DE2637738A1 - Tunnel lining with arches and corrugated sheets - has corrugated cold rolled steel sheets secured to return flanges of U=section arches - Google Patents

Abstract

The tunnel lining consists of steel arches (3) which match the shape of the tunnel, e.g. inverted U shape, or circular, between which cladding sheets (2) are retained, along the sides of the tunnel. The arches can be returned flanged, with the sheets attached to the return flanges (7), and the sheets are corrugated. The corrugations can be rounded, triangular or trapezoidal. The interior of the U section faces the interior of the tunnel. The U-section is flanged, with angle section members (9) bolted to the flanges, with sealing strips (10) between. The corrugated sheets are then secured to the other leg of the angles. The bend of the U section forms an obtuse angle. The corrugated sheets are of cold rolled steel.

Description

Steel lining of tunnels for roads, subways and the like.

The invention relates to a steel lining for tunnels For streets, subways, etc., consisting of spaced apart Steel arches and with running in the direction of the longitudinal axis of the tunnel and with the Steel arches firmly connected profiled steel warping sheets, which together with the Steel arches a lining of hollow body, bowl-shaped or similar shape form.

In mining, longwall and tunnel extensions with arches and From arch to arch, planks made of wood, concrete or steel profiles are placed next to one another known. The straight bends are essentially made of hot-rolled double-T or Gutter profiles formed. This construction corresponds to the usual requirements in mining Absolutely, especially since such an open construction is always reduced or enlarged the Clearances between the arcs or through subsequent reinforcements the arch profiles can be adapted to the rock pressure occurring. About that In addition, there are also larger dislocations in mining that change the tunnel cross-section and displacements permitted, provided the overall stability of the lining structure is not affected.

In the construction of tunnels for roads, subways and the like, on the other hand, there is such a thing Expansion has so far proven to be unusable because it is not completely watertight, the elastic flexibility of the lining in the axial direction of the tunnel is too low and the subsidence of the lining structure that is still permissible in mining the required maintenance of the clearance profile and the positional accuracy in tunnel construction endanger the tunnel tube.

Are tunnels built in areas that are in the area of impact of mining and in those with size and type that cannot be predicted Mountain influences must be expected, are the well-known, in reinforced concrete or Linings produced in mixed construction essentially as a result of their largely rigid behavior unsuitable. If a tunnel is not built using the cut-and-cover method, but can only be driven underground, so are others too Lining constructions, e.g. on the installation of sheet piling and a these spanning elastic folds forming the ceiling of the tunnel are based, not applicable.

The invention is based on the object, while maintaining the economic Advantages of the expansion known in principle from mining while avoiding the for which he- direction of tunnels for roads, subways u.d, l. in order to associated disadvantages to create a steel extension, which everyone, to such Structures to make demands is also sufficient if the tunnels in mining Areas of impact and also created in the underground tunneling process must be where strong, in advance not clearly determinable load components through Elongations, shortenings, dislocations, earth stairs, subsidence, etc. can occur. For this purpose, the invention is characterized in that the steel arches are made from arched profiles exist with the open profile cross-section directed towards the inside of the tunnel and with the adjacent warping sheets are connected in a sealed manner, with arched profiles and warping sheets a tightly closed, elastic lining body in each axis form. The arched profiles and the profiled warping sheets are preferably made made of cold-formed sheet steel.

In this design of the enveloping body, the steel arches and also act the distortion elements connected to these so sufficiently elastic-plastic that they can follow the occurring mountain influences by changing their shape so far, like this to preserve the clearance profile and the given position of the tunnel tube at most is permissible and the enveloping body can nevertheless withstand these influences so far can ensure that the overall stability and the extreme deformation limits are preserved. In addition, the requirements for the formation of plastic hinges are thus also met fulfilled without endangering the overall elastic system. Also permitted the construction the easy execution of arches in the tunnel, because not the Base, but only the warping sheets as intermediate elements ments through corresponding cuts of the given tunnel routing must be adapted.

