KR102447984B1 - Modular Architectural System - Google Patents

Abstract

The present invention provides a modular construction system, which may include: a management server which analyzes the exploded view and determines the possibility of modular construction in which construction modules are assembled on site; a plurality of consumer terminals communicating with the management server to design a desired building; and a kiosk displaying architectural designs as a recommendation list sequentially from the top according to the number of votes of architectural designs input through the consumer terminal.

Description

Modular Architectural System

The present invention relates to a modular building system.

Recently, in the domestic housing type, the desire to have one's own house away from apartment dwelling is increasing, and as an alternative to this, the preference for single-family housing is further improving.

This increase in the preference for single-family houses is related to mental dissatisfaction such as accumulation of wealth due to income increase, method alternatives for property growth, human alienation felt from a uniform housing form, economic leeway due to income level improvement, and pursuit of improved quality of life. It can be said that the expressed desire is expressed.

However, there was a limit to the ordinary people drawing a building for their residence in their head and drawing realistic information or concrete drawings of the building set with such imagination.

In addition, it is difficult to create an architectural drawing that accepts 100% of the owner's intention in reality, even for a design commissioned by an expert, and it is even more difficult to directly construct a building that reflects the architect's intention without the help of the architect's drawing information. .

On the other hand, the above-mentioned background art is technical information that the inventor possessed for the derivation of the present invention or acquired in the process of derivation of the present invention, and it cannot be said that it is necessarily a known technique disclosed to the general public before the filing of the present invention. .

Korean Patent Publication No. 10-2001-0000959

It is an object of the present invention to provide a modular building system capable of determining whether modular construction is possible according to a design drawing of a building designed by a consumer, and being constructed on-site to increase work efficiency.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

The modular building system according to an embodiment of the present invention may output a virtual designed exploded view.

A modular construction system according to an embodiment of the present invention includes: a management server that analyzes the exploded view to determine the possibility of modular construction for assembling building modules on site; a plurality of consumer terminals communicating with the management server to design a desired building; and a kiosk that sequentially displays architectural drawings as a list of recommendations from the top according to the number of votes received for the architectural drawings input to the consumer terminal.

According to an embodiment, the management server includes: a database unit that collects information on architectural design trends, updates them every preset period, and provides information on the architectural design trends collected to the consumer terminal; a consumer input unit for receiving design information including a structure, equipment, and combination method of a desired building from the consumer terminal; a drawing generation unit for designing and providing a result of a building in 3D drawing according to the design information of the building input to the consumer input unit; a virtual construction unit that sequentially simulates a process of designing an actual building, including a structure, a facility, and a combination method, according to the 3D drawing designed by the drawing generating unit and the design information received from the consumer input unit and providing it to the consumer terminal; and a data disclosure unit that discloses design information, 3D drawings, and simulations inputted from the consumer terminal, obtains consent to vote for a large number of consumers, and provides the consented consumers' designs to the design recommendation list according to the number of votes received; can

According to an embodiment, the virtual construction unit, as a result of sequentially simulating the process of designing an actual building, determines whether a modular construction is possible, and according to the possibility of the modular construction, the building is modular to the consumer terminal It can provide information on whether a building method has been implemented.

According to an embodiment, the kiosk may include: a display unit providing the recommendation list; an output unit for outputting a design drawing of a building selected from the recommendation list displayed on the display unit on paper; and a leg part positioned at the lower end of the output part to safely support the display part and the output part while maintaining a predetermined distance from the floor surface.

According to an embodiment, the kiosk may further include a plurality of safety support members that serve to protect against vibrations or shocks generated from the outside, including a support member installed on the floor to support the bottom while supporting the bottom. .

