RU2014139332A - UNIVERSAL HOUSING SYSTEM - Google Patents

Abstract

1. Frame H-shaped construction of a precast concrete building frame made of concrete with load-bearing reinforcement and containing at least two vertically oriented columns of rectangular cross section provided with connecting elements, and a crossbar connecting the columns and made in one piece with them, according to at least one console for fixing the beam on it and placed on the side of the column, free from the crossbar, while the connecting elements are located in the upper and lower parts of the column with the possibility of formation When docking a higher frame structure with a subordinate docking unit located at least in the corner zones of the columns in the joint area, the first group of connecting elements of each docking unit is located in the upper part of the column and includes a screw-threaded pin and fasteners made protruding beyond the upper end of the column, and connected with its supporting reinforcement, and the second group of connecting elements is located in the lower part of the column, forms the mating part of the docking unit and flax in the form of metal vertically oriented embedded plates rigidly connected to the supporting reinforcement of the column, and a metal plate with an opening rigidly connected to at least one embedded plate, and intended to pass through the aforementioned column pin of the lower frame structure with its subsequent fixation using fasteners, while at least one of the embedded plates is intended for anchoring in the body of the column, and at least two are restrictive, conductive disgrace function

Claims (98)

1. Frame H-shaped construction of a precast concrete building frame made of concrete with load-bearing reinforcement and containing at least two vertically oriented columns of rectangular cross section provided with connecting elements, and a crossbar connecting the columns and made in one piece with them, according to at least one console for fixing the beam on it and placed on the side of the column, free from the crossbar, while the connecting elements are located in the upper and lower parts of the column with the possibility of formation When docking a higher frame structure with a subordinate docking unit located at least in the corner zones of the columns in the joint area, the first group of connecting elements of each docking unit is located in the upper part of the column and includes a screw-threaded pin and fasteners made protruding beyond the upper end of the column, and connected with its supporting reinforcement, and the second group of connecting elements is located in the lower part of the column, forms the mating part of the docking unit and flax in the form of metal vertically oriented embedded plates rigidly connected to the supporting reinforcement of the column, and a metal plate with an opening rigidly connected to at least one embedded plate, and intended to pass through the aforementioned column pin of the lower frame structure with its subsequent fixation using fasteners, while at least one of the embedded plates is intended for anchoring in the body of the column, and at least two are restrictive, conductive shuttering function providing formation of a cavity in the corner zone of the column for connection node in the manufacture of the frame structure; the column is equipped with a recess for filling it with concrete mixture when monolithing the junction of the columns located on the upper end side, and a channel made in the body of the upper part of the column connected with the recess and facing the side face of the column. 2. The frame structure according to claim 1, characterized in that the console is made with holes for fixing the beam on it. 3. The frame structure according to claim 1, characterized in that the console is placed on the column with the lower faces of the console and the crossbar in the same plane. 4. The frame structure according to claim 1, characterized in that the cantilever has overall dimensions and is located on the column, ensuring that when the beam is placed on it, the upper faces of the beam and crossbar are located in the same plane. 5. The frame structure according to claim 1, characterized in that the pin protruding beyond the upper end of the column is made in the form of the release of the supporting reinforcement of the column. 6. The frame structure according to claim 1, characterized in that the first group of connecting elements of each docking unit includes a sleeve monolithic in the upper end part of the column, and a pin protruding beyond the upper end of the column is made in the form of an additional rod connected with supporting reinforcement columns by means of a coupling. 7. The frame structure according to claim 1, characterized in that the number of fastening elements of the pin is chosen equal to three. 8. The frame structure according to claim 7, characterized in that the fastening elements are made in the form of nuts, one of which is a support and is located on a pin with the ability to adjust the position of the superior column when the frame structures are joined, and the other two are located with the possibility of fixing the column pin in plate with a hole. 9. The frame structure according to claim 1, characterized in that the number of metal embedded plates intended for anchoring is chosen equal to two, while the plates are oriented vertically. 10. The frame structure according to claim 9, characterized in that the embedded plates intended for anchoring are made of a trapezoidal shape, are located at an angle to each other and are interconnected and with a vertically oriented rod of the supporting reinforcement of the column along the larger base of the trapezoid. 