US20200102737A1 - Recyclable builidng block and building system used for constructing building - Google Patents
Recyclable builidng block and building system used for constructing building Download PDFInfo
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- US20200102737A1 US20200102737A1 US16/699,709 US201916699709A US2020102737A1 US 20200102737 A1 US20200102737 A1 US 20200102737A1 US 201916699709 A US201916699709 A US 201916699709A US 2020102737 A1 US2020102737 A1 US 2020102737A1
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- building
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Images
Classifications
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- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2/04—Walls having neither cavities between, nor in, the solid elements
- E04B2/06—Walls having neither cavities between, nor in, the solid elements using elements having specially-designed means for stabilising the position
- E04B2/08—Walls having neither cavities between, nor in, the solid elements using elements having specially-designed means for stabilising the position by interlocking of projections or inserts with indentations, e.g. of tongues, grooves, dovetails
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B15/00—General arrangement or layout of plant ; Industrial outlines or plant installations
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- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2/04—Walls having neither cavities between, nor in, the solid elements
- E04B2/06—Walls having neither cavities between, nor in, the solid elements using elements having specially-designed means for stabilising the position
- E04B2/10—Walls having neither cavities between, nor in, the solid elements using elements having specially-designed means for stabilising the position by filling material with or without reinforcements in small channels in, or in grooves between, the elements
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- E04B—GENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2/14—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element
- E04B2/16—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element using elements having specially-designed means for stabilising the position
- E04B2/18—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element using elements having specially-designed means for stabilising the position by interlocking of projections or inserts with indentations, e.g. of tongues, grooves, dovetails
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- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2/14—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element
- E04B2/16—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element using elements having specially-designed means for stabilising the position
- E04B2/20—Walls having cavities in, but not between, the elements, i.e. each cavity being enclosed by at least four sides forming part of one single element using elements having specially-designed means for stabilising the position by filling material with or without reinforcements in small channels in, or in grooves between, the elements
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- E04C1/00—Building elements of block or other shape for the construction of parts of buildings
- E04C1/39—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra
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- E04C1/397—Building elements of block or other shape for the construction of parts of buildings characterised by special adaptations, e.g. serving for locating conduits, for forming soffits, cornices, or shelves, for fixing wall-plates or door-frames, for claustra serving for locating conduits
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- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
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- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2002/0202—Details of connections
- E04B2002/0243—Separate connectors or inserts, e.g. pegs, pins or keys
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- E04B2/00—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
- E04B2/02—Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls built-up from layers of building elements
- E04B2002/0256—Special features of building elements
- E04B2002/0263—Building elements for making angled walls
Definitions
- the present disclosure relates to building material, and more particularly to a recyclable building system used for constructing a building.
- a solid waste involved in the present disclosure includes: industrial solid wastes, domestic wastes, construction wastes, urban sludge, and crop straw wastes.
- the industrial wastes include, but not limited to, a waste slag, a slag and corner wastes of industrial products.
- the domestic wastes include, but not limited to, waste papers, waste furniture, used plastic, packaging materials and surplus deteriorating foods, which are produced in daily life.
- the construction wastes include, but not limited to, cement blocks, bricks and decoration materials produced while old buildings are demolished.
- the urban sludge includes, but not limited to, sludge produced by sewage treatment, sludge excavated in urban underground projects, and sludge deposited in urban sewage all year round.
- the crop straw wastes include, but not limited to, rice straw, wheat straw, corn stalk, sorghum stalk, cotton straw, peanut straw, sesame straw, and rape straw.
- rice straw wheat straw
- corn stalk corn stalk
- sorghum stalk cotton straw
- peanut straw sesame straw
- rape straw rape straw
- FIG. 1 illustrates an upper isometric view of a building block of a building system according to a first embodiment of the present disclosure, wherein the building block is designed as a normal block.
- FIG. 2 illustrates a lower isometric view of the building block shown in FIG. 1 .
- FIG. 3-4 illustrate isometric views of another building block of the building system according to the first embodiment of the present disclosure, wherein such building block is designed as a corner block.
- FIG. 5-6 illustrate isometric views of the other building block of the building system according to the first embodiment of the present disclosure, wherein such building block is designed as a connection block.
- FIG. 7 a -7 b illustrate isometric views of a building block of the building system according to a second embodiment of the present disclosure, wherein such building block is designed as the normal block.
- FIG. 8 a -8 b illustrate isometric views of another building block of the building system according to the second embodiment of the present disclosure, wherein such building block is designed as the corner block.
- FIG. 9 a -9 b illustrate isometric views of the other building block of the building system according to the second embodiment of the present disclosure, wherein such building block is designed as the corner block.
- FIG. 10 illustrates isometric view of a building block of the building system according to a third embodiment of the present disclosure, wherein such building block is designed as the normal block.
- FIG. 11 illustrates isometric view of another building block of the building system according to the third embodiment of the present disclosure, wherein such building block is designed as the corner block.
- FIG. 12 illustrates isometric view of the other building block of the building system according to the third embodiment of the present disclosure, wherein such building block is designed as the connection block.
- FIG. 13 illustrates dimensional relationships between the normal block, the corner block and the connection block of the building system according to the first embodiment of the preset disclosure.
- FIG. 14 shows the building blocks of the building system according to the first embodiment of the present disclosure interlocking with each other.
- FIG. 15 further shows two building blocks of the building system according to the first embodiment of the present disclosure interlocking with each other, and a horizontal through hole thus formed therebetween.
- FIG. 16 illustrates a perspective view of a building constructed using the building system.
- FIG. 17 shows a plurality of reinforcing elements inserted into the building wall while a plurality of similar building blocks interlocking with each other to form such building wall.
- FIG. 18 is a flow chart for producing the building block of the present disclosure.
- a building system 1 is used for constructing a building 900 .
- the building system 1 including a plurality of building blocks is mounted on a flat foundation 901 to construct the building 900 .
- the building system 1 includes a normal block 11 used at a normal position 904 while constructing the building 900 , a corner block 12 used at a corner position 903 while constructing the building 900 , and a connection block 13 used to fill the gaps 902 created while constructing the building 900 , such as one or two points of a termination.
- the normal block 11 , corner block 12 and the connection block 13 may interlock with each other to construct the building 900 .
- the normal block 11 is substantially cuboidal-shaped block structure for constructing the building 900 .
- the normal block 11 includes an inner face 110 , an outer face 111 opposite to the inner face 110 , an upper face 112 , a lower face 113 opposite to the upper face 112 , a first end 114 and a second end 115 opposite to the first end 114 .
- the inner face 110 and outer face 111 are substantially planar faces.
- the outer face 111 and inner face 110 may be a smooth face or a patterned face. At least one of the outer face 111 and the inner face 110 may be decorated as desired.
