DE3841636A1 - ARMORING FOR CONCRETE CONSTRUCTIONS UNDERGROUND - Google Patents

Abstract

Until now, no satisfactory proposals have been made for a more reliable protection of the flexible form work used in producing essentially round concrete works below ground. It is proposed to use the joining of individual mats known from the case of lagging mats for underground work also as the tying means, made up of such joined-together mats, which interlink in a way resistant to tensile forces when pressure is exerted by the concrete filled into the form work.

Description

The invention relates to a reinforcement according to the preamble of the main claim.

The use of hydraulically setting building materials Underground continues to increase. Recently it has also started in the transition area to insert cement pillars between track and longwall put, which are poured into place, taking as formwork for this in-situ concrete, flexible, tubular term foils are used. Although these slides have a high strength, it appears desirable, the foils on the outside by me secure metallic reinforcements, which not only the pressure when pouring the concrete into the formwork is recorded, but at the same time forms late also the armouring is a protective grille for the pillar so obtained.

The invention has for its object an Ar to create lubrication that is suitable in connection to be used with flexible formwork, whereby there are special requirements that the reinforcement when the concrete is poured into the Formwork can not solve.

This object underlying the invention will solved by the teaching of the main claim.

The invention is based on the consideration that Ver train mats known for underground mine construction  are the pressure from the mountains too an automatic, tensile locking of the mats lead among themselves. The use of such mats, which are now based on the design are coordinated with the new application Advantage that when pouring the concrete into the Scha the mats tighten each other, the by the formed between the longitudinal and transverse wires Parts of flexible formwork passing through fields an intimate fixing of the reinforcement on the outside side of the formwork.

The transfer of teaching z. B. according to the DE-PS 26 01 355 on the new purpose he is resourceful as it was not close to the ar mation of concrete structures such, from the Be the construction mats known construction warp male to take over.

Advantageous configurations are in the Unteran sayings explained.

An embodiment is described below with reference to Drawing described.

In the drawing, A indicates a concrete pillar, which has a formwork made of a flexible mat B , this formwork being protected on its outside by three reinforcing mats 1 , 2 and 3 . Each reinforcing mat 1 , 2 or 3 consists of longitudinal wires 4 and cross wires 5 , which are welded together at their intersection points at 6 .

The longitudinal wires 4 of the reinforcing mat 1 are angled in their end region at 10 in a hook shape by approximately 90 ° and then carry on their outside a cross element 7 , which is formed by a rod extending across the entire mat, which is fixed on the outside of the longitudinal wires 4 is welded on.

A crossbar 9 lies freely against the back of the longitudinal wires 4 . It is bent abge in its end region on the inside of the reinforcement mat 1 , 2 or 3 and firmly welded to the longitudinal wires 4 .

At the opposite end of each reinforcement mat 1 , 2 or 3 , hooks 8 are provided, which are achieved by simply bending back the respective longitudinal wire 4 . A tensile connection of the reinforcement mats 1 , 2 and 3 to be connected to each other takes place when pressure is applied due to the concrete A filled in the formwork B. The forces exerted by the hooks 8 on the crossbar 9 act a loop-like tightening of the hooks 8 in connection with the cross member 7 , so that the connection thus created is able to carry tensile forces up to the tensile strength of the longitudinal wires 4 .

Depending on the size of the pillar to be cast and depending on the length of the longitudinal wires 4 , in order to be able to safely encompass the corresponding circumference of the pillar, the longitudinal bars 4 are bent or slightly angled, so that - as the drawing shows - through the interaction of the ver different mats 1 , 2 or 3 and the corresponding bend the profile of the pillar can be achieved. The number of longitudinal wires 4 depends on the height of the pillar, but it is also possible to place several mats on top of one another.

Claims (6)

1. Reinforcement for flexible formwork for the manufacture of essentially round concrete structures underground, characterized by several re-connected reinforcement mats ( 1 , 2 , 3 ), each of which consists of longitudinal and transverse wires ( 4 , 5 ), which on the Crossing points ( 6 ) are connected to one another and their longitudinal wires ( 4 ) are bent in a ken shape at the ends ha on the one hand and angled on the other hand and are provided with a fixed cross element ( 7 ) against which the free end of each hook ( 8 ) of the longitudinal wires ( 4 ) of the adjoining reinforcement mat with its outer side supports, the hook ( 8 ) in the deepest hook engages a crossbar ( 9 ) arranged on the back of the other reinforcement mat and the cooperating with the deepest crossbar ( 9 ) in the area of the attacking hook ( 8 ) is resiliently arranged on the longitudinal wires ( 3 ) of the associated mat ( 1 , 2 , 3 ). 2. Armoring according to claim 1, characterized in that the cross bar ( 9 ) in its end areas on the top of the reinforcing mat ( 1 , 2 , 3 ) bent and fixed to one or more of the longitudinal wires ( 4 ). 3. Reinforcement according to claim 1 or 2, characterized in that the cross element ( 7 ) is formed by an over the reinforcement mat width by going cross wire ( 5 ) which is welded onto the ends of the longitudinal wires ( 4 ), this end of the mat approximately Is turned 90 °. 4. Reinforcement according to one or more of the preceding claims, characterized in that the cross wire ( 7 ) forming the cross wire has a larger diameter than the other cross wires ( 5 ). 5. Reinforcement according to one or more of the preceding claims, characterized in that the cross bar ( 9 ) has the same diameter as the longitudinal wires ( 4 ). 6. Reinforcement according to one or more of the preceding claims, characterized in that the longitudinal wires of each mat ( 1 , 2 , 3 ) are curved or angled inwards.