According to an embodiment, the support member is fixed to the bottom surface of the kiosk while having a first accommodating groove in the upper part and a second accommodating groove in the lower part formed in a structure that penetrates in parallel along the central axis and communicates with each other therein. a first frame; a second frame disposed in a coaxial structure under the first frame and fixed to the bottom of the structure while having a support for enclosing a lower portion of the first frame; an elastic ball positioned in the second receiving groove of the first frame and capable of vertical movement along the second receiving groove and capable of rotation while in contact with the bottom surface of the second frame; an elastic part located in the first receiving groove of the first frame and capable of compression and expansion while in contact with the elastic ball side with a support plate therebetween; and a cover plate that is fixed to the upper portion of the first receiving groove of the first frame and covers the upper end of the elastic part.

According to one embodiment, the second frame, the center of the sea surface in contact with the elastic ball is made of an arc-shaped concave round groove, it may be possible to position the elastic ball on the axis of the frame.

According to an embodiment, the second frame may be provided with a ball regulating part in the form of a wall erected along the periphery of the round groove on the bottom surface to regulate the rotational movement range of the elastic ball.

The architectural design system according to an embodiment of the present invention may output a virtual designed exploded view.

An architectural design system according to an embodiment of the present invention, a design server; a plurality of consumer terminals communicating with the design server to design a desired building; and a kiosk that sequentially displays architectural drawings as a list of recommendations from the top according to the number of votes received for the architectural drawings input to the consumer terminal.

According to an embodiment, the design server may include: a database unit configured to collect information on architectural design trends, update them every preset period, and provide information on the architectural design trends collected to the consumer terminal; a selection input unit for receiving design information including a structure, equipment, and combination method of a desired building from the consumer terminal; a virtual design unit for designing and providing a result of a building in a 3D drawing according to the design information of the building input to the selection input unit; a simulation unit for sequentially simulating a process of designing an actual building, including a structure, a facility, and a combination method, according to the 3D drawing designed by the virtual design unit and the design information received from the selection input unit, and providing it to the consumer terminal; and an information disclosure unit that discloses design information, 3D drawings, and simulations inputted from the consumer terminal, obtains consent to vote for a large number of consumers, and provides the consented consumer's design to the design recommendation list according to the number of votes received; can

According to an embodiment, the kiosk may include: a display unit providing the recommendation list; an output unit for outputting a design drawing of a building selected from the recommendation list displayed on the display unit on paper; and a leg part positioned at the lower end of the output part to safely support the display part and the output part while maintaining a predetermined distance from the floor surface.

According to an embodiment, the kiosk may further include a plurality of safety support members that serve to protect against vibrations or shocks generated from the outside, including a support member installed on the floor to support the bottom while supporting the bottom. .

According to an embodiment, the support member is fixed to the bottom surface of the kiosk while having a first accommodating groove in the upper part and a second accommodating groove in the lower part formed in a structure that penetrates in parallel along the central axis and communicates with each other therein. a first frame; a second frame disposed in a coaxial structure under the first frame and fixed to the bottom of the structure while having a support for enclosing a lower portion of the first frame; an elastic ball positioned in the second receiving groove of the first frame and capable of vertical movement along the second receiving groove and capable of rotation while in contact with the bottom surface of the second frame; an elastic part located in the first receiving groove of the first frame and capable of compression and expansion while in contact with the elastic ball side with a support plate therebetween; and a cover plate that is fixed to the upper portion of the first receiving groove of the first frame and covers the upper end of the elastic part.

According to one embodiment, the second frame, the center of the sea surface in contact with the elastic ball is made of an arc-shaped concave round groove, it may be possible to position the elastic ball on the axis of the frame.

According to an embodiment, the second frame may be provided with a ball regulating part in the form of a wall erected along the periphery of the round groove on the bottom surface to regulate the rotational movement range of the elastic ball.

According to one aspect of the present invention described above, the modular construction system proposed by the present invention can determine whether modular construction is possible according to a design drawing of a building designed by a consumer, and can be constructed on-site to increase work efficiency.

In addition, it is possible to determine whether or not a modular construction capable of increasing efficiency during construction is possible, and to provide whether or not to construct a modular construction to the consumer who designed it, and to proceed with the construction according to the consent of the consumer.