An open, cold-formed profile cross-section is used for the arch profiles - preferably hat-shaped - provided, the open side of which faces inwards, i.e. facing the inside of the tunnel. This profile is by the invention Shaping particularly elastic in both the transverse and longitudinal directions. The arch profiles can be used as a closed ring, frame, Arc of circular, elliptical or similar shape be formed, or consist of individual subsegments assembled directly at the construction site.

The bottom of the hat-shaped arched profile can be preferred from either side be designed inclined inward. Furthermore, the hat-shaped arched profile can then have legs running back to the folds, i.e. facing the tunnel wall, The legs should form an angle of a maximum of 900 with the bevels.

The warping plates to be attached between the arch profiles can profiled, e.g. sinusoidal, trapezoidal or meandering in the longitudinal direction, the Arch shape of the tunnel tube or the steel arches according to bent and additionally in the direction the tunnel wall can be pressed in a roof-shaped manner.

In this way, the distortion elements achieve maximum stability also good deformability, especially with critical elongations and Foreshortenings.

The watertightness of the overall lining is achieved in that on the one hand the arched warping plates by welding or by adding them of sealants Screwing or the like. to a closed one Enveloping body are connected, which in turn, on the other hand, with the abutment surfaces on the free legs of the hat-shaped arch profile by welding, screwing or the like. is connected.

The expansion system according to the invention allows the steel arches as well the distortion elements within a tunnel to the previously differentiable loads adapt by different dimensions or additional reinforcement elements, without affecting the overall function. A particular advantage of the System is that such reinforcement measures, if necessary, can also be done retrospectively at any time without great effort can be.

For immediate or subsequent local reinforcement the overall construction, which can also be done in multiple stages, can various elements can be used. Your choice depends on the reinforcement needs and installation options It can be profiled elements, e.g. trapezoidal or hat-shaped profiles, acting in the open cross-section of the steel arches inserted and connected to these preferably by welding, screws and the like will. With certain loads, more or less sinusoidal shapes are sufficient shaped sheets. The special shape of the reinforcements makes it malleable of the overall system, especially in the longitudinal direction, is not impaired. The one in both Cases within the steel arches formed cavity can be added in a known manner with a stabilizing material, e.g. with casting compounds, rigid plastic foam or similar fillers or liquids.

The invention is based on the exemplary embodiments shown in the drawing The figures show: FIG. 1 the view of two different tunnel cross-sections in perspective view.

2 shows a section through a steel arch profile.

5 to 5 excerpts from a tunnel longitudinal section.

Fig. 6 to 8 different forms of the warping plates.

9 to 15 different examples of reinforcement profiles and their fastening options on the steel arches.

The steel tunnel lining is made of steel arches 1 and warping sheets 2 formed. For the steel arches 1, a cold-formed hat-shaped one is preferred Profile 5 used, the bottom 4 of which is preferably inclined on both sides towards the inside of the profile is, the webs 5 tapering towards the bottom in a trapezoidal shape and bevels 6 have. Furthermore, free legs 7 can be provided, which are connected to the adjacent, The bevels 6, positioned parallel to the longitudinal axis of the tunnel, form an angle 8, which can be 900 or smaller.

The drafting sheets 2a, 2b, 2c can be corrugated in the longitudinal direction, e.g. 6 to 8 be sinusoidal, trapezoidal or meander-shaped. they are possibly 1 and 3 to 5 between the Steel arches 1 shaped like a roof in the longitudinal direction of the tunnel after the tunnel wall.

According to FIG. 3, the warping plates 2 can also have the head side the free legs 7 of the arched profile 3 are welded. Other connection options 4 and 5 show. After that, the warping plates 2 are initially attached to an angled Ring profile 9 welded and this then with the free legs 6 one after Fig.

2 modified arched profile 3a with the addition of a sealant, e.g. a flat sealing strip 10, screwed on. According to Fig. 5 are the warping plates 2 welded to a hook profile 11, for example, which the free legs 7 of the arched profile 3 and with the interposition of a seal, e.g. Sealing strip 10, with the bevels 6 can be screwed.

Fig. 9 shows a trapezoidal reinforcement profile 12, which with the free leg introduced to the bottom of the arched profile 3 and through with this a screw connection 13 via weld stud 14 or the like. connected is.

