding angle fixing hole. The multi-connection member is formed in the same shape as the 1 It may include an X2 joint supporting the connection of the rack frame member and the third direction connection of the support frame member. The X1 joint has a three-dimensional shape and has a fastening hole on the corresponding side of the X1 body, is connected to the first surface in the first direction of the The X1 joint coupling part supporting the connection, the It is provided on the lower side and may include an X3 joint coupling part that is coupled to one side of the support frame member to support the third direction connection of the support frame member. It may further include a magnet part that is coupled to a common seating part that shares the fastening hole and the coupling hole provided in the X1 body and transmits magnetic force through the fastening hole and the coupling hole. It may further include an It is selectively coupled to the frame module to form a wall, and may further include a cover frame module having a length-adjustable coupling structure in the width direction. The cover frame module forms a rectangular border and may include a border member having a length-adjustable coupling structure, and a plurality of cover members that are longly coupled in the width direction on the inside of the frame member and have a length-adjustable coupling structure.

The present invention allows expansion and transformation of the form by adjusting the length and angle in 3 axes, so various types of structures can be freely implemented in a modular form as needed, and after use is completed, they can be dismantled to their original form or formed into another form of structure. It can be reassembled and recycled repeatedly. In addition, expansion or modification of the modular size and shape can be freely implemented as a new type of simple installation structure, and it can also be combined with other structures and expanded into a more diverse combination of standardized members, so just-in-time (JIT; It is possible to implement variable multipurpose space frames, furniture, devices, facilities, tools, equipment, etc. that can be supported in the Just In Time (Just In Time) format more efficiently, economically, and simply.

The terminology used herein is only intended to refer to specific embodiments and is not intended to limit the invention. As used herein, singular forms include plural forms unless phrases clearly indicate the contrary. As used in the specification, the meaning of "comprising" is to specify a specific characteristic, area, integer, step, operation, element and/or component, and to specify another specific property, area, integer, step, operation, element, component and/or group. It does not exclude the existence or addition of . Although not defined differently, all terms including technical and scientific terms used herein have the same meaning as those generally understood by those skilled in the art in the technical field to which the present invention pertains. Terms defined in commonly used dictionaries are further interpreted as having meanings consistent with related technical literature and currently disclosed content, and are not interpreted in ideal or very formal meanings unless defined. Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. The multi-purpose frame module system according to an embodiment of the present invention may include frame modules that each have a length-adjustable coupling structure along three preset directions and are selectively variably adjusted to form a framework of a three-dimensional structure. Here, the three-axis direction may include the horizontal and vertical directions to form a two-dimensional plane, and the height direction to implement three dimensions on a two-dimensional plane. And in the three-axis direction, the horizontal direction corresponding to the plane direction can be set as the first direction, and the vertical direction can be set as the second direction. And the height direction can be set to the third direction. The frame module may include a first rack frame member, a second rack frame member, and a support frame member respectively corresponding to three axes. The first rack frame members have a length-adjustable coupling structure along the first direction, and at least one pair is provided at a position facing each other, and each pair may be connected through a multi-connection member to form a first frame frame. The second rack frame members have a length-adjustable coupling structure along the second direction, and at least one pair is provided at a position facing each other, and each pair is connected through a multi-connection member to form a second frame frame of the rack surface. The support frame members may have a length-adjustable coupling structure along a third direction, and at least two pairs may be provided at opposing positions to form a support frame. The support frame member may further include an angle adjustment coupling structure as needed. As described above, the multi-purpose frame module system according to an embodiment of the present invention includes a framework frame module that forms the framework of the frame module system, and a cover frame module that is coupled to the corresponding coupling surface of the framework frame module and functions as a cover or wall. can do. And the framework frame module may include a C-type frame module and an X-type frame module depending on the external shape. Here, when the first rack frame member, second rack frame member, and support frame member