DE19619532A1 - Method for producing accessible tunnel - Google Patents

Abstract

The piping (22,23) in both shafts (20,21) is positioned above the openings of the tunnel to be produced. The shafts as far the shaft floors (25) are sunken in an un-piped manner. In the un-piped section of the one shaft (21) a press device (1) supportable on the shaft wall is provided with a shield movable in the longitudinal direction of the shield. Through the advance feed of the shield, material in the tunnel cross-section is moved out of the shaft and into the other (20), from which it is conveyed away. The movement of the material out of the tunnel cross-section takes place in several successive work stages.

Description

The invention relates to a method for producing a accessible, two adjacent, cased shaft bores in the Area of the tunnel bottom connecting tunnels and an apparatus for performing this method.

DE 43 13 239 A1 describes a method for performing this of construction work in the area of the sole of an existing Landfill known at a distance from each other as piped large-bore drilling, accessible manholes sunk to the bottom of the landfill and at the height of the landfill sole through a walkable tunnel to a continuous Workspace to be connected. This method has proven itself in practice. The making of the tunnel proved to be very time consuming, however, since the Material from the tunnel is loosened by hand and must be shoveled into a conveyor basket. As special To make matters worse, this work under Full respiratory protection must be carried out. It was too considered the tunnel using auger or schappe to drill. These devices can be used for the small However, the shaft diameter of the shaft bore is not host use economically and the composition of the  Garbage stored in landfill is likely to be repeated in practice interrupt the drilling work because Material wraps around the auger, which takes up a lot of time wall must be removed by hand.

The invention has for its object a method of Specify the type mentioned by which the time and Cost of manufacturing the ver the well bores binding tunnels kept small and compared to the known methods can be significantly reduced.

To achieve this object, the Ver drive that the piping in both shafts above of the openings of the tunnel to be built and the pipes were sunk uncased to the bottom of the shaft be that in the uncased section of one Shaft a press device that can be supported on the shaft wall tion with a movable in the longitudinal direction of the tunnel Shield is retracted and by driving the shield in Material from this ver urges and is pushed into the other shaft from which the displaced material is mined above ground.

The method according to the invention is based on the knowledge that that the adjacent arrangement of the two shaft bores can be used to advantage with the help of one of the Composition of the mate in the tunnel cross-section rials largely independent institution, namely one Pressing device to make the tunnel opening by the Material with a movable by the pressing device Sign from one shaft to the other is pressed. It has been shown that with the Invention according to the procedure of the tunnel almost completely on maschi can be produced in a short time and the time and Considerable expense for the construction of the tunnel can be reduced. The process is simple  feed and manageable. It also contributes to Occupational safety because of the creation of the tunnel opening no people have to enter the well bores. Once the tunnel opening has been pushed open, the interconnected shafts significantly better weather, which creates the risk of accidents when staying People in the shaft is greatly reduced. Especially ders advantageous is the use of the Ver driving also when creating work spaces on the ground of landfills for rubbish, rubble and other waste because with Very inhomogeneous material with the help of the pressing device, large chunks of material, steel strips, steel mats or the same from the tunnel cross-section in the other shaft can be pressed.

According to the invention it can further be provided that the Ver pushing the material out of the tunnel cross section in several successive, each displacing one layer of material steps. By doing this can reduce the load on the press and the sufficient reaction force to be absorbed by the shaft wall be kept small enough.

The object of the invention is also to create a Device with which the method according to the invention is simple and economical to carry out.

According to the invention, the device for solving them Task one in the cased shaft bore except for the Lowerable shaft bottom, serving as an abutment, bend rigid support tube with one formed in the tube wall Opening, an arranged in the interior of the support tube and on this supported press with a transverse to the longitudinal axis of the Carrier tube through the opening movable stamp and a free end of the stamp attached sign. The invent device according to the invention is easy to manufacture and with  Easy to use with the aid of a hoist. To invent device according to the invention in addition to the uncased shaft wall to be able to support in the piping of the shaft, can according to a further proposal of the invention the outside diameter of the support tube up to the required weight clearance to the inside diameter of the shaft piping be approximated and the length of the above that in the tube wall formed opening section of the Carrier tube at least as large as the intended tunnel be measured in height. On the inside, the carrier can Pipe according to the invention can be stiffened by ribs which in Longitudinal and circumferential and suitable are to absorb the pressure and buckling forces that occur.

