SU1276785A1 - Apparatus for reinforcing prefabricated elements of multispan structure - Google Patents

Abstract

The invention relates to the field of construction and can be used to reinforce the stretched zone of reinforced concrete slabs, beams and trusses in buildings in operation, to reconstruct the supporting elements of coatings and floors. The aim of the invention is to reduce metal consumption. The device includes straps 2, which are fixed to the prefabricated elements I at the ends and spans, spacers 3 installed between the prefabricated elements in the lower zone. The delays 2 are fixed at the ends in the lower zone of prefabricated elements at the extreme supports, and in length in the upper zone above the intermediate supports with the help of hinged-movable joints 4 and in the lower zone of flight with the help of hinged-fixed joints 5. made in the form of a T-shaped double-hinge and a link with a locking protrusion located between the elements of the structure, and the angles of the bend of the legs on both sides of the T-shaped link are equal to each other. 7 il. to 05 00 SP

Description

The invention relates to the construction and may be used in strengthening the stretched zone of reinforced concrete slabs, beams and trusses in buildings in operation, in the reconstruction of the supporting elements of coatings and floors.

The aim of the invention is to reduce metal consumption.

FIG. 1 shows a device with a single bend in each span, a larger view; in fig. 2 - the same, with two kinks; in fig. 3 shows the node I in FIG. one; in fig. 4 - T-shaped link in the nlan; in fig. 5 shows an example of the implementation of a strut in the presence of embedded parts in prefabricated elements and supports; in fig. 6 - the same, in the absence of embedded parts in the supports; in fig. 7 - the same, in the absence of embedded parts in prefabricated elements.

A device for reinforcing precast elements of a multi-span structure includes reinforcing elements 1, straps 2, spacers 3, hinged-movable joints 4 and hinged-fixed joints 5. The structural elements rest on supports 6.

The projections 2 are made in the form of a filament located along a curve corresponding to this re-bending moment. The straps are fixed at the ends in the lower zone of prefabricated elements at the extreme supports, and in length in the upper zone above the intermediate one:, - the supports with the help of hinged-mobile joints, only vertical forces in the lower zone and with the help of fixed-hinged joints. The hinge-movable connections 4 are made in the form of a T-shaped double link with a locking lug, which is exchanged between the elements of the structure. Repulse 2 is thrown over rollers 7, it is possible to rotate around axis 8. Compound 4 rests on the structure with rollers 9, through which only vertical force is transmitted to 1 downward to the supports. The locking point 10 is made for an extreme case where, in an emergency situation, the connection 4 receives the unnecessary excessive movements to the left or the right by the unforeseen circumstances. At the same time, the fifth 10 abuts against the end of the structure and prevents further movement of the connection 4. To prevent movement of the connection 4, the bending angles of the wires on both sides of the T-link are made equal to each other.

In order to prevent the simultaneous loosening of the reinforcements of all the missiles in the event of a break in the protrusion in some section, it is fixed in the span of the hinged non-iodine joints 5.

Rasnorki 3, installed between the prefabricated elements in the lower zone, inspire horizontal forces. In the presence of embedded parts in supports 6 and collection

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Elements 1 spacers 3 are made in the form of welding of supporting embedded parts of reinforced elements to embedded parts of supports. In the absence of mortgages. parts in supports 6 spacers 3 are made by welding support; The fittings to each other are rigid with a metal element 11, and in the absence of embedded parts, by hardening with rigid concrete at the level of the bottom plate.

Tension can be carried out on supports or in spans using removable jacks. It is possible to use other methods of tensioning the same.

In the proposed device for reinforcing multi-span structures, rope, wire or rod reinforcement can be used as brats.

When tensioning an anchor during the manufacturing stage and during the application of an external load during the operation stage, vertical shear forces occur at the inflection points of the anchor, which balance part of the external load. The other part of the external load is perceived by the structural elements due to their longitudinal compression in the lower zone. Structural elements on intermediate supports are crimped with spacers, and at the ends they are clamped. In rez / staff, all e; 1ments of a multi-span structure in the longitudinal direction along the lower axis are identical compressive forces equal to the horizontal component of the first pressing force on the section at the extreme supports, and the vertical forces directed upwards, proportional to the angles of kink.

According to the proposed device, not only the vertical spreading of the strap is used to perceive the outside load, but also of the horizon; 1 the strap force component is transmitted to the structural elements in the horizontal section; on the lower zone at the ends.

