TR2021021240A1 - MODULAR HEXAGON STRUCTURES AND MODULAR HOUSE SYSTEMS OBTAINED BY COMBINING THESE STRUCTURES - Google Patents

Abstract

The present invention consists of a special steel construction (20), which can be nailed to the place where the room will be established with foundation screws (11) without the need for concrete pouring or leveling anywhere, by means of the foundation screws (11) in its structure, and it remains at a certain height from the ground. It has surfaces (40) that can be easily constructed and dismantled because it is like prefabricated structures, provides smoothness in the floor structure, is insulated, has ready electrical installations, has a special roof (30) structure and a special floor surface (44) structure, can be installed as a room and is modular. It is about a modular house system created by combining hexagonal modular rooms (1) and the rooms in question, which can create multiple rooms by adding as many new module rooms as desired when necessary, and which can easily become a house by combining these rooms.

Description

DESCRIPTION MODULE HEXAGONAL STRUCTURES AND MODULE HOUSE SYSTEMS OBTAINED BY COMBINING THESE STRUCTURES Technical Field The present invention is a system consisting of a special steel construction structure, which can be driven to the place where the room will be installed with the foundation screws in its structure without the need for concrete pouring anywhere or leveling, and which provides smoothness in the ground structure of the house by remaining at a certain height from the ground, which has surfaces that can be easily constructed and dismantled thanks to being like prefabricated structures, which is insulated, which has ready-made electrical installation, which has a special roof structure and a special ground structure, which can be installed as a room and since it is modular, which can be added as many new module rooms as desired when necessary, which can be created by combining these rooms easily, which can be a house by combining these rooms, and which is formed by combining the rooms. Known State of the Art with Modular Home System Although technology has developed, today, the completion of a construction is possible as a result of very long and tiring work. In the construction sector, long hours are spent to build durable buildings and closed areas. The amount of material used is as much as the time spent. There is a great need for labor and construction equipment, and it is a necessity to increase this power in order for the buildings planned to be constructed to be completed faster. In addition, the frequency of natural disasters such as floods, fires and earthquakes that we encounter with changing climate and natural conditions is also increasing. During these disasters, emergency accommodation services must be provided to those in need. The fastest accommodation is provided by tents. However, tents are insufficient in cold winter periods and do not provide long-term accommodation and protection because they do not have insulation and durable material. The urgent need for accommodation in times of disaster cannot be solved by a long-term building construction initiative. For this, faster and more effective solutions are needed. While each hexagonal unit in the patent document numbered CN212271706U is designed as a house, each hexagonal structure of our current invention is designed as a room. In our current invention, modular rooms can be brought side by side and larger living spaces can be obtained for the same family over time according to the need. The mentioned combination can continue up to infinite modules. As a result, the need for rooms that are long-lasting and durable and can be easily installed anywhere, structures that can be easily combined and turned into houses by increasing the number of rooms according to the purpose of use or that can be used in areas such as social use areas, marketplaces by removing the walls in between by combining more rooms, and most importantly, fast and durable rooms in times of disaster, has led to the emergence of the solution in question. Purpose and Brief Explanation of the Invention The purpose of the invention is to create a modular house system that is formed from a special steel construction structure, can be driven into the place where the room will be installed with the foundation screws in its structure without the need for concrete pouring anywhere or leveling, and can provide smoothness in the floor structure of the house by staying at a certain height from the ground, has surfaces that can be easily constructed and dismantled thanks to being like prefabricated structures, is insulated, has ready-made electrical installation, has a special roof structure and a special floor structure, can be established as a room and since it is modular, multiple rooms can be created by adding as many new module rooms as desired when necessary, can easily become a house by combining these rooms, has a hexagonal appearance and is formed by combining the said rooms. Each room module consists of 6 corners and half surfaces can be attached to these modules as desired and thus they become closed. While the side surfaces can be a flat surface (like a complete wall) as desired, they can also be a windowed surface. A door surface can also be added in the desired direction. These surfaces can be easily attached and removed. In this way, it is possible to change, increase or decrease the location of the door and claws according to the needs