RU2074295C1 - Building member and method for making the same - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: building member has lengthwise and crosswise ribs. Plates of variable stiffness are placed between the ribs. Cross section of the plates is polygonal. Through holes are originated in the lengthwise ribs. Method of making the building members is based on using traditional manufacturing of building structures of heavy concrete by industrial methods. EFFECT: higher efficiency. 3 cl, 4 dwg

Description

 The invention relates to the construction and can be used in the design and construction of ground, in-ground and underground structures for multifunctional purposes in various sectors of the economy, where it is advisable to use resource-saving technologies for construction production.

 In particular, the invention can be used in the design and construction of multi- and low-rise buildings and structures for industrial and social purposes: residential buildings of the estate type, social enterprises, storage facilities, warehouses, industrial facilities of processing and manufacturing industries, livestock and poultry facilities, mini-bakeries, mills, shops, cafes, sports facilities, premises for duty operators, civil defense shelters.

Known building element for low-rise construction, containing longitudinal and transverse ribs, between which there are plates [1]
A disadvantage of the known building element is its limited use, which significantly reduces the possibility of its multifunctional use, leading to significant costs.

 In addition, the disadvantage of the known building element is its reliability during operation, since all joints are welded, which requires increased protection against corrosion in the conditions of the construction site, and in the absence of corrosion protection reduces the life of the structure.

To eliminate these shortcomings, a building element having longitudinal and transverse ribs, between which are placed plates made polygonal in cross section with the lower faces of the plates inclined with an angle of 0.1-8.0 ^o to the horizontal and with lateral edges of the longitudinal ribs, the inclination of which is to 45 ^o to the vertical, wherein at least one of the longitudinal edges is provided with through holes for connecting elements with setting surfaces on the outer and inner side edges, and at outer sides in D ep seating surfaces are formed as a plane portion and on the inner sides of edges in the form of shaped surfaces becomes accustomed to the inner surface of the flat portion of the construction element, mating with the surface of a truncated cone facing funnel to the inner surface of the element.

A known method of manufacturing building structures by industrial methods, based on the molding in horizontal forms of reinforced concrete building structures by sequential laying in the form of frames, nets, mixtures, compaction of the mixture, heat treatment and demolition [2]
A disadvantage of the known method for the production of building structures by industrial methods is the need for a large number of very expensive metal molds corresponding to the number and nomenclature of very diverse building elements.

 Another disadvantage of this method is the impossibility of obtaining industrial methods of building elements with through holes in at least one longitudinal rib.

 These shortcomings are eliminated due to the fact that after laying in the form of the frame inside the frame, the forming elements are installed and fixed under the through holes with the seating surfaces for the connecting elements, then they fill the mold with the mixture, compact the mixture, hold for at least one hour, remove the clamps, and then produce heat treatment and formwork.

 Figure 1 schematically shows a General view of a building element in the form; figure 2 building element, top view; figure 3 section aa in figure 1; in Fig.4 node I in Fig.3.

The building element 1 contains a flat upper face 2 and side faces 3 and 4, longitudinal 5 and 6 and transverse 7 and 9 ribs, between which the plates 10 and 11 are placed. In the cross section of the building element, the lower edges 12 and 13 of the plates 10 and 11 are made under the angle of 0.1-8.0 ^o to the horizontal and the side faces 14 and 15 of the longitudinal ribs, the slope of which is selected at an angle of up to 45.0 ^o to the vertical 16. At least one of the longitudinal ribs made through holes 17 with the landing 18 and 19 surfaces from the outer 20 and inner 21 sides of the rib. Landing surfaces 18 are made in the form of a flat section 22, landing surfaces 19 on the inner side of the ribs are formed in the form of a section 23 of the plane mating with the surface 24 in the form of a truncated cone and facing the bell 25 to the inner side 25 of the building element 1.

 The building element 1 is located in the form 26, containing longitudinal 27 and 28 and transverse 29 and 30 sides and the base 31. In the transverse sides and the base 31. In the transverse sides are holes 32 and 33, which are installed forming elements 34 and 35 with holes 36 and 37 interacting with latches 38 and 39.

 The building element is used as follows.

 The building element of the proposed design can serve as a foundation, foundation, wall, coating and floor. This is achieved by using building elements in buildings and structures. Building elements in structures are interconnected by means of fasteners that are installed in the through holes 17. The building elements thus joined represent rigid plates of variable stiffness, while longitudinal ribs serve as strength elements (columns in the walls, longitudinal and transverse beams at the bases foundations, coatings, ceilings). In all cases, building elements have the ability to assemble-disassemble, which significantly increases their applicability and significance. Performing a polygonal cross-section significantly increases the strength of the building element under the influence of household and dynamic loads. The formation of landing surfaces in the form of a plane turning into a truncated cone allows for reliable connection of building elements using simple fastening elements, such as bolts.

 The manufacture of the building element is carried out by industrial methods as follows.

 The frame 40 is placed on the base of the mold 26, then the forming elements 34 and 35 in the form of cylindrical rods are installed in the openings of the frame, after which the forming elements are fixed with clamps 38 and 39, respectively, the form is filled with a mixture. After this, the mixture is compacted, kept for at least one hour (depending on the composition and nature of the mixture, the time may be increased) and the clips are removed. Then the mixture is heat treated, after which the stripping is carried out, removal (if necessary) of the forming elements.

 The manufacture of building elements is carried out on existing and industrial equipment, and the full use of the entire process is ensured. All new operations are carried out only on forms, which in all cases remain almost the same, and building elements can be made in one form. The amount of mold is determined mainly by the scale of production and construction time.

 An example of a proposed building element: length 6.35 m; width - 2.15 m; reduced thickness is 0.08-0.35 m, concrete grade M100-M350.

 The increased bearing capacity of the selected geometry of the building element allows for resource saving, reducing the cost of materials and energy resources during manufacture, as well as during transportation, installation, construction and operation.

 At the summer cottage, construction elements were used in the construction of facilities in the Moscow region.

Technical and economic indicators of the building element, reduced to 1 m ^{2 of} useful area of PUR 635 215 20:
Flow concrete m ^3/2 0.075
steam consumption, Gcal / m ² 21x10 ³
Steel consumption, kg / m ² 5.25
Electric power consumption, kW • h / m ² 1.3i

Claims (3)

1. A building element having longitudinal and transverse ribs between which there are plates, characterized in that the building element is made polygonal in cross section with the lower faces of the plates inclined at an angle of 0.1 - 8.0 ^o to the horizontal and with the side faces of the longitudinal ribs , the inclination of which is up to 45 ^o to the vertical, with at least one of the longitudinal ribs made through holes for connecting elements with seating surfaces on the outer and inner sides of the ribs.  2. The building element according to claim 1, characterized in that the landing surfaces on the outer sides of the ribs are made in the form of a section of a plane, and on the inner sides of the ribs in the form of a figured surface with a flat section adjacent to the inner surface of the element mating with the surface in the form of a truncated cone facing the bell to the inner surface of the element.  3. A method of manufacturing a building element, including laying in the form of a frame, mixture, sealing and heat treatment of the mixture, characterized in that after laying the frame in the form inside the frame, forming elements are fixed and fixed under the through holes with seating surfaces for the connecting elements, then the formwork is filled with a mixture , they compact the mixture, maintain the mixture for at least one hour, remove the clamps, and then heat-treat and dismantle them.

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