The proposed device is useful for reinforcing multi-span split designs.

Claims (1)

The invention relates to the construction and may be used in strengthening the stretched zone of reinforced concrete slabs, beams and trusses in buildings in operation, in the reconstruction of the supporting elements of coatings and floors. The aim of the invention is to reduce metal consumption. FIG. 1 shows a device with a single bend in each span, a larger view; in fig. 2 - the same, with two kinks; in fig. 3 shows the node I in FIG. one; in fig. 4 - T-shaped link in the nlan; in fig. 5 shows an example of the implementation of a strut in the presence of embedded parts in prefabricated elements and supports; in fig. 6 - the same, in the absence of embedded parts in the supports; in fig. 7 - the same, in the absence of embedded parts in prefabricated elements. A device for reinforcing precast elements of a multi-span structure includes reinforceable elements 1, straps 2, spacers 3, hinged-movable joints 4 and hinged-fixed joints 5. The structural elements rest on onors 6. The straps 2 are made in the form of a thread arranged along a curve, corresponding to this bending moment. The straps are fixed at the ends in the lower zone of prefabricated elements at the extreme supports, and in length in the upper zone above the intermediate one:, - the supports with the help of hinged-mobile joints, only vertical forces in the lower zone and with the help of fixed-hinged joints. The hinge-movable connections 4 are made in the form of a T-shaped two-arnier link with a locking lug, exchanged between the elements of the structure. Repulse 2 is thrown over rollers 7, it is possible to rotate around axis 8. Compound 4 rests on the structure with rollers 9, through which only vertical force is transmitted to 1 downward to the supports. The locking point 10 is made for an extreme case where, as a result of unforeseen circumstances, the connection 4 receives unnecessary moves left / right to the left / right. At the same time, the fifth 10 abuts against the end of the structure and prevents further movement of the connection 4. To prevent movement of the connection 4, the bending angles of the wires on both sides of the T-link are made equal to each other. In order to prevent the simultaneous loosening of the reinforcements of all the missiles in the event of a break in the protrusion in some section, it is fixed in the span joints of the unmovable joints 5. The rasnorki 3, installed between the prefabricated elements in the lower zone, accommodate horizontal forces. In the presence of embedded parts in the supports 6 and prefabricated elements 1, the struts 3 are made in the form of welding the supporting embedded parts of the reinforced elements to the embedded parts of the supports. In the absence of embedded parts in the supports 6, the spacers 3 are made by welding the bearings; The fittings to each other are rigid with a metal element 11, and in the absence of embedded parts, by hardening with rigid concrete at the level of the bottom plate. Tension can be carried out on supports or in spans using removable jacks. It is possible to use other methods of tensioning the same. In the proposed device for reinforcing multi-span structures, rope, wire or rod reinforcement can be used as brats. When tensioning an anchor during the manufacturing stage and during the application of an external load during the operation stage, vertical shear forces occur at the inflection points of the anchor, which balance part of the external load. The other part of the external load is perceived by the structural elements due to their longitudinal compression in the lower zone. Structural elements on intermediate supports are crimped with spacers, and at the ends they are clamped. In rez / staff, all e; 1ments of a multi-span structure in the longitudinal direction along the lower axis are identical compressive forces equal to the horizontal component of the maximum strength of the bearing on the section at the extreme supports, and the vertical forces directed upwards are proportional to the angles bend According to the proposed device, not only the vertical spreading of the strap is used to perceive the outside load, but also of the horizon; 1 the strut pull force component, which is transmitted to the structural elements in the horizontal section; on the lower zone at the ends. The proposed device is useful for reinforcing multi-span split designs. Apparatus of the Invention A device for strengthening prefabricated elements of a multi-span structure, including knots, fixed in length to the prefabricated elements (mgm.m in the ends and spans, characterized in that, in order to reduce the metal intensity, it is made with struts installed between the prefabricated elements in the lower zone, the braces are fixed: 1en at the ends in the lower zone of prefabricated elements at the extreme supports, and in length - in the upper zone above the intermediate supports with the help of hinged-movable joints and in the lower zone of the span at pomopi-1 hinge viscous compounds. moreover, the hinge-movable joints are made in the form of a T-shaped double-hinged link with a locking lug, 7 times t i / i M & M placed between the elements of the structure, and the angles of bend of the braces on both sides of the T-shaped link are equal to each other. J PM 1 M i i P FIG. Welded d Rig 5 Sbarna cSapfia concrete