felt later. These modulars, which are installed room by room, can become a normal house when desired by bringing two or more rooms together. The walls remaining at the junction points can be easily removed, thus saving on material. Thanks to its expandable module structure, it can serve in every area according to the place of use and need. When desired, as many modules as a covered market can be combined and the surfaces between them can be removed and a large covered market or workplace can be built. Again, when necessary, in times of emergency in natural disasters, rooms can be combined and brought to a ward arrangement in order to create a fast and more efficient accommodation area and thus a safer and more effective accommodation opportunity can be provided. In the modular rooms created, during the installation, a safe electrical system and heat and sound insulation are also provided efficiently and appropriately. There is an adjustable skeleton system in the roof structure of the modular rooms created and this system is designed according to the climate conditions of each region according to the snow load and delivered to the relevant buyer. The invention is a modular house system consisting of at least one room and in order to ensure that the said rooms can be easily disassembled and assembled and used integrated with each other; the room in question has a steel construction in the form of a hexagon. The said steel construction includes; ground frame, roof and bearing columns located in the corner areas of the hexagonal steel construction to provide the connection of the said ground frame and the roof. The preferred configuration of the modular house system in question includes foundation screws used to provide the connection of the said steel construction to the ground in order to eliminate the need for concrete pouring or ground leveling. The said foundation screws are thick and their lengths vary between 1-2 meters. In the preferred configuration of the invention, there are 7 foundation screws used for each room and 6 of them are located under the said bearing columns while 1 of them is located in the middle of the ground frame to provide balance. Each of the said bearing columns includes a channel structure for easy installation of the electrical installation. In the preferred configuration of the invention, in order to prevent the construction from being adversely affected by the snow load; the angle of the roof is adjustable according to the snow load that may be caused by the geographical conditions of the region where the modular house system will be installed. In order to provide this, it includes a pipe structure that is made up of interlocking and compressible parts that form the center of the roof, thus allowing the height of the roof and therefore the slope angle to be adjusted according to the need. In order to be resistant to disasters such as earthquakes and to dampen the vibration coming from the road, the preferred configuration of the invention includes rubber or hard plastic material positioned at the points where the foundation screws and the ground skeleton meet. The walls of the rooms consist of modular surfaces and these surfaces are different such as windowed surface, door surface or flat surface and can be disassembled and assembled on the steel construction. In the preferred configuration of the invention, in order to provide wall insulation; at least two surfaces forming the walls are designed to be parallel to each other, side by side or on top of each other with insulation material in between. In order to provide insulation on the floor skeleton consisting of steel construction; a preferred embodiment of the invention includes a composite floor surface obtained by placing first insulated and durable EPS material on the said floor skeleton, then double-sided adhesive membrane on the EPS material and optional laminate, wood etc. materials on the said membrane. Brief Explanation of the Figures Figure 1 shows a perspective view showing the basic steel construction of the modular house system in detail. Figure 2 shows the surfaces of the modular house system and an exploded perspective view of the steel construction. Figure 3a shows a perspective view where two room modules of the modular house system are combined. Figure 3b shows a sectional view where two room modules of the modular house system are combined. Figure 4a shows a perspective view of the rainwater collection channel where three room modules of the modular house system are combined. Figures 4b shows a sectional view where three room modules of the modular house system are combined. Figures 5b, 50 and 50 show perspective, section and front views of an example use as a ward or marketplace formed by combining more modular rooms of the modular house system, respectively. Figure B shows a perspective view where a transition module of the modular house system is used. References 1. Room (cabin) 2. Transition module . Foundation 11. Foundation screw 11 .1 Head 12. Corner panel 13. Rubber . Steel construction (body) 21. Bottom edge panel 22. Floor skeleton 23. Carrier column (pillar) 23.1 Outer cover 24. Channel. LED fixture 26. Electric switch 27. Socket. Roof .1 Roof construction 31. Pipe 32. Roof half arms 33. Roof support 34. Roof edge panel 40. Surfaces 41. Flat surface 42. Door surface 43. Windowed surface 44. Ground surface 50.1 Rainwater collection channel Detailed Description of the Invention More specifically, the present invention is a special