included in the frame module are applied to the C-type frame module, the C-type first rack frame member, C-type second rack frame member, and C-type Classified by support frame members. And when applied to an X-type frame module, it is divided into an X-type first rack frame member, an X-type second rack frame member, and an X-type support frame member. Meanwhile, multi-connection members are divided into C-type multi-connection members, X-type multi-connection members, and cover multi-connection members. The C-type first rack frame member of the C-type frame module includes a C11 rack member in the shape of a square tube provided on the outside, a C12 rack member including a square-shaped profile inserted into the inside of the C11 rack member, and a C1 rack. It may include a fixing member. The C11 rack member and the C12 rack member can be formed as a combined structure of a square pipe and a square member, and, if necessary, may also be formed as a combined structure of a circular pipe and a bar. Additionally, the C11 rack member and the C12 rack member may be formed of aluminum material in consideration of weight reduction and durability. The C11 rack member is connected to the C-shaped multi-connection member in the first direction at a position forming a square-shaped border, and each is formed as a rectangular pipe structure with an empty interior and has a plurality of preset fixing holes along the longitudinal direction. can do. The C11 rack member is formed in the shape of a square tube so that the C12 rack member with a sliding profile shape is inserted into the inside, and is provided with a movable slit on one outer surface through which the C1 rack fixing member fixed to the C12 rack member can move, and the movable slit is provided. A plurality of fixing holes may be provided at regular intervals along the . The C11 rack member may be provided with length indicators of different colors at positions corresponding to the plurality of fixing holes. By providing a length indicator, related members can be easily adjusted and fixed in a specific position when adjusting the length. The length display unit can be applied to members whose length is adjustable. The C12 rack member may be respectively inserted into the C11 rack member and combined into a length adjustment structure. The C12 rack member is formed to be long in the longitudinal direction so that it can be inserted into a square pipe, and may be formed in the form of a profile made of aluminum with long grooves on four sides. One surface of the C12 rack member may be provided with a plurality of fastening holes corresponding to the plurality of fixing holes of the C1 rack fixing member along the longitudinal direction. The C1 rack fixing member can be selectively coupled to a plurality of fixing holes to control the coupling state of the C11 rack member and the C12 rack member. The C1 rack fixing member may include a knob-type bolt fixing part. The C-type frame module allows the length to be adjusted in all three axes by sliding and pulling the profiles inside the square tubes that form each side of the frame. At this time, the length of each side of the frame can be adjusted by fixing the square pipe and profile at a specific position by turning the knob and tightening the bolt when the head of the knob-type bolt fixing part matches the fixing hole provided on the inner surface of the square pipe forming each side. Length can be adjusted. This length adjustment method can also be applied to C-type frame modules, X-type frame modules, and support frame modules. The C-type second rack frame member of the C-type frame module may include a C21 rack member, a C22 rack member, and a C2 rack fixing member. The C-type second rack frame member of the C-type frame module is formed in the same shape as the C-type first rack frame member of the C-type frame module and may be compatible with each other. The C21 rack member is connected to the C-type multi-connection member in the second direction at a position forming a square-shaped border, and each is formed as a rectangular pipe structure with an empty interior and has a plurality of preset fixing holes along the longitudinal direction. can do. The C22 rack member may be respectively inserted into the inside of the C21 rack member and combined into a length adjustment structure. The C2 rack fixing member can be selectively coupled to a plurality of fixing holes to control the coupling state of the C21 rack member and the C22 rack member. The C-shaped support frame member may include a C1 support member, a C2 support member, and a C-shaped support fixing member. The C1 support member is connected to the C-shaped multi-connection member in the third direction at a position corresponding to the corner of the square-shaped edge, and is each formed of a rectangular pipe structure with an empty interior, and has a plurality of fixing holes preset along the longitudinal direction. can be provided. The C2 support member may be respectively inserted into the inside of the C1 support member and combined into a length adjustment structure. The C-type support fixing member can be selectively coupled to a plurality of fixing holes to control the coupling state of the C1 support member and the C2 support member. The first length of the C-type first rack frame member, C-type second rack frame member, and C-type support frame member of the C-type frame module before each adjustment can be set to around 50cm in consideration of the length that can be used as a chair. . And the second length after the length is adjusted can be set