RU96589U1 - BUILDING FRAME - Google Patents

Abstract

 1. The frame of the building, containing floors with reinforcement, prefabricated columns, consisting of separate columns made with longitudinal reinforcing bars, and having a concrete break in the sections of the columns at the level of the floors, characterized in that the concrete gap is made so that the longitudinal bars in the sections of the columns in the level of ceilings are completely free from concrete, and the ceilings are made in the form of monolithic plates by joint monolithing in the removable formwork of the longitudinal reinforcing bars of the columns and the rods of the reinforcement of the ceiling, forming an arm the floor support frame, formed so that part of the rods of the floor reinforcement is inserted in the gaps between the longitudinal rods of the column in areas free of concrete. ! 2. The building frame according to claim 1, characterized in that the reinforcing frame of the overlap contains grids parallel to each other in horizontal planes and interconnected by means of vertical reinforcing latches, made of reinforcing rods, with some of the reinforcing rods of the mesh inserted between the longitudinal rods of the column in areas free of concrete. ! 3. The building frame according to claim 2, characterized in that the reinforcing frame of the ceiling contains additional rods located between the grids in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, with each branch of one horizontal plane connected by vertical reinforcing bars rods or clamps with a branch parallel to it of another horizontal plane, as well as with reinforcing rods of grids. ! 4. The building frame according to claim 1, characterized in that

Description

The inventive utility model relates to the construction, namely the construction of frame buildings of various floors with monolithic ceilings.

Known building frame containing bezel-less floor, including a column without capitals and a flat plate. An n-branch console with annular and radial working fittings, the center of intersection of which coincides with the axis of the column, is placed in the body of the plate. The branches of the n-branch console are rigidly attached to the trimming of the pipe. The pipe cut is placed inside the column so that the axis of the pipe cut coincides with the axis of the column. The circumference of the pipe cut is greater than the total width of the shelves of the branches of the n-branch console. The length of the pipe cut is determined by the total bending moment in the branches of the n-branch console (RU 2362856, IPC ⁸ EV 5/43).

A frame building is known that contains ordinary and external columns and ceilings made in the form of rectangular supercolumn, intercolumn and central plates articulated with each other with the same pitch, equipped with supporting tables and shelves around the perimeter. Part of the columns or all columns are located relative to their respective column columns with a displacement of the vertical axis of the column relative to the geometric center of the plate by a distance a = (0.05-0.2) l, where l is the length of the larger edge of the plate, and the pitch of the plates is left constant. At least part of the floor slabs or all of the slabs are made monolithic and supported on prefabricated or monolithic columns. The building has an external load-bearing wall, while the distance between the external columns and the external wall is increased by 10-100%, and the extreme slabs are supported on the external wall or on the external columns, and in this section additional reinforcement is installed on the floor slabs and monolithic concrete is laid ( RU 2112117, IPC ⁶ ЕВВ 5/43).

Known bezelless building frame, including ceilings, supported by columns in the place of their joining by butt joints in height. Moreover, the butt joints of the columns are made on the end surfaces of the columns facing each other with smaller bases - truncated pyramids, for connecting the columns the frame contains mounted on smaller bases of the pyramids and rigidly connected to each other, fixing and connecting elements (RU No. 78501 IPC ⁸ Е04В 1 / eighteen).

All of the above frame designs are quite difficult to manufacture.

The closest analogue is the reinforced concrete frame of the building, which is a bezelless capless structure and containing a ceiling with reinforcement in the form of over-column and inter-column plates having loop outlets on the ribs and grooves symmetrically located relative to each other along which reinforcement is installed through overlaps of the loop outlets of adjacent plates, and prefabricated columns passing through holes in knee-high plates in height of the column, in which there are areas with exposed longitudinal rmatura (USSR copyright certificate No. 1114749 IPC Е04В 1/18). The disadvantages of this design are the insufficient strength of the floor due to the unequal strength of the joints of the panels in the longitudinal and transverse direction of the floor, the difficulty of connecting the column with the slab and the complexity of installation.

The inventive utility model solves the problem of creating a cheaper building frame technologically advanced in manufacture, having a smaller number of column butt assemblies, simplifying the installation of the frame, reducing the laboriousness of the process of coupling the releases of the working reinforcement of the upper and lower columns.

