DE818332C - Two-part, yielding pit or route stamp - Google Patents

Description

Two-part, yielding pit or route stamp Die in the seam The excavated mining routes are stressed to a considerable extent by rock pressure. Experience has shown that a rigid expansion of the mining routes is caused by the rock pressure destroyed. An articulated, flexible extension of the mining routes has proven to be useful proven. An embodiment with joints and sliding tabs is known slide into each other when moving in the mountains. This embodiment adheres the disadvantage that the friction conditions in the tab connection due to leverage the expansion segments are uncontrollable and consequently not a flawless, dem Reduction pressure corresponding pushing into one another of the sliding tabs is guaranteed. Another known embodiment consists of rigid arches with the interposition of joints that rest on wooden pillars filled with mountains. The compliance the wooden pillar depends on its degree of filling and can therefore not be used with the the required accuracy. In addition, wooden pillars take up considerable space, which must be exposed in addition to the route expansion. That for the wooden pillars the pit wood required is expensive. About manufacturing and building material costs for wooden pillars to save, pit punches are also more common for the provisional route expansion Type has been used. These have not proven successful because inserting the Inner stamp in the outer stamp is not reliable in the case of lateral rock pressure is.

These disadvantages avoids a metallic pit punch according to the Invention which is particularly suitable for installation as a route stamp. The invention consists in that the outer punch with a non-metallic, under high pressure plastic filling compound is filled. If the mountain pressure exceeds that for the expansion permissible dimension, the filling compound that has become plastic under the pressure emerges from the outer die off, and the interior The stamp sinks into the outer stamp so far, that a turbid stress on the expansion is avoided. A plastic one is advantageous Filling compound used, which at the usual pit temperatures in mining operations between + 15 ° C and + 35'C has uniform plasticity, e.g. B. a bitumen-like Mass of coal, preferably with a breaking point of below - 15 ° C and one Softening point according to KS of over 65 ° C. Such a bitumen-like mass is obtained for example, if you have a coking luster coal with a grain size of o, i mm with five to six times the amount of anthracene oil at temperatures at which one Decomposition of the coal cannot occur, e.g. B. Treated at 36o ° C 3 to: 4 hours and then, without separation from the undissolved material, about half under ordinary pressure distilled off.

A pit stamp with such a non-metallic mass has become Tried and tested in practice, while an old suggestion as a filling to use lead, copper or soft iron for compliant pit punches than has not proven feasible.

The viscosity of the filling compound can be regulated by adding fillers will. The filling compound of the outer punch can be produced in individual disks. The punch length can then be adjusted according to the required installation height during installation can be set. The discs. Can be made from different types of filling compounds with different, consist of viscosity adapted to the desired flow conditions. For example the discs resting on the inner punch can be made of a higher viscosity filler exist in order to avoid leakage of the filling compound next to the seal on the inner punch. The outlet opening for the plastic filler has an expediently adjustable outlet cross-section. The outlet opening remains closed as long as no rock pressure occurs. Of the Pit punch is then rigid. According to the increasing mountain pressure, that The outlet opening is open and the pliability of the pit punch is regulated. The outlet opening can in the simplest form by an outer die in the Height of the outlet opening encompassing, beveled to the pit punch axis, to the pit punch axis rotatable locking ring can be regulated. Outside stamp and Inner punches are expediently each composed of a tube closed on one side, whereby the seal is in front of the face of the inner punch. With this arrangement the seal is protected against mechanical damage and contamination. One embodiment of the invention is that the outlet opening for the plastic filler is passed through the face seal and by means of an in the inner punch arranged rod is adjustable from the head end of the pit ram. This embodiment allows the recovery of the filling compound emerging in the inner punch. at Another, simpler embodiment is the outer punch as an upper punch formed and the outlet opening for the filling compound at the head end of the outer die arranged. Pit punch according to the invention can be regulated with advantage because of their Resilience as a ridge stamp on the mining front in the steep or half-steep Storage are used. If considerable side pressure from the coal is to be expected, so the pit punches can be made arched and bent towards the coal face be built in. The outer and inner punches then sink safely under the pressure on the side into each other.