- the building block 11 may include a decorative face attached to at least one of the inner face 110 and the outer face 111 .
- the decorative face can be decorated with multiple colors or colored patterns by means of printing, molding, filming, engraving, pasting or hand-painting.
- the pattern may be flat or three-dimensional wood grain, stone grain, brick grain, skin grain.
- the pattern may be people, photos, geometry, logo and so on.
- the decorative face may be integrally formed with at least one of the outer face and inner face.
- the upper face 112 has a base face 1121 and a projection 1122 protruding upwards from the base face 1121 .
- the projection 1122 is disposed at a center of the upper face 112 and extending longitudinally for the entire length of the upper face 112 .
- the projection 1122 is generally trapezoidal shaped in cross sectional configuration. Specifically, the projection 1122 has a pair of guiding faces 1122 a opposite to each other and a top face 1122 b connected between the guiding faces 1122 a .
- Each of the guiding faces 1122 a extends inclined from the base face 1121 for preventing water from flowing into the building block, i.e.
- the guiding face 1122 a of the projection 1122 is connected with the base face 1121 of the upper face 112 at an angle ⁇ .
- the angle ⁇ may be greater than 90 degrees and smaller than 180 degrees.
- the lower face 113 is substantially complementary to the upper face 112 .
- the lower face 113 has a complementary groove 1131 for receiving the projection 1122 of a cooperating block when the blocks stacked upon each other to form an interlocking bond, wherein the cooperating block is similar to the normal block 11 .
- a depth d of the groove 1131 is greater than a height h of the projection 1122 in a vertical direction Z so that a horizontal through hole 14 is formed by the projection 1122 of one normal block 11 mating with the groove 1131 of the cooperating block when the blocks stacked upon each other, wherein the cooperating block is identical or similar to the normal block 11 .
- the horizontal through hole 14 may be used for receiving electrical wires, pipes or other utility.
- the normal block 11 further includes a plurality of first through holes 101 disposed in the projection 1122 and extending from the top face 1122 b of the projection 1122 to the lower face 113 of the building block 11 .
- the plurality of first through holes 101 are arranged spaced-apart with each other at an equal interval.
- the first through hole 101 may be cuboidal shaped, cylindrical-shaped, and the like. The design of a plurality of first through holes 101 facilitates in the formation of a first vertical channel, when a plurality of blocks, similar to normal block 11 , are stacked upon each other.
- the normal block 11 further includes a plurality of third through holes 102 disposed in the projection 1122 and extending from the top face 1122 b of the projection 1122 to the lower face 113 of the building block 11 for receiving electrical wires, pipes or other utility.
- the plurality of third through holes 102 are arranged spaced-apart with each other at an equal interval.
- Each third through hole 102 is located between two adjacent first through holes 101 .
- the third through hole 102 may be cuboidal shaped, cylindrical-shaped, and the like.
- a diameter of the third through hole 102 is smaller than that of the first through hole 101 .
- the diameter of the third through hole 102 may be equal to the first through hole 101 .
- the first end 114 has a tongue 1141 formed at a center thereof.
- the tongue 1141 protrudes outward at the first end 114 of the normal block 11 , i.e. protrudes in a direction away from the second end 115 .
- the tongue 1141 extends longitudinally for the entire length of the first end 114 .
- the entire length of the first end 114 is a length of the normal block 11 in a vertical direction Z.
- the second end 115 has a concave portion 1151 formed at a center thereof.
- the concave portion 1151 protrudes inward at the second end 115 , i.e. protrudes in a direction toward the first end 114 .
- the concave portion 1151 extends longitudinally for the entire length of the second end 115 .
- the entire length of the first end 115 is the length of the normal block 11 in the vertical direction Z.
- the configuration of the tongue 1141 and the concave portion 1151 is produced such that the tongue of one normal block can interlock with the concave portion of a cooperating block, wherein the cooperating block is identical or similar to the normal block 11 .
- the corner block 12 has a generally L-shaped outline when viewed from above in FIG. 4 .
- the corner block 12 includes an inner face 120 , an outer face 121 opposite to the inner face 120 , an upper face 122 , a lower face 123 opposite to the upper face 122 , a first end 124 and a second end 125 .
- the first end 124 is at right angles to the second end 125 .
- the structure of the corner block 12 is substantially similar to that of the normal block 11 .
- the upper face 122 also has the base face 1121 and the projection 1122 extending for the entire length of the upper face 122 of the corner block 12 .
- the lower face 123 also has the groove 1131 .
- the corner block 12 also has the first through holes 101 and the third through holes 102 formed in the projection 1122 and extending from the top face 1122 b of the projection 1122 to the lower face 123 of the corner block 12 .
- the first end 124 and the second end 125 both have the concave portions 1151 , i.e. the concave portions 1151 protrudes inward at the first and second ends 124 , 125 , respectively.
- the interlocking bond is formed.
- the tongue 1141 of the normal block 11 is mated with the concave portion 1151 of the corner block 12 , the interlocking bond is formed due to the complementary nature of the structure between the tongue and the concave portion 1151 .
- the corner block 12 further includes an avoiding space 129 formed at the corner thereof.
- the avoiding space 129 includes one or two recesses 1291 formed by means of removing the projection 1122 at the corner.
- the corner block 12 further includes a protruding portion 128 disposed in a center of the avoiding space 129 and protruding upwards from the base face 1121 of the upper face 112 of the corner block 12 .
- the avoiding space 129 is configured for receiving the lower face 123 of cooperating corner block 12 when the corner blocks 12 stacked upon each other, wherein the cooperation corner block 12 is identical to the corner block 12 .
- a second through holes 1281 is formed in the protruding portion 128 and extending from the protruding portion 128 to the lower face 123 of the corner block 12 .
- connection block 13 has one first through hole 101 , however, the normal block 11 has two first through holes 101 .
- the connection block 13 also has an inner face 130 , an outer face 131 opposite to the inner face 130 , an upper face 132 , a lower face 133 opposite to the upper face 132 , a first end 134 and a second end 135 opposite to the first end 134 .
- the upper face 132 also has the base face 1121 and the projection 1122 .
- the lower face 123 also has the groove 1131 .
- the connection block 13 also has the first through holes 101 and the third through holes 102 formed in the projection 1122 and extending from the top face 1122 b to the lower face 133 of the connection block 13 .
- the first end 134 is a planar face 1341
- the second end 135 is the concave portion 1151 , i.e. the concave portion 1151 protrudes inward at the second end 135 .
- the interlocking bond is formed.
- the tongue 1141 of the normal block 11 is mated with the concave portion 1151 of the connection block 13
- the interlocking bond is formed due to the complementary nature of the structure between the tongue and the concave portion.