The technical result is to simplify the installation process and increase the reliability of the building frame by reducing the butt joints of the columns along the height of the frame and the butt joints of the ceiling, reducing the complexity of connecting the prefabricated columns to the ceiling, as well as reducing the time of mounting the frame.

This technical result is achieved by the fact that in the building frame containing floors with reinforcement, prefabricated columns consisting of separate columns made with longitudinal reinforcing bars and having concrete break in sections of columns at the level of floors, concrete gap is made so that longitudinal bars in sections the columns at the level of the ceilings are completely free from concrete, and the ceilings are made in the form of monolithic slabs, by joint monolithing in the removable formwork of the longitudinal reinforcing bars of the columns and reinforcing bars overlap, forming overlapping reinforcing frame formed so that the part overlapping reinforcement rods wound into the spaces between the longitudinal bars of the column in the areas free from concrete.

In this case, the reinforcing cage of the overlap may contain grids parallel to each other located in horizontal planes and interconnected by means of vertical reinforcing latches, made of reinforcing bars, moreover, part of the reinforcing bars of the mesh are brought into the spaces between the longitudinal rods of the columns.

In this case, the reinforcing framework of the overlap may contain additional rods located between the grids in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, with each branch of one horizontal plane connected by vertical reinforcing rods or clamps with a parallel branch of another horizontal planes, as well as with reinforcing bars of grids.

In this case, the carcass column included in the prefabricated column can be made with end sections, the end of one of which is made with reinforcement outlets in the form of exposed reinforcing bars free of concrete, and the end of the other end section is made with recesses corresponding to the size and location of the exposed reinforcing bars of the opposite end section for the formation of a plug-in connection of the columns during installation of the precast column.

At the same time, at the end of the same end section of the column included in the prefabricated column, recesses and releases of reinforcement can be made corresponding to the outlets and recesses of the end face of the end section of the other column mating with it.

In this case, the frame may contain intermediate between the column and the overlap, elements conjugated with the overlap, made by jointly monolithing in the removable formwork the longitudinal reinforcing rods of the columns, as well as the reinforcing rods forming the reinforcing cage of these elements, formed so that a part of the reinforcing rods of the elements are inserted in between longitudinal rods of the column and mounted on the column, and the shape and size of the intermediate elements are selected from the condition of ensuring the necessary rigidity of the overlap when increased column span.

At the same time, the reinforcing cage of the intermediate elements may contain grids parallel to each other located in horizontal planes and interconnected by means of vertical reinforcing latches, made of reinforcing rods, moreover, part of the reinforcing rods of the mesh are placed in the gaps between the longitudinal rods of the columns.

At the same time, the reinforcing cage of the intermediate elements may contain additional rods located between the grids in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, with each branch of one horizontal plane connected by vertical reinforcing rods or clamps with a parallel branch of another horizontal plane, as well as with reinforcing bars of nets

In this case, the elements intermediate between the column and the ceiling can be made in the form of flat plates.

In this case, the elements intermediate between the column and the overlap can be made in the form of beams forming a column bundle.

The inventive frame of the building, including floors, and prefabricated columns, each of which contains sections with longitudinal reinforcing bars, free of concrete at the level of floors is illustrated by drawings.

In Fig.1 shows a part of the inventive frame of the building with reinforcement, in Fig.2 - connection of the floor reinforcement with the column. Figure 3 - one of the nets of the frame, the rods of which are brought into the space between the rods of the column. Figure 4 - location of the reinforcement of the ceiling, including the rods forming the branches. In Fig.5 - reinforcement overlap, depicted in a top view. Figure 6 - prefabricated column. In Fig. 7, options for plug connection. On Fig - the inventive frame with an additional intermediate element in the form of a beam. Figure 9 is a section of the inventive frame with an additional intermediate element in the form of beams. In Fig, 10 - the inventive frame of the building with an additional intermediate element in the form of a plate. 11 is a section of the inventive frame of the building with an additional intermediate element in the form of a plate. On Fig part of the frame with two floors and telescopic racks.

