RU2198267C1 - Floor of building or structure - Google Patents

Abstract

FIELD: construction industry, erection of residential, public and administrative buildings and structures, their rebuilding of reconstruction. SUBSTANCE: floor of building or structure, at least part of it, includes frame spanners and hollow plates rested against posts. Spanners are prefabricated-monolithic spanners in the form of spatial bodies with prefabricated expanding lower parts and upper parts made narrowing with reference to lower parts and having shape of elongated polyhedron with cross-section predominantly in the form of rectangle or trapezium to form single bearing profile in combination with local widenings in the form of protrusions arranged over length of spanner with spacing corresponding to spacing of corresponding hollows in floor plates rested against spanner. Protrusions are elongated towards axes of hollows and have length amounting to 1.3 thickness of corresponding plates, as minimum, and are positioned in bearing zones of hollows of plates. EFFECT: reduced usage of materials and labor, potential to conduct operations under any weather conditions, predominantly, in regions classified as rigorous climatic zones with low negative temperatures in winter season with simultaneous shortening of time for execution of work. 10 cl, 33 dg

Description

 The invention relates to the field of construction and can be used in the construction of residential, public and administrative buildings and structures, as well as in their restoration or reconstruction.

 There are various designs of ceilings of buildings, structures (see, for example, RU 2107783 C1, E 04 B 1/35, 12/30/1996, Fig. 33).

 The disadvantages of the known structures of the floors of buildings and structures are significant labor and material costs, significant time for work and the impossibility of carrying them out regardless of weather conditions, especially in regions related to severe climatic zones with low negative temperatures in winter.

 The objective of the present invention is to reduce labor and material costs while reducing the timing of work and making it possible to carry them out under any weather conditions, mainly in regions related to harsh climatic zones with low negative temperatures in winter.

несущего профиля с локальными уширениями в виде выступов, расположенных по длине ригеля с шагом, соответствующим шагу пустот опертых на ригель плит перекрытия, причем выступы выполнены протяженными в направлениях осей пустот, имеют длину, составляющую не менее 1,3 толщины соответствующих плит, и размещены в приопорных и опорных зонах пустот плит.The problem is solved due to the fact that according to the invention in the overlap of the building, structure, at least part of its area is made comprising frame bolts supported on columns and hollow core slabs, and the bolts are made of precast monolithic in the form of spatial bodies with a prefabricated bottom widened part and a monolithic, narrowed relatively lower upper part in the form of an extended polyhedron with a cross section, mainly in the form of a rectangle, quasi-rectangle, trapezoid or quasi-trapezoid with education in conjunction with the national team of a single

a bearing profile with local broadening in the form of protrusions located along the length of the bolt with a step corresponding to the pitch of the voids of the floor slabs supported on the bolt, and the protrusions are made extended in the directions of the axes of the voids, have a length of at least 1.3 thicknesses of the corresponding plates, and are placed in supporting and supporting zones of slab voids.

формы в поперечном сечении, или составной из прямолинейных и криволинейных участков.In this case, the floor slabs can be made with voids of a round, or oval, or elliptical, or ovoidal shape, or with voids of a drop-shaped,

cross-sectional shapes, or composite of straight and curved sections.

 The upper monolithic part of the crossbars can be made of a height not less than the height limited by the highest point of the cross section of the protrusions brought into the voids of the plates supported on the crossbar.

 The plates can be supported on the crossbars symmetrically on both sides with a predominantly coaxial arrangement of the voids of the opposite plates.

 With a symmetric coaxial arrangement of the voids of the opposite plates, the reinforcement of the opposite protrusions can be performed in pairs through.

 Reinforcing symmetrical coaxial protrusions can be performed by working longitudinal rods or a frame with the orientation of the working rods, mainly along the longitudinal axis of the corresponding pair of voids of opposite plates and their location, mainly at points of a conditional contour similar to the contour of voids, congruent to the outer contour of the side surface of the protrusion.

 Through reinforcement of the body of the protrusions can be performed with the reinforcement of the working reinforcement in the upper zone by increasing the number of rods, or diameter, or steel grade, or by combining the above features.

 At least part of the working reinforcement of the coaxial protrusions can be made in the form of a double bracket in two intersecting planes of the bracket.

 The transverse reinforcement can be made in the form of working reinforcement covering from the outside or at least the working rods of the reinforcement of staple or ring distribution rod elements that are most remote from the center of the section, or in the form of a spiral.

 Frames formed by working and distribution fittings can be equipped with at least two fixing the spatial position of the reinforcing frame in the void of the plate hook-like, or loop-shaped, or annularly curved rod elements rigidly attached to the working and / or distribution core elements of the frame.