11. The frame structure according to claim 1, characterized in that at least one restriction plate is oriented horizontally and is made with a hole in which a vertically oriented rod of the supporting reinforcement of the column is fixed, and the remaining restrictive plates are oriented vertically. 12. The frame structure according to claim 11, characterized in that the restrictive plate oriented horizontally is made in the form of a quadrangle rigidly connected to the plate intended for anchoring. 13. The frame structure according to claim 11, characterized in that the number of restrictive plates is chosen equal to two, while the plate oriented vertically is made curved to form an L-shaped projection in the horizontal plane and rigidly connected to at least one plate for anchoring. 14. The frame structure according to claim 13, characterized in that the metal plate with the hole is fixed in the alignment of the curved plate. 15. The frame structure according to claim 1, characterized in that the number of connecting nodes of each column is equal to the number of vertically oriented rods of the supporting reinforcement of the column. 16. The frame structure according to claim 1, characterized in that it contains additional connecting elements forming at least two additional docking nodes when docking the higher frame structure with the lower one located in sections between the corner zones of the column, while the connecting elements are made similarly connecting elements of a docking unit located in the corner zone of the column. 17. The frame structure according to claim 16, characterized in that the number of restriction plates of the additional docking unit is chosen equal to two, while one of the plates is oriented vertically and made curved, forming a U-shaped projection in the horizontal plane. 18. The frame structure according to claim 1, characterized in that each column is provided with a steel corner to protect the ribs of the column from damage, located along the perimeter of the upper end of the column. 19. The frame structure according to claim 1, characterized in that the column is square in cross section. 20. The frame structure according to claim 19, characterized in that the column has a cross-sectional size of 400 × 400 mm or 460 × 460 mm with a permissible deviation from these values of up to 15%. 21. The frame structure according to claim 1, characterized in that the part of the column located below the crossbar is made with a width exceeding the width of the part of the column located above the crossbar. 22. The frame structure according to claim 21, characterized in that the part of the column located below the crossbar has a cross-sectional size of 400 × 800 mm, and above the crossbar - 400 × 400 mm, with a permissible deviation from these values of up to 15%. 23. The frame structure according to claim 1, characterized in that the crossbar has a width of at least half the depth of the column, but does not exceed the depth of the column. 24. The frame structure according to claim 1, characterized in that the console for the beam has a height less than the height of the crossbar. 25. The frame structure according to claim 1, characterized in that it contains additional consoles for accommodating external wall panels located on the columns. 26. The frame structure according to claim 25, characterized in that the upper faces of the additional console and the crossbar are located in the same plane. 27. The frame structure according to claim 25, characterized in that the cantilever for accommodating external wall panels has a width of 160 mm, a height of 450 mm, a depth of 190 mm, with a permissible deviation from these values of up to 15%. 28. The frame structure according to claim 25, characterized in that the number of additional consoles on each column is selected equal to one or two. 29. The frame structure according to claim 1, characterized in that the number of consoles for beams on each column is selected equal to one to three. 30. The frame structure according to claim 1, characterized in that the number of holes in the console for the beam is made equal to two. 31. The frame structure according to claim 1, characterized in that it is 3300 mm high with an allowable deviation of up to 15%, a length of 1800-6000 mm, and the crossbar is located at a height of 1600-2100 mm relative to the lower ends of the columns. 32. The frame structure according to claim 31, characterized in that the columns have a width of 800 mm, a depth of 460 mm, the crossbar has a height of 500 mm, a width of 300 mm, the console for the beam has a width of 300 mm, a height of 250 mm, a depth of 250 mm, s permissible deviation from the specified values up to 15%. 33. The frame structure according to claim 1, characterized in that it contains at least one L-shaped reinforcing bar monolithic in the concrete body of the column in the area of its joining with the beam, and at least one coupling monolithic in the column on the side of its lateral face and designed to fix the reinforcing bar in it for fixing the floor slab in the beam-column-floor slab junction, while the L-shaped reinforcing bar is connected at one end to the supporting reinforcement of the column and the other to the coupling. 34. The frame structure according to claim 1, characterized in that the anchoring plates are provided with at least one rod or additional plate intended to increase the fixation strength of the anchoring plates in the concrete body of the column. 