EA024715B1 - Hollow-core slab with inter-void reinforcements - Google Patents

Abstract

The invention relates to construction of residential and public buildings in precast large panel, framework and brick-and-cast-in-situ versions, and to the field of building materials industry. The technical result of implementation of the utility model consists in broadening of functional capabilities by forming, in a part of the slab, cantilever projections for balconies and bow windows, and by providing the possibility of arranging ventilation and sanitary equipment in openings made in the slab due to its higher load-bearing capacity. The system comprises a concrete body divided by a transverse row of longitudinal voids with partitions. Two of the partitions are inter-void reinforcements and include main longitudinal bars and reinforcement members joined to the upper and lower bars by fixing means. The cross-section thickness of the partition of each reinforcement is 3-6 thicknesses of cross-sections of other partitions; inter-void reinforcements are spaced from each other and from the slab sides by a distance that allows to provide between them transverse through slots for accommodation of ventilation and sanitary equipment and for placement of heat insulation in the wall slab installation zone for a slab with a balcony cantilever. The reinforcement members are implemented in the form of a steel sheet or a welded reinforcement cage and are located in end zones and/or in cantilever projections support zones. Additional bars are provided on both sides of the main reinforcement bars and in longitudinal ribs of the slab. The reinforcement members are implemented in the form of a corrugated steel sheet or a welded reinforcement cage. At least at one end of the slab, both reinforcements extend beyond the slab end by a distance not less than the slab thickness. The portions of all reinforcements protruding beyond the slab end differ by cross-section. The said fixing means are made of binding wire or as welded joints.

Description

The invention relates to the field of construction of residential and public buildings in large-panel, frame and monolithic-brick execution, as well as to the field of building materials industry.

State of the art

The well-known multi-hollow reinforced concrete slabs of formless molding (for example, patent No. 2241809, IZH 568-03 series, slabs of the Sopzojk concern) are designed for the use of slabs in a beam design based on the ends of the slabs. At the same time, the lower prestressed reinforcement is designed to bear the payload of the plates with the ability to remove no more than one or two vertical ribs in which the working reinforcement is located, which complicates the use of these plates in buildings where, for example, only openings of plumbing ducts require openings of at least a width of at least 500 mm.

In addition, the well-known multi-hollow slabs do not allow cantilevered support and pass through the cross section of the column plate. This does not allow in buildings to make balconies, loggias and remote premises with the help of these plates. The additional reinforcement of existing floor slabs cannot be performed due to the fact that the thickness of the vertical ribs in them is small, which makes it impossible to place transverse reinforcement there.

Known hollow slab with hollow amplifiers, containing a concrete body with upper and lower parts, separated by a transverse row of uniformly distributed longitudinal voids with the possibility of the formation of concrete partitions between them, while two of them are hollow amplifiers in the slab body, parallel to each other and symmetrical relative to the longitudinal axis of the plate, and include longitudinal rods located in the upper and lower parts of these partitions, reinforcing elements connected by upper and lower terzhnyami fixing means (patent number 2363821 Russian Republic of Ingushetia, the IPC E04V 5/02, 11.03.2008 city).

This technical solution is the closest to the invention, therefore, taken as a prototype.

The disadvantages of the prototype are the inability to use the slab as part of a balcony or bay window, as well as the inability to make holes for ventilation and plumbing equipment due to the low bearing capacity.

SUMMARY OF THE INVENTION

The problem to which the invention is directed, consists in the universal use of multi-hollow slabs in residential and public buildings in panel and frame designs due to the concentration of working reinforcement in two beams of the multi-hollow slabs, which allows maintaining the load-bearing capacity of the slab in the case of using structurally necessary openings and cuts, and also due to changes in beam reinforcement use slabs to work in the form of consoles for balconies and bay windows.

This is achieved by the fact that the thickness of two vertical edges of the plate located symmetrically relative to its longitudinal axis is taken based on the calculated loads, in these ribs the entire longitudinal calculated working reinforcement is concentrated, i.e. the ribs actually turn into beams, and the reinforcement of the remaining ribs is carried out for structural reasons.