In addition, by disclosing the information of the building design designed by the consumer through the kiosk, voting from a large number of consumers can be carried out and a list of recommended building plans can be provided according to the number of votes, so even non-experts can easily check various building designs.

In addition, when vibrations or shocks occur in the front, back, left and right directions and up and down directions at the bottom of the kiosk provided in our lobby or partner companies, the elastic part of the support member and the elastic ball are linked to each other to move up and down and contract/contract. By attenuating the vibration or shock transmitted to the kiosk as it expands or rotates in 360° directions, even if the kiosk experiences floor vibration, mechanical vibration, or internal shock caused by an earthquake, it can have both vibration-proof performance and seismic-resistance performance at the same time. You can safely protect the devices inside the kiosk.

In addition, by implementing a support member consisting of a combination of an elastic ball, an elastic part, and a frame for accommodating them, the structure of the safety support member can be simplified, and there is an advantage in maintenance and management.

In addition, by applying a structure in which a combination of an elastic ball and a spherical surface capable of regulating the position of the elastic ball is applied, it is possible to secure a stable support structure of the kiosk.

In addition, high-quality seismic performance can be secured by absorbing vibration or shock using the vertical compression and expansion action of the elastic part and the vertical flow action of the elastic ball in connection therewith.

In addition, vibration absorption performance or shock absorption performance may be improved.

By combining the spring members of the elastic part in various ways, it can be adjusted so that the characteristics of the elastic part or the structure support device having the elastic part can be easily varied depending on the place where the elastic part or the structure support device having the elastic part is installed.

In addition, even if the resistance to the load is reduced over time, only the corresponding spring member can be replaced, thereby reducing the replacement cost of the structure supporting device having the buffer mechanism or the elastic part.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the range apparent to those skilled in the art from the content to be described below.

1 to 6 are views showing the configuration of a modular building system according to an embodiment of the present invention.
7 to 10 are diagrams illustrating a configuration of a kiosk that is a part of a modular building system according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0012] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0014] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0016] Reference is made to the accompanying drawings, which show by way of illustration specific embodiments in which the present invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein with respect to one embodiment may be implemented in other embodiments without departing from the spirit and scope of the invention.

When a component is referred to as being “connected” or “fastened” to another component, it may be directly connected or engaged with the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is mentioned that a certain element is "directly connected" or "directly fastened" to another element, it should be understood that the other element does not exist in the middle.

In addition, it should be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description set forth below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scope equivalents to those claimed. Like reference numerals in the drawings refer to the same or similar functions throughout the various aspects.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings.

1 to 6 are views showing the configuration of a modular building system according to an embodiment of the present invention.

1 and 2 , the modular building system 10 according to an embodiment of the present invention may output a virtual designed exploded view.

The modular construction system 10 according to an embodiment of the present invention may include a management server 100 , consumer terminals 300 and 500 , and a kiosk 900 .

The management server 100 may analyze the exploded view to determine the possibility of modular construction in which the building module is assembled on site.

Meanwhile, the management server 100 may include a database unit 110 , a consumer input unit 130 , a drawing generation unit 150 , a virtual construction unit 170 , and a data disclosure unit 190 .

The database unit 110 may collect information on architectural design trends and update them every preset period, and may provide information on architectural design trends collected by the consumer terminals 300 and 500 .

Meanwhile, the database unit 110 may guide the consumer terminals 300 and 500 with basic contents for designing a building.

Here, the basic contents are the size desired by the consumer, the number and size of accommodation, the number and size of toilets, the outdoor unit, the size of the living room, the presence or absence of a terrace, the presence or absence of a hallway, the type of insulation, the type of wallpaper finish, the type of gypsum board, It may include a hardware structure, a type of jointed hardware, a rainwater method, an electrical installation method, a firefighting equipment method, and the like, and may mean including all necessary information prior to construction of a building.