In the drawing, pit temples according to the invention are for example shown, namely Fig. i shows a pit punch with designed as an outer punch Upper punch and at the head end of the outer punch arranged outlet opening for the filling compound, Fig. 2 a pit punch with an upper punch designed as an inner punch and the outlet opening passed through the end face of the inner punch, Fig. 3 the installation of pit punches as route punches in the cross-section of the route with extension segments, Fig. 4 the installation of arched pit punches as roof punches in the face section.

The inner punch 2 is in the metallic, tubular outer punch i slidingly guided. The outer stamp @i is in the form of a disk with a plastic filler compound 3 filled. The inner punch 2 carries the seal on the face of its insertion end 4th

In the embodiment according to Fig. I, the outer punch i is the upper punch educated. At its head end it has the outlet opening 5 for the plastic Filling compound 3. At the level of the outlet opening 5, the one encompasses the pit punch axis beveled locking ring 6 rotatable about the pit punch axis the outer punch i.

In the embodiment according to Fig. 2, the upper punch is an inner punch 2 trained. The outlet opening 5 'is through the seal 4 on the end face of the inner punch 2 passed through. It is arranged in the inner punch 2 by means of a Linkage 7 adjustable from the head end of the pit ram. The regulation is carried out by Raising or 'lowering the rod 7 by the in the inner punch n perpendicular to it Axis slidingly mounted link wedge B.

The holding fork 9 is attached to the end face of the upper punch, in which the expansion segment is articulated.

In the route cross-section according to Fig. 3, the expansion segments are marked with io designated. They are connected to one another by expansion joints i i. You rest in the holding forks 9 of the supporting route stamp.

In the face cross-section according to Fig. 4, the pit punch is more arched Ridge stamp shown. It is built in with a bend towards the coal face and supports this.

Hydraulic pit rams according to the invention are easy to install, reliable and cheap. Rising rock pressure becomes automatic through this balanced, that the viscosity of the filler and thus the amount of filler that escapes increases with pressure heating. The inner ram sinks continuously and without vibrations while protecting the mountains and the expansion in the outer temple.

Claims (7)

l ATE`TA`JP] rCCHE: r. Two-part, flexible pit or route stamp, the outer stamp of which is filled with a squeezable filling compound, characterized in that that a non-metallic, plastic under high pressure 'mass is used as a filler. 2. Pit punch according to claim i, characterized by a bitumen-like, plastic Charcoal filler. 3. Pit punch according to claim 2, characterized by a filling compound with a breaking point below - 150 C and a softening point after KS of over 65 ° C. 4. Pit punch according to claims i to 3, characterized by arranging the filling compound in the form of a disk. 5. Pit punch according to claim: I, characterized by the arrangement of disks of different types of filler. 6th Pit punch according to claims i to 5, characterized by an outlet opening for the plastic filling compound with adjustable outlet cross-section. 7. Pit stamp according to claim 6, characterized by the outer die at the level of the outlet opening comprehensive, bevelled to the pit punch axis, rotatable about the pit punch axis Locking ring for regulating the outlet opening of the plastic filling compound. B. Pit punch according to claims i to 7, characterized in that the outer die and the Inner stamp each consist of a tube closed on one side and the seal lies in front of the face of the inner punch. G. Pit punch according to the claims i to 8, characterized in that the outlet opening for the plastic filling compound is passed through the end face seal and by means of an in the inner punch arranged rod is adjustable from the head end of the pit ram. ok Pit stamp according to claims i to 9 with an upper punch designed as an outer punch, characterized by an outlet opening arranged at the head end of the outer die for the filling compound. i i. Use of pit punches according to claims i to io as a ridge stamp in a straight or curved design.