DE620C - Free fall device on hollow drills - Google Patents

Description

The device consists of the outer, jacket tube a, in which an inner thread corresponding to its wall thickness is cut at b and c. At the lower end of the instrument, at b, the so-called cuff sleeve d is screwed into this jacket tube, and the so-called neck piece e is screwed into the opposite end. The latter is followed by an ordinary hollow rod made of wrought iron tubes. The free fall devices are enclosed in the jacket tube between the sleeve and the neck piece. They consist of a tube divided lengthwise into two halves, the so-called shells g, g ', each of which has a slot ( visible at h, h', A " in Fig. Τ) similar to the Fabian's slot Have free-fall instrument and in which the hollow scrap piece i with the catch wedge i ' can be easily moved up and down as with the Fabian's instrument and can be grasped, lifted and thrown off thanks to the widening of the slot at h ". The scrap piece i , for the sake of regular adjustment, needs a very great mobility in its orbits, so that it needs a clearance of about one millimeter all around against the sleeve and the shells, so as not to get stuck during drilling. fail. Nevertheless, this scrap piece in the cuff sleeve, for example at d , must have a watertight seal so that the flushing water that is driven down by means of the pump in the hollow rod and entering the instrument does not have the aforementioned 1 mm clearance (around the scrap piece) penetrate at kk ' , but are forced to flow down through the hollow from the case piece to the bottom of the borehole and flush there. The rinsing water cannot escape through the slots in the bowls because the jacket pipe prevents it.

The watertight closure at d, which allows adequate mobility of the scrap i , now forms a very essential part of the instrument.

It is formed by the rubber sleeves visible in FIGS. 1 and 4 / /, / '/', which are in the grooves of the. Cuff sleeve are inserted and the scrap piece i, by virtue of their elasticity, easily and yet completely watertightly encompassed. The rinsing water must therefore necessarily flow towards the only opening left free for them to emerge, namely the inner bore of the waste piece i. At m you step into a hollow loading rod to be screwed on and from this in turn into a so-called Danish hollow chisel, which works the drilling site directly. The water comes out in the immediate vicinity of the drilling site, flushes the drilling site and takes the loose pieces of rock with it as it ascends between the drilling equipment and the rock face. Two cuffs are required in the cuff sleeve because the internal water pressure on the upper cuff / / is canceled by the pressure of the rising water outside the instrument and one cuff would be rendered ineffective by this alone. The arrangement shown ensures that each cuff works for itself, that is, the upper one absorbs the internal water pressure, while the lower one absorbs the pressure from outside. The so-called fixation ring η shown in Fig. 2 is very important because by means of the nose projections located on it and in connection with the noses 0 located at the lower end of the shells, which are fitted into corresponding depressions in the cuff sleeve, every displacement of the shells prevented under itself and thereby prevents jamming of the waste piece.

. Patent claims: The water closures in the instrument, through jacket pipe and cuffs, as well as the resulting arrangement of the free fall device.

For this purpose I sheet drawings.

Claims (1)

1877. Class 5. KÖBRICH in SCHÖNEBECK. Free fall device on hollow drills. Patented in the German Empire on September 7, 1877. Longest duration: June 29, 1892.