The consumer input unit 130 may receive design information including a structure, equipment, and combination method of a desired building from the consumer terminals 300 and 500 .

The drawing generating unit 150 may design and provide a result of the building, which is derived according to the design information of the building input to the consumer input unit 130 , as a 3D drawing.

The virtual construction unit 170 sequentially simulates the process of designing an actual building, including the structure, equipment, and combination method, according to the 3D drawing designed by the drawing generating unit 150 and the design information input from the consumer input unit 130 . Thus, it can be provided to the consumer terminals 300 and 500 .

In addition, as a result of sequentially simulating the process of designing an actual building, the virtual construction unit 170 can determine whether or not a modular construction is possible, and according to the possibility of a modular construction, the corresponding building is a modular construction method with the consumer terminal. You can provide information on whether or not it has been implemented.

Accordingly, the modular building system 10 according to an embodiment of the present invention can be implemented by the modular building method with the consent of the consumer when the building designed by the consumer can be implemented by the modular building method.

On the other hand, even if it is possible to implement the modular construction method, if the consent of the consumer is not obtained, the construction can proceed with the general construction method rather than the modular construction method.

The data disclosure unit 190 discloses design information, 3D drawings, and simulation contents inputted from the consumer terminals 300 and 500 to receive consent to vote for a large number of consumers, and the consented consumer's design is a design recommendation list according to the number of votes. can be provided to

Meanwhile, the consumer terminals 300 and 500 may refer to terminals possessed by a plurality of consumers who communicate with the management server 100 to design a desired building.

The kiosk 900 may display the architectural blueprints as a list of recommendations in order from the top according to the number of votes for the architectural blueprints input to the consumer terminals 300 and 500 , and may be installed in the lobby of the company.

Meanwhile, referring to FIG. 6 , the kiosk 900 includes a display unit 910 that provides a recommendation list, and an output unit 950 that outputs a design drawing of a building selected from the recommendation list displayed on the display unit 910 on paper. and a leg unit 990 positioned at the lower end of the output unit 950 to safely support the display unit 910 and the output unit 950 while maintaining a predetermined distance from the floor.

3 to 5, the modular building system 10 according to an embodiment of the present invention provides a simulation result and It can be seen that the exploded view is shown.

7 to 10 are diagrams illustrating a configuration of a kiosk that is a part of a modular building system according to another embodiment of the present invention.

7 and 8, the kiosk 900, which is a part of the modular construction system according to another embodiment of the present invention, includes a support member installed on the floor to support the bottom while supporting the vibration generated from the outside. It may further include a plurality of safety support members that serve to protect from the impact.

The safety support member of the kiosk uses a combination of an elastic part that supports the bottom of the kiosk and an elastic ball, so that when the kiosk receives an impact from floor vibration, mechanical vibration, or earthquake, it can exhibit efficient vibration-proof performance and seismic-resistance performance. It can be made of a structure that has

To this end, the safety support member of the kiosk may include a plurality of support members 810 installed on the floor while supporting the bottom surface of the kiosk 900 .

The support member 810 is installed in a structure that is fastened to the bottom side and the bottom surface of the kiosk 900, respectively, and the support member 810 installed in this way supports the kiosk 900 while supporting the kiosk 900, It may serve to protect the kiosk 900 from impact.

The support member 810 may include a first frame 813 that is fixedly installed on the bottom surface of the kiosk.

The first frame 813 is made in the form of a cylindrical housing having a perimeter 822a around the edge of the upper end, and at this time, the perimeter 822a is used to the bottom surface of the kiosk 900 with a fastening structure such as bolts. can be installed.

A first accommodating groove 811 and a second accommodating groove 812 having a coaxial structure that pass through and communicate with each other may be formed inside the first frame 813 .

At this time, the first accommodating groove 811 and the second accommodating groove 812 have a circular hole structure that communicates with each other, and the diameter of the upper first accommodating groove 811 is the diameter of the lower second accommodating groove 812 . It may have a relatively large diameter compared to .