 The working and distribution frame elements for the through reinforcement of symmetrical protrusions can be located in the latter with the possibility of passing through them loop-shaped reinforcing elements of the implanted part of the crossbar formed by the outlets of the reinforcement from its prefabricated part.

 The technical result provided by the given set of essential features consists in reducing labor and material costs and ensuring the possibility of carrying out work in all weather conditions, mainly in regions belonging to harsh climatic zones with low negative temperatures in the winter, while reducing the time for work.

The invention is illustrated by drawings, where
figure 1 shows the frame of a building, structures with a perspective view;
figure 2 is the same in plan;
in FIG. 3 - node A in figure 1 in cross section (node connecting the floor slab to the crossbar);
in FIG. 4 - node B in figure 1 in a transverse section (node unilateral support of the hollow core plate on the crossbar and adjoining to it a hollow core slab);
in FIG. 5 - connection node of the floor slabs with the crossbar in a perspective view with a partial cutaway;
in Fig.6 is the same as in Fig.5 in a section, a variant of reinforcing with a frame, the upper monolithic part of the crossbar is made in the form of an extended polyhedron with a cross-section in the shape of a rectangle;
in FIG. 7 is the same as in FIG. 6, a variant of reinforcing with separate rods, the upper monolithic part of the crossbar is made with a cross section in the form of a quasiregular;
in FIG. 8 is the same as in FIG. 6, a variant of reinforcing with separate rods, the upper monolithic part of the crossbar is made with a cross section in the form of a trapezoid;
in FIG. 9 is the same as in FIG. 6, an embodiment of the distribution rod elements in the form of a spiral, the upper monolithic part of the crossbar is made with a cross section in the form of a quasi trapezoid;
figure 10-16 - embodiments of the distribution valves;
on Fig is a double bracket;
on Fig.28-27 - embodiments of the voids in the plates;
on Fig - arrangement of the joints of the frame in the plan;
in Fig.29 - node C in Fig.28;
in Fig.30 - node D in Fig.28;
on Fig - node E in Fig;
on Fig - butt connection of the crossbar with the column, a longitudinal section;
on Fig - section aa in Fig. 32.

несущего профиля с локальными уширениями в виде выступов 12, расположенных по длине ригеля 3 с шагом, соответствующим шагу пустот 13 опертых на ригель 3 плит 5 перекрытия 1. Выступы 12 выполнены протяженными в направлениях осей 14 пустот 13, имеют длину, составляющую не менее 1,3 толщины соответствующих плит 5, и размещены в приопорных 15 и опорных 16 зонах пустот 13 плит 5.Overlap 1 of a building, structure, at least in part of its area, contains crossbars 3 of the frame 4 supported on columns 2 and hollow slabs 5 of floor 1. Crossbars 3 are made of precast monolithic in the form of spatial bodies with a prefabricated lower broadened part 6 and monolithic narrowed relatively the lower upper part 7 in the form of an extended polyhedron with a cross section, mainly in the form of a rectangle 8, a quasi-rectangle 9, a trapezoid 10 or a quasi-trapezium 11 with the formation together with the combined part 6 of a single

the bearing profile with local broadening in the form of protrusions 12 located along the length of the crossbar 3 with a step corresponding to the pitch of voids 13 of the floor slabs 5 supported on the crossbar 3. The protrusions 12 are made extended in the directions of the axes 14 of the voids 13, have a length of at least 1, 3 thicknesses of the corresponding plates 5, and are placed in the supporting 15 and supporting 16 zones of voids 13 of the plates 5.

формы в поперечном сечении, или составной из прямолинейных 26 и/или криволинейных 27 участков.In this case, the slabs 5 of the floor 1 can be made with voids of round 17, or oval 18, or elliptical 19, or ovoid 20, or with voids of a drop-shaped 21,

cross-sectional shapes, or a composite of rectilinear 26 and / or curvilinear 27 sections.

 The upper monolithic part 7 of the crossbars 3 is made not less than the height limited by the highest point 28 of the cross section of the protrusions 12, brought into the voids 13 of the plates 5 supported on the crossbar 3.

 The plates 5 can be supported on the crossbars 3 symmetrically on both sides with a predominantly coaxial arrangement of voids 13 of the opposite plates 5.

 With a symmetric coaxial arrangement of voids 13 of opposite plates 5, the reinforcement of 29 opposite protrusions is made pairwise through.

 Reinforcing 29 symmetrical coaxial protrusions 12 can be performed by working longitudinal rods 30 or a frame 31 with the orientation of the working rods 30, mainly along the longitudinal axis of the corresponding pair of voids 13 of opposite plates 5 and their location, mainly, on points of a conditional contour similar to the contour of voids 13, congruent outer contour of the side surface of the protrusion 12.