The press can according to the invention in the support tube a pivot bearing can be stored, which is a limited Swiveling movement of the press in one by longitudinal axes of Press ram and carrier tube defined level allows. This configuration avoids that reaction forces occurring during the pressing process Open movements of the carrier tube on the press or the Press stamps are transmitted and there additional bending to cause claims. A preferred embodiment the press according to the invention consists of a hydraulic, double-acting telescopic cylinder, because with one of the like cylinder high thrust and long commutes can be achieved and in many cases to drive the cylinder Hydraulic units available on construction sites can be used can. It can also be provided that the sign in Train direction through a limit force connection, for example a shear bolt or a tearable screw with which Stamp associated with the press. This will secure represents that the stamp of the press even if it gets caught of the shield in the tunnel by loosening the limit force connection can be moved back into the carrier tube so that a Her pulling out the device from the shaft is possible.

The invention is illustrated below with the aid of examples described, which are shown in the drawing. It shows gene

Fig. 1 shows a longitudinal section through an inventive pressing apparatus,

Fig. 2 shows a cross section along the line II-II through the pressing device according to FIG. 1 and

FIGS. 3 to 7 are schematic representations of different working steps of the method according to the invention.

The pressing device 1 shown in FIGS . 1 and 2 consists of a cylindrical support tube 2 , which has an outer diameter of 2300 mm and a length of 5500 mm. At the upper end of the support tube 2 , a cross-shaped cross member 3 is attached for hanging a pull rope. On its inside, the support tube 2 is stiffened by axially parallel longitudinal ribs 4 and these intersecting, annular cross ribs 5 in order to be able to absorb the forces occurring during operation. The longitudinal ribs 4 and the transverse ribs 5 are connected to one another and to the support tube 2 by welds. The carrier pipe 2 is designed so that it can be supported with its upper half or its upper third in the shaft piping. Accordingly, the particularly stressed areas at the upper end and in the middle of the support tube 2 are reinforced by the attachment of additional ribs 4.1 , 5.1 .

A hydraulic telescopic cylinder 7 is arranged in the lower third of the carrier tube 2 . The longitudinal axis of the telescopic cylinder 7 crosses the longitudinal axis of the support tube 2 and is aligned substantially perpendicular to this. The telescopic cylinder 7 is mounted in a pivot bearing formed from two coaxial bearings 8 , 9 , the pivot axis of which perpendicularly crosses the longitudinal axes of the support tube 2 and the telescopic cylinder 7 . On both sides of the telescopic cylinder 7 , the support tube 2 is designed as a double-T profiles trusses 10 , 11 , on which the bearings 8 , 9 are attached and supported. The telescopic cylinder 7 has a stamp 12 , at the end of which a shield 13 is fastened by means of a screw. The screw is provided with a predetermined breaking point and can be torn off by a force which is smaller than the maximum return stroke force with which the plunger 12 can be moved back into the housing of the telescopic cylinder 7 . The shield 13 is located within an opening 14 in the side wall of the carrier tube 2 . Through the opening 14 , the shield 13 with the stamp 12 can be moved out of the carrier tube 2 in the radial direction.

In order to keep the telescopic cylinder 7 when retracting the shield 13 in a horizontal position, is provided below the Teleskopzy relieving 7 near the outlet opening for the plunger 12, a support 15 to which the housing of the message may establish skopzylinders. 7 On its upper side, the telescopic cylinder 7 has two connecting pieces 16 , 17 for the connection of a controllable hydraulic pressure medium supply.

Inventive the method and the operation of the press apparatus 1 will be explained below with reference to the Figures 3 to. 7:

Fig. 3 shows the lower end of two parallel side by side abgeteufter shafts 20, 21. The shafts 20 , 21 are each lined with piping 22 , 23 , which ends at a height of about 3 meters above the shaft bottom 24 , 25 . The uncased sections 26 , 27 of the shafts 20 , 21 were cleaned with a cleaning pipe after excavation and therefore have the required minimum diameter.

As soon as the two shafts 20 , 21 are prepared in the manner described, the telescopic cylinder 7 of the pressing device 1 is connected by means of hose lines 29 , 30 from a sufficient length to the control device of a hydraulic pump unit. Then the pressing device 1 , which is attached to a rope 28, is moved into the shaft 21 by a crane. Shortly above the bottom of the shaft, the pressing device is aligned in the shaft 21 so that the shield 13 and the telescopic cylinder 7 show the central axis of the shaft 20 . The alignment is carried out from above, whereby the hose lines 29 , 30 can be used which lead from the pump unit located above to the telescopic cylinder 7 . If the press device 1 is properly aligned, it is lowered to the bottom 25 of the shaft. Subsequently, the plate 13 is extended through the opening 14 by pressurizing the telescopic cylinder 7 and the material located in front of the plate 13 is pushed into the uncased section 26 of the shaft 20 . This process is illustrated in Fig. 4. When the material is moved, the pressing device 1 is supported by the support tube 2 on the wall of the uncased section 27 of the shaft 21 . If this wall gives way a little, the carrier pipe 2 can additionally be supported on the piping 23 , whereby it is positioned somewhat obliquely. The change in inclination of the support tube 2 at Bela stung is compensated for by the pivot bearing of the telescopic cylinder 7 , so that no harmful transverse forces occur on the ram 12 .