At the boundary between the first accommodating groove 811 having a large diameter and the second accommodating groove 812 having a small diameter, a protrusion 823 having a naturally stepped structure may be formed due to the difference in diameter, and the protrusion formed in this way A support plate 817 to be described later may be placed on and supported on the jaw 823 .

And, in the case of the second accommodating groove 812 , the structure is exposed while being penetrated through the bottom surface of the first frame 813 . As it protrudes, it is possible to come into contact with the side of the second frame 815 to be described later.

In particular, a chin for ball regulation may be formed around the inner periphery of the lower end of the second accommodating groove 812, and accordingly, the elastic ball 816 accommodated in the second accommodating groove 812 has its peripheral surface (more than the center of the ball). As it is hung while seated on the chin for ball regulation through the circumferential surface positioned downward), the elastic ball 816 in the second accommodating groove 812 may not fall downward.

On the other hand, in the center of the upper surface of the first frame 813, a circular part 824 forming a concentric circle with the first accommodating groove 811 and the second accommodating groove 812 is formed, and the circular part 824 at this time has a disk shape. The cover plate 819 to be described later is installed in a seating and fastening structure, and the cover plate 819 installed in this way presses the upper end of the elastic part 818 and closes the elastic part 818 so that it is not exposed to the outside. can play a role.

Here, the cover plate 819 is installed in a structure that is fastened and fixed by bolts or screws, and the elasticity of the elastic part 818 can be adjusted according to the degree of fastening at this time.

That is, when the installation position of the cover plate 819 is raised by adjusting the fastening degree of the bolts or screws, the elasticity of the elastic part can be relatively lowered, and when the installation position of the cover plate 819 is lowered, the elasticity of the elastic part is relatively decreased. can be raised

Here, the elastic part may mean a member such as a spring, but is not limited thereto, and may include any member capable of mitigating an impact by contracting and relaxing motion, regardless of its name.

As the elasticity of the elastic parts 818 belonging to each supporting member 810 supporting the kiosk can be adjusted in this way, there is an advantage in that the center of gravity of the kiosk can be easily grasped.

In addition, the support member 810 may include a second frame 815 that is fixedly installed on the floor of the structure.

The second frame 815 is made in the form of a disc-shaped housing having a periphery 822b around the edge of the upper end, and is disposed in a coaxial structure under the first frame 813 while forming the perimeter 822b at this time. It can be installed on the floor using a fastening structure such as bolts.

At the center of the bottom surface of the second frame 815, an arc that can hold the regular position (center position) of the elastic ball 816 and at the same time guide the rotational movement of the elastic ball 816, etc. ) shaped concave round groove 820 may be formed.

Accordingly, when vibration and shock are applied to the kiosk 900 , the elastic ball 816 can rotate while riding in the arc-shaped round groove 820 in all directions 360°, and eventually the kiosk. It is possible to effectively absorb and reduce the vibration or shock transmitted to the 900, and when the vibration or shock is gradually reduced and then disappears, the elastic ball 816, which was rotating in motion, is the center point of the round groove 820. That is, as it is naturally guided and positioned to the point where the frame central axis passes, the kiosk 900 supported by the elastic ball 816 can take a stable vertical posture.

In addition, since the elastic ball 816 is held in a fixed position in the concave center of the round groove 820, there is an advantage that can be more efficiently dealt with when an instantaneous impact caused by an earthquake or the like is applied.

For example, in a state in which the elastic ball 816 supporting the kiosk 900 is not in the center and is tilted to either side, when an impact is applied without notice, the elastic ball 816 does not even move. Severe impact may be applied to the kiosk 900 due to contact interference between the upper and lower frames without the presence of an upper and lower frame.