35. The beam of the precast concrete frame of the building, made in the form of an elongated concrete body with a reinforcing frame, having two supporting parts made with the possibility of joining the beam with other protruding parts of the building frame, and the span located between the supporting parts, while the supporting parts of the beam are made with a height less than the height of the span and with the location of their upper faces in the same plane with the upper face of the span; the beam is equipped with two through recesses for monolithic connection of the beam with the protruding parts of the building frame, while the recesses are located near the supporting parts and go to the ends of the span of the beam under its supporting parts; the beam is equipped with loop-shaped eyes protruding above its upper face, the ends of which are connected with the reinforcing frame of the beam and monolithic in its concrete body; the number of eyes is selected at least six, while at least one eye is located in the supporting parts of the beam, and the remaining eyes are located in the span of the beam, the eye of the supporting part of the beam is located with the possibility of placing the protruding part of one stiffener of the floor slab - between it and the end of the supporting part of the beam, and the eyes of the span of the beam are located with the possibility of placing between them the remaining protruding parts of the stiffening ribs of the floor slabs. 36. The beam according to claim 35, characterized in that the span of the beam is provided with holes located on its upper face and intended for fastening ribbed floor slabs. 37. The beam according to claim 35, characterized in that the supporting parts of the beam are provided with through holes for attaching the beam to the protruding parts of the building frame. 38. The beam according to claim 35, characterized in that the loop-shaped eyes are made high so that when installing the slab, a gap is formed for the reinforcement to pass through the loop-shaped eyes above the protruding parts of the plate stiffeners. 39. The beam according to claim 35, characterized in that the loop-shaped eyes are made with a height not exceeding the height of the floor slab. 40. The beam according to claim 36, characterized in that the openings in the span of the beam are provided with sleeves for fastening metal pins with screw threads in them. 41. The beam according to claim 35, characterized in that the number of holes in the span of the beam is chosen equal to three, and the number of holes in each supporting part is selected to be equal to two. 42. The beam according to claim 35, characterized in that the loop-shaped eyes are parallel to each other in the transverse vertical planes of the beam. 43. The beam according to claim 42, characterized in that the number of loop-shaped eyes is selected to be sixteen, with two eyes in the supporting parts of the beam, and the remaining eyes in the span, which are grouped in three with an arrangement of eye groups near the supporting parts of the beam with the possibility of placing between groups of protruding parts of the stiffening ribs of the floor slab. 44. The beam according to claim 35, characterized in that the recess has a rectangular or trapezoidal shape in the transverse or longitudinal vertical sections of the beam at the location of the recess, and a rectangular shape in the longitudinal horizontal section of the beam. 45. The beam according to claim 35, characterized in that it is made in lengths from 1800 to 6000 mm. 46. The beam according to claim 45, characterized in that the supporting parts of the beam have a length of 250 mm, a height of 250 mm and a width of 300 mm, and the recess has a depth of 440 mm and dimensions in the longitudinal horizontal section of the beam at the location of the recess from 110 × 150 mm - in the area of the bottom of the recess, up to 120 × 180 mm - in the region of the upper edge of the beam, with a permissible deviation from these parameters up to 15%. 47. The beam according to claim 35, characterized in that it is equipped with sling devices located on its upper face. 48. Reinforced concrete slab of the building frame, including the upper and lower shelves connected by at least two longitudinal stiffeners, while the short end of the slab is made with a recess in the body of the slab, with the formation of a short end of the slab of a U-shape with an inner and two external end parts, and the stiffening ribs are made protruding from the body of the plate for its inner end part, while the upper shelf contains at least one fastener for connecting to the outer wall panel, and the lower shelf with holds at least one fastener for connection with a beam and / or an external wall panel, while the fasteners are located between the protruding parts of the stiffeners, and in the cavity between the shelves of the plate along the boundary of the recess is placed material that performs the function of formwork when monoling the joints of the plate . 49. The floor slab according to claim 48, characterized in that the stiffeners of the slab are made protruding from the body of the slab beyond its outer end parts. 50. The floor slab according to claim 48, characterized in that the fasteners are located in the plane of the shelves of the slab. 51. The floor slab according to claim 48, characterized in that the stiffening ribs of the slab are made protruding from the body of the slab to the border of its outer end parts. 