- the one or more connection blocks 13 are used to fill small uneven gaps created at the one or more points of termination while constructing the building 900 .
- the building system 1 further includes a reinforcing element 15 inserted into the first vertical channel formed by the first through holes 101 aligned with each other while a plurality of similar blocks stacked upon each other so that a more secure interlocking interconnection is exhibited.
- the reinforcing element 15 may be tubular-shaped, and made by hollow metal, plastic or composite material. With such configuration, the reinforcing element 15 may be used as a water supply pipe, a gas supply pipe, a power cable pipe, a communication cable pipe, and so on.
- the reinforcing element 15 may be shaped to match the first through hole 101 , such as a reinforcing rod, which has a diameter smaller than that of the first through hole 101 by 1-2 mm.
- the reinforcing element 15 is detachable inserted into the vertical channel and can be removed when demolishing the building 900 .
- the blocks can also be removed with no damage from the building and can be historically reused repeatedly as a new product.
- a plurality of reinforcing elements is used for constructing the building wall. When the building wall is too high, at least two reinforcing elements 15 need to be connected together to be filled into the vertical channel.
- a connector 151 is used for connecting between at least two reinforcing elements 15 , furtherly, the connector 151 is detachably connected between the reinforcing elements 15 so that the reinforcing elements 15 can be detachable while demolishing such building.
- the connector 151 in different vertical channel are not aligned with each other and are staggered with each other to make the building more firmly.
- a waterproof glue, a fastening glue, a structural glue, a cement or other adhesive may be applied between each of the interlocking blocks 11 , 12 , 13 to enhance the strength of the wall of the building.
- the building system 1 further includes a plurality of sealing gaskets 16 , each of the sealing gaskets 16 is sandwiched between two interlocking blocks, each of the two blocks may be at least one of the corner block 12 , normal block 11 and the connection block 13 .
- the sealing gasket 16 is sandwiched between the blocks.
- the sealing gasket 16 is disposed on the base face 1121 of the upper face 112 , 122 , or 132 of the block and pressed by the lower face 113 , 123 or 133 of the block. With such configuration, the building wall may be waterproof, soundproof, and insulative.
- the differences between the first embodiment and the second embodiment are that the second through holes are omitted and a plurality of filling holes are formed in the normal block 21 , corner block 22 and connection block 23 .
- the normal block 21 further includes at least one filling hole 210 disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 112 to the lower face 213 of the normal block 21 for accommodating insulating material 211 .
- the filling hole 210 may be cuboidal shaped.
- the normal block 21 may include a plurality of filling holes 210 spaced apart each other at an equal interval and located at both sides of the projection 1122 . When the first through hole 101 is cuboidal shaped, the length of the filling hole 210 in the horizontal direction is greater than that of the first through hole 101 .
- the corner block 22 also has the filling holes 210 disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 222 to the lower face 223 of the corner block 22 for accommodating insulating material 211 .
- the corner block 22 may include a plurality of filling holes 210 spaced apart each other at an equal interval and located at both sides of the projection 1122 . When the first through hole 101 is cuboidal shaped, the length of the filling hole 210 in the horizontal direction is greater than that of the first through hole 101 .
- connection block 23 also has the filling holes 210 disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 232 to the lower face 233 of the connection block 23 for accommodating insulating material 211 .
- the connection block 23 may include a plurality of filling holes 210 spaced apart each other at an equal interval and located at both sides of the projection 1122 . When the first through hole 101 is cuboidal shaped, the length of the filling hole 210 in the horizontal direction is greater than that of the first through hole 101 .
- the difference between the first embodiment and the third embodiment is that the second through hole may be disposed at a different position.
- the plurality of third through holes 102 may be disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 312 to the lower face 313 of the normal block 31 .
- the plurality of third through holes 102 can be divided into two groups disposed at both sides of the projection 1122 , respectively. Each group has at least three adjacent third through holes 102 .
- the corner block 32 also has the plurality of third through holes 102 disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 322 to the lower face of the corner block 32 .
- the plurality of third through holes 102 can be divided into two groups disposed at both sides of the projection 1122 , respectively. Each group has at least three adjacent third through holes 102 .
- connection block 33 also has the plurality of third through holes 102 disposed at the side of the projection 1122 and extending from the base face 1121 of the upper face 332 to the lower face 113 of the connection block 33 .
- the plurality of third through holes 102 can be divided into two groups disposed at both sides of the projection 1122 , respectively. Each group has at least three adjacent third through holes 102 .
- the interlocking bond when a first block and a second block similar to the normal block 11 are mated adjacent to each other, the interlocking bond is formed.
- the interlocking bond is formed due to the complementary nature of the structure between the tongue and the concave portion.
- an interlocking bond is formed by means of the projection 1122 interlocking with the groove 1131 .
- Interlocking the plurality of blocks forms a network of horizontal and vertical channels with the first through holes 101 of the blocks aligned with each other in the vertical direction Z, and the horizontal through holes 14 of the blocks aligned with each other in the horizontal direction X,Y.
- FIG. 14 shows the dimensional relation between the normal block 11 , the corner block 12 , and the connection block 13 .
- a width of the normal block 11 is denoted by W
- a length of the normal block 11 is denoted by L.
- An outer length of the corner block 12 is denoted by Lco
- An inner length of the corner block 12 is denoted by Lci
- a length of the connection block 13 is denoted by Lcb, the dimension Lcb is equal to half of the length L of the normal block 11 , i.e.
- Lcb 1 ⁇ 2L;
- Wcb width of the normal block
- the dimension L and W of the normal block 11 can be varied depending on the actual requirement of users.
- the dimension L may be 500 mm, and the dimension W may be 150 mm, thus, the dimension Lcb is 250 mm, and the dimension Wcb is 150 mm;
- the dimension Lco is 650 mm, the dimension Wco is 400 mm, the dimension Lci is 500 mm, and the dimension Wci is 250 mm.
- this dimensional relation between the normal block, the corner block and the connection block can guarantee that each building block can be perfectly construct a building without any need to cut them. It should be understood that a dimension allowance is existed while assembling the blocks for constructing the building, the value of the dimension allowance may be ranged from ⁇ 30 mm to +30 mm, which is varied depending on the size of the gap between two adjacent blocks.
- FIG. 17 illustrates the building wall constructed using the normal block 11 , the connection block 13 and a plurality of reinforcing elements 15 .
- a plurality of normal blocks 11 are arranged horizontally side by side, and interlocking bonds are formed with the tongue interlocking with the concave portion of the normal blocks 11 .
- the normal blocks 11 may be offset by half of the length L of the normal block 11 relative to them at the first layer, and connection blocks 13 are filled to the termination ends.
