EP1067272A1 - Apparatus for forcing pipes in the underground - Google Patents

Abstract

The forward-pressing pipe appliance has a cutter head (2) with an excavation opening (10) in its upper casing part and through which the material cut (13) off by the cutter head is removed by an excavator and transferred to a conveyor system (15). The top casing part of the first pipe following the cutter head contains a filler-opening (14) for the material removed from the cutter head.

Description

The invention relates to a pipe pre-pressing device with a device for lifting and removal of piles to produce a combined in open construction and from a press pit made of pipe pre-press, consisting of pipe sections Pipe string for tunnels or tunnels, with one below with shoring panels installed trench the pipe string connects and the pipe pre-pressing device one Has cutting head, which is partitioned off from the subsequent trailing pipe, and in whose upper casing part is provided with an excavation opening through which the cutting head cut material can be lifted with an excavator and one of them Transport system is transferable.

When making tunnels or tunnels from prefabricated pipes it becomes dependent of the thickness of the earth above the pipes in either closed or open Construction worked. With a thickness of up to two to three times the pipe diameter open trench construction is often used.

In the known open trench construction, a relatively wide trench is dug out, taking into account either the natural slope angle or the trench wall secured by additional extensions, for example vertical sheeting panels must become. The pipes are lifted by means of a crane, which is on one next to the trench required path, laid in the trench from above. After inserting the pipes the trench is filled in and the terrain is leveled. To meet the space requirements reduce and increase the laying performance has become known from DE-AS 16 58 772, Pipes from a press pit using a hydraulic jacking device consecutively in a trench approximately V-shaped in cross-section as a coherent To advance pipe string, an unexposed part of the trench through the Cutting head is cut. This hydraulic driving method in an open trench with a natural slope angle has proven itself where a sufficiently wide one Space for the V-shaped trench is available. To advance To enable even with narrow construction area widths is known from DE 33 14 813 C1, the width of the trench equipped with vertical sheeting panels is the same or smaller than to design the outside diameter of the pipes, with the shoring panels on each side of the trench with a width of the trench corresponding to the outer diameter one up to the side lines of the pipes, or one to a smaller width of the trench construction depth reaching just above the pipes. With this open design, forms in front of the cutting head an end slope, the slope angle of which is approximately at the bottom Place of the cutting head. When driving, the cutting head also cuts the end slope on. However, the material cut in front of the cutting head must be open to the front the end slope must be shoveled or pushed so that it is in front of the cutting head can be excavated using an excavator.

On the other hand, a cutting head is known from DE-OS 23 22 468, which with one of the Sole is equipped up to the head line sloping displacement floor, which in closed Is pressed forward through the ground and thereby the ground mole-like pushes up. This is for an open method of excavation with excavator excavation Cutting head not suitable because it lacks a space in which the cut soil is pushed and from which it can be excavated by means of an excavator.

The generic device for the open design is closer in EP 0 206 371 A1 described and has been considered in detail in the preamble of the main claim. The advantage of an excavation opening in the cutting head can be seen in the fact that the Cutting head cut material can be lifted directly from an excavator.

Furthermore, according to DE 38 11 036 A1, a pipe pre-pressing device with a Pipe string upstream, a working shoe having a cutting shoe known which the dissolved soil material through a through a bulkhead and in a discharge pipe arranged discharge or is pumped out.

The invention has for its object a device for the removal of piles specify according to the genus specified in the preamble of supporting claim 1, with which the removal of the cutting head even in confined spaces cut soil material is economically possible.

This object is achieved in accordance with the invention in the upper jacket part of the first, the Cutting head of the downstream pipe has a filling opening for the excavator material excavated from the cutting head for transfer to the within the pipe string guided transport system extending into the press pit is provided.

In this way, any costly considerations for material transport are eliminated, in particular in tight spaces. Regardless of the transport conditions the pipe jacking alone the required spatial width, although depending of the pipe cross-section large devices are used. Particularly favorable employment relationships can be created when the excavation opening and the filling opening correspond in width to the clear trench width.