to around 100cm so that it can be twice the first length. Meanwhile, the C-type frame module according to an embodiment of the present invention may further include a hinge support member. By providing a hinge support member, each C-shaped support frame member can be folded one by one in a clockwise or counterclockwise direction. The hinge support member is coupled between the C-type multi-connection member and the C1 support member to support the hinge folding and unfolding of the C-type support frame member. The hinge support member may include a first hinge portion and a second hinge portion. The first hinge portion has a first fixing surface on one side and is fixedly coupled to one side of the C-type multi-connection member, and the other side is formed as a first connection portion and can be extended in the direction of the C1 support member. The second hinge portion has a second fixing surface on one side, is fixedly coupled to one side of the C1 support member, and the other side is formed as a second connection portion, so that the second hinge portion may extend in the direction of the first connection portion and be hinged with the first connection portion. By providing a hinge support member, the four legs forming the C-type support frame member in the C-type frame module can be maintained at 90 degrees to prevent them from being folded again when an external force of a certain strength or less is applied when fully unfolded. Meanwhile, the C-type frame module according to an embodiment of the present invention may further include a link support member. The link support member is respectively coupled between the C11 rack member and the C1 support member or the C21 rack member and the C1 support member to form a C-type first rack frame member, a C-type support frame member, or a C-type second rack frame member. It can support the link folding and unfolding of C-type support frame members. By providing a link support member, when the four legs forming the C-type support frame member in the C-type frame module are fully folded and unfolded at a right angle of 90 degrees, the unfolded angle can be maintained, and the expanded angle can be maintained by an external force of less than a certain intensity. It can prevent arbitrary folding. The C-type multi-connection member of the C-type frame module has joints for joining up, down, left, and right with adjacent frame modules or members in each direction at the connection part, and each joint has a fastening hole in the center of each side of the hexahedron. It can be. Additionally, a magnet may be provided inside the coupling hole. Therefore, the C-type multi-connection member of the C-type frame module can maintain a more robust connection through a fastening structure, and can also maintain a simple connection using a magnet. The C-type multi-connection member of the C-type frame module may include a C12 joint, a C3 joint, and a C4 joint. The C12 joint supports the connection of the C-type first rack frame member and the C-type second rack frame member that are adjacent to each other, and may include a C1 body, a C1 joint coupling portion, and a C2 joint coupling portion. The C1 main body may be provided with a plurality of fastening surfaces having fastening holes in the shape of a hexahedron. The C1 join coupling part is connected to the first surface of the C1 main body in the first direction, and is connected to one side of the C-type first rack frame member to support the connection of the C-type first rack frame member. The C2 join coupling part is connected to the second surface of the C1 main body in the second direction, and is connected to one side of the C-type second rack frame member to support the connection of the C-type second rack frame member in the second direction. As described above, the C12 joint can connect four rack frame members forming a border on the upper side of the C-type frame module at adjacent positions. In addition, the C12 joint may be provided with a protruding metal body of a size corresponding to the inner diameter of the square pipe and a fastening hole with a thread so that it can be fastened with a bolt at the corresponding connecting portion of the square pipe. The C3 joint may be connected to one side of the C-shaped support frame member to support third direction connection. The C3 joint is connected to the C3 body, which has a plurality of fastening surfaces with fastening holes in the shape of a hexahedron, and the third surface in the third direction of the C3 body, and is connected to one side of the C-type support frame member to form a C-type It may include a C3 join coupling part that supports the third direction connection of the support frame member. As mentioned above, the C3 joint has a fastening hole taking into account a plurality of fastening surfaces and coupling bolts to secure an additional hinge to maintain the angle of the leg at 90 degrees after the square pipe forming the outer leg of the C-type support frame member is inserted. It can be provided. The C4 joint is connected to the other side of the C-type support frame member, and is connected to one side of the C-type support frame member to support the connection of other structures connected to the C-type support frame member. The C4 joint may include a C4 body having a plurality of fastening surfaces having fastening holes in the shape of a hexahedron. The C4 joint can be formed in a cubic shape and has fastening holes that can be connected to bolts protruding from the profile end of the support member and fastening holes on three sides of