- the connection blocks 13 and normal blocks 11 are mated adjacent to each other, interlocking bonds are formed with the tongue mating with the concave portion.
- Interlocking bonds formed between the blocks 11 , 13 at the first layer and the second layer are formed with the projections 1122 of the blocks 11 at first layer mating with the grooves 1131 of the blocks 11 , 13 at the second layer.
- the third layer can be constructed the same as that at the first layer
- the fourth layer can be constructed the same as that at the second layer.
- a method for producing the building block according to present disclosure is disclosed.
- the method is described as following: a solid waste J including, but not limited to, industrial solid wastes, domestic wastes, construction wastes, urban sludge, and crop straw wastes, are recovered. Then, putting the recovered solid wastes J into a crushing center A to be pulverized into particles of about 5 mm.
- a high-water waste K (such as domestic garbage, municipal sludge, etc) is sent to a high-temperature dehydration and elimination center B for high-temperature dehydration, sterilization, and deodorization. A large amount of high-temperature steam I thus obtained would be transported to the high-temperature steam kiln C.
- the pulverized solid waste L and the dehydrated waste are fed into a stirring center D together with a curing agent, a water repellent, a modifier, a flame retardant, and a binder in a certain ratio, and are thoroughly stirred and mixed.
- the mixed and stirred materials are sent to the product forming center E to make a building block billet.
- the billet is fed into the high temperature steam kiln C for high-temperature steaming, and the distilled water H thus produced is sent to the stirring center D for mixing and stirring.
- the billet is sent to a facing machining center F to be decorated according to the user's actual requirement and thus, a desired building block is produced.
- the billet will be sealed with composite materials to ensure the physical and chemical properties of the billet stable for a long time.
- the building block is sent to the user after being sent to the palletizing packaging center G.
- the product with defect is sent to the product forming center E for repair, and the scrap is sent to the crushing center A for crushing and reused. There is no waste water, waste gas, and waste residue produced throughout the entire manufacturing process.
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Abstract
A corner block and a building system used for constructing a building are disclosed in the present invention. The building system includes: an inner face, an outer face, an upper face having a base face and a projection protruding upward from the base face, wherein the projection extending longitudinally for the entire length of the upper face; a lower face having a complementary groove for interlocking with the projection of a cooperating interengaging building block; a first end; a second end; each of the first end and the second end has a header face, which is substantially one of a planar face, a male header face and a female header face, the male header face of the building block interlocking with the female header face of a cooperating interengaging building block; the cooperating interengaging building block is substantially similar to the building block.
Description
- This application is a continuation of U.S. Ser. No. 15/964,053, filed on Apr. 26, 2018, pending, and entitled “RECYCLABLE BUILIDNG BLOCK AND BUILDING SYSTEM USED FOR CONSTRUCTING BUILDING”, which is a continuation-in-part of International Application No. PCT/CN2017/000151, filed Feb. 10, 2017 designating the United States and claiming priority with respect to Chinese Patent Application No. 201610098785.X, filed Feb. 17, 2016, entitled “ENVIRONMENTALLY FRIENDLY BUILDING KIT”, the the disclosures of both foregoing applications being incorporated herein by reference.
- The present disclosure relates to building material, and more particularly to a recyclable building system used for constructing a building.
- Generally, a solid waste involved in the present disclosure includes: industrial solid wastes, domestic wastes, construction wastes, urban sludge, and crop straw wastes. The industrial wastes include, but not limited to, a waste slag, a slag and corner wastes of industrial products. The domestic wastes include, but not limited to, waste papers, waste furniture, used plastic, packaging materials and surplus deteriorating foods, which are produced in daily life. The construction wastes include, but not limited to, cement blocks, bricks and decoration materials produced while old buildings are demolished. The urban sludge includes, but not limited to, sludge produced by sewage treatment, sludge excavated in urban underground projects, and sludge deposited in urban sewage all year round. The crop straw wastes include, but not limited to, rice straw, wheat straw, corn stalk, sorghum stalk, cotton straw, peanut straw, sesame straw, and rape straw. At present, there are many methods to deal with these various types of wastes. However, with the continuous development of the society, the various types of wastes have not been handled well and become increasingly serious social problems and continue to cause harm to the human living environment.
- At the same time, various methods for constructing walls are using cement mortar to block bricks into walls, or after the frame structure is built, the wall plates are fixed to the frame structure. These methods must be implemented by professional staff using professional tools and equipment. And the built walls are all base blank walls without any decoration. After the wall is built, if it needs to be renovated and decorated, the building material used for building the wall cannot be used repeatedly for construction and demolition. As a result, a large amount of building materials is wasted, and the disassembled construction waste cannot be decomposed and become new solid wastes, causing environmental pollution.
- Therefore, a new recyclable building system needs to be provided.
- The above and/or additional objects, features and advantages of the present disclosure, will be further elucidated by the following illustrative and non-limiting detailed description of embodiment of the present disclosure, with reference to the appended drawings, wherein:
-
FIG. 1 illustrates an upper isometric view of a building block of a building system according to a first embodiment of the present disclosure, wherein the building block is designed as a normal block. -
FIG. 2 illustrates a lower isometric view of the building block shown inFIG. 1 . -
FIG. 3-4 illustrate isometric views of another building block of the building system according to the first embodiment of the present disclosure, wherein such building block is designed as a corner block. -
FIG. 5-6 illustrate isometric views of the other building block of the building system according to the first embodiment of the present disclosure, wherein such building block is designed as a connection block. -
FIG. 7a-7b illustrate isometric views of a building block of the building system according to a second embodiment of the present disclosure, wherein such building block is designed as the normal block. -
FIG. 8a-8b illustrate isometric views of another building block of the building system according to the second embodiment of the present disclosure, wherein such building block is designed as the corner block. -
FIG. 9a-9b illustrate isometric views of the other building block of the building system according to the second embodiment of the present disclosure, wherein such building block is designed as the corner block. -
FIG. 10 illustrates isometric view of a building block of the building system according to a third embodiment of the present disclosure, wherein such building block is designed as the normal block. -
FIG. 11 illustrates isometric view of another building block of the building system according to the third embodiment of the present disclosure, wherein such building block is designed as the corner block. -
FIG. 12 illustrates isometric view of the other building block of the building system according to the third embodiment of the present disclosure, wherein such building block is designed as the connection block. -
FIG. 13 illustrates dimensional relationships between the normal block, the corner block and the connection block of the building system according to the first embodiment of the preset disclosure. -
FIG. 14 shows the building blocks of the building system according to the first embodiment of the present disclosure interlocking with each other. -
FIG. 15 further shows two building blocks of the building system according to the first embodiment of the present disclosure interlocking with each other, and a horizontal through hole thus formed therebetween. -
FIG. 16 illustrates a perspective view of a building constructed using the building system. -
FIG. 17 shows a plurality of reinforcing elements inserted into the building wall while a plurality of similar building blocks interlocking with each other to form such building wall. -
FIG. 18 is a flow chart for producing the building block of the present disclosure. - The present invention will be further illustrated below with reference to the attached drawings and the embodiments. The description in more detail aims to help to understand the present invention, instead of limiting the present invention. According to the contents disclosed by the present invention, those skilled in the art shall understand that the present invention can be implemented even without some or all of these specific details. Under other circumstances, to avoid weakening the inventiveness of the present invention, the well-known methods, structures and the like will not be described in detail.