However, in the present invention, as the elastic ball 816 is held in a fixed position at the center of the round groove 820, even when an instantaneous impact is applied due to an earthquake, etc., the flow range in which the elastic ball 816 can move is secured. As a result, the kiosk 900 also flows closely through the movement of the elastic ball, thereby effectively canceling the impact.

In addition, a ball regulating part 821 in the form of a circular wall erected at a predetermined height along the periphery of the round groove 820 may be formed on the bottom surface of the second frame 815 .

Accordingly, when the rotational movement of the elastic ball 816 excessively deviates from the predetermined rotational movement range, the elastic ball 816 is regulated while being caught by the ball regulating unit 821, even when the kiosk 900 shakes severely. It is possible to prevent accidents such as the kiosk 900 from falling sideways in advance.

Here, the second frame 815 has a role of preventing external exposure of the first frame 813 to which the elastic part and the elastic ball belong, and a role of preventing the entire kiosk 900 from being completely separated from its place. A support 814 may be provided.

The support 814 is a circular wall structure erected along the upper edge of the second frame 815 , and can surround most of the lower portion of the first frame 813 .

Accordingly, the first frame 813 can flow only within the region formed in the support 814 of the second frame 815 .

In addition, the support member 810 may include an elastic ball 816 that serves to attenuate vibration and shock while rotating in a 360° direction.

The elastic ball 816 is a means for supporting the entire kiosk 900 together with the elastic part 818, and absorbs and reduces vibration or shock while rotating in response to vibration or shock transmitted to the kiosk 900 side. be able to do

To this end, the elastic ball 816 is positioned inside the second receiving groove 812 formed in the first frame 813 while in contact with the elastic part upwardly and downwardly on the second frame 815 . It may be installed in a form in contact with the formed round groove 820 .

The elastic ball 816 is movable in the vertical direction relative to the first frame 813 while being linked with the compression and expansion motion of the elastic part 818 in a state located in the second receiving groove 812, In addition to this, it is possible to perform a rotational movement in a 360° direction along the round groove 820 .

Accordingly, when vibration or impact in the vertical direction is applied to the kiosk 900, the entire first frame 813 including the kiosk 900 is moved downward (or upwardly moved), and relatively elastic part ( At the same time the 818 is compressed (or expanded), the elastic ball 816 is moved upward (or downwardly moved), and the vibration applied to the kiosk 900 by the close flow of the elastic part 818 and the elastic ball 816 is performed. However, the impact can be attenuated more effectively.

And, when vibrations or shocks are applied to the kiosk 900 from all directions, such as the front and rear and left and right directions, as well as the vertical direction, the entire first frame 813 including the kiosk 900 is 360 along the round groove 820 . As the flow coincides with the movement of the elastic ball 816 rotating in the ° direction, the vibration or impact applied at this time can be offset.

In particular, during the rotational motion of the elastic ball 816, the elastic ball 816 moves along the arc trajectory of the concave round groove 820 having an arc shape, and accordingly, during the rotational movement of the elastic ball 816, this By repeating the operation in which the elastic part 818 is also compressed and restored while being linked, vibration or shock applied to the kiosk 900 can be more effectively offset.

In addition, the support member 810 may include an elastic part 818 as a means for attenuating vibration and shock while elastically moving in the vertical direction.

The elastic part 818 is in the form of a coil spring having a plate shape of a square cross section, and is disposed inside the first receiving groove 811 formed in the first frame 813 to support the load of the kiosk 900 . .

To this end, a support plate 817 is disposed at the lower end of the elastic part 818 to come into contact with the elastic ball 816 at the lower side via the support plate 817 at this time, and with this, the elastic part 818 The upper end may come into contact with the cover plate 819 fastened to the circular part 824 formed in the center of the upper surface of the first frame 813 .

Accordingly, the kiosk 900 can be supported while receiving the elasticity of the elastic portion through the first frame side cover plate 819 in contact with the upper end of the elastic portion 818, and compression and expansion of the elastic portion 818 Vibration or shock transmitted to the kiosk 900 may be attenuated by the action.