In addition, in the areas of support of the cantilever outlets, the beam plates are additionally reinforced with a steel sheet having corrugated lateral surfaces for adhesion to concrete or a welded reinforcing cage. The sheet or frame is attached to the rods of the longitudinal working reinforcement with a knitting wire. A cross-section with such reinforcement makes it possible to perceive significant transverse loads arising in the cross-sections when arranging the console outlets of balconies and bay windows.

The technical result from the use of the utility model is to expand the functionality by forming part of the slab of the console outlets of balconies and bay windows and providing the possibility of placing ventilation and plumbing equipment in the slots made in the slab by increasing the bearing capacity.

The following are general and particular essential features characterizing the causal relationship of the invention with the specified technical result.

A hollow slab with hollow-core amplifiers contains a concrete body with upper and lower parts separated by a transverse row of evenly distributed longitudinal voids with the possibility of the formation of concrete partitions between them. In this case, two of them are hollow amplifiers in the body of the plate parallel to each other and symmetrical with respect to the longitudinal axis of the plate, and include longitudinal rods located in the upper and lower parts of these partitions, reinforcing elements connected to the upper and lower main rods by fixing means. The thickness of the cross-section of the partition of each amplifier is 3-6 the thickness of the cross-sections of the remaining partitions, the hollow amplifiers are separated from each other and from the sides of the plate by a distance that allows them to be placed between them through transverse cuts of a closed circuit between the amplifiers and open cutouts from the sides for plumbing and ventilation equipment on the stoves for internal use and with the possibility of placing insulation in the area of the wall panel for the stove with a balcony console. Specified reinforcing bars

- 1,024,715 elements are made in the form of a steel sheet or welded reinforcing cage and are placed in the end zones and / or in the support zones of the cantilever plate outlets. Moreover, on both sides along each main reinforcing bar of the inter-hollow amplifier partition, additional longitudinal reinforcing rods are placed, which together with the main reinforcing rods, reinforcing elements and fixing means form a complex reinforcing tab of the I-beam in cross section with the possibility of creating a strength element when pouring and hardening concrete, functionally equivalent to the I-beam reinforced concrete beam built into the slab. Additional reinforcing bars are located in the longitudinal ribs of the plate. Reinforcing elements are made in the form of a steel sheet and have corrugation on their lateral surface in the form of extrusions to one or the other of its sides with their arbitrary alternation or made in the form of a welded reinforcing cage, which is a flat grid of welded pieces of reinforcing bars. These additional reinforcing bars are located in the lower and upper parts of all crossbars. From at least one end of the plate, both amplifiers are extended beyond its end by a distance not less than the thickness of the plate. The part of each amplifier protruding beyond the end of the plate has a rectangular or square cross section or a section of an I-beam. These voids have a round cross section, or have a cross section in the form of a rectangle connected together, with rounded corners at the lower base and half ellipse, or have an oval cross section, or have the shape of an oval, narrowed in the upper part, or have the form of a rectangle with rounded ends. These fixing means are made of strapping wire or in the form of welded joints.

Blueprints

The invention is illustrated by drawings, where:

in FIG. 1 shows a general view of a slab with an outlet for a balcony;

in FIG. 2 - variant of the end face of the plate with protrusions;

in FIG. 3 is a view AA in FIG. one; in FIG. 4 - inner plate;

in FIG. 5 is an embodiment of an inner plate with end protrusions;

in FIG. 6 is a view B in FIG. 2 and 6;

in FIG. 7 is a view BB of FIG. 6;

in FIG. 8 is a view of GD in FIG. 4;

in FIG. 9 is a view of DD in FIG. 4;

in FIG. 10 is a view of EE in FIG. 4;

in FIG. 11 is a view of MF in FIG. 3;

in FIG. 12 is a view of MF in FIG. 3, option;

in FIG. 13 - reinforcing element in the form of a steel sheet;

in FIG. 14 is a view of II in FIG. thirteen;

in FIG. 15 - reinforcing elements in the form of a welded reinforcing cage.

An embodiment of the invention

Hollow slab 1 with hollow amplifiers M contains a concrete body with upper in and lower n parts, separated by a transverse row of uniformly distributed longitudinal voids 2 with the possibility of the formation of concrete partitions 3 between them.