- Certain terminology is used in the following description for convenience only and is not intended to be limiting. For purposes of this description, the terms “vertical” and “horizontal” are merely illustrative of relative space positions of the various components in the drawings. In actual practice, it is apparent that the components can be aligned in either orientation. Moreover, the terms “upper”, “lower”, “upward”, “outward”, “inward”, “inner” and “outer” designate directions in the drawing to which reference is made. Such terminology includes the terms above specifically mentioned and words of similar import.
- As shown in
FIG. 1 throughFIG. 7 , as well asFIGS. 15-17 , abuilding system 1 according to a first embodiment of the present disclosure is used for constructing a building 900. Thebuilding system 1 including a plurality of building blocks is mounted on a flat foundation 901 to construct the building 900. Thebuilding system 1 includes anormal block 11 used at a normal position 904 while constructing the building 900, acorner block 12 used at a corner position 903 while constructing the building 900, and aconnection block 13 used to fill the gaps 902 created while constructing the building 900, such as one or two points of a termination. Thenormal block 11,corner block 12 and theconnection block 13 may interlock with each other to construct the building 900. - The
normal block 11 is substantially cuboidal-shaped block structure for constructing the building 900. Thenormal block 11 includes aninner face 110, anouter face 111 opposite to theinner face 110, anupper face 112, alower face 113 opposite to theupper face 112, afirst end 114 and asecond end 115 opposite to thefirst end 114. Theinner face 110 andouter face 111 are substantially planar faces. Theouter face 111 andinner face 110 may be a smooth face or a patterned face. At least one of theouter face 111 and theinner face 110 may be decorated as desired. Alternatively, thebuilding block 11 may include a decorative face attached to at least one of theinner face 110 and theouter face 111. The decorative face can be decorated with multiple colors or colored patterns by means of printing, molding, filming, engraving, pasting or hand-painting. The pattern may be flat or three-dimensional wood grain, stone grain, brick grain, skin grain. The pattern may be people, photos, geometry, logo and so on. Alternatively, the decorative face may be integrally formed with at least one of the outer face and inner face. - The
upper face 112 has abase face 1121 and aprojection 1122 protruding upwards from thebase face 1121. Theprojection 1122 is disposed at a center of theupper face 112 and extending longitudinally for the entire length of theupper face 112. Theprojection 1122 is generally trapezoidal shaped in cross sectional configuration. Specifically, theprojection 1122 has a pair of guiding faces 1122 a opposite to each other and atop face 1122 b connected between the guiding faces 1122 a. Each of the guiding faces 1122 a extends inclined from thebase face 1121 for preventing water from flowing into the building block, i.e. the guiding face 1122 a of theprojection 1122 is connected with thebase face 1121 of theupper face 112 at an angle β. The angle β may be greater than 90 degrees and smaller than 180 degrees. With the configuration of the guiding face 1122 a, the blocks stacked upon each other can be well positioned and guided to interlock with each other. - The
lower face 113 is substantially complementary to theupper face 112. Specifically, thelower face 113 has acomplementary groove 1131 for receiving theprojection 1122 of a cooperating block when the blocks stacked upon each other to form an interlocking bond, wherein the cooperating block is similar to thenormal block 11. In the present disclosure, a depth d of thegroove 1131 is greater than a height h of theprojection 1122 in a vertical direction Z so that a horizontal throughhole 14 is formed by theprojection 1122 of onenormal block 11 mating with thegroove 1131 of the cooperating block when the blocks stacked upon each other, wherein the cooperating block is identical or similar to thenormal block 11. The horizontal throughhole 14 may be used for receiving electrical wires, pipes or other utility. - The
normal block 11 further includes a plurality of first throughholes 101 disposed in theprojection 1122 and extending from thetop face 1122 b of theprojection 1122 to thelower face 113 of thebuilding block 11. The plurality of first throughholes 101 are arranged spaced-apart with each other at an equal interval. The first throughhole 101 may be cuboidal shaped, cylindrical-shaped, and the like. The design of a plurality of first throughholes 101 facilitates in the formation of a first vertical channel, when a plurality of blocks, similar tonormal block 11, are stacked upon each other. - The
normal block 11 further includes a plurality of third throughholes 102 disposed in theprojection 1122 and extending from thetop face 1122 b of theprojection 1122 to thelower face 113 of thebuilding block 11 for receiving electrical wires, pipes or other utility. The plurality of third throughholes 102 are arranged spaced-apart with each other at an equal interval. Each third throughhole 102 is located between two adjacent first throughholes 101. The third throughhole 102 may be cuboidal shaped, cylindrical-shaped, and the like. A diameter of the third throughhole 102 is smaller than that of the first throughhole 101. Alternatively, the diameter of the third throughhole 102 may be equal to the first throughhole 101. - The
first end 114 has a tongue 1141 formed at a center thereof. The tongue 1141 protrudes outward at thefirst end 114 of thenormal block 11, i.e. protrudes in a direction away from thesecond end 115. The tongue 1141 extends longitudinally for the entire length of thefirst end 114. The entire length of thefirst end 114 is a length of thenormal block 11 in a vertical direction Z. Thesecond end 115 has aconcave portion 1151 formed at a center thereof. Theconcave portion 1151 protrudes inward at thesecond end 115, i.e. protrudes in a direction toward thefirst end 114. Theconcave portion 1151 extends longitudinally for the entire length of thesecond end 115. The entire length of thefirst end 115 is the length of thenormal block 11 in the vertical direction Z. The configuration of the tongue 1141 and theconcave portion 1151 is produced such that the tongue of one normal block can interlock with the concave portion of a cooperating block, wherein the cooperating block is identical or similar to thenormal block 11. - The
corner block 12 has a generally L-shaped outline when viewed from above inFIG. 4 . Thecorner block 12 includes aninner face 120, anouter face 121 opposite to theinner face 120, anupper face 122, alower face 123 opposite to theupper face 122, afirst end 124 and asecond end 125. Thefirst end 124 is at right angles to thesecond end 125. The structure of thecorner block 12 is substantially similar to that of thenormal block 11. Theupper face 122 also has thebase face 1121 and theprojection 1122 extending for the entire length of theupper face 122 of thecorner block 12. Thelower face 123 also has thegroove 1131. Thecorner block 12 also has the first throughholes 101 and the third throughholes 102 formed in theprojection 1122 and extending from thetop face 1122 b of theprojection 1122 to thelower face 123 of thecorner block 12. - The
first end 124 and thesecond end 125 both have theconcave portions 1151, i.e. theconcave portions 1151 protrudes inward at the first and second ends 124, 125, respectively. When anormal block 11 and acorner block 12 are mated adjacent to each other, the interlocking bond is formed. Precisely, when the tongue 1141 of thenormal block 11 is mated with theconcave portion 1151 of thecorner block 12, the interlocking bond is formed due to the complementary nature of the structure between the tongue and theconcave portion 1151. - The
