DE887403C - Circular steel formwork for the concrete or reinforced concrete lining of pressure tunnels in monolithic construction - Google Patents

Description

Circular steel formwork for the concrete or reinforced concrete lining of pressure tunnels in monolithic construction When executing circular concrete or. Reinforced concrete linings of pressure tunnels, the desire has always emerged, the tunnel pipe monolithic, d. H. to be carried out in one go, from bottom to top.

Originally, with the inclusion of a work break and thus a Construction joint worked. At an advanced point in time it was concreted through, however, the inner formwork with lost support bodies, e.g. B. steel supports supported.

While the laying of a construction joint for the concrete and steel insert is not to be regarded as a satisfactory solution, also have the Solutions with support of the inner shell on support bodies their shortcomings. So put lost steel supports, applied to great lengths, but a @ not insignificant Expenditure of lost material, which increases the cost of the tunnel.

The present invention goes further: it eliminates all of the im Concrete remaining supports of the inner formwork, and not just downwards compared to the dead weight of the inner formwork and the concrete load on the formwork back, but also upwards towards the buoyancy of the liquid concrete and after the Side opposite a compression of the circular profile on the fighters as a result the buoyancy or as a result of the load. This invention is in the following Well-founded train of thought The concreting of the tunnel is carried out in zones, for example in zones 10 m long.

Every day one zone is lettuced in a closed manner. The time required for a zone is about 20 hours in continuous operation, while the remainder of about q. Hours for setting up the formwork and other furnishings is needed.

The formwork for the individual zones are brought forward so that the rearmost zone of a sequence of about five to six zones mined; folded up, moved through the other zones to the top and erected there again will.

The formwork consists of an actual formwork skin and arched ribs about at a distance of z m.

The formwork pipe is taken by suitable measures, such. B. truss-like Formation of the arched ribs and installation of truss-like longitudinal beams, as self-supporting Carrier on zone length of z. B. 1o m formed. -The formwork pipe is stored afterwards the tunnel zone a on the formwork pipe of this Sfiollenzone, where noted let it be that the formwork remains on the concrete for about .4 to. days. The sthalation pipe is The formwork pipe is screwed rigidly to the formwork pipe in the neighboring zone furthermore receives an extension piece at its free end towards the tunnel zone c, that about r to 1.5 m outside the tunnel zone b by means of tensioning columns against the rock both in the direction after the sole and after the ridge is braced: the formwork pipe is so strong and stiff that it is kept free without any noteworthy or verte harmful deflections occur.

The downward bracing acts on the dead weight and the concrete load on the ridge, and the upward tension acts on the buoyancy of the liquid concrete from below.

In addition, each vertical of the longitudinal stiffening beam is opposite the arched rib located in the same vertical plane. Trusses so stiffened that a compression of the circular shape into a lying ellipsoidal shape by buoyancy and the latter's reaction from above or by letting go and their reaction from below is negated.

Thus, the formwork tube floats freely and the concrete can therefore be used as a Monolith in one cast without the use of lost steel supports or reinforced concrete supports be concreted.

That the formwork at the free end of the tunnel zone b is also a front formwork is only mentioned for the sake of completeness.

The fact that tensile reinforcement can also be inserted into the concrete, should also be mentioned. This is important for the present invention, than the reinforcement is laid in advance by one zone and thus the tensioning columns of the extension piece against the rock between the reinforcing bars have to take action. Also the support plates that are attached to the ends of the tensioning screws .some articulated must pass between the reinforcing bars can be inserted and removed again.

It. reference is made to Figs. r and a, of which Fig. - i is a longitudinal section and FIG. 2 shows a cross section of a tunnel zone.

According to this, a distinction must be made between three tunnel zones. the zone b, which is currently being concreted, zone a, which has already been concreted, .der Zone c, which is still free.

The formwork consists of the Schalunigshaut d and the steel arched ribs e in the shape of a circle, supplemented by the frameworks e and v. The two steel longitudinal stiffening girders f are built into the formwork tube with the upper chords g, the lower chords da, the diagonals i and the verticals k: the latter coincide in the drawing with the formwork elements e.

On the free side, the extension piece l is connected to the longitudinal stiffening girders with the upper chord m, the lower chord st, the diagonals o and the vertical p.

q is the screw connection of the longitudinal reinforcement beam.s f zone b with the longitudinal reinforcement beam of zone a and y the screw connection with the extension piece 1. -The saddles s serve as supports for the tensioning columns t, which are provided with support plate u. The trusses v each between the vertical h of the stiffening girders f and the arched rib e ensure the circular shape of the formwork tube.

w are the steel reinforcements in the concrete, in the spaces between them - the Tensioning screws t and the support plates u must be pushed in.

Thus, the concreting of the tunnel pipe without staying in one Pour from the bottom up and without the support body remaining in the concrete and without däß There is a large cost to run for lost steel parts.

Claims (1)

'' PATENT CLAIM: Circular steel formwork for the concrete or reinforced concrete lining of pressure tunnels in monolithic construction, characterized in that the formwork pipe of each concrete section next to the ring ribs by means of half-timbering connected to them Longitudinal reinforcement girders both against concrete buoyancy and against its own weight and concrete build-up is formed in a rigid body and the stiffening girders on, the ends with means for connection to the previous formwork or one are provided against the field supported clamping frame.