52. The floor slab according to claim 48, characterized in that the number of fasteners of the upper shelf is chosen equal to two. 53. The floor slab according to claim 48, characterized in that the number of fasteners of the lower shelf is chosen equal to two. 54. The floor slab according to claim 48, characterized in that the fastening elements are made in the form of plates and / or loop-shaped eyes, while the plates are provided with an opening for a connecting element, for example, a bolt. 55. The slab according to claim 54, characterized in that the plates with the hole are fixed in the upper shelf of the plate, and the loop-shaped eyes are in the lower shelf. 56. The floor slab according to claim 54, characterized in that the loop-shaped eyes are made protruding beyond the outer end parts of the slab. 57. The slab according to claim 48, characterized in that the fasteners are connected with the reinforcing frame of the slab and monolithic in its concrete body. 58. The floor slab according to claim 48, characterized in that polystyrene foam is selected as the material performing the formwork function. 59. Reinforced concrete slab of the building frame, including the upper and lower shelves, connected by at least two longitudinal stiffeners, while the long end of the upper shelf of the plate is made with at least one rectangular recess in the body of the shelf, and is equipped with at least one fastening element for connection with an adjacent plate located in the recess, and in the cavity between the shelves of the plate along the border of the recess placed material that performs the formwork when monolithic joints of the plate. 60. The floor slab according to claim 59, characterized in that the fastener is located in the plane of the shelf of the slab. 61. The slab according to claim 59, characterized in that the fastening element is made in the form of a loop-shaped eyelet of metal reinforcement connected with the reinforcing frame of the plate and monolithic in the concrete body of the plate. 62. The floor slab according to claim 59, characterized in that the recesses are made of at least three located at an equidistant distance from each other. 63. The floor slab according to claim 59, characterized in that polystyrene foam is selected as the material performing the formwork function. 64. Reinforced concrete slab of the building frame, including the upper and lower shelves connected by at least two longitudinal stiffeners, while the long end of the slab is made with at least one rectangular recess; the upper shelf of the plate contains located in the recess, at least one fastener for connecting to the outer wall panel, and the lower shelf contains located in the recess, at least one fastener for connecting to the beam and / or external wall panel, in the cavity between the shelves of the plate along the border of the recess is a material that performs the function of formwork when monolithic joints of the plate. 65. The floor slab according to claim 64, characterized in that the fasteners are located in the plane of the shelves of the slab. 66. The slab according to claim 64, characterized in that the fastening elements are made in the form of plates and / or loop-shaped eyes, while the plates are provided with an opening for a connecting element, for example, a bolt. 67. The slab according to claim 66, characterized in that the plates with the hole are fixed in the upper shelf of the plate, and the loop-shaped eyes are in the lower shelf. 68. The floor slab according to claim 64, characterized in that the fastening elements are made protruding from the body of the slab to the boundary of the long end. 69. The slab according to claim 64, characterized in that the fasteners are connected to the reinforcing frame of the slab and monolithic in its concrete body. 70. The floor slab according to claim 64, characterized in that the recesses are made of at least three located at an equidistant distance from each other. 71. The floor slab according to claim 64, characterized in that polystyrene foam is selected as the material performing the formwork function. 72. The reinforced concrete slab of the building frame, including the upper and lower shelves, connected by at least two longitudinal stiffeners, while the short end of the plate is made with a recess in the body of the plate of a L-shape with the formation of the outer and inner end parts, while the stiffening ribs of the plate are made protruding from the body of the plate beyond its inner end part; the upper shelf contains at least one fastener for connecting to the outer wall panel, and the lower shelf contains at least one fastener for connecting to the beam and / or external wall panel, while the fasteners are located between the stiffeners of the plate ; in the cavity between the shelves of the plate along the border of the recess is a material that performs the function of formwork when monolithic joints of the plate; the plate is provided with a recess for docking with the column of the building frame located on the side of the inner end of the plate. 73. The floor slab according to claim 72, characterized in that the depth of the recess is made commensurate with the half-width of the column that is joined to the recess. 74. The slab according to claim 72, characterized in that the ends of the protruding parts of the stiffeners are located in the same plane as the outer end part of the plate. 