 The through reinforcement of the body of the protrusions 12 can be performed with the reinforcement of the working reinforcement in the upper zone by increasing the number of rods, or diameter, or steel grade, or by combining the above features.

 At least part of the working reinforcement 30 of the coaxial protrusions 12 can be made in the form of a bracket double in two intersecting planes 32.

 The transverse reinforcement 33 can be made in the form of external reinforcing reinforcing bars 30 or, at least, the working rods 30 of the reinforcing brackets 34 or annular 35 distribution rod elements that are farthest from the center of the section, or in the form of a spiral 36.

 Frames 31, formed by the working 30 and distribution 34, or 35, or 36 fittings, can be equipped with at least two fixing the spatial position of the reinforcing frame 31 in the void 13 of the plate 5 hook-shaped (not shown), or loop-shaped (not shown), or ring-shaped (not shown) curved rod elements rigidly attached to the working 30 and / or distribution 34, or 35, or 36 rod elements of the frame 31.

 Working 30 and distribution 34, or 35, or 36 elements of the frame 31 for through reinforcement of symmetrical protrusions 12 can be located in the latter with the possibility of passing through them loop-shaped elements of reinforcing 37 of the reinforced part 7 of the crossbar formed by the outlets of the reinforcement from the assembly 6 of its part.

 In the voids of 13 slabs 5, plugs 38 are installed to prevent spreading in the voids of concrete when performing the rested part 7 of the crossbar 3.

Claims (11)

 1. Overlap of a building, structure, characterized in that at least part of its area is made up of frame bolts supported by columns and hollow core slabs, and the bolts are prefabricated-monolithic in the form of spatial bodies with a prefabricated lower broadened part and narrowed relatively the lower upper part in the form of an extended polyhedron with a cross section, mainly in the form of a rectangle or trapezoid with the formation in combination with the prefabricated part of a single bearing profile with lock with wide broadening in the form of protrusions located along the length of the crossbar with a step corresponding to the void pitch of the floor slabs supported on the crossbar, the protrusions made extended in the directions of the axes of the voids, have a length of at least 1.3 thicknesses of the corresponding plates, and are placed in supporting and supporting areas of empty slabs.  2. Overlap of a building, structure according to claim 1, characterized in that the floor slabs are made with hollows of round or oval, or elliptical, or ovoidal shape, or with hollows of a drop-shaped form in cross section, or composed of straight and curved sections.  3. Overlapping the building, structure according to any one of claims 1 and 2, characterized in that the upper monolithic part of the crossbars is made not less than the height limited by the highest cross-sectional point of the protrusions brought into the voids of the plates supported on the crossbar.  4. Overlapping of the building, structure according to any one of claims 1 to 3, characterized in that the plates are supported on the crossbars symmetrically on both sides with a predominantly coaxial arrangement of voids of opposite plates.  5. The overlapping of the building, structure according to claim 4, characterized in that, with a symmetric coaxial arrangement of the voids of the opposite plates, the reinforcement of the opposite protrusions is made pairwise through.  6. Overlapping of a building, structure according to claim 5, characterized in that the reinforcement of the symmetrical coaxial protrusions is made by working longitudinal rods or a frame with the orientation of the working rods, mainly along the longitudinal axis of the corresponding pair of voids of opposite plates and their location, mainly, along the points of the conditional contour similar to the contour of voids congruent to the outer contour of the side surface of the protrusion.  7. Overlapping of a building, structure according to any one of paragraphs.5 and 6, characterized in that the through reinforcement of the body of the protrusions is made with reinforcing the working reinforcement in the upper zone by increasing the number of rods or diameter, or steel grade, or by combining the above signs.  8. Overlapping of a building, structure according to any one of claims 5-7, characterized in that at least a portion of the working reinforcement of the coaxial protrusions is made in the form of a double bracket in two intersecting planes of the bracket.  9. Overlapping of a building or structure according to any one of claims 5 to 8, characterized in that the transverse reinforcement is made in the form of working reinforcing bars covering the outside or at least the working rods of reinforcing brackets or ring distribution rod elements that are farthest from the center of the cross section , or in the form of a spiral.  10. Overlap of a building, structure according to claim 9, characterized in that the frames formed by the working and distribution fittings are equipped with at least two fixing the spatial position of the reinforcing frame in the void of the plate, hook-shaped or loop-shaped, or annularly curved rod elements rigidly attached to the workers and / or distribution core elements of the frame.  11. Overlap of a building, structure according to any one of claims 5-10, characterized in that the working and distribution frame elements for through reinforcing symmetrical protrusions are located in the latter with the possibility of passing through them loop-shaped reinforcing elements of the implanted part of the crossbar, formed by releases of reinforcement from its assembly parts.

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