Since the excavation opening and the filling opening can each be closed with corresponding hoods are trained, the entire device can be easily converted not only in open, but also in closed construction.

To prevent any groundwater from entering the compressed pipe string To prevent a partition wall is expediently arranged in the cutting head is detachable. The bulkhead wall is at the front with one of the lower surface lines End outgoing and wedge-shaped towards the rear end to about half Provide diameter increasing guide plate.

A particular advantage can be seen in the transport system, which is outside the trench width requires no space. The selection criteria in terms of choice and The design of the transport system is determined by the local circumstances, by the occurrence Quantity of material, determined by excavation equipment, by pipe cross-section and length. Basically, the usual, known material transport methods are to be used. This Selection affects both discontinuous and continuous transport processes, for example hydraulic conveying processes or conveyor systems.

When selecting the excavator in the form of an excavator, the installation panels can be used perpendicular or V-shaped arrangement and taking into account that the fill opening corresponds in width to the clear trench width, as lateral funnel walls be used. In the context of the invention, however, it is also conceivable that for better Transfer of the material to be removed into or onto the transport system within a special, funnel-like inlet chute can be inserted into the filler opening is.

Because with this solution, the filling opening in the first, following the cutting head Arranging the follow-up pipe, possibly a disadvantage in technical and also economic Form can occur, offers another advantageous solution within the scope of the invention on. This solution is particularly based on the fact that one is installed in one or not installed trench-running pipe string following the excavation opening a closable filling opening for the excavator with the Cutting head excavated material for transfer to the guided within the pipe string and is provided up to the press pit reaching transport system, the Filling opening an additional through an encapsulated opening in the bulkhead Transport is connected downstream.

The particular advantage of the pipe pre-pressing device according to the invention can be seen in the fact that that the required machining of the cutting head made of sheet steel for a Filling opening is easier, with a special feature being the cutting head to be able to equip without major problems by closing the filler opening. In order to transfer the excavated material into the filling opening through an excavator shovel To ensure full, it is advisable to fill the filler opening with an all-round Inlet chute to be provided. Depending on the design of the pipe prepress device, in particular With regard to the pipe cross-section, it turns out to be an advantage, the filler opening to connect a means of transport in order to transfer it appropriately to the im To design the pipeline provided transport system. Regardless of the choice of The opening in the upper area of the bulkhead must be encapsulated in a manner of transportation that primarily the penetration of water into the pipe string is avoided.

The simplest and technically least complex solution for such a means of transport seems to be a sloping chute sheet that can be activated if necessary should be. The use of a continuous conveyor could include with the advantage connected to be able to use larger units in a wagon promotion, because there would be a greater amount of funding.

Overall, a particular advantage of the invention lies in the possibility of the cutting head by closing the filler opening if necessary as well as if necessary Make the excavation opening lockable and without machining the trailing pipe To be able to use units for different pipe pre-compression processes.

Figur 1

eine schematisiert dargestellte Seitenansicht, teilweise im Schnitt, eines Ausführungsbeispiels eines Schneidkopfes mit Auslauföffnung und einer Einfüllöffnung im ersten Nachlaufrohr,

Figur 2

eine schematisiert dargestellte Seitenansicht, teilweise im Schnitt, eines Schneidkopfes mit Einfüllöffnung und nachgeschaltetem Schurrenblech,

Figur 3

ein weiteres Ausführungsbeispiel eines Schneidkopfes mit Einfüllöffnung und nachgeschaltetem kontinuierlichem Fördermittel und

Figur 4

eine teilweise Draufsicht auf das in Figur 2 dargestellte Ausführungsbeispiel.

