CZ307101B6 - A method of limiting a sag and increasing beam load - Google Patents

Abstract

Limiting deflection of beam and creep, especially panel the new beam, or the redevelopment of the old beam rests in a first step bending the base member (1) of the beam upward against future auxiliary loads bending means (3), the effect of which is exerted by forces In the second step in the connection of flexible flat of shims (2a), (2b) on top and / or bottom surface of the base member of the beam. After affiliation basic beam element (I) with auxiliary tool (3) to bend. When manufacturing a new beam type the sandwich panel is attached to the top and bottom tabs the surface of the base member of the beam. When remediation of the old beam is attached to the top only the surface of the beam.

Description

Technical field

The invention relates to a method for reducing the deflection and increasing the load-bearing capacity of a beam formed from a base member and stiffening plates.

BACKGROUND OF THE INVENTION

When assessing the static capability of new bent beams, especially slab-shaped beams, the limit state of deformation is usually decisive, even if the beam is sufficiently dimensioned in terms of the ultimate limit state. Therefore, it is important when designing beams to reduce their deflection and suppress creep, which increases deflection over time.

When reconstructing old buildings, it is usually necessary to repair the ceilings, especially wooden beams, whose load-bearing capacity decreases in many decades over decades to hundreds of years. Often new requirements for increasing the load-bearing capacity of ceilings are also required in connection with new applications, which implies the need to substantially increase the load-bearing capacity of existing ceiling beams. Advantageously, the load-bearing capacity of existing beams is solved by their additional prestressing. From CZ patents 295 097, 303000, 305094 and finally 304822, methods are known in which the load-bearing capacity is solved by attaching prestressed metal members with bending stiffness to the existing beam, causing bending moments in the beam in opposite directions to the moment of loading. These solutions are based on the handling of prestressed elements, which is relatively laborious. KR20010054105 and K.R101400449 increase the load-bearing capacity of the load-bearing structure by means of a reinforcement element at the bottom of the beam. US 5671572 solves an increase in the strength of a beam especially in installed bridges by attaching external reinforcement to the front walls of the beam.

SUMMARY OF THE INVENTION

The method of the invention consists in reducing the deflection of the beam and the creep by first bending the base member of the beam upward against future loading by the bending aid and in a second step connecting the yielding flat tabs to the upper and / or lower surfaces of the base member. When making a new beam of the sandwich panel type, the shims are attached to the upper and lower surface of the basic member of the beam.

In case of old beam / beam restoration, the shim is attached only to the upper surface of the beam.

After the base member of the beam has been coupled to the shims, the bending aid is removed. The coupling of the base element to the shims is preferably carried out by means of glue or screws.

The flexible flat plates have low flexural stiffness and can be made, for example, of sheet metal.

In this way, when the bottom strands of the base member of the beam are pushed and the top strands of the base member are pulled, and the shims are insignificantly stressed, the coupled beam is ready to transmit the load with the stress curve over the inverse sign cross section than from the future load. As a result, the normal stress and thus the creep in the base member of the beam is reduced and even the deflection is reduced.

- 1 GB 307101 B6

Clarification of drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in more detail in the accompanying drawings, in which: FIG

Fig. 1 shows the bending of the base member of the beam against future load,

- Fig. 2 shows the coupling of the bent base member of the beam with shims,

Fig. 3 shows the straightening of the base member of the beam after removal of the bending aid and after loading q,

- Fig. 4 shows normal stress folding - variation of attachment of shim 4a, 4b, 4c,

- Figure 5 shows the process of manufacturing a new sandwich panel,

Fig. 6 shows another possible way of bending the base member of the beam,

- Fig. 7 schematically shows an artificially curved roof girder by means of a clamp on the upper and lower surfaces of the girder,

Fig. 8 schematically shows the renovation of an old ceiling beam.

The method of limiting the deflection and increasing the load-bearing capacity of the beam according to the invention is explained in principle in FIGS. 1 to 3, in which the individual steps are schematically illustrated: in the first step (FIG. 1) the beam member 1 is bent upwards by forces N against the future load q. When bending, the base member of the beam is secured at its ends by supports 5. The forces N causing bending of the base member of the beam are exerted by a bending aid (not shown).

In a second step (FIG. 2), flexible flat shims 2a and 2b are attached to the upper and lower surfaces of the base member 1 of the beam and are coupled to the member 1.

In the third step (Fig. 3) after removal of the bending aid, the base member 1 of the beam is straightened after loading q.

