RU2324039C2 - Devise for strengthening girders of braced framework - Google Patents

Abstract

FIELD: FIXED CONSTRUCTIONS; DEVISE FOR STRENGTHENING A GIRDER OF THE BRACED FRAMEWORK.

SUBSTANCE: devise includes strengthening members in the form of pre-tensioned braces that are mounted under the girder bottom surface and rigidly attached with their one end to a support channel, disposed on one of the girder supports and with their other - by means of screw connections - to a locking mechanism rigidly attached to with the support channel disposed on the other support of the girder. The channels are pulled down to the bottom surface of the girder with ties passing through the holes formed in floor slabs along both side surfaces of the girder, and fastened with screw connections to crossbars disposed over the slab on the top surface of the girder. Furthermore, the support channels may be with end angles and pulled down to the girder with ties tightening the girder as well as bearing elements of the floor slabs.

EFFECT: increasing the load-bearing capacity of a girder.

2 cl, 5 dwg

Description

The invention relates to the construction and can be used to strengthen the crossbar of frame buildings, working in combination with prefabricated ceilings.

The device provides an increase in the bearing capacity of the crossbar with an increase in the load on the floor or with a decrease in the strength of the crossbar during operation of the frame building.

A device is known for reinforcing a reinforced concrete beam with the help of additional prestressed rod elements, fixed with their ends on the inclined branches of each main tightening and duplicating its horizontal branches in the span of a beam or crossbar (see USSR author's certificate No. 1434062, class E04G 23/02, 1985 .).

The disadvantages of the known device are the significant complexity of its use and metal consumption due to the use of additional prestressed rod elements, as well as due to the need to tension the rod elements at three points. In addition, the tension is made from the ends of the structure, which is difficult for reinforced mounted structures.

The closest to the claimed device in essence and the achieved effect is a method of reinforcing a reinforced concrete span structure, carried out using a device that includes prestressed reinforcing elements of metal, installed under the lower edge of the crossbar, and their fastening elements on the reinforced structure at the ends of the crossbar using clamps ( see description to USSR author's certificate No. 1767134, class E04G 23/02, 1990).

The disadvantages of the known device are the obligatory dismantling of the plates resting on the beam, or their temporary displacement by the reinforcement period, and the use of electric heating for prestressing the reinforcing elements is associated with technical difficulties in the performance of work and compliance with special safety requirements.

The objective of the invention is to increase the bearing capacity of the crossbar with an increase in the load on the floors of the building or in the case of a decrease in the strength of concrete of the crossbar, or in the case of corrosive wear of the longitudinal working reinforcement of the crossbar.

The problem is solved due to the fact that in the claimed device for reinforcing the crossbar of the bonded frame, working in conjunction with prefabricated overlapping of hollow core slabs, including reinforcing prestressed metal elements installed under the lower edge of the crossbar, and their fastening elements on the reinforced structure at the ends of the crossbar using the clamps according to the invention, the reinforcing elements are made in the form of rods, and the fastening elements are made with support channels placed on each support of the crossbar, clamps bent to the lower edge of the crossbar passing through openings formed in the hollow core slabs on both side edges of the crossbar and attached by screw connections to the transverse strips installed on the top of the ceiling on the upper edge of the crossbar, while the rods at one end are rigidly connected to the supporting channel placed on one bolt support, and screw ends at other ends of the rod are attached to a stop device rigidly fixed to the support channel of another bolt support to create a preliminary tension Ia reinforcing rods.

At the same time, end angles are rigidly attached to the supporting channels on each support of the crossbar, forming, together with the supporting channels, the supporting parts of the device mounted on the ends of the crossbar, and the clamps that attract the supporting parts to the lower edge of the crossbar are made to compress both the crossbar and the supporting sections of the floor slabs .

The technical effect obtained by the application of the claimed device is that the adjustable prestressing of reinforcing rods, brought under the lower edge of the crossbar and connected with the proposed design of the fastening elements with floor slabs, allows you to actively include reinforcing elements in the work and adjust the crossbar deflection practically in moment of amplification, as well as to carry out amplification without unloading the crossbar. And the placement of reinforcing rods between the supports of the crossbar and the use of a screw connection to attach the rods to the thrust device located on one of the supports of the crossbar, allow, in comparison with the prototype, to improve the conditions for work on strengthening the overlap of the communication frame and to ensure safety requirements when using the claimed device.