The frame of the building contains floors 1 with reinforcement, prefabricated columns 2, consisting of separate columns 3, made with longitudinal reinforcing bars 4 and having concrete break in sections of columns at the level of floors, which is made so that longitudinal rods 4 on sections of columns at the level of floors completely free of concrete. In this case, the overlappings were made by joint monolithing in a removable formwork (not shown in the figure) of the longitudinal reinforcing rods of the columns 4 and the reinforcement bars of the slab forming the slab reinforcing cage. The floor frame is formed so that part of the rods 5 of the floor reinforcement passes through sections of columns 6 that are free of concrete at the level of overlap and are wound between the longitudinal rods 4 in these sections.

The reinforcing framework of the overlap contains parallel to each other in horizontal planes and interconnected using vertical reinforcing latches 7 (for example, by tying) mesh 8 made of reinforcing bars. To increase the strength of the overlap, the reinforcing cage may contain additional rods located between the grids, in the form of branches 10, mounted on the longitudinal rods 4 of the column and located in horizontal planes parallel to each other, with each branch of one horizontal plane connected by vertical reinforcing latches 11 with a parallel branch another horizontal plane, as well as with reinforcing rods of grids 8.

To form a precast column 2 by connecting columns 3, each column can be made with end sections, the end face of one of 12 of which is made with reinforcement outlets in the form of exposed reinforcing bars 13, free of concrete. In this case, the end face of the other 14 end section is made with recesses 15 corresponding in size and location to the exposed reinforcing rods 13 of the opposite end section (or the end section of another connected to the first column). To connect the columns, reinforcing rods 13 of one column are inserted into the recesses 15 of the other column, forming a plug-in connection of the columns during installation of the prefabricated column.

At the end of the same end portion of the column included in the collection column, both recesses 15 and releases of the reinforcement 13 can be made corresponding to the outlets and recesses of the end face of the end section of the other column mating with it (not shown). This also forms a plug connection.

The building frame may contain between the column and the overlap, intermediate elements 16 connected with the overlap. The intermediate elements 16 are made by joint monolithing in the removable formwork of the longitudinal reinforcing rods 4 of the columns, as well as the reinforcing rods forming the reinforcing frame of these elements and the overlap. The frame of the elements is formed in such a way that a part of the reinforcement rods of the elements is inserted into the gaps of 6 sections of columns free of concrete between the rods 4, and the shape and dimensions of the intermediate elements are selected to ensure the necessary rigidity of the overlap with increasing span of the columns.

The reinforcing cage of the intermediate elements also comprises grids 18 arranged parallel to each other in horizontal planes and connected to each other by means of vertical reinforcing latches 18. The grids are made of reinforcing bars, moreover, part of the reinforcing bars of the mesh are inserted into the spaces between the longitudinal columns of the columns. The intermediate element can be placed both above the floor and under the floor and mated with it. After monolithic, the intermediate elements and the overlap form a single whole, which in the final result significantly increases the structural strength

The reinforcing cage of the intermediate elements may also contain additional rods 19, located between the overlapping grid 8 and the grid of the intermediate element 18, in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, each branch of one horizontal plane being connected by vertical reinforcing rods or clamps 20 with a parallel branch of another horizontal plane, as well as with reinforcing rods of the nets.

Intermediate elements can be made either in the form of plates extending beyond the perimeter of the column or in the form of beams forming a strapping of columns. Intermediate elements can be located both above and below the floor slab.

Comparison of the claimed frame building with other technical solutions of a similar purpose shows that the claimed design is easier to install, and the presence of intermediate elements allows to increase the distance between the columns and thereby expand the architectural and planning capabilities of the building.

When joining the columns of the lower tier with the subsequent, the sum of the two extreme sections is equal to the height from the top of the slab of the underlying floor to the bottom of the floor of the overlying level.

After the installation of columns, installation of formwork floors in the design position, set the longitudinal and transverse reinforcing rods 8 of the lower mesh. Moreover, reinforcing bars for the formation of mesh cells are installed with a calculated step, and part of them - 5, are passed in the column section free from concrete at the level of overlap.

After the formation of the lower mesh of the frame, additional reinforcing bars can be installed in the frame, located between the upper and lower mesh of the frame, made in the form of branches 10 connected by latches 11.