the front, left, and right sides for connection with other units. It can be. Meanwhile, the C-type multi-connection member of the C-type frame module can connect the connection structure between joints or the connection structure between joints and frame members with a screw fastening structure. For example, C12 joints to C4 joints for combining frame modules or cover frame modules of the same type may be installed at each corner of the C-type frame module. These joint members and the frame member may be coupled through fastening of a male screw provided on one end of the frame member that is coupled with a female screw provided on the joint member. Meanwhile, it may further include a C-type two-way joint connecting portion connecting joints on both sides of the C12 joint to the C4 joint that are adjacent to each other. The C-type two-way joint connection includes a first fastening part that has threads in a preset direction (clockwise) and is selectively coupled to a fastening hole provided in the C-type multi-connection member, and a first fastening part that corresponds to the first fastening part along the longitudinal direction. A second fastening part is provided in a position, has a thread in the opposite direction (counterclockwise) to the first fastening part, and is selectively coupled to a fastening hole provided in the C-type multi connection member, and a second fastening part and the first fastening part. It may include a fastening transmission part provided between the parts to which the fastening tool is coupled and the fastening force or loosening force of the fastening tool is transmitted. Meanwhile, a seating portion may be provided at the base of the fastening hole provided in the C-type multi-connection member, and may further include a magnet portion (M) coupled to the seating portion and transmitting magnetic force through the fastening hole. The magnet portion may be formed in a ring shape or circular shape. In this case, a coin-shaped iron plate attached to the magnet portion (M) may be coupled to the magnet coupling surface of the coupling member corresponding to the magnet portion (M). Therefore, the C-type multi-connection member of the C-type frame module can be used to connect the connection structure between joints or the connection structure between joints and frame members in a coupling structure using magnetic force. The X-type first rack frame member of the X-type frame module may include an X11 rack member, an X12 rack member, and an X1 rack fixing member. The The X11 rack member is connected to the X-type multi-connection member on both sides in the third axis direction of the It is formed as an empty square pipe structure and may be provided with a plurality of preset fixing holes along the longitudinal direction. The X12 rack member may be respectively inserted into the inside of the X11 rack member and coupled to the length adjustment structure. The X12 rack member is formed to be long in the longitudinal direction so that it can be inserted into a square pipe, and may be formed in the form of a profile with long grooves on all four sides. The X1 rack fixing member can be selectively coupled to a plurality of fixing holes to control the coupled state of the X11 rack member and the X12 rack member. The X1 rack fixing member may include a knob-type bolt fixing part. The X-type second rack frame member of the X-type frame module may be connected to the X-type multi-connection member along the second direction on the other side of the The X-type second rack frame member of the X-type frame module can function as a stand for supporting the lower part of the X-type frame module. The basic length adjustment structure of the X-type second rack frame member can be implemented in the manner of the X-type first rack frame member. However, the length, quantity, and profile of each pipe can be implemented differently. For example, the The X-type second rack frame member of the X-type frame module may include an X21 rack member, an X22 rack member, and an X2 rack fixing member. Each of the The X21 rack members may be provided in pairs to ensure the structural stability of the floor support. In addition, the X21 rack member may be formed in a length that can be increased or decreased by the floor contact width in both directions based on the longitudinal direction of the X22 rack member. The X22 rack member may be respectively inserted into the inside of the X21 rack member and combined into a length adjustment structure. The X22 rack member is formed to be long in the longitudinal direction so that it can be inserted into a square pipe, and may be formed in the form of a profile with long grooves on all four sides. The X2 rack fixing member can be selectively coupled to a plurality of fixing holes to control the coupled state of the X21 rack member and the X22 rack member. The X-type support frame member of the X-type frame module may include an upper support member, a lower support member, and a pair of angle adjustment members. The upper support member may be connected downwardly along the third direction through The upper support member may include an X1 support member, an X2 support member, and an X-shaped support fixing member. The X1 support member is formed as a rectangular pipe structure with an empty interior each connected to the It can be provided. The X2 support member may be respectively inserted into the inside of the X1 support member and combined into a length adjustment structure. The X-shaped support fixing member can be selectively coupled to the The lower support members