It is a front view and a side view showing the installation state of the safety support member according to another embodiment of the present invention.

The support member 810 is installed in a structure that is respectively disposed on the corners of the bottom surface of the kiosk 900, and through this arrangement structure, it is possible to stably support the kiosk 900 in a balanced manner, and also shock or vibration. It becomes possible to attenuate while equally dividing and distributing.

Therefore, when shock or vibration is applied while receiving stable support by the support member 810, the kiosk 900 is connected to the elastic part 818 and the elastic ball 816 of the four support members 810. It can be safely protected by vertical expansion and contraction movement and four-way rotation movement.

9 and 10, the elastic part 600 of the safety support member 800 according to another embodiment of the present invention is directly or indirectly interposed in the kiosk 900 to buffer the applied load. It may include a pillar part 690 , a coupling part 610 , an anti-slip part 630 , and a spring member 650 .

The pillar portion 690 has a body formed in the longitudinal direction, and it is preferable that a screw portion 690 ′ is provided at least in part.

It is preferable that a coupling part 610 made of a metal plate or the like is coupled to any one of both ends of the pillar part 690 .

The coupling portion 610 is coupled to any one of both ends of the pillar portion 690 to prevent the spring members 650 from being separated from at least one of both ends of the pillar portion 690, and from the coupling portion 610 to the pillar In a direction in which the part 690 is not coupled, the anti-slip part 630 may be coupled.

The non-slip part 630 may be coupled to the coupling part 610 to be oriented to the pillar part 690 .

The anti-slip part 630 may be positioned in close contact with the lower end of the kiosk 900 , and may be formed of a material having a rough surface to prevent sliding from the lower end of the kiosk 900 .

Here, the non-slip part 630 is not limited to being made of a material with a rough surface, but if it is a method that can prevent slipping from the bottom of the kiosk 900, such as being formed of an adhesive material, the method is limited. It can be formed by including all without.

The spring member 650 is provided with a through-groove 650 ′ and is coupled to be movable along the pillar portion 690 , and may be provided in the shape of a disk having an elastic surface 650 ″ formed to be inclined, and a pillar. A plurality of portions may be coupled to the pillar portion 690 in the longitudinal direction of the portion 690 .

Accordingly, since the plurality of spring members 650 are applied to the elastic part 600, the vibration absorption performance or shock absorption performance of the elastic part 600 can be improved, and the installation space of the elastic part 600 can be reduced. , even if the installation space of the elastic part 600 is small, it can support a relatively large load.

On the other hand, when designing the load of the elastic part 600 to which the spring members 650 are applied, the maximum amount of deformation of each of the spring members 650 (the amount of deformation until the elastic surface 650'' formed to be inclined is almost flat) ), it is preferable to design in consideration of the support load of the elastic part 600 so that only about 75% of the deformation is allowed.

The spring member 650 has an elastic force capable of receiving a large force even with a small size, and initially causes displacement in proportion to the applied force, but the displacement may rapidly increase above a certain force. That is, the spring member 650 may have a region in which a large difference does not occur in elastic force even if a large amount of displacement occurs.

When several spring members 650 are overlapped so that the convex portions face the same direction, the stiffness of the spring can be increased according to the overlapping number, and when several are overlapped so that the convex portions face different directions, displacement according to the overlapping number may increase.

That is, when the above two methods are combined, the characteristics of the spring can be variously adjusted.

When the two spring members are overlapped so as to be superimposed on each other, the stiffness of the spring members may be doubled. That is, when the convex portions of the spring member overlap each other in the same direction, the spring stiffness of the spring member may be proportional to the number of overlapping spring members.

In addition, when the convex portions of the spring members face each other in different directions and overlap each other, displacement may be proportional to the number of overlapping spring members for the same force.

Accordingly, by various combinations of the spring members 650 of the elastic part 600, it is possible to adjust the characteristics of the elastic part 600 to be easily varied according to the place where the elastic part 600 is installed.