Several embodiments of the invention are shown in the drawings and are explained in more detail below. Show it:

Figure 1

2 shows a schematically illustrated side view, partly in section, of an exemplary embodiment of a cutting head with an outlet opening and a filling opening in the first follow-up pipe,

Figure 2

2 shows a schematically represented side view, partly in section, of a cutting head with a filling opening and a downstream chute plate,

Figure 3

a further embodiment of a cutting head with filler opening and downstream continuous conveyor and

Figure 4

a partial plan view of the embodiment shown in Figure 2.

In the embodiment shown in Figure 1, several pipes 1 from a press pit 5 by means of a hydraulic propulsion device 6 on the bottom of a trench 3 pressed, the controllable cutting head 2 located at the front end not uncovered part of the trench 3. The press pit 5 can in the usual way with a pre-press rail 7 and an abutment 8 for the hydraulic jacking device 6 be equipped. The cutting head 2 is double-walled in the usual way, equipped with control cylinders and is interposed by a pressure ring 9 against the front end of the front pipe, designed as a follow-up pipe 1. The sidewalls the trench 3 are held by sheeting panels 4, which are not shown in detail Support way through the opposite shoring panels 4.

In the event that groundwater is present in the trench, it can penetrate into the pipe string can be prevented by a bulkhead wall 11 which is detachably fastened in the cutting head 2. The bulkhead wall 11 is associated with a guide plate 12 which extends from the lower surface line front end of the cutting head 2 starting wedge-shaped towards the bulkhead wall 11 up to increases to half the diameter.

The material cut and excavated by the cutting head 2 is used as excavated material 13 designated. The excavator, not shown, which is provided as the excavator, engages with its shovel through the excavation opening 10 in the upper lateral surface of the cutting head 2 and transports the material through the filling opening 14 within the upper one Shell surface of the cutting head 2 following and designated as the follow-up pipe 1 Pipe to the corresponding transport system 15 within the pipe string. At the in the carriage shown in Figure 1, which is designated 15, it is only an embodiment, the carriage 15 only symbolically as one of different transport systems has to apply.

In the embodiment shown in Figure 2, several concrete pipes 1 from one Press pit 5 from by means of a hydraulic jacking device 6 on the sole of a Trench 3 pressed, the controllable cutting head 2 located at the front end cuts the unexposed part of the trench 3. The press pit 5 can be in the usual way Way with a pre-press rail 7 and an abutment 8 for the hydraulic jacking device 6 be equipped. The cutting head 2 is usually double-walled educated. It is equipped with a control cylinder and is interposed Pressure ring 9 against the front end of the front, designed as a follow-up pipe 1 reinforced concrete pipe on. The side walls of the trench 3 can be held by sheeting panels.

The penetration of groundwater into the pipe string is prevented by a in the cutting head 2 removable bulkhead 11 prevented. The bulkhead 11 is assigned to a guardrail 12, the wedge-shaped starting from the lower surface line at the front end of the cutting head 2 to the bulkhead 11 rises up to about half the diameter.

The material cut and excavated by the cutting head 2 is used as excavated material 13 designated. The excavator, not shown, which is provided as the excavator, engages with its shovel through the excavation opening 10 in the upper lateral surface of the cutting head 2 and transports the material into the inside of the top surface of the Excavation opening 10 in the cutting head 2 subsequent filling opening 14. The filling opening 14 is surrounded on all sides with a detachable inlet chute 16. Below the filling opening 14, an additional funding is provided, which is in the bulkhead 11 by a encapsulated opening 18 engages around the loosened excavated material in the pipe string Transport system 15 in the form of a car or belt conveyor, for example to hand over. According to the embodiment shown in Figure 1 is a Chute sheet 17, while in the exemplary embodiment according to FIG. 2 and FIG. 3 is a continuously operating funding, for example a conveyor belt 19.

As can be seen from the top view according to FIG. 4, the conveyor belt 19 is wide designed so that the excavated material is guided centrally on the conveyor belt 19. The conveyor belt 19, which i.a. can also be designed as a chain scraper belt, has a drive roller 21 with a drive 20 and a reversing roller 22. By positioning the Conveyor belt 19 below the upper casing area of the pipe string, it is possible use large funding 15 adapted to the cross section of the pipe string.