may be connected upwardly in the third direction through The lower support member is formed in the same structure as the upper support member and may be compatible with each other. The pair of angle adjustment members may be provided between the upper support member and the lower support member and may include a structure in which the angle is adjusted by connecting them in a cross-shaped X shape based on each rotation center point. The angle adjustment member may include a first X-shaped connector and a second X-shaped connector. The first The 11th coupling portion and the 12th coupling portion are provided at both ends of the first bending connector, and are attached to a pair of upper support members ( One side may each be combined. The first refractive connection part may be formed long so that the 11th coupling part and the 12th coupling part are provided at offset positions at a set angle. The second X-shaped connector has a shape corresponding to the first The second The 21st coupling portion and the 22nd coupling portion are provided at both ends of the second bending connector, and one side of the remaining pair of upper support members and the lower support member is provided in a diagonal direction to each other among the two upper support members and the two lower support members. Each of these can be combined. The second refractive connection part has a 21st coupling part and a 22nd coupling part, and may be formed long so that the 21st coupling part and the 22nd coupling part are provided at offset positions at a set angle. The sum of the thicknesses of the first and second articulated connectors is less than or equal to the thickness of the upper support member or the lower support member, thereby preventing external protrusion when the support frame is folded. The first bending connection portion and the second bending connecting portion are each provided with angle-limiting stoppers at both ends in the longitudinal direction, so that when the support frame is unfolded, expansion outside of a preset angle section can be restricted. In order to completely overlap in the same plane, the first refractive connection part and the second refractive connection part may be formed to bend in opposite directions considering that the surfaces in contact with each other are cut thinner than the other surfaces and intersect in an X shape. In this way, by adjusting the shape and thickness of the first and second refractive connectors, when the They can overlap. Therefore, when the there is. Meanwhile, it further includes an angle fixing member coupled to the angle adjusting member to fix the adjusted angle, and the angle fixing member is selectively coupled to a plurality of angle fixing holes provided in preset fixing holes to fix the adjusted angle. It may include a fixing part. The angle fixing member is provided with a long angle adjustment slit along the angle adjustment direction on the inner surface of the semicircular band coupled to the angle adjusting member, and is coupled to the angle fixing hole provided for each angle specified by the angle fixing member to fix the adjusted angle. You can. The angle adjustment member may further include an angle display unit provided around the plurality of angle fixing holes to display the angle of the corresponding angle fixing hole in different colors. By providing an angle indicator, it is easier to maintain consistency in angle adjustment when multiple X-type frame modules are assembled at the same angle. As it is equipped with an angle adjustment member and an angle fixing member, the X-type frame module can selectively set the required opening angle by setting the angle of opening in an Therefore, using the The X-type multi-connection member of the X-type frame module may include an X1 joint and an X2 joint. The X1 joint may support the connection of the first X-shaped rack frame member and the third direction connection of the X-shaped support frame member on the upper side of the X-shaped support frame member. The X2 joint is formed in the same shape as the X1 joint and can support the connection of the X-shaped first rack frame member and the third direction connection of the The X1 joint may include an X1 body, an The X1 main body has a three-dimensional shape and may be provided with a fastening hole on the corresponding surface. The X1 join coupling part is connected to the first surface of the X1 main body in the first direction, and is connected to one side of the X-type first rack frame member to support the connection of the X-type first rack frame member. The X2 join coupling part may be provided with a round fastening surface having a plurality of coupling holes at preset angular intervals on the upper side of the X1 main body in the third direction. When joining adjacent Taking this into account, a plurality of coupling holes may be provided to correspond to angles that can be changed. A plurality of coupling holes may be provided to correspond to a specific angle in response to a changeable angle, taking into account that the coupling position in the 90-degree vertical direction changes according to the angle change of the X-type frame module. The X3 joining coupling part has a coupling hole and is provided on the lower side of the X1 main body in the third direction, and one side of the X-shaped support frame member is coupled to the coupling hole to support the third direction connection of the X-shaped support frame member. The X1 joint may further include a magnet portion that is coupled to a common seating portion that shares a fastening hole