corner block 12 further includes an avoidingspace 129 formed at the corner thereof. The avoidingspace 129 includes one or tworecesses 1291 formed by means of removing theprojection 1122 at the corner. Thecorner block 12 further includes a protrudingportion 128 disposed in a center of the avoidingspace 129 and protruding upwards from thebase face 1121 of theupper face 112 of thecorner block 12. The avoidingspace 129 is configured for receiving thelower face 123 of cooperatingcorner block 12 when the corner blocks 12 stacked upon each other, wherein thecooperation corner block 12 is identical to thecorner block 12. A second throughholes 1281 is formed in the protrudingportion 128 and extending from the protrudingportion 128 to thelower face 123 of thecorner block 12. - As shown in
FIG. 6-7 , theconnection block 13 has one first throughhole 101, however, thenormal block 11 has two first throughholes 101. Theconnection block 13 also has aninner face 130, anouter face 131 opposite to theinner face 130, anupper face 132, alower face 133 opposite to theupper face 132, afirst end 134 and asecond end 135 opposite to thefirst end 134. Theupper face 132 also has thebase face 1121 and theprojection 1122. Thelower face 123 also has thegroove 1131. Theconnection block 13 also has the first throughholes 101 and the third throughholes 102 formed in theprojection 1122 and extending from thetop face 1122 b to thelower face 133 of theconnection block 13. - The
first end 134 is aplanar face 1341, and thesecond end 135 is theconcave portion 1151, i.e. theconcave portion 1151 protrudes inward at thesecond end 135. When anormal block 11 and aconnection block 13 are mated adjacent to each other, the interlocking bond is formed. Precisely, when the tongue 1141 of thenormal block 11 is mated with theconcave portion 1151 of theconnection block 13, the interlocking bond is formed due to the complementary nature of the structure between the tongue and the concave portion. The one or more connection blocks 13 are used to fill small uneven gaps created at the one or more points of termination while constructing the building 900. - The
building system 1 further includes a reinforcingelement 15 inserted into the first vertical channel formed by the first throughholes 101 aligned with each other while a plurality of similar blocks stacked upon each other so that a more secure interlocking interconnection is exhibited. The reinforcingelement 15 may be tubular-shaped, and made by hollow metal, plastic or composite material. With such configuration, the reinforcingelement 15 may be used as a water supply pipe, a gas supply pipe, a power cable pipe, a communication cable pipe, and so on. The reinforcingelement 15 may be shaped to match the first throughhole 101, such as a reinforcing rod, which has a diameter smaller than that of the first throughhole 101 by 1-2 mm. The reinforcingelement 15 is detachable inserted into the vertical channel and can be removed when demolishing the building 900. Thus, the blocks can also be removed with no damage from the building and can be historically reused repeatedly as a new product. As shown inFIG. 17 , a plurality of reinforcing elements is used for constructing the building wall. When the building wall is too high, at least two reinforcingelements 15 need to be connected together to be filled into the vertical channel. Aconnector 151 is used for connecting between at least two reinforcingelements 15, furtherly, theconnector 151 is detachably connected between the reinforcingelements 15 so that the reinforcingelements 15 can be detachable while demolishing such building. Theconnector 151 in different vertical channel are not aligned with each other and are staggered with each other to make the building more firmly. - Preferably, a waterproof glue, a fastening glue, a structural glue, a cement or other adhesive may be applied between each of the interlocking blocks 11, 12, 13 to enhance the strength of the wall of the building.
- The
building system 1 further includes a plurality of sealinggaskets 16, each of the sealinggaskets 16 is sandwiched between two interlocking blocks, each of the two blocks may be at least one of thecorner block 12,normal block 11 and theconnection block 13. When the block is stacked upon the cooperating block for constructing the building wall, the sealinggasket 16 is sandwiched between the blocks. The sealinggasket 16 is disposed on thebase face 1121 of theupper face lower face - Alternatively, referring to
FIGS. 8a-10b , according to a second embodiment of present disclosure, the differences between the first embodiment and the second embodiment are that the second through holes are omitted and a plurality of filling holes are formed in thenormal block 21,corner block 22 andconnection block 23. Specifically, thenormal block 21 further includes at least one fillinghole 210 disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 112 to thelower face 213 of thenormal block 21 for accommodating insulatingmaterial 211. The fillinghole 210 may be cuboidal shaped. Thenormal block 21 may include a plurality of fillingholes 210 spaced apart each other at an equal interval and located at both sides of theprojection 1122. When the first throughhole 101 is cuboidal shaped, the length of the fillinghole 210 in the horizontal direction is greater than that of the first throughhole 101. - Similarly, the
corner block 22 also has the fillingholes 210 disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 222 to thelower face 223 of thecorner block 22 for accommodating insulatingmaterial 211. Thecorner block 22 may include a plurality of fillingholes 210 spaced apart each other at an equal interval and located at both sides of theprojection 1122. When the first throughhole 101 is cuboidal shaped, the length of the fillinghole 210 in the horizontal direction is greater than that of the first throughhole 101. - Similarly, the
connection block 23 also has the fillingholes 210 disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 232 to thelower face 233 of theconnection block 23 for accommodating insulatingmaterial 211. Theconnection block 23 may include a plurality of fillingholes 210 spaced apart each other at an equal interval and located at both sides of theprojection 1122. When the first throughhole 101 is cuboidal shaped, the length of the fillinghole 210 in the horizontal direction is greater than that of the first throughhole 101. - Alternatively, as shown in
FIGS. 11-13 , according to a third embodiment of the present disclosure, the difference between the first embodiment and the third embodiment is that the second through hole may be disposed at a different position. The plurality of third throughholes 102 may be disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 312 to the lower face 313 of thenormal block 31. The plurality of third throughholes 102 can be divided into two groups disposed at both sides of theprojection 1122, respectively. Each group has at least three adjacent third throughholes 102. - Similarly, the
corner block 32 also has the plurality of third throughholes 102 disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 322 to the lower face of thecorner block 32. The plurality of third throughholes 102 can be divided into two groups disposed at both sides of theprojection 1122, respectively. Each group has at least three adjacent third throughholes 102. - Similarly, the