The invention is illustrated by drawings, where in Fig.1 shows the claimed device in General, mounted on a reinforced crossbar of the communication frame, Fig.2 - the claimed device in plan (view A in Fig.1), Fig.3 - section 1-1 figure 1, figure 4 - section 2-2 in figure 1, figure 5 - section 3-3 in figure 1.

A device for reinforcing a crossbar of a connection frame composed of a prefabricated slab of multi-hollow plates includes reinforcing elements in the form of rods 1, rigidly attached at one end to a supporting channel 3 with end angle 4 located on one support of the crossbar 2, and the screw connection 5 is attached to the other end of the rod with a thrust device 6 located on another support of the crossbar, rigidly connected to the supporting channel 3, located on another support of the crossbar.

The design of the supporting channel 3 with the end angle 4 on one and the other support of the crossbar is the same.

The supporting channel 3 is drawn to the lower edge of the crossbar 2 with clamps 7, passing through the openings 9 formed in the ceilings 8, located on both side edges of the crossbar. Clamps 7 on each support of the crossbar with one end are rigidly attached to the supporting channel 3, and the other with screw connections 10 with transverse strips 11 laid along the upper edge of the rib and partially on the floor slabs with a step corresponding to the void step in the floor slabs 8.

For more efficient inclusion of the proposed device in operation, the clamps 7 are placed in the holes 9 at such a distance from the supporting end face of the floor that when tensioning the screw joints 10, the clamps 7 compress both the crossbar 2 and the supporting parts of the hollow core slabs 8.

Reinforcing rods 1 can be made, for example, of reinforcing steel of class A-IV (V) and welded at one end to the supporting channel 3 on one support of the crossbar, and the tension in the rods is created using screw connection 5 by tightening the nuts 12 located behind the stop device 6.

To increase the working height of the cross-section of the crossbar and the inclusion of rods in the work with the middle sections in the middle part of the span set intermediate stops 13.

The reinforcement of the crossbar of the communication frame using the proposed device is as follows.

The holes 9 in the hollow core slabs 8 are drilled locally directly along the channels in order to preserve the strength and integrity of the supporting part of the plates. Clamps 7 with screw connection 10 are inserted into the holes 9 to the transverse strips 11 made, for example, of a channel. Under the lower edge of the crossbar, a support channel 3 is installed with an end angle welded to it 4. Clamps 7 are welded to the support channel 3 and attracted to the crossbar with screws 10.

Fasten in working position the rods 1 with screw connections pre-welded from one end 5. At one end, the reinforcing rods 1 are welded to the support channel 3 located on one support of the crossbar, and on the other support of the crossbar to the support channel 3 the stop device 6 is welded with holes in which insert the other ends of the rods 1 with screw connections 5. Install the intermediate stops 13 and tighten the nuts 12 of the screw connections 5 with the aim of tensioning the reinforcing rods 1. Control the forces in the rods by dynamo eral key force-tightening nuts.

The proposed device allows you to perform work to increase the bearing capacity of the crossbar of the connecting frame without dismantling the structure, effectively include reinforcing elements in the work and adjust the deflection of the crossbar. All assembly elements of the device are lightweight and allow you to manually or with the help of simple technical devices use the device to meet safety requirements and improve the conditions for work to strengthen the crossbar of the communication frame.

Claims (2)

1. A device for reinforcing a crossbar of a connecting frame, working in conjunction with a prefabricated slab of hollow core slabs, including reinforcing prestressed metal elements installed under the lower edge of the crossbar, and elements of their fastening on the reinforced structure along the ends of the crossbar using clamps, characterized in that the reinforcing elements are made in the form of rods, and the fastening elements are made with supporting channels placed on each support of the crossbar, the clamps drawn to the lower edge of the crossbar passing through without holes formed in multi-hollow slabs on both lateral sides of the crossbar and attached by screw connections to the transverse strips installed on top of the ceiling on the upper side of the crossbar, while the rods at one end are rigidly connected to the supporting channel placed on one support of the crossbar, and the other ends of the rod are screw connections are attached to a thrust device rigidly fixed to the support channel of another support of the crossbar to create a preliminary tension of the reinforcing rods. 2. The device according to claim 1, characterized in that end angles are rigidly attached to the supporting channels on each support of the crossbar, forming, together with the supporting channels, the supporting parts of the device mounted on the ends of the crossbar, and the clamps that attract the supporting parts to the lower edge of the crossbar compressing both the crossbar and the supporting sections of the floor slabs.

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