Giant. 4 shows the normal stress of the base member of a new beam or old beam from the load N, denoted by σ _ _N, and the composite beam from the load q + N, denoted by σ _{q + N} in various variations of the splice connection. In Fig. 4a, the shims 2a and 2b are attached to the upper and lower surfaces of the base member 1, in Fig. 4b the shelf 2a is attached to the upper surface of the base member j, and in Fig. 4c 1 beam. The shaded areas show the resulting normal stress.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

Fig. 5a shows a process for the production of a new sandwich panel type beam comprising 4 layers - the basic elements and the beam. The base member 1.1 of the beam is supported on the end supports 5 without shims and anchored in quarters of the span to the floor to produce the desired deflection. A detailed procedure is shown in Fig. 5b where the base element 1.1 is provided with cut-outs on the sides to which it is attached on each side by means of a pin 4a. 1 tube 4b. 1 with internal threads into which by rotation of the pin 4c. 1, anchor 4d.l anchored to pipe 4b.O.

-2 GB 307101 B6

This is followed by similar steps for the second base member 1.2 of the beam.

A pipe 4b.2 with internal threads is attached to the base element 1,2 provided with glue 2b and cut-outs on the sides, using a pin 4a.2 to attach the threaded anchor 4d.2 to the tube by turning the pin 4c.2. 4b. 1. After deflecting the base element 1.2 into the desired shape, an adhesive and a spacer 2a are applied to its upper surface.

This is followed by similar steps for the other base members 1.3, and 1.4 of the beam, terminated by gluing the spacer 2a to the upper surface of the base member 1.4.

The bonding of the constituent elements 1.1, 1.2, 1.3 and 1.4 with items 2a and 2b consists in hardening the adhesive throughout the stack at once for all the constituent elements 1.1, 1.2, 1.3 and 1.4. The anchors 4d.1, 4d.2, 4d.3 and 4d.4 are then disconnected.

The individual curved sandwich panels 1.2, 1.3 and 1.4 are stored in a mitered position outside the supports 5 and the curved upward assembly is installed in the structure.

Example 2

FIG. 6 shows another possible way of bending the individual base members 1 of the beam. The two base elements 1, provided with shims 2a and 2b and a hitherto unhardened adhesive, are opposed to each other by an auxiliary means 3 comprising spacers 3.1 and connecting bolts 3.2 at the ends of the element 1 so as to obtain the desired bending. After the adhesive has set, the spacers 3.1 and bolts 3.2 are removed.

Example 3

In the example shown in Fig. 7, a roof sandwich beam was prepared. A wooden beam with a span of 8 m, a width of 1.0 m and a thickness of 100 mm bent by N forces 3 (not shown) to an elevation of 176 mm was used and subsequently a 1 mm thick strip steel sheet 2a was attached to its upper surface. the lower surface was joined with a spacer 2b of the same material as the spacer 2a. Both shims 2a and 2b were attached to the surfaces by means of an adhesive. After coupling of the beam 1 with the inserts 2a and 2b, the auxiliary device 3 was removed and after loading with a force q there was zero normal stress in the wooden beam and zero beam deflection.

Example 4

Fig. 8 shows a method according to the invention for the rehabilitation of an old beam 1. The beam 1, which has been undersized three times, has an 8 m span of 160 x 240 mm ² . The beam 1 was bent - increased by 100 mm with the aid of a three-part fixture (I central element 3.1 and two U outermost elements 32) allowing rectification to respect the actual length of the beam. Subsequently, a 6 mm thick strip steel sheet 2a was attached to its upper surface by means of screws and glue. After joining the beam J with the spacer 2a, the beam bending aid 3 was removed.

Industrial applicability

The method according to the invention is applicable for the production of ceiling and roof beams as well as for the renovation of ceiling beams.

Claims (4)

Method for reducing the deflection and increasing the load-bearing capacity of a beam, in particular a new beam panel or repairing an old beam, characterized by first bending the beam base member (1) against future loading with a bending aid (3), The compliant flat shims (2a), (2b) attach the base element (1) of the beam and after the coupling of the base element (1) to the shims (2a), (2b) the auxiliary tool (3) is removed. Method according to claim 1, characterized in that the flat shims (2a), (2b) are attached to the upper and lower surfaces of the base member (1) of the new beam. Method according to claim 1, characterized in that the flat shim (2a) is attached to the upper surface of the old beam. Method according to claims 1 to 3, characterized in that the coupling of the base member (1) of the new beam with the shims (2a), (2b) or the upper surface of the old beam with the shelf (2a) is performed by means of glue or screws.