roof (30) which is made up of a special steel construction (20), can be driven into the place where the room will be installed with the foundation screws (11) in its structure without the need for any concrete pouring or leveling, and can provide smoothness in the ground structure of the house by staying at a certain height from the ground, has surfaces (40) that can be easily constructed and dismantled thanks to being like prefabricated structures, is insulated, has ready-made electrical installation, It is related to a modular house system formed by combining the rooms (modules) and modular rooms (1) with a hexagonal appearance and a special floor surface (44) structure, which can be established as a room and added as many new module rooms as desired since it is modular, and which can easily become a house by combining these rooms. Each module is in the form of a structure with 6 corners. It can preferably have a total area of 18 1112 or a flat surface (41) or any combination of these. While installing the modular room/rooms (1), the surfaces (40) are selected as desired and the assembly process is carried out. The installation of these rooms is designed as a normal house room with doors and windows. The entire modular house system mentioned consists of parts that can be easily assembled and disassembled, and since it is modular, it can be developed and new areas can be created by adding parts. Thanks to its hexagonal form, it is easy to add a new module/room (1) from each side, and thus houses or areas of the desired size can be built. In an alternative configuration of the modular house system in question, since it is easy to combine and match two modular rooms, they can be integrated with each other from a desired side. The surface(s) (40) that are more than the connection surfaces (40) of these rooms (1) integrated from the side surface can be easily removed, and thus, the use of extra material is prevented. This removed surface (40) can be used as another different surface (40) in another module. In the same way, the combined surfaces (40) of two modules combined can be completely removed and a larger single area can emerge. The removal process of the surfaces (40) is designed in a way that it can be easily done by at least one person. In another alternative configuration of the present invention, three of the mentioned modules (rooms) can be brought together. It is easy to bring the three modules together and match them to each other. The excess surfaces (40) between the combined modules can be easily removed and savings can be made on the surface materials used. In modules that are like prefabricated structures, the desired surface (40) can be installed at the desired location, for example, as many windowed surfaces (43) and doored surfaces (42) can be installed as desired. In the solution of the present invention, the installation and removal of the surfaces (40) is quite easy. The reason for this is that in the steel construction (20) the walls consist of modular surfaces (40). Each wall consists of two surfaces (40) that are preferably positioned side by side or on top of each other parallel to each other and the surfaces are connected with the insulation material placed between the surfaces (40). The necessary heat and sound insulation is provided with the insulation material mentioned. In order to be resistant to cold thanks to the heat insulation, the wall consists of these specially structured surfaces (40) while the base insulation is provided with materials such as composite, eps, xps etc. The wall structure formed by the connection of the surfaces (40) is attached to the steel construction (20) with the connection parts located on the top and bottom of the steel construction (20) with a puzzle logic. In the same way, it can be easily removed when it is wanted to be dismantled. The mentioned insulation material filled surfaces (40) can be easily attached and removed to the lower side panels (21) and carrier columns (23). The modules (modular rooms/cabins) which are the subject of the present invention can be combined indefinitely. If desired, a market place can be provided by combining a large number of these combined modules, again, a modular structure in the style of a ward can be created with a certain number of modules and a fast and effective solution can be provided for accommodation which is urgently needed during natural disasters such as earthquakes, or it can be used as a house by bringing together as many modular rooms (1) as desired in a way that the living space can be increased later according to the changing needs of a family. Loss of time is prevented due to its fast and easy installation. In addition, it provides a long-lasting use opportunity thanks to the materials used. Thermal insulation is provided with the insulation materials (EPS, XPS, PP, PU etc.) used in modular house construction and rooms resistant to cold are constructed. At the same time, these insulation materials also provide sound insulation. In another embodiment of the present invention, a transition module (2) can be added between the combined modules. This transition module (2) is preferably square and is constructed by forming two wall surfaces (40), a floor surface (44) and a roof (30) structure and allows passage between modular rooms (1) and, if desired, transition areas such as toilets, laundry or kitchens can be created in these square modules. Thanks to this intermediate module, hexagonal modular structures can only be used as