and a coupling hole provided in the X1 body and transmits magnetic force through the fastening hole and the coupling hole. As the magnet part is provided, easy magnet-based attachment and detachment is possible when attaching the cover frame panel. And it may further include a cylindrical X-shaped two-way joint connecting portion that is respectively coupled to the coupling hole of the It may further include a cover frame module that is coupled to the frame module that forms the frame by forming a plate-shaped cover. In this way, various types of multipurpose frame module structures can be formed by various combinations of frame modules and cover frame modules that form the framework. If necessary, fabric or vinyl film can be separately attached to the cover frame module to increase the physical and visual blocking effect on that side. The cover frame module is selectively coupled to the frame module to form a wall, and may be provided with a length-adjustable coupling structure in the width direction. The cover frame module may include a border member and a cover member. The frame member includes a first frame member and a second frame member, forms a square-shaped frame, and may be provided with a length-adjustable coupling structure. The first frame members have a length-adjustable coupling structure along the first direction, and at least one pair is provided at a position facing each other, and each pair can be connected through a cover multi-connection member to form a first frame frame. The first frame member may include an 11th frame rack member, a 12th frame rack member, and a first frame rack fixing member. The eleventh border rack member is connected to the cover multi-connection member in the first direction at a position forming a square-shaped border, and each is formed as a square pipe structure with an empty interior and has a plurality of preset fixing holes along the longitudinal direction. can do. The twelfth border rack member may be respectively inserted into the inside of the eleventh border rack member and coupled to the length adjustment structure. The twelfth rack member is formed to be long in the longitudinal direction so that it can be inserted into a square pipe, and may be formed in the form of a profile with long grooves on all four sides. The first frame rack fixing member can be selectively coupled to a plurality of fixing holes to control the coupling state of the 11th frame rack member and the 12th frame rack member. The first edge rack fixing member may include a knob-type bolt fixing part. The second frame members have a length-adjustable coupling structure along the second direction, and at least one pair is provided at a position facing each other, and each pair is connected through a cover multi-connection member to form a second frame frame of the rack surface. The second frame member may include a 21st frame rack member, a 22nd frame rack member, and a second frame rack fixing member. The cover member is arranged to be long in a first direction, which is the width direction, on the inside of the edge member, has a length-adjustable coupling structure, and can be coupled in plural numbers along the second direction. The cover member is formed by cutting and bending a metal plate, such as aluminum, to form a U-shaped first cover member with one side of the square pipe opened, and a shape corresponding to the first cover member, and is inserted into the inside of the first cover member to adjust the length. It may include a second cover member, a cover fixing member for fixing the first cover member and the second cover member whose length is adjusted. The cover multi-connection member of the cover frame module functions to connect the first frame member and the second frame member. The cover multi-connection member of the cover frame module may include an edge joint body, a first edge joint coupling portion coupled to the first edge member, and a second edge joint coupling portion coupled to the second edge member. The cover multi-connection member of the cover frame module is provided with an iron plate on one side and can be coupled to the magnet unit. Meanwhile, the cover frame module that covers the outside of the frame module has aluminum guides into which slideable aluminum bars or square materials are inserted at regular intervals to respond to arbitrary size changes in the first and second directions forming a two-dimensional plane. Components that are combined to be arranged can be connected with springs. In this state, the length can be adjusted by connecting the spring connector to the slit made on the inside of the corner frame and pulling it to the required length. If necessary, the length can be adjusted by removing or inserting the internal sliding bar or angle material. As described above, the multi-purpose variable frame module system according to an embodiment of the present invention is a C-type frame module and an Various types of indoor and outdoor structures can be implemented by selectively adjusting the length and angle of the corresponding frame module. For example, a single unit can form a chair, small table, or storage box of the desired size or shape within a certain range, or connect multiple 3-axis expandable structural frames to create a bed, bookcase, cabinet, conference table, or exhibition. It can be assembled and disassembled into various furniture and equipment installation frames, such as partition walls, sink bases, projector stands, and walls for lighting or display installation, and can be repeatedly reused as structural frames with different