DE510079C - Method for closing crevices in the rock - Google Patents

Description

Method for closing crevices in rock The invention relates to a method for closing gaps in rock or similar structures which a melted filling compound in a hole leading to the gap or in the Gap itself is driven.

According to the invention, the highly heated filling compound is through a bottom open pipe inserted into the borehole reaching to the bottom of the borehole, so that the mass in the borehole is directed in countercurrent to the mass in the pipe and as a result the heat supply from the mass in the pipe remains liquid, increases in the borehole and fills the gap.

It is already known in the freezing process, the downpipe and riser liquor to flow in countercurrent and in heat exchange: In the present case, acts it is the application of this principle in a process in which a molten Filling compound is used.

It is also known to pass a molten filler mass through a pipe to introduce into the borehole, the perforated walls for the outflow of the has melted mass and is closed at the bottom, so that the mass just through the walls can merge into the borehole. In contrast, according to the invention a tube is used that extends continuously to the bottom of the borehole. That The borehole can be plugged at the top through which the pipe for the Filling compound goes.

In the drawing, Fig. I is a partially sectioned view of a Pump for the filling compound, Fig. 2 an axial section through the borehole.

The filling compound is taken from a storage container i, which is expedient is heated to keep the mass liquid. It flows out of the storage container through a line 2 into a pump container 3, which is d. constantly heated will. A pump 5 is arranged in the container 3 and completely from the hot filling compound enveloped, but can also be specially heated. The drive of the pump; he follows by a belt 6 over a pulley on which a crank pulley 6b is attached is. The crank disk has a slot 6a in which the crank pin 6d for the The pump's connecting rod is adjustably attached to change the stroke of the pump. The pump conveys the filling compound from the container 3 through a suction line 5a Check valve 5b and a pressure line 5a with check valve 5d through a Line 8o into borehole 81 and into gap 82.

The line 8o, which may have a clear width of about 2o mm, is inserted into the. about, Io mm wide Borehole 8r, which is connected to the gap 82 stands, settled down. It must reach as close as possible to the bottom of the borehole, so that it heats the mass rising in the borehole. If then pumped in quickly enough the cavities can be filled even at great depths before the mass solidifies. If the line ended up in the borehole, the mass would probably go a little way into that Penetrate the hole and maybe fill a gap, but then solidify and block the way for further advance. But if you let the crowd enter below, in this way the pipe 8o, which is filled with hot, constantly renewed compound, receives the warm mass rising in the borehole, so that they fill one gap after the other can. As indicated in Fig. 2, the borehole is closed by a plug at the top.

In general, the method is suitable for holes that are 2.5 to 3 m deep, but can also be at greater, even quite considerable depth, Are used when the flow rate, as explained, is kept high enough will.

Claims (1)

PATENT CLAIM: Method for closing crevices in the rock or similar structures, in which a molten filler mass in a leading to the gap Borehole or is driven into the gap itself, characterized in that the highly heated mass through an open bottom reaching to the bottom of the borehole Tube in-it unperforated walls inserted into the borehole and countercurrent in the borehole is conducted to the mass in the pipe, so that they are due to the heat supply of. the crowd remains fluid in the pipe, rises and fills the gap.