In this case, two of them 4 are hollow amplifiers M in the body of the plate 1, parallel to each other and symmetrical relative to the longitudinal axis 0-0 of the plate, and include longitudinal upper 5 and lower 6 main rods located in the upper and lower parts these partitions 4, reinforcing elements 7, connected to the upper 5 and lower 6 rods by fixing means 8.

The thickness of the cross-section of the partition 4 of each amplifier M is 3-6 the thickness of the sections of the remaining partitions 3.

The hollow amplifiers M are separated from each other and from the sides of the plate 1 by a distance b, which makes it possible to arrange through them transverse slots δ of a closed circuit between the amplifiers and open cutouts N from the sides for plumbing and ventilation equipment on indoor plates and with the possibility of placement insulation 9 in the zone of the wall panel installation for a plate with a balcony console Ζ.

These reinforcing elements can be made in the form of a steel sheet 10 or a welded reinforcing cage 11 and placed in the end zones and / or in the support zones of the cantilever outlets of the plate 1.

Moreover, on both sides along each main reinforcing bar 5 and 6 of the partition 4 of the hollow amplifier M there are additional longitudinal reinforcing rods 12, which together with the main reinforcing rods 5 and 6, reinforcing elements 7 and fixing means 8 comprise a complex reinforcing bar of I-shaped cross section with the possibility of creating a power element during pouring and hardening of concrete, functionally equivalent to an I-beam reinforced concrete beam built into the slab 1.

- 2,024,715

In the longitudinal ribs 3 of the plate 1, additional reinforcing bars 12 can be located. The reinforcing elements 7 can be made in the form of a steel sheet 10 and have corrugations on their lateral surface in the form of extrusions 13 on one or its other side with their alternating alternation or made in the form welded reinforcing cage 11, which is a flat lattice of welded pieces of reinforcing bars.

These additional reinforcing bars 12 can be placed in the lower n and upper in the parts of all crossbars.

At least from one end of the plate 1, both amplifiers M can be extended beyond its end in the form of protrusions 14 to a distance not less than the thickness of the plate 1.

The part 14 of each amplifier M protruding beyond the end of the plate has a rectangular or square cross section, or has a section of an I-beam.

These voids 2 have a circular cross section, or have a cross section in the form of a rectangle connected together, with rounded corners at the lower base and a semi-ellipse, or have an oval cross section, or have the shape of an oval, narrowed in the upper part, or have the form of a rectangle with rounded ends .

These fixing means are made of strapping wire 8 or in the form of welded joints (not shown).

Comparison of the claimed technical solution with the prior art known from the scientific and technical and patent documentation as of the priority date in the main and related sections did not reveal a tool that has features identical to all the features contained in the claims proposed by the applicant, including the purpose of the application. Those. the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the condition of patentability novelty.

Industrial applicability

This technical solution is industrially applicable, since its purpose is indicated in the description and title of the invention, it can be manufactured industrially and used for the construction of residential and public buildings.

The technical solution is workable, feasible and reproducible, and the distinguishing features of the device allow to obtain the desired technical result, i.e. are significant.

The technical solution, as described in each of the claims, can be implemented using the tools and methods described in the prototype, which became public until the priority date of the invention. Therefore, the claimed technical solution meets the condition of patentability industrial applicability.

Analysis of the known technical solutions in the field of the invention showed that the proposed device does not follow explicitly from the prior art for a specialist, since solutions having features matching the distinguishing features of the invention have not been identified and the influence of the distinctive features on the technical result indicated in the materials of the invention has not been confirmed. . Those. the claimed invention has features that are absent in the known technical solutions, and the use of these features in the claimed combination of essential features makes it possible to obtain a new technical result - expanding functionality by forming part of the plate of the console outlets of balconies and bay windows and making it possible to place ventilation holes in the plate and plumbing equipment.

Therefore, the proposed technical solution can only be obtained through a creative approach and is not obvious to the average person skilled in this field, i.e. meets the condition of patentability of the invention, the inventive step and, therefore, is new and has an inventive step.

The device is implemented as follows.