FIGS. 10 to 13 show further examples of reinforcement profiles 15, 16, 17, 18, which are also welded on bolts or by direct welding can be connected to the arch profiles 3. The reinforcement elements can be hat-shaped, corrugated, angled inward and / or outward.

On the whole it results that the steel lining described of a tunnel one desired in every direction Elasticity without Has impairment of the overall stability and, moreover, in every necessary Way allows locally limited reinforcements to be carried out with minimal effort, as well as being absolutely tight against the ingress of water. The one between the arch profiles and the reinforcing elements formed cavities by stabilizing Materials such as potting compounds, rigid plastic foam and the like must be filled.

If the structured and also interrupted by the arched profiles Tunnel lining is aerodynamically unfavorable for moving trains or vehicles should have an effect, the overall construction can be achieved with removable metal sheets or plates are disguised, which in addition to an improvement in the flow behavior and the Appearance at the same time in connection with additional damping means a certain Can cause sound absorption.

Claims (7)

A n s p r u c h e «1. Steel lining of tunnels for roads, Underground trains and the like. Consisting of spaced steel arches and with the steel arches running in the direction of the longitudinal axis of the tunnel connected profiled warping elements, e.g. warping sheets, characterized by that the steel arches (1) made of arch profiles (3,3a) with the arch interior, i.e. Inside the tunnel, there are directed open profile cross-section and with the adjacent warping elements (2) are connected in a sealed manner, with arched profiles and distortion elements one tightly closed, behaving elastically in each axis Form lining shell bodies. 2. Lining according to claim 1, characterized in that the arched profiles (3, 3a) and the profiled warping plates (2) consist of cold-formed sheet steel. 3. Lining according to claim 1 or 2, characterized in that the arched profiles (3, 3a) are hat-shaped profiles, the webs (5) of which are towards the open side extend trapezoidally and extend their folds (6) to the webs (5) transversely are arranged or directed parallel to the longitudinal axis of the tunnel. 4. Lining according to one of claims 1 to 3, characterized in that that the bottom (4) of the hat-shaped arched profile (3, 3 a) from both sides to the profile axis is formed inclined inward. 5. Lining according to one of claims 1 to 4, characterized in that that the hat-shaped arched profile (3, 3a) then returns to the bevels (6), i.e. to the tunnel wall directed legs (7), which with the folds (6) Form an angle of a maximum of 900. 6. Lining according to one of claims 1 to 5, characterized in that that the warping plates (2) are profiled in the longitudinal direction, e.g. sinusoidal, trapezoidal or are designed in a meandering manner. 7. Lining according to one of claims 1 to 6, characterized in that that the warping plates (2) between the arched profiles (), 3a) to the outside, i.e. to Tunnel wall, are designed to be roof-shaped. 8. Lining according to one of claims 1 to 7, characterized in that that the warping sheets (2) with each other and together with the arched profiles ()) Weld are tightly connected to each other. 9. Lining according to one of claims 1 to 7, characterized in that that the warping plates (2) with each other and together with the arch profiles (3, 3a) using sealing means, e.g. sealing strips, by screwing and the like are tightly connected to each other. 10. Lining according to one of claims 1 to 7 and 9, characterized in that that with the bevels (6) of the hat-shaped arched profile () a) independent angles or hook-shaped ring profiles (9, 11) with the interposition of sealing means Screw connection or the like. are connected. 11 -. 'Auskletdung according to one of claims 1 to 10, characterized in that that the arch profiles (3,3a) on their open side by profiled elements (12,15,16,17, 18) are reinforced. 12. Lining according to one of claims 1 to 11, characterized in that that the reinforcing elements (12,15,16, 17,18) with the arched profiles (3,3a) through Welding, screwing or the like. are connected. 15. Lining according to claim 11 or 12, characterized in that that the between the arch profiles (3,3a) and the reinforcing elements (12,15,16,17,18) cavities formed by stabilizing materials, e.g. Potting compound, rigid plastic foam and the like. Are filled. 14. Lining according to one of claims 1 to 13, characterized in that that the lining shell for the tunnel interior with removable sheets, plates or the like. is covered, and that the cover plates or the like. as sound absorption elements are trained