After the stamp 12 has performed a full stroke, it is retracted by reversing the pressurization of the telescopic cylinder 7 and the shield 13 is moved back into the opening 14 . This step is shown in FIG. 5. At the same time, with the help of a Grei fers 33, the material pushed into the shaft 20 can be removed from the sem.

To carry out the next work step, as shown in FIG. 6, the pressing device 1 is pulled up until the shield 13 is above the tunnel section 31 that has already been pushed open. The stamp 12 is then extended again and the next material layer is displaced into the shaft 20 by means of the shield 13 , from where it can in turn be removed with the aid of the gripper. Fig. 7 shows this phase of operation with fully extended punch 12 and the tunnel opening 32 .

The steps described can be according to the desired tunnel height can be repeated several times. As well it is possible to use a second series of steps one compared to the original orientation to perform rotated alignment of the pressing device to to widen the tunnel opening a little. During the Perform the steps described there are no people in the shafts. The press device is used by one during the entire use on the rope Crane held and the lifting movements of the telescopic cylinder are controlled by surface.

If the tunnel opening is pushed open in the desired size, the pressing device 1 is pulled out of the shaft 20 and the tunnel is secured in a conventional manner by building supports or the like. Subsequently, the planned construction work can be started in the work space created by the interconnected shafts.

The method described is particularly suitable for Use at landfills, since the tunnel is being built here Compared to conventional methods despite the unfavorable Composition of the waste is particularly time-saving and simple is. The application of the method according to the invention and the associated device is by no means on landfills  limited, but can also be advantageous in underground other composition, e.g. B. Soil formations for manufacture underground workrooms with the help of connected drilling shafts are used.

Claims (8)

1. A method for producing a walk-in, two adjacent, cased shaft bores in the area of the shaft bottom interconnecting tunnel, characterized in that the piping ( 22 , 23 ) in both shafts ( 20 , 21 ) is placed above the openings of the tunnel to be produced and the shafts ( 20 , 21 ) to the shaft bottom ( 24 , 25 ) are sunk uncased, that in the uncased section ( 27 ) of a shaft ( 21 ) a press device ( 1 ) which can be supported on the shaft wall and is movable in the longitudinal direction of the tunnel Shield ( 13 ) is retracted and by driving the shield ( 13 ) material located in the tunnel cross-section is displaced from this and pushed into the other shaft ( 20 ) from which the displaced material is conveyed to the surface. 2. The method according to claim 1, characterized in that the displacement of the material from the tunnel cross-section in several consecutive, one mate each rial layer displacing work steps. 3. Press device for producing a walk-in, two adjacent, cased shaft bores in the area of the shaft bottom interconnecting tunnels, characterized by a lowerable in the piped shaft bore down to the shaft bottom ( 25 ), serving as an abutment, rigid pipe ( 2 ) with a the tube wall formed opening ( 14 ), an inside of the support tube ( 2 ) and on this abge supported press ( 7 ) with a transverse to the longitudinal axis of the support tube ( 2 ) through the opening ( 14 ) movable stem ( 12 ) and a plate ( 13 ) attached to the free end of the stamp. 4. Press device according to claim 3, characterized in that the outer diameter of the support tube ( 2 ) is approximated to the required clearance to the inner diameter of the manhole piping ( 23 ) and that the length of the opening formed above in the tube wall ( 14th ) located section of the support tube ( 2 ) is dimensioned at least as large as the intended tunnel height. 5. Press device according to one of claims 3 or 4, characterized in that the carrier tube ( 2 ) on its inner side by ribs ( 4 , 4.1 , 5 , 5.1 ) is stiffened, which extend in the longitudinal direction and in the circumferential direction of the carrier tube ( 2 ) . 6. Press device according to one of claims 3 to 5, characterized in that the press ( 7 ) in the Trä gerrohr ( 2 ) by means of a pivot bearing ( 8 , 9 ) is gela, which a limited pivoting movement of the press ( 7 ) in one plane defined by the longitudinal axes of the punch ( 12 ) and support tube ( 2 ). 7. Press device according to one of claims 3 to 6, characterized in that the press consists of a hydraulic, double-acting telescopic cylinder ( 7 ). 8. Press device according to one of claims 3 to 7, characterized in that the shield ( 13 ) in Zugrich direction by a limit force connection, for example a shear bolt or a tearable screw, with the stamp ( 12 ) of the press ( 7 ) is connected.