rooms (1), while intermediate modules can be separated for structures with wet floors (toilet, bathroom, etc.). Thanks to the intermediate modules, instead of placing two, three, four and more hexagonal modules next to each other, it is possible to provide intermediate space and to have a wider field of vision from the windows attached to the hexagonal modules. In another embodiment of the invention, there is a rainwater collection channel (50.1) extending down to the corners of the module rooms (1). In this way, there is a rainwater collection pipe (50) formed by the combination of the rainwater collection channels (50.1) mentioned in the middle of each three modular rooms (1) brought together as in Figure 4a. Thus, the rainwater falling is sent towards the rainwater collection pipe (50) located in the middle thanks to the direction of the slope of the roofs (30). The structure of the modular room (1) in question is established on the steel construction (20). The steel construction (20) is driven into the ground with the foundation screw (11) or fixed to the ground with the auger method. These foundation screws (11) mentioned are thick screws varying between 1-2 meters. These foundation screws (11) are driven into the ground with their own special machine or are screwed and attached. There are preferably 7 foundation screws (11) to be driven for each room (1). 6 of them are located under the supporting columns (23) while 1 is located in the middle of the floor frame (22) and provides balance. The length and size of the screws are determined according to the ground condition with the ground survey. Without the need for concrete pouring or ground leveling, rooms (1) can be designed to remain above the ground thanks to the foundation screws (11). Thanks to the fact that these foundation screws (11) are above the ground, the flatness of the modular floor frame (22) can be ensured without the need for ground leveling. In a preferred embodiment of the invention, a head (flange) (1 1.1) is placed on the foundation screws (1 1 ) and a rubber (13) or hard plastic material, preferably 5 cm thick, is placed on this head (11.1). This rubber (13) material provides flexibility to the structure and acts as a shock absorber in case of an earthquake. Thus, the earthquake resistance is increased thanks to the rubber (13). It also provides insulation. In the steel construction (20) construction, the corner panels (12) and the carrier columns (23) are attached to each other in an interlocking manner and stand upright. In the ground skeleton (22) construction of the invention, a sheet made of solid steel is mounted underneath the ground skeleton (22) and covered. In the middle, the hub part is assembled, then the steel sheet pieces prepared between the hub and the corner are added to strengthen the floor frame (22) and form the floor frame (22). In the preferred configuration of the invention, there are 6 corners and these corners are connected to each other by the carrier column (23) and a flange. In the mentioned corners, when the carrier columns (23) are combined with the roof construction (30.1), the steel construction (20) is completed. In the preferred configuration of the invention, a fuse system is installed connected to the corner carrier iron from the left side of the main door for the electrical installation. The interiors of these carrier columns (23) are empty and thanks to this empty channel (24), cables for the electrical installation can be passed very easily from above. There is also a space in the ceiling section for the cables to go around the entire room. In each carrier column channel (24), there is preferably a socket (27) at the bottom, a light on/off switch (26) in the middle and an LED fixture (25) and cables for lighting at the top. The electrical installation and insulation are done as mentioned and the outer cover (23.1) is closed. All electrical installations remain hidden in these channels (24). The cables used for all electrical installations pass through these channels (24) and do not create a security gap, and thus the modular house (1) can be installed with the electrical installation ready. Thus, unlike other structures, walls, columns etc. do not have to be broken for the electrical installation. In another embodiment of the invention, after the floor frame (22) is formed from sheet metal for the floor surface (44), composite materials are used inside. These materials are made of strong materials. The material to be placed at the bottom is CTP and similar composite material and its strength is quite high. The material to be placed on it is preferably EPS and provides insulation. The floor surface (44) materials used are resistant to load bearing. This EPS material is covered on the floor surface (44) and membranes are used on the EPS material to strengthen the insulation of the floor surface (44). These membranes have double-sided adhesion properties and adhere both to the EPS and to the material to be placed on it. Since the membranes adhere easily, they offer a fast and useful use. The desired material such as wood, carpet and laminate is placed on these mentioned membranes and the ground surface (44) is completed as a composite. In another embodiment of the invention, the side surfaces (40) are used to form a wall while the ground surfaces (44) form the base. The wall surfaces (40) are determined as desired. The wall consists of two parts and there is insulation material between these two surfaces (40). The combined surfaces (40) are fixed to the steel construction (20) by attaching metal pieces from the upper and lower corners. The surfaces (40) can be selected as a door surface (42) or a windowed surface (43) and can be installed in this way. In another embodiment of the invention, if one of the modular rooms (1) in the sanitary installation is desired to be designed as a toilet and bathroom, a hole can be cut in the desired dimensions from the composite material used and an exit can be provided from the bottom. Complete separation from the house can be easily solved thanks to its structure designed above the ground. In another embodiment of the invention, the roof (30) consists of an umbrella-like system. The roof (30) structure consists of parts that can be interlocked and compressed. Therefore, the height and therefore the slope angle of the roof (30) can be adjusted by tightening and loosening. This angle adjustment in question varies according to the city where the modular house system is planned to be established and the geographical features of the city. In a city that receives a lot of snowfall, the roof (30) pipe (31) is kept long to increase the angle and reduce the snow load, while in cities where snowfall is more normal or less, the angle is narrowed by keeping the mentioned pipe (31) short. This pipe (31) is an interlocking, extendable pipe (31). The side arms of the roof (32) are specially designed and assembled according to the snow load. The side arms of the roof (32) are fixed on the carrier columns (23). There are roof supports (33) on the inside of the roof (30). The material covered on the roof (30) is insulation material and the roof installation is completed after it is dressed on the roof (30) and the roof (30) parts are matched.TR TR TR TR TR TR TR

Claims (1)

1.CLAIMS It is a modular house system consisting of at least one room (1), and it is characterized in that; in order to ensure that said rooms (1) can be easily disassembled and assembled and used integrated with each other; said room (1) has a hexagonal steel construction (20). It is a modular house system according to claim 1, and it is characterized in that; said steel construction (20); includes ground skeleton (22), roof (30) and load-bearing columns (23) located in the corner areas of the hexagonal steel construction (20) in order to provide the connection of said ground skeleton (22) and roof (30). It is a modular house system according to claim 1 or 2, and it is characterized in that; in order to eliminate the need for concreting or ground leveling; It is characterized by containing foundation screws (11) used in connecting the said steel construction (20) to the ground. It is a modular house system according to claim 3, characterized by; It is characterized by; The said foundation screws (11) are thick and their lengths vary between 1-2 meters. It is a modular house system according to claim 3 or 4, characterized by; It is characterized by; There are 7 foundation screws (11) and 6 of them are under the said carrier columns (23) while 1 of them is in the middle of the ground skeleton (22) in order to ensure balance. It is a modular house system according to any of claims 2-5, characterized by; Each of the said carrier columns (23) is characterized by containing a channel (24) structure for easy installation of the electrical installation. It is a modular house system according to any one of claims 2-6, and it is characterized by; in order to prevent it from being adversely affected by the snow load; the angle of the roof (30) is adjustable according to the snow load that may be caused by the geographical conditions of the region where the modular house system will be installed. It is a modular house system according to claim 8, and it is characterized by; in order to include a pipe (31) structure that forms the center of the roof (30), consists of interlocking and compressible parts, thus allowing the height and therefore the slope angle of the roof (30) to be adjusted according to the required need, It is a modular house system according to any one of claims 3-8, and it is characterized by; in order to be resistant to disasters such as earthquakes and to absorb the vibration coming from the road, it is characterized by containing rubber (13) or hard plastic material positioned at the points where the foundation screws (11) and the ground skeleton (22) meet. It is a modular house system according to any of the previous claims, and it is characterized in that the walls of the rooms (1) consist of modular surfaces (40) and these surfaces (40) are different such as windowed surface (43), door surface (42) or flat surface (41) and can be disassembled and assembled on the steel construction (20). It is a modular house system according to claim 1, and it is characterized in that at least two surfaces (40) forming the walls are designed to be parallel to each other, side by side or on top of each other with insulation material in between, in order to provide wall insulation. It is a modular house system according to any of the claims 2-11, and it is characterized in that in order to provide insulation on the floor skeleton (22) consisting of steel construction; It is characterized by the fact that it contains a composite floor surface (44) obtained by placing first an insulated and durable EPS material on the said floor frame (22), then a double-sided adhesive membrane on the EPS material and optionally laminate, wood, etc. materials on the said membrane. TR TR TR TR TR TR TR