connection block 33 also has the plurality of third throughholes 102 disposed at the side of theprojection 1122 and extending from thebase face 1121 of theupper face 332 to thelower face 113 of theconnection block 33. The plurality of third throughholes 102 can be divided into two groups disposed at both sides of theprojection 1122, respectively. Each group has at least three adjacent third throughholes 102. - According to various embodiments of the present invention, when a first block and a second block similar to the
normal block 11 are mated adjacent to each other, the interlocking bond is formed. Precisely, when the tongue of the normal block is mated with the concave portion of the second block, the interlocking bond is formed due to the complementary nature of the structure between the tongue and the concave portion. When the first block is stacked upon a second block, each of the first block and second block is at least one of the normal block, corner block and connection block, an interlocking bond is formed by means of theprojection 1122 interlocking with thegroove 1131. Interlocking the plurality of blocks forms a network of horizontal and vertical channels with the first throughholes 101 of the blocks aligned with each other in the vertical direction Z, and the horizontal throughholes 14 of the blocks aligned with each other in the horizontal direction X,Y. -
FIG. 14 shows the dimensional relation between thenormal block 11, thecorner block 12, and theconnection block 13. A width of thenormal block 11 is denoted by W, and a length of thenormal block 11 is denoted by L. An outer length of thecorner block 12 is denoted by Lco, the dimension Lco is obtained by adding the length L of thenormal block 11 to the width W of thenormal block 11, i.e. Lco=L+W. An inner length of thecorner block 12 is denoted by Lci, the dimension Lci is equal to the length L of thenormal block 11, i.e. Lci=L. An outer width of thecorner block 12 is denoted by Wco, the dimension Wco is obtained by half of the length L of thenormal block 11 adding to the width W of the normal block, i.e. Wco=½L+W; An inner width of thecorner block 12 is denoted by Wci, the dimension Wci is equal to half of the length L of thenormal block 11, i.e. Wci=½L. A thickness of thecorner block 12 is denoted by Tc, the dimension Tc is equal to the width W of thenormal block 11, i.e. Tc=W. A length of theconnection block 13 is denoted by Lcb, the dimension Lcb is equal to half of the length L of thenormal block 11, i.e. Lcb=½L; A width of theconnection block 13 is denoted by Wcb, the dimension Wcb is equal to the width W of the normal block, i.e. Wcb=W. It should be understood that the dimension L and W of thenormal block 11 can be varied depending on the actual requirement of users. For instance, the dimension L may be 500 mm, and the dimension W may be 150 mm, thus, the dimension Lcb is 250 mm, and the dimension Wcb is 150 mm; the dimension Lco is 650 mm, the dimension Wco is 400 mm, the dimension Lci is 500 mm, and the dimension Wci is 250 mm. According to actual verification, this dimensional relation between the normal block, the corner block and the connection block can guarantee that each building block can be perfectly construct a building without any need to cut them. It should be understood that a dimension allowance is existed while assembling the blocks for constructing the building, the value of the dimension allowance may be ranged from −30 mm to +30 mm, which is varied depending on the size of the gap between two adjacent blocks. -
FIG. 17 illustrates the building wall constructed using thenormal block 11, theconnection block 13 and a plurality of reinforcingelements 15. When the building wall is constructed, at the first layer, a plurality ofnormal blocks 11 are arranged horizontally side by side, and interlocking bonds are formed with the tongue interlocking with the concave portion of the normal blocks 11. At the second layer, thenormal blocks 11 may be offset by half of the length L of thenormal block 11 relative to them at the first layer, and connection blocks 13 are filled to the termination ends. The connection blocks 13 andnormal blocks 11 are mated adjacent to each other, interlocking bonds are formed with the tongue mating with the concave portion. Interlocking bonds formed between theblocks projections 1122 of theblocks 11 at first layer mating with thegrooves 1131 of theblocks holes 101 at the first layer, the second layer and the third layer are aligned with each other to form a plurality of vertical channels for receiving the reinforcingelements 15. - Referring to
FIG. 18 , a method for producing the building block according to present disclosure is disclosed. The method is described as following: a solid waste J including, but not limited to, industrial solid wastes, domestic wastes, construction wastes, urban sludge, and crop straw wastes, are recovered. Then, putting the recovered solid wastes J into a crushing center A to be pulverized into particles of about 5 mm. A high-water waste K (such as domestic garbage, municipal sludge, etc) is sent to a high-temperature dehydration and elimination center B for high-temperature dehydration, sterilization, and deodorization. A large amount of high-temperature steam I thus obtained would be transported to the high-temperature steam kiln C. Then, the pulverized solid waste L and the dehydrated waste are fed into a stirring center D together with a curing agent, a water repellent, a modifier, a flame retardant, and a binder in a certain ratio, and are thoroughly stirred and mixed. The mixed and stirred materials are sent to the product forming center E to make a building block billet. The billet is fed into the high temperature steam kiln C for high-temperature steaming, and the distilled water H thus produced is sent to the stirring center D for mixing and stirring. After high-temperature steaming, the billet is sent to a facing machining center F to be decorated according to the user's actual requirement and thus, a desired building block is produced. If necessary, the billet will be sealed with composite materials to ensure the physical and chemical properties of the billet stable for a long time. Finally, the building block is sent to the user after being sent to the palletizing packaging center G. However, in the palletizing packaging center G, the product with defect is sent to the product forming center E for repair, and the scrap is sent to the crushing center A for crushing and reused. There is no waste water, waste gas, and waste residue produced throughout the entire manufacturing process. - In the foregoing specification, specific embodiments of the invention have been described. However, one of ordinary skill in the art appreciates that various modifications and changes can be made without departing from the scope of the invention as set forth in the claims below. Accordingly, the specification and figures are to be regarded in an illustrative rather than a restrictive sense, and all such modifications are intended to be included within the scope of the invention. The invention is defined solely by the appended claims including any amendments made during the pendency of this application and all equivalents of those claims as issued.
Claims (16)
1. A building system for constructing a building, comprising:
a first block used at a position of the building, comprising:
an upper face, having a base face and a projection protruding upward from the base face,
a lower face, having a complementary groove located at the lower face for interlocking with the projection of a cooperating interlocking block when each block is stacked upon another block;
a plurality of filling holes, each of the filling holes disposed in the base face and spaced from each other.
2. The building system according to claim 1 , wherein, each of the filling holes extending from the base face of the upper face to the lower face of the first block, penetrating the lower face and disposed at one side or both sides of the projection.