In the factory, two thickened reinforced baffle ribs 4 (hollow amplifier M) are manufactured in the slab, designed for the perception of bending loads with beam and cantilever support schemes, making it possible to make openings δ between the ribs and cutouts N along the edges of the plate 1 to the section of the reinforced baffles 4 without weakening the bearing capacity of the plate 1.

These openings δ and N are used, for example, in the form of openings for the passage of sanitary-engineering and electromechanical communications, as well as the passage of columns or pylons.

When using floor slabs 1 with the formation of a cantilever outlet Ζ for the perception of transverse forces arising in sections of hollow amplifiers M, reinforcement is introduced in them in the form of a corrugated sheet 10 or reinforcing cage 11, fixed between the main (working) rods 5 and 6 of the upper and lower reinforcement plates 1. In this case, in the plate 1, holes are filled in the contour of the wall mating with it, filled with a heater 9.

The use of this plate makes it possible to simplify the manufacturing technology of multi-storey buildings and the installation of ventilation and plumbing equipment and to reduce the range of parts without reducing the strength of the floors, which significantly reduces the cost of construction.

Claims (15)

CLAIM 1. A hollow core slab with hollow-core amplifiers, containing a concrete body with upper and lower parts separated by a transverse row of uniformly distributed longitudinal voids with the possibility of forming concrete partitions between them, while two of them are hollow-core amplifiers in the slab body, parallel to each other and symmetrical with respect to the longitudinal axis of the plate, and include longitudinal rods placed in the upper and lower parts of these partitions, reinforcing elements connected to the upper and lower rods and fixing means, characterized in that the thickness of the cross-section of the partition of each amplifier is 3-6 the thickness of the cross-sections of the remaining partitions, hollow amplifiers are separated from each other and from the sides of the plate by a distance that allows them to be placed between them through transverse slots of a closed circuit between the amplifiers and open cutouts on the sides for plumbing and ventilation equipment on indoor stoves and with the possibility of placing insulation in the installation zone there is no wall for the slab with a balcony cantilever, these reinforcing elements are made in the form of a steel sheet or welded reinforcing cage and are placed in the end zones and / or in the support areas of the cantilever plate outlets, while on the two sides along each main reinforcing bar of the partition of the hollow amplifier there are additional longitudinal reinforcing bars, forming together with the main reinforcing bars, reinforcing elements and fixing means a complex reinforcing tab of the I-beam on cross-section with the possibility of creating during pouring and hardening of concrete a power element functionally equivalent to an I-beam reinforced concrete beam built into the slab, and additional reinforcing bars are located in the longitudinal edges of the slab. 2. The plate according to claim 1, characterized in that said reinforcing elements, made in the form of a steel sheet, have corrugations on their lateral surface in the form of extrusions on one or the other of its sides with their arbitrary alternation. 3. The plate according to claim 1, characterized in that said reinforcing elements are made in the form of a welded reinforcing cage, which is a flat grid of welded pieces of reinforcing bars. 4. The plate according to claims 1 to 3, characterized in that the said additional reinforcing bars are located in the lower and upper parts of all the cross members. 5. The plate according to claim 1, characterized in that at least from its one end both amplifiers extend beyond the end of the plate to a distance of at least its thickness. 6. The plate according to claim 1 or 4, characterized in that the protruding beyond the end of the plate part of each amplifier has a rectangular cross section. 7. The plate according to claim 1 or 4, characterized in that the protruding beyond the end of the plate part of each amplifier has a square cross section. 8. The plate according to claim 1 or 4, characterized in that the protruding beyond the end of the plate part of each amplifier has a section of an I-beam. 9. The stove according to claim 1, characterized in that said voids have a circular cross section. 10. The plate according to claim 1, characterized in that the voids have a cross section in the form of a rectangle, the lower part of which is made in the form of a semi-ellipse. 11. The stove according to claim 1, characterized in that said voids have an oval cross-section. 12. The plate according to claim 1, characterized in that said voids have the shape of an oval, narrowed in the upper part. 13. The plate according to claim 1, characterized in that said voids have the appearance of a rectangle with rounded side walls. 14. The plate according to claim 1, characterized in that the said fixing means are made in the form of a strapping wire. 15. The plate according to claim 1, characterized in that the said fixing means are made in the form of welded joints.