75. The floor slab according to claim 72, characterized in that the fasteners are located in the plane of the shelves of the slab. 76. The slab according to claim 72, characterized in that the fastening elements are made in the form of plates and / or loop-shaped eyes, while the plates are provided with an opening for a connecting element, for example, a bolt. 77. The slab according to claim 76, characterized in that the plates with the hole are fixed in the upper shelf of the plate, and the loop-shaped eyes are in the lower shelf. 78. The slab according to claim 76, characterized in that the loop-shaped eyes are made protruding beyond the outer end parts of the slab. 79. The slab according to claim 72, characterized in that the fasteners are connected with the reinforcing frame of the slab and monolithic in its concrete body. 80. The floor slab according to claim 72, characterized in that polystyrene foam is selected as the material performing the formwork function. 81. Reinforced concrete slab of the building frame, including the upper and lower shelves connected by at least two longitudinal stiffeners, while the lower shelf and stiffeners are made protruding beyond the border of the upper shelf along the short end part of the plate with the location of the end surfaces of the protruding parts of the ribs stiffness and the lower shelf in one plane, the upper shelf is equipped with fasteners for connection with an adjacent plate, and the protruding part of the lower shelf is equipped with holes located between s stiffening plate for attaching to the beam, wherein in the cavity between the flanges along the upper boundary of the shelf material is performing the shuttering function when monolithing plate joints. 82. The floor slab according to claim 81, characterized in that the fasteners are located in the plane of the shelf of the slab. 83. The floor slab according to claim 81, characterized in that the number of fasteners in the upper shelf is chosen to be four, with two of them located between the stiffeners, and the other two along the edges of the short end of the slab. 84. The floor slab according to claim 81, characterized in that the number of holes in the lower shelf is chosen equal to two. 85. The floor slab according to claim 81, characterized in that the fastening elements of the upper shelf are made in the form of loop-shaped eyes of metal reinforcement connected with the reinforcing frame of the slab and monolithic in its concrete body. 86. The floor slab according to claim 81, characterized in that polystyrene foam is selected as the material performing the formwork function. 87. Reinforced concrete slab of the building frame, including the upper and lower shelves connected by at least two longitudinal stiffeners, while the lower shelf and stiffeners are made protruding beyond the border of the upper shelf along the short end part of the plate with the location of the end surfaces of the protruding parts of the ribs stiffness and lower shelf in one plane; the plate is provided with a recess located in the corner zone of the plate for docking with the column of the building frame; the upper shelf is equipped with fasteners for connection with an adjacent plate, and the protruding part of the lower shelf is provided with holes located between the stiffening ribs for fixing the plate to the beam, while in the cavity between the shelves along the border of the upper shelf there is material that performs the function of formwork when monolithing the joints of the plate. 88. The floor slab according to claim 87, characterized in that the fasteners are located in the plane of the shelf of the slab. 89. The slab according to claim 87, characterized in that the number of fasteners in the upper flange is chosen equal to three, with two of them located between the stiffeners, and the third with the edge of the short end of the slab that does not contain a recess. 90. The floor slab according to claim 87, characterized in that the number of holes in the lower shelf is chosen equal to two. 91. The slab according to claim 87, characterized in that the fastening elements of the upper shelf are made in the form of loop-shaped eyes of metal reinforcement connected with the reinforcing frame of the plate and monolithic in its concrete body. 92. The floor slab according to claim 87, characterized in that polystyrene foam is selected as the material performing the formwork function. 93. The floor slab according to claim 87, characterized in that the depth of the recess is made commensurate with the half-width of the column that is joined to the recess. 94. A house-building system, including a prefabricated frame containing H-shaped frame structures made according to any one of paragraphs. 1-34, floor slabs made according to any one of paragraphs. 48-93 and beams made according to any one of paragraphs. 35-47 and connecting frame structures to each other. 95. The homebuilding system according to claim 94, characterized in that it contains external and internal wall panels, while the external panels are three-layer, consisting of an inner concrete layer, an intermediate heat-insulating layer and an external decorative protective layer, and the inner panels are made of single-layer concrete . 96. The house-building system according to claim 94, characterized in that the H-shaped frame structures are staggered in the plane of one floor. 97. The house-building system according to claim 95, characterized in that the H-shaped frame structures, beams, floor slabs and wall panels are located in the building frame with the possibility of forming elevator shafts, staircases and cells, balconies. 98. The house-building system according to claim 94, characterized in that the beams are located in the plane of the H-shaped frame structures and / or in the direction transverse to them.