DE3446006A1 - Corrosion-protected reinforcing bar for bridging planned structural joints - Google Patents

Abstract

In order to protect a reinforcing bar (4a, b, c), which bridges a planned structural joint (3) between concrete structures, for example an insulating air gap between a balcony slab and the floor slab located inside, effectively against corrosion, it is proposed that the reinforcing bar (4) be sheathed by a sealing, corrosion-proof sleeve (7) over a length of at least the joint width (5) plus the grip lengths (6/1, 6/2), in the adjacent concrete components (1 or 2), on either side which are necessary for corrosion protection, and that the sleeve (7) be fixed at least initially indisplaceably on the reinforcing bar (4). <IMAGE>

Description

Corrosion-protected rebar for bridging according to plan Structural joints The invention relates to a corrosion-protected reinforcing bar for bridging planned structural joints.

To avoid cold bridges in reinforced concrete structures, external Components for the purpose of thermal insulation through air gaps from the inside Separate concrete structure. If the external components are not independent static systems, static forces - pressure, Tensile and shear forces - are transferred. Offer to transmit such forces the reinforcing bars already used in the building. Since this is in the area of the air gap are exposed, they are exposed to aggressive influences and must therefore be protected against corrosion.

It is known to use stainless steel ribs in such joints use. In this case the irons piercing the joint are in their entirety Length made of stainless steel. Because of the high material price of stainless steel this type of construction is expensive.

It is still a prefabricated construction for installation in Known insulation joints in balcony slabs, where reinforcing bars are used for tensile transmission which have a stainless steel rod part in the endangered area normal reinforcing steel rod parts are welded on at both ends. To transfer Elastomer bearings are used for the compressive forces. These built-in structures with Reinforcing bars made from different types of steel welded together and special storage elements can only and not in establishments set up for this purpose can be produced on the construction site. They are labor intensive and require additional ones Transportation costs.

The object of the invention is to provide an economic Ren, too to develop corrosion protection in the joint area that can be produced on site.

The task is by the in the characterizing part of claim 1 described means solved.

The inventive solution can be used for the transmission of the static forces in the adjacent components required normal reinforcing iron run through in the area of the joint. The risk of corrosion in the joint area is increased by simple measures that can be carried out on the construction site are achieved.

Refinements of the invention are set out in subclaims 2 to 10 described. Solutions according to claims 2 to 4, 9, are particularly advantageous. 10. The means used according to these claims for corrosion protection can all or part of the static not covered by the lack of concrete Take over functions in the joint gap and thus increase the profitability of the measure taken.

With the help of a force fit in the open joint area on the rebar Pressed-on pipe sleeve, the load-bearing capacity of the reinforcing bar in the weakened Joint area increased by increasing its load-bearing cross-section and its buckling resistance will.

As a rule, the sleeves are made after the reinforcement bars have been manufactured be applied. Rigid pipe collars can be used for curved reinforcing bars cannot be pushed into the installation point from the ends of the rod. That's why is proposed according to claim 10, longitudinally slotted sleeves or two half-shells to be used that can be slipped over the side of the reinforcement bar.

If necessary for reasons of corrosion protection, you can the longitudinal slits of the cuff are subsequently closed again.

Cuffs that are not also used statically for cooperation, only need to be fixed once to the reinforcing bar in order to secure the sleeve secure against unintentional shifting. Fastening options for a cuff exist on the reinforcement bar by wedging, screwing, welding, pressing by cold or thermoplastic deformation, as well as by gluing, potting, Foam or mortar.

Corrosion-proof reinforcing bars according to the invention are for Bridging of air spaces not only in insulating joints but also in construction-related ones Joints can be used, for example, with anchoring elements in precast construction.

The invention is illustrated using examples in FIGS. 1 to 3. 1 shows a cross section through an insulating structural joint, FIGS. 2 and. 3 longitudinal sections through cuffs according to the invention, Fig. 2 according to claim 2, Fig. 3 according to claims 5 and 6.

The joint 3 is between the concrete components 1 and 2 of a structure arranged. It is made of reinforcement pierce rods 4a - 4c, exposed to the corrosive effects of the air in the joint 3 on the width of the joint are. In order to protect a rod 4 against corrosion, it is extended to length 5 of the joint width plus the tie-in lengths 6/1 and 6/2 in the adjacent concrete components in the example according to Fig. 2 by a sleeve 7 encased from stainless steel, which at both ends 8 tight, immovable and is positively pressed onto the rod 4. The rod can be extended to a length of 9 a coat of cement milk.

In the example shown in Fig. 3, a corrosion-resistant one Plastic tube 10 of length 9 by appropriate heat treatment on a Rod 4 shrunk tight. The hose 10 is through a second pipe sleeve 11 made of suitable material - for example metal or plastic - against mechanical Injuries protected. For local fixation, the pipe sleeve 11 is on their Ends 12 pressed onto rod 4. - L e r s e i t e -

Claims (10)

Corrosion-protected rebar for bridging according to plan Structural joints ============================================== Patent claims 1. Corrosion-protected reinforcement bar for bridging planned structural joints between concrete structures - for example an insulating air gap between a balcony slab and the inner ceiling slab -, d a d u r c h g e k e It is noted that a tight, corrosion-resistant sleeve (7, the reinforcing bar (4) over a length of at least the joint width (5) plus the two-sided for the necessary binding lengths (6/1, 6/2) in the adjacent concrete components (1 or 2) and since the cuff (7, 10) is immovable at least once is fixed on the reinforcement bar (4). 2. Corrosion-protected reinforcing bar according to claim 1, d a d u r c h e k e k e n n n e i c n e t that the sleeve (7) is a corrosion-resistant Metal pipe - for example made of stainless steel - is. 3. Corrosion-protected reinforcing bar according to claim 1, d a d u r c h g e k e n n -z e i c h n e t that the cuff from the section of a with Corrosion protection - for example made of plastic - provided with commercially available steel pipe consists. 4. Corrosion-protected rebar according to claims 1 to 3, d a d u r c h g e -k e n n n z e i c h n e t that the corrosion-resistant metal sleeve is positively connected to the reinforcing bar at both ends. 5. Corrosion-protected reinforcing bar according to claims 2 and 3, d a d u r c h g e k e n n -z e i c h n e t that the reinforcing bar is at least up to the umhulite length of the cuff (9) with a basic medium - for example Cement milk - is prepainted. 6. Corrosion-protected reinforcing bar according to claim 1, d a d u r It is noted that the cuff is a plastic tube. 7. Corrosion-protected reinforcing bar according to claim 1, d a d u r it is not indicated that the cuff is made of natural and / or synthetic rubber is vulcanized. 8. Corrosion-protected rebar according to claim 1, d a d u Note that the cuff is made from a plastic tube (10), which can be shrunk tightly onto the reinforcing bar by heat treatment is. 9. Corrosion-protected reinforcing bar according to claims 1 to 3 and 6, that in the joint area in addition to the sleeve, which is resistant to mechanical attack and corrosion, according to the claims 2, 3 or 6 a further corrosion protection - for example by coating or a method of treatment according to claims 7 or 8 - applied to the reinforcing bar is. 10. Corrosion-protected reinforcing bar according to claims 1 to 10, d u r c h e k e n n n z e i c h n e t that the for the corrosion or mechanical Protection pipe sleeve used has at least one longitudinal slot, so that they can be slipped over the rebar: st, and that - as far as the corrosion protection requires - the tight closed cuff by pressing and connecting - for example can be restored by screwing, welding or gluing the two banks of the slot is.