DE530980C - Method to prevent the sagging of ramming beams or supports when excavating underground railways or similar structures - Google Patents

Description

Procedure to prevent the sagging of piling beams or supports when excavating underground railways or similar structures of the invention essentially the task is based on the excavation of underground railways and similar structures often observed sagging of center pile girders in construction pits to prevent under busy roads.

So far, attempts have been made to prevent sagging by either the load carried by the piling girders was supported by auxiliary supports, but which are implemented or renewed according to the deeper excavation had to and so brought the danger of a `` Nachsackung '' with it, or one posed between two piling girders auxiliary structures, which in turn are quite substantial Costs related.

According to the invention, the same with the ramming of the carrier or m a floor cladding height of sufficient skin friction the pile girder with undivided or split pipes so that the pipe hollow space is closed during the subsequent sinking filled with the rising ground and a foot broadening of the minimum size of the pipe cross-section is created, which in addition to the skin friction, the sagging of the wearer counteracts.

In order to prevent the beam from shearing through the pipe foot the compacted soil in the pipe is closed at the top by a concrete head, and girders and pipe are connected to one another in a shear-proof manner by a pre-stacker. This can can also be achieved by inserting the support base when sinking into the turning slot of the pipe foot and concreting of the pipe head around the girder.

Should the abutment pressure of the piling beam with pipe foot be increased are, then by pressing hardening substances into the ascended in the pipe Floor created a foot broadening under the pipe foot.

For the purpose of simpler, easier sinking of the pipes, find straddles Use which presses against the wearer's flange surfaces through expansion pressure and @ through leverage on the one hand against. the pipe foot upper edge of the jacket, on the other hand Lower the pipe section against the downward angled expansion arm head.

In the opposite sense, this spreader can also use the Pipes are drawn.

The invention is illustrated in the drawings, namely show Fig. I the cross-section through the undivided pipe foot, concrete head, linch pin and rammed center ram, Fig.ia the view of the rammed girder, Section through the finished, undivided pipe foot and (shown in dotted lines) this in the automatic lowering, Fig. a the cross-section through a divided, mediating Flanges bolted together Pipe foot, concrete head and central pile-driver, Fig.2a the view of the center ram beam and the split and screwed Pipe foot, - -Fig.3 through the undivided, longitudinally slotted pipe foot with outside of the pipe jacket standing support flanges and concrete head, Fig.3a longitudinal section Fig.3 with the central ram support foot resting on the slot ends, Fig.q. Bridge view onto the center ram and the spreading device drawn downwards at an angle for sinking the pipes, Fig.5 side view of the spreaders and the Longitudinal section of the rammed ramming girder, Fig. 6 Spreader device, according to Angled at the top, for pulling out the pipes, Fig: 7 Side view of both sides attached spreading with lifting attachment, Fig.8 a house foundation recess he; known Type, filling of the soil in the pipe through lockable openings by means of hardening Fabrics, on the left in the cross section, on the right in the front view with widened feet.

The execution of the procedure is as follows: The undivided foot tube z according to fig. i and ia is before the ramming of the ramming girder i over the ramming girder striped (in position 2 indicated by dotted lines). With further excavation up to to an altitude from which there will be a lowering above the future building base should, the pipe sags automatically. The sinking takes place from this position of the pipe foot. Through opposing perforations in the pipe jacket and support web both parts are connected in a shear-proof manner by means of a plug 5. Above the ascended and soil 8 compacted by the friction is after inserting the pin 5 a concrete head q. manufactured.

The process is similar in the case of the split-shaped pipe base according to Fig. 2 and 2a. The pipe halves 2a provided with flanges 3 are only used here Bottom depth from which the lowering is to take place, placed around the piling beam and screwed; whereupon the linch pin and the concrete head are inserted.

In the case of the slotted pipe feet 2v according to Fig. 3 and 3a, before the Ramming the end of the support foot with the web into the pipe jacket slot 1q. so set that the carrier flanges sit outside and the carrier on the end of the slot. Both Parts are then rammed together. The remaining measures after ramming Follow the same procedure as for the other tubular feet with the exception of the superfluous use here of a pin.

The pipe feet are recovered in all cases. To lower the Pipe foot :. The lever spreading device is expediently used in Figs. i to 2a according to Fig. ¢ and 5. The joint struts are here on both sides of the bar 1q. angled downwards between the inner piling flange surfaces, and the lever g, pushed under the pressure plate 13, find their fulcrum and pressure point on the pipe jacket head. The friction claws press themselves through the pressure on the levers 17 against the girder flanges, and the result is the sinking of the foot tube. The spreaders lower automatically each time the lever is pressed.

Pulling out the pipe feet according to Fig. 6 and 7 with the same spreader can be done in deir way that the spreader is reversed in the direction of leverage angled upwards, with pressure plate 13 standing upwards, is attached. The lever turning and the pull point is in a driver device; are in the pipe jacket head z. B. perforations io for the implementation of chain links, shackles o. The like. Arranged, who transmit the train.

The use of the pipe feet to generate an increased abutment pressure against head loads and a foot widening: tion -12 according to Fig. 8 happens in such a way, that, as drawn in an underpinning of a known type, according to the one already described Procedure, e.g. B. through tubes i i, hardening substances are pressed, whereby the standing in the pipe jacket bottom 8 solidifies and on the one hand an abutment pressure against head loads, on the other hand a foot broadening 12 is generated under the pipe foot will.

Claims (7)

PA TENTANSPRÜ C11 J? i. Method of preventing sagging of ramming girders or supports when excavating underground railways or the like Buildings, characterized in that with the ramming girders or supports they are at the foot end enclosing, above and below. open ramming pipes are brought down, along with the earth core created in them in the end position with the ramming girders shear resistant get connected. 2. The method according to claim i, characterized in that before the ramming an undivided tube 2 is slipped over the ram, which during the excavation first sags and is then sunk. 3. Procedure according to Claim i, thereby characterized in that a multi-part tube (2a) only set around the pile girder at the lowering height, screwed to the flanges and then sunk. ¢. Method according to claim i, characterized in that a slotted tube (25) slipped from below over the ram girder web and then is brought down together with the pile driver. 5. Procedure for sinking the pipes according to claims i to 3, characterized in that da.ß on both sides of the ram girder web between the flanges joint spreaders are set, their claws (17) through Leverage on the downwardly angled spreading arms (14) against the flanges be pressed, with the spreading automatically by releasing the leverage sag. 6. A method for drawing the tubes according to claims i to 3, characterized characterized in that the levers press against the upwardly angled spreading arms, wherein a driver device is detected in the pipe jacket by the lever arm and the Pipe is pulled. 7. The method according to claims i to 6, characterized in that .that hardening substances are pressed into the core of the earth between the support and the pipe.