Reference list

1

Trailing pipe

2nd

Cutting head

3rd

dig

4th

Installation panel

5

Press pit

6

Jacking device

7

Pressing rail

8th

Abutment

9

Pressure ring

10th

Excavation opening

11

Schottenwand

12th

Guide plate

13

Excavated material

14

Filling opening

15

Transport system

16

Inlet chute

17th

Chute sheet

18th

Opening in the bulkhead

19th

Conveyor belt

20th

Drive motor

21

drive shaft

22

Reverse roll

Claims (14)

Pipe pre-pressing device with a device for lifting and conveying away piling to produce a combined, open construction and from a press pit from pipe extrusion made of pipe sections made of pipe sections for tunnels or tunnels, the pipe string connecting underneath a trench built with installation panels and the pipe pre-pressing device Has cutting head, which is partitioned off from the adjoining trailing pipe, and in the upper jacket part of which an excavation opening is provided, through which the material cut by the cutting head can be lifted out with an excavating device and transferred by this to a transport system, characterized in that in the upper jacket part of the first, the trailing pipe (1) following the cutting head (2) has a filling opening (14) for the material excavated from the cutting head (2) with the excavator (10) for transfer to the material which is guided within the pipe string and into the press pit e (5) reaching transport system (15) is provided. Pipe pre-pressing device according to claim 1, wherein the pipe string runs in a built-in or not built-in trench, characterized in that in the upper casing part of the cutting head (2) following the excavation opening (10) there is a closable filling opening (14) for the excavation device material cut out of the cutting head (2) for transfer to the transport system (15) guided within the pipe string and reaching into the press pit (5), the filling opening (14) being provided with an additional through an encapsulated opening (18) in the bulkhead ( 11) reaching means of transport (17, 19) is connected downstream. Pipe pre-pressing device according to claim 1, characterized in that the excavation opening (10) in the cutting head (2) and the filling opening (14) in the first trailing pipe (1) are designed to be closable by means of hoods which can be detachably attached to the edges. Pipe pre-pressing device according to claims 1 and 2, characterized in that the transport system (15) is designed as a discontinuous conveying system, for example as a carriage conveying. Pipe pre-pressing device according to claims 1 and 2, characterized in that the transport system (15) is designed as a continuously conveying system, for example as a hydraulic or belt conveyor. Pipe pre-pressing device according to claims 1 and 2, characterized in that a bulkhead wall (11) is detachably arranged in the cutting head (2), which has a guide plate starting from the lower surface line at the front end and rising in a wedge shape towards the rear end up to approximately half the diameter (12) is provided. Pipe pre-pressing device according to Claim 1, characterized in that the width of the excavation opening (10) and the filling opening (14) almost correspond to the clear trench width, the sheeting panels (4) forming lateral funnel walls. Pipe pre-pressing device according to claim 1, characterized in that the filling opening (14) can be provided with a releasable, funnel-like inlet chute. Pipe pre-pressing device claim 2, characterized in that the filling opening (14) is surrounded on all sides upwards by an inlet chute (16). Pipe pre-pressing device according to claim 2, characterized in that the transport means connected downstream of the filling opening (14) and leading through the opening (18) in the upper region of the bulkhead wall (11) is designed as a chute plate (17). Pipe pre-pressing device according to claim 10, characterized in that the chute plate (17) is designed to be additionally activated, for example by vibration. Robrvorpresseinrichtung according to claim 2, characterized in that the transport means downstream of the filling opening (14) is designed as a continuously operating conveying means, for example as a belt or chain scraper conveyor (19). Pipe pre-pressing device according to claim 2, characterized in that the inlet chute (16) arranged around the filling opening (14) is arranged so as to be detachably connectable to the upper casing part of the cutting head (2). Pipe pre-pressing device according to claim 2, characterized in that the filling opening (14) is closable with a cover-like sheet.

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