forms or functions. In addition, all three-axis expandable structural frame units can be moved or stored by minimizing the size, folding the relevant members, adjusting the size into a square frame on a two-dimensional plane, and then arranging them one by one to occupy minimal space. It can be done easily. In other words, each framing frame module and cover frame module can be stored in a minimum volume through selective length and angle adjustment after use, and is easy to carry and move, so it is a variable type that can support a variety of indoor and outdoor events. A JIT (Just In Time) system can be provided. In addition, the space is divided by assembling frame frame modules and cover frame modules to enable the construction of polymorphic facilities according to the nature and purpose of the space, and the necessary equipment is combined into the module structure to efficiently occupy idle space. By keeping and storing a set of packaged frame modules at all times, space efficiency can be increased and maintenance costs can be reduced. As mentioned above, the multi-purpose variable frame module system can be designed and disassembled by any adult to suit their own purposes through the easy assembly method and simple manual provided, and the process of installation and disassembly by experts is carried out by selecting a high-cost equipment specialist. Since it can be omitted, the burden of space use can be reduced and the frequency of use and scope of use of idle land can be expanded. The C-type frame module can implement a skeletal frame that can be expanded in three axes, and can be expanded to a length close to twice the minimum length in each longitudinal direction. In addition, the support frames corresponding to the X-shaped first rack frame member and the . The C-type frame module can implement the framework of a rectangular parallelepiped or cube of various sizes and shapes within a certain range. And by combining the combination of C-type frame modules and the cover frame module, it is possible to implement a skeletal frame for installing more various types of furniture items or equipment. For example, a C-shaped frame module can be combined with a cover frame module to create a chair, a representative furniture item. In the C-type frame module, the size and shape can be changed from a cube with a side length of 50cm to a length of less than 1m in all three directions x, y, and z. The C-type frame module can be used in everyday life through appropriate combination and combination of cover frame modules. Furniture items and equipment installation frames of various sizes and shapes required for indoor and outdoor events can be implemented. For example, multiple C-type frame modules can be connected horizontally and cover frame modules can be combined to create a bench or table. In addition, when the C-type frame module is implemented as vertical column-shaped structures, it can be implemented in various structural forms such as bookshelves or cabinets by combining the cover frame module and partition panel. The table can be adjusted to a height of approximately 70cm and a minimum width of 50cm to 80cm, and cabinets and storage tables can also be adjusted to a length of 50cm to 80cm. The . Using the X-type frame module, it is possible to configure various furniture items. For example, a variety of furniture items such as chairs, tables, bed frames, bookshelves, wardrobes, cabinets, etc. can be created by combining hexahedral structural frame units of variable size and shape and specific surface coverings or partition surfaces of these combined structural frames. After making them and using them, they can be disassembled if necessary and reassembled into furniture items of another form and purpose. And various instrument installation frame configurations are possible. For example, when constructing indoor or outdoor events or temporary facilities, various equipment installation frames such as kitchen counters, drinking fountains, lighting installation walls, exhibition walls, speaker array installation frames, and temporary tent frames are assembled and constructed, and then dismantled after use to create another structure. It can be used by recombining it into a frame. In addition, by combining the In this case, in order to prevent the risk of falling, the length of the X-type frame module where the frame touches the ground can be adjusted to form a kind of support in the vertical direction on the wall formed by the X-type frame module assembly, and the joint is combined. To make this possible, an X-shaped second rack frame member can be provided.

Claims (1)

It includes frame modules that each have a length-adjustable coupling structure along a preset direction and are selectively variably adjusted to form a framework of a three-dimensional structure, wherein the frame modules have a length-adjustable coupling structure along a first direction and at least one pair faces each other. The first rack frame members are respectively connected through multi-connection members to form a first frame frame, and have a length-adjustable coupling structure along a second direction, and at least one pair is provided at a position facing each other, Second rack frame members are each connected through multi-connection members to form a second border frame of the rack surface, and have a length-adjustable coupling structure along a third direction, and at least two pairs are provided at opposing positions to form a support frame. A multi-purpose variable frame module system including support frame members forming a.