For example, if the spring members 650 are coupled to the pillar portion 690 so that the plurality of spring members 650 overlap in the same direction, the amount of displacement of the spring members 650 with respect to the same load may be relatively small.

Accordingly, when a horizontal load is applied to the elastic part 600 and the spring members 650 are displaced along the column part 690, the surface of the column part 690 or the inner periphery of the spring members 650 is damaged. can be prevented

Accordingly, by dividing the spring members 650 having different thicknesses (spring stiffness) by group and supporting the horizontal load acting on the elastic part 600 in stages, the load bearing force by the elastic part 600 can be further increased. .

Accordingly, even if the resistance to the load is reduced over time, only the corresponding spring member 650 can be replaced, thereby eliminating the need to replace the elastic part 600 itself, thereby reducing the replacement cost of the elastic part 600 . can save

The above-described embodiments are for illustration, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You will understand. Therefore, it should be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and likewise components described as distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the following claims rather than the detailed description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents.

100: management server

Claims (3)

In a modular building system that outputs a virtual designed exploded view,
a management server that analyzes the exploded view to determine the possibility of modular construction for assembling building modules on site;
a plurality of consumer terminals communicating with the management server to design a desired building; and
and a kiosk that sequentially displays architectural drawings as a list of recommendations from the top according to the number of votes received for the architectural drawings input to the consumer terminal.
The management server,
a database unit that collects information on architectural design trends, updates them every preset period, and provides information on the architectural design trends collected by the consumer terminal;
a consumer input unit for receiving design information including a structure, equipment, and combination method of a desired building from the consumer terminal;
a drawing generation unit for designing and providing a result of a building in 3D drawing according to the design information of the building input to the consumer input unit;
a virtual construction unit that sequentially simulates a process of designing an actual building, including a structure, a facility, and a combination method, according to the 3D drawing designed by the drawing generating unit and the design information received from the consumer input unit and providing it to the consumer terminal; and
A data disclosure unit that discloses design information, 3D drawings, and simulations inputted from the consumer terminal to receive consent to vote for a large number of consumers, and provides the consented consumer's design to the design recommendation list according to the number of votes received;
The virtual construction unit,
As a result of sequentially simulating the process of designing an actual building, the possibility of modular architecture is determined,
Provides information on whether the building implements the modular construction method to the consumer terminal according to the possibility of the modular construction,
The kiosk is
a display unit providing the recommendation list;
an output unit for outputting a design drawing of a building selected from the recommendation list displayed on the display unit on paper; and
and a leg part positioned at the lower end of the output part to safely support the display part and the output part while maintaining a predetermined distance from the floor surface;
The kiosk is
It further includes a plurality of safety support members that serve to protect from vibrations or shocks generated from the outside, including a support member that is installed on the floor to support the bottom while supporting it,
The support member is
a first frame fixed to the bottom surface of the kiosk while having an upper first accommodating groove and a lower second accommodating groove formed in a structure in which they penetrate in parallel along the central axis and communicate with each other;
a second frame disposed in a coaxial structure under the first frame and fixed to the bottom of the structure while having a support for enclosing a lower portion of the first frame;
an elastic ball positioned in the second receiving groove of the first frame and capable of vertical movement along the second receiving groove and capable of rotation while in contact with the bottom surface of the second frame;
an elastic part located in the first receiving groove of the first frame and capable of compression and expansion while in contact with the elastic ball side with a support plate therebetween; and
and a cover plate that is fixed to the upper portion of the first receiving groove of the first frame and covers the upper end of the elastic part;
The second frame is
The center of the bottom surface in contact with the elastic ball is made of an arc-shaped concave round groove, it is possible to position the elastic ball on the axis of the frame,
The second frame is
A wall-shaped ball regulating unit erected along the periphery of the round groove on the bottom surface is provided to regulate the rotational movement range of the elastic ball, a modular construction system.
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