3. The building system according to claim 1 , wherein, the first block further comprises a plurality of first through holes formed in the projection and extending from a top face of the projection to the lower face.
4. The building system according to claim 1 further comprising a connection block used to fill a gap created when constructing the building, and a corner block used at a corner position of the building.
5. A building system for constructing a building, comprising:
a first block used at a position of the building,
a connection block used to fill a gap created when constructing the building; and
a corner block used at a corner position of the building; wherein,
each of the first block, connection block and corner block include:
an upper face, having a base face, and a projection protruding upward from the base face,
a lower face, having a complementary groove located at the lower face for interlocking with the projection of a cooperating interlocking block when each block is stacked upon another block;
a plurality of first through holes formed in the projection and extending from the top face of the projection to the lower face;
a plurality of reinforcing elements, each of the reinforcing elements insert into the first through hole;
a plurality of connectors, two adjacent reinforcing elements located at the first through hole are connected together by one of the connectors.
6. The building system according to claim 5 , wherein, dimensional relations between the first block, the corner block and the connection block are defined as following:
Lco=L+W;
Wco=½L+W;
Lci=L;
Wci=½L:
Lcb=½L;
Wcb=W;
Lco=L+W;
Wco=½L+W;
Lci=L;
Wci=½L:
Lcb=½L;
Wcb=W;
Wherein, L is a length of the first block;
W is a width of the first block;
Lco is an outer length of the corner block;
Wco is an outer width of the corner block;
Lci is an inner length of the corner block;
Wci is an inner width of the corner block;
Lcb is a length of the connection block;
Wcb is a width of the connection block.
7. The building system according to claim 5 , wherein, each of the first block, connection block and corner block further comprises a plurality of filling holes extending from the base face of the upper face to the lower face of each block, penetrating the lower face and disposed at one or both sides of the projection.
8. The building system according to claim 5 , further comprising a plurality of sealing gaskets, each of the sealing gaskets disposed on the base face of the upper face, sandwiched between two interlocking blocks which are stacked upon each other.
9. The building system according to claim 5 , wherein, the corner block comprising an avoiding space disposed in a corner thereof; the avoiding space of the corner block comprising one or two recesses formed on the projection at the corner for receiving the lower face of a cooperating corner block when corner blocks stacked upon each other.
10. The building system according to claim 5 , wherein, a height of the projection in a vertical direction is smaller than a depth of the groove in the vertical direction so that a horizontal through hole is formed by means of the projection of the block interlocking with the groove of the cooperating interengaging block.
11. A corner block, comprising:
an upper face having a base face, and a projection protruding upward from the base face;
a lower face opposite to the upper face, the lower face having a complementary groove located at the lower face for interlocking with the projection of a cooperating interengaging block when each block is stacked upon another block;
an avoiding space disposed in a corner of the corner block;
a protruding portion disposed in a center of the avoiding space and protruding upward.
12. The corner block according to claim 11 , further comprising a plurality of first through holes spaced with each other formed in the projection and extending from the top face of the projection to the lower face, and penetrating the lower face.
13. The corner block according to claim 11 , further comprising a plurality of filling holes extending from the base face of the upper face to the lower face of the corner block, penetrating the lower face.
14. The corner block according to claim 11 , wherein a height of the projection in a vertical direction is smaller than a depth of the groove in the vertical direction so that a horizontal through hole is formed by means of the projection of the corner block interlocking with the groove of the cooperating interengaging corner block.
15. The corner block according to claim 1 , wherein, the avoiding space of the corner block comprises one or two recesses formed on the projection at the corner for receiving the lower face of a cooperating corner block when corner blocks stacked upon each other.
16. The corner block according to claim 11 , further comprising a second through hole extending from the protruding portion to the lower face of the corner block.
Priority Applications (1)
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US16/699,709 US20200102737A1 (en) | 2016-02-17 | 2019-12-01 | Recyclable builidng block and building system used for constructing building |
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CN201610098785.XA CN105756262A (en) | 2016-02-17 | 2016-02-17 | Environment-friendly architectural structure kit |
US15/964,053 US10526783B2 (en) | 2016-02-17 | 2018-04-26 | Recyclable building block and building system used for constructing building |
US16/699,709 US20200102737A1 (en) | 2016-02-17 | 2019-12-01 | Recyclable builidng block and building system used for constructing building |
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US15/964,053 Continuation US10526783B2 (en) | 2016-02-17 | 2018-04-26 | Recyclable building block and building system used for constructing building |
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US16/699,709 Abandoned US20200102737A1 (en) | 2016-02-17 | 2019-12-01 | Recyclable builidng block and building system used for constructing building |
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US15/964,053 Active US10526783B2 (en) | 2016-02-17 | 2018-04-26 | Recyclable building block and building system used for constructing building |
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US (2) | US10526783B2 (en) |
JP (1) | JP6886977B2 (en) |
KR (1) | KR20180123669A (en) |
CN (1) | CN105756262A (en) |
AU (1) | AU2017220928B2 (en) |
MY (1) | MY192684A (en) |
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US20190301156A1 (en) * | 2018-03-27 | 2019-10-03 | Thermal Wall Technologies, Llc | Wall with pre-bent tubing |
FR3120883A1 (en) * | 2021-03-17 | 2022-09-23 | Eloge Franck David Koubemba | SEMI-EMBOITED BLOCK MANUALLY MADE |
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IT201600077424A1 (en) * | 2016-07-22 | 2018-01-22 | Domenico Asprone | REINFORCED CEMENTITIOUS STRUCTURE AND PROCESS OF IMPLEMENTATION OF THE SAME STRUCTURE THROUGH A 3D PRINTING PROCESS |
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US20190301156A1 (en) * | 2018-03-27 | 2019-10-03 | Thermal Wall Technologies, Llc | Wall with pre-bent tubing |
US11142908B2 (en) * | 2018-03-27 | 2021-10-12 | Thermal Wall Technologies, Llc | Wall with pre-bent tubing |
FR3120883A1 (en) * | 2021-03-17 | 2022-09-23 | Eloge Franck David Koubemba | SEMI-EMBOITED BLOCK MANUALLY MADE |
Also Published As
Publication number | Publication date |
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AU2017220928A1 (en) | 2018-08-16 |
KR20180123669A (en) | 2018-11-19 |
AU2017220928B2 (en) | 2021-08-19 |
JP6886977B2 (en) | 2021-06-16 |
US20180245339A1 (en) | 2018-08-30 |
SG11201806327VA (en) | 2018-09-27 |
MY192684A (en) | 2022-08-31 |
US10526783B2 (en) | 2020-01-07 |
WO2017140187A1 (en) | 2017-08-24 |
CN105756262A (en) | 2016-07-13 |
JP2019504221A (en) | 2019-02-14 |
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