DE281865C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 281865 CLASS 5 c. GROUP

EUGEN ABRESCH in NEUSTADT a. d. H. and JOS. REIFNER in ARNAU, Bohemia.

The invention aims to fill gaps of boreholes in such a way that the flushing water rises to the surface of the day, furthermore to fix fragile borehole walls in such a way that piping can be saved. So you don't need deep boreholes with large, gradually reduced diameter because of the piping, but can drilling at significant savings

ίο time and money with the initial diameter bring to an end. Finally, the rinse water provides an important clue about the properties of the rock strata that have been overdrilled. ■

The cementing of drill holes and rock crevices in shafts and the like. has so far been carried out in such a way that 5 to 10 percent or cement milk is pumped in poured in, whereby due to the lack of normal consistency the hardening process often occurs a few Lasted weeks, or else cement paste of normal consistency was in cans on the floor emptied of the water-filled borehole, where he in could not penetrate the holes filled with water.

The invention now consists in the fact that rapidly hardening cement simultaneously with a Pressurized air, carbon dioxide or a similar agent into the borehole is sunk, whereupon the pressure medium is applied after the cementation tube has been put in place the cement works. In this way of working, the hardening process takes place very quickly and drilling can resume after about 12 hours. The emptying of the Cementing pipe takes place only after the space to be cemented has been freed of water and has been completed.

In the drawing, an apparatus for carrying out the method is for example shown.

An inner sleeve 1 containing fast setting cement is slotted from one at 2 and 3 Hollow rod 4 is carried and is closed at the bottom by the cone 5. A pressure sleeve 6 is arranged in a pressure pipe 7, which is filled with compressed air, carbonic acid or the like. The pressure pipe 7 is down with a flange 8 on which a rubber ring 9 is attached .. To protect this is Ring covered with felt or a similar porous material that allows water and air to pass through, solid bodies, such as cement or the like, but not. On the pressure pipe 7 is the cementation pipe 11 arranged displaceably. This tube has a flange 12 at the top, which hits the rubber ring 9 during the displacement and compresses it, so that he seals the space to be cemented. At the bottom of the cementation tube 11 outlet slots 10 are attached. The device is held in suspension by the suspension ropes or chains 13.

After the cementation tube 11 has touched down on the borehole bottom, the pipe 7 pushes into the upper end of the pipe

II, until the flange 12 presses the rubber ring 9 together and against the borehole wall, and so the space to be cemented is sealed. When the cement can 1 is so far is lowered until the lower locking ring 14 rests on its stop 15, occurs a part of the slot 2 of the lowering hollow support rod 4 into the pressure sleeve 6, while the lower slot 3 of the rod 4 is still completely covered by the stuffing box 16 ″ remains, so that the pressure medium contained in the pressure sleeve 6 is still on the cement cannot come into effect. In the case of large borehole depths and pressures, it is advisable strongly compressed carbon dioxide used in the pressure sleeve 6 at its critical temperature from -31 °. corresponding to the critical pressure of 72 atm. without awkward Setting up a cooling of the cement paste can be avoided. With the one just mentioned Position of the hollow rod 4 is the pressure of the pressure sleeve through the still empty cementing tube 11 and slots 10 act therethrough in the borehole and in the rock crevices and make them empty and pure. Only now will the 'inner valve cone' be lowered further 5 the cement can 1 emptied under pressure, since now the slot 2 of the hollow Rod 4 inside the pressure sleeve 6 and the slot 3 outside the stuffing box with i6 ° the cement can 1 in connection. The cementation pipe 11 leading from the pressure pipe 7 is carried by a plurality of bolts 18 guided in slots 17, can before solidification of the cement can be lifted, but can also remain on the drill bed. Just. Then the connection of cement and iron is made by a cover of oiled paper or the like. prevented.

In the case of very steep rock crevices, a particularly long cement can 1 must be used and the procedure repeated if necessary. It may be advisable also to expand the space under the rubber ring 9 in such a way that after a complete 45 Re-drilling the borehole against the rock · completed by a closed cement cylinder is.

Claims (3)

Patent Claims: 1. A method for cementing out fissured borehole walls, characterized in that that rapidly hardening cement at the same time with a compressed air, carbonic acid or a similar agent containing The bushing is sunk into the borehole, after which the cementing tube has been put in place the pressure medium acts on the cement. 2. Apparatus for carrying out the method according to claim i, characterized in that a cementing tube (11) on a pressure pipe (7) is displaceable is suspended and in the pressure pipe (7) of the sole first on a hollow support rod (4) with a rapidly hardening Cement-filled can (1) and above it one with compressed air, carbonic acid or a similar means filled sleeve (6) is arranged. 3. Apparatus according to claim 2, characterized in that in the hollow support rod (4) two slots (2 and 3) are arranged, of which the upper (2 ^{) is still covered by the stuffing box (ΐ6 δ} ), while the lower ( 3) is already connected to the cement box (1) outside the stuffing box (i6 ^a). 1 sheet of drawings.