Nodal reinforcing brackets 7 are also installed on the formed lower mesh of reinforcing bars, setting the design distance between the lower and upper grids, connecting in the vertical direction all reinforcing bars located in horizontal planes. After completing the installation, the reinforcing products of the floor frame produce joint concreting of a monolithic floor slab with concrete sections of the column free of concrete.

The concrete mixture is supplied by a concrete pump or crane.

Concrete is laid with subsequent vibrating and leveling according to the thickness of the paving.

After gaining design strength with concrete, the formwork is dismantled: the telescopic racks 21 are released, the moisture-proof plywood and runs are dismantled, and the telescopic racks are removed.

Installation of the subsequent tiers of columns on the lower columns is carried out after the device is installed on the installation horizon of a monolithic overlap and a set of concrete design strength.

Claims (12)

1. The frame of the building, containing floors with reinforcement, prefabricated columns, consisting of separate columns made with longitudinal reinforcing bars, and having a concrete break in the sections of the columns at the level of the floors, characterized in that the concrete gap is made so that the longitudinal bars in the sections of the columns in the level of ceilings are completely free from concrete, and the ceilings are made in the form of monolithic plates by joint monolithing in the removable formwork of the longitudinal reinforcing bars of the columns and the rods of the reinforcement of the ceiling, forming an arm the floor support frame, formed so that part of the rods of the floor reinforcement is inserted in the gaps between the longitudinal rods of the column in areas free of concrete. 2. The building frame according to claim 1, characterized in that the reinforcing frame of the overlap contains grids parallel to each other in horizontal planes and interconnected by means of vertical reinforcing latches, made of reinforcing rods, with some of the reinforcing rods of the mesh inserted between the longitudinal rods of the column in areas free of concrete. 3. The building frame according to claim 2, characterized in that the reinforcing frame of the ceiling contains additional rods located between the grids in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, with each branch of one horizontal plane connected by vertical reinforcing bars rods or clamps with a branch parallel to it of another horizontal plane, as well as with reinforcing rods of grids. 4. The frame of the building according to claim 1, characterized in that the column included in the prefabricated column is made with end sections, the end of one of which is made with releases of reinforcement in the form of exposed reinforcing rods, free of concrete, and the end of the other end section is made with recesses corresponding in size and location to the exposed reinforcing rods of the opposite end section for the formation of a plug-in connection of columns during installation of a precast column. 5. The building frame according to claim 1, characterized in that at the end of the same end section of the column included in the prefabricated column, recesses and outlets of reinforcement are made corresponding to the outlets and recesses of the end face of the end section of the other column mating with it. 6. The building frame according to claim 1, characterized in that it comprises intermediate elements between the column and the ceiling, the elements conjugated with the overlap, by joint monoling of the longitudinal reinforcing rods of the columns, as well as the reinforcing rods forming the reinforcing frame of these elements, in the form that part of the reinforcement rods of the elements is inserted into the gaps of the column section, free of concrete, and the shape and dimensions of the intermediate elements are selected from the condition of ensuring the necessary rigidity of the overlap when ichenii span columns. 7. The building frame according to claim 6, characterized in that the reinforcing frame of the intermediate elements comprises grids parallel to each other in horizontal planes and interconnected by means of vertical reinforcing latches, made of reinforcing rods, moreover, part of the reinforcing rods of the mesh is inserted between the longitudinal rods of columns. 8. The building frame according to claim 7, characterized in that the reinforcing frame of the intermediate elements contains additional rods located between the overlapping grid and the intermediate element grid in the form of branches mounted on the longitudinal rods of the column and located in horizontal planes parallel to each other, with each branch one horizontal plane is connected by vertical reinforcing rods or clamps with a branch parallel to it of another horizontal plane, as well as with reinforcing rods of grids. 9. The building frame according to claim 6, characterized in that the elements intermediate between the column and the ceiling are made in the form of beams that form the binding of the columns. 10. The building frame according to claim 6, characterized in that the elements between the column and the ceiling are made in the form of flat plates. 11. The building frame according to claim 6, characterized in that the elements intermediate between the column and the floor are located above the floor slab. 12. The building frame according to claim 6, characterized in that the intermediate between the column and the floor elements are located under the floor slab.