Mining the ore In the early days of mining in the Upper Harz simple
open cast working (
Schurfe) was the predominant
method of mining. With increasing depth a form of mixed mining developed that was somewhere between open cast and
underground mining. These mines were known as
glory holes (
Pingen) or simply dip mines (
Unterwerksbau). The ore deposits that lay immediately on the surface were quickly exhausted and, as early as the 12th and 13th century miners were forced to switch entirely over to underground mining. The mining methods that could be used were limited by the steep, almost vertical,
lenticles of ore, which were only a few metres wide, but dipped for several hundred metres into the earth. Hauling shafts were usually positioned in centre of the ore allotment on the lode and followed it into the ground. This resulted in inclined shafts with their characteristic, right-angled, longitudinal sections and frequent changes of angle away from the vertical. There were two reasons for this approach: firstly, it had to be possible to extract ore from the beginning (as soon as the shaft was sunk) in order to make the pit economic as early as possible. Secondly, the rock in the ore lode, which formed a 'zone of disturbance', was much softer than the surrounding rock. The typical Harz
grauwacke was far harder than concrete. As a result, the majority of drainage adits followed the vein. From the shaft, main gangways, the so-called
Feldortstrecken, were driven out to the boundary of the mine allotment. From these gangways, miners began to extract the ore, heading downwards into the floor, by 'brushing down' (
Nachreißen) in stepped fashion, a technique known as underhand stoping. The
stopes had a height of up to 3 metres and followed one another about 5 to 6 metres apart. In longitudinal section, therefore, a pit looked like a Christmas tree standing on its head. The deepest point of the pit was usually the main shaft. This enabled it to collect
pit water in the shaft 'sump'. As mining progressed the shaft was sunk deeper. The packing (gangue material used for filling) from the upper main gangways was placed in the exhausted cavities (the so-called 'old man' or
Alter Mann). This required the erection of a wooden ceiling over the active workings so that packing material did not fall into it and onto the face workers there. If the expected supply of ore or its quality did not justify sinking the main shaft deeper, or if the workings were a long way from it, draw-shafts were sunk. These blind shafts saved having to pack the 'old man'. In the Hornstatt, 1 or 2 labourers (
Knechte) worked a hand
winch and lifted the ore to the next highest main gallery. From 1633
gunpowder was used both for ore extraction and for driving gangways. This increased the daily headway considerably, from a few centimetres into the lode to a metre or more. The disadvantage, however, was that even more wood was needed to extend the mine, because
blasting caused the rock to fissure. When blasting, first a cut in the lode was made about 3 metres high and deep and a little less than a metre wide using
hammer and chisel. Next one or two transverse boreholes with a 6–7 cm diameter were drilled by hand Usually two-man boring was employed: one turned the borer whilst a second hit it with his sledge. The holes were filled with gunpowder and stuffed with a wooden peg which had a hole for a slow-match wick. Unlike blasting with modern explosive, the stemming had to be wedged in using an iron rod centred on the borehole and a thick wooden prop in a slot (
Bühnloch) on the opposite side. This operation frequently led to serious accidents when the gunpowder self-ignited as a result of friction-generated heat. Normal detonation was carried out using cord that had been impregnated with sulphur and gunpowder. After clearing the blast debris, the material to be screened was loaded into wagons (
Hunde or
Hunte) using rakes (
Kratze) and tubs (
Trog). Larger boulders (
Wände) were first broken up with sledges and crowbars. From the second half of the 18th century the method of mining was reversed. Now the roof was always mined and so extraction proceeded upwards. That meant the miners worked on top of the packing and could transport the ore under gravity using so-called chute holes (
Rollöcher or
Rollen) rather than shafts. Overhand stoping remained the only mining method in the Upper Harz mines until the end and was perfected in the final years through the use of trackless wagons, roof bolts (
Ankern),
shotcrete and
lean concrete packing. Trials with sublevel stoping (
Teilsohlenbruchbau) and square set timbering (
Blockbau mit Rahmenzimmerung) did not get past the experimental stage. In the middle of the 19th century, the many individual pits transferred to larger mine complexes with central shafts, at which point the sinking of inclined shafts and the mixing of layout and equipment with the workings was abandoned entirely. The central, vertical shafts lay in the host rock (usually in the hanging wall), just as permanently established as the main gangways (usually in the footwall).
Extraction technology with a 9.5 m diameter in Clausthal-Zellerfeld To begin with the ore was chiseled free and carted to the surface of the open pits or shallow mines in baskets. Once shaft depths increased to between about 10–60 metres hand winches (
Handhäspel) were used, operated by one or two workers (
Knechten). The crude ore was placed in wooden buckets for transportation. For the rather short, horizontal gangways leading to the shaft the ore was carried in
Trogs for several centuries (long before the introduction of blasting). In the 17th century the shafts reached depths of between 100 and 200 m. Ore could no longer be removed by hand and horsepower was increasingly used. The horses worked in a cone-shaped building, the
Göpel or
Gaipel, which housed a
horse whim, a winch that was driven by the horses walking in a circle. The hauling cable (made of natural fibre) or cast-iron chain was wound up and down over a vertical axle. The cable was routed down the shaft and hauled barrels of ore up and down. Due to the shaft's incline, barrels were covered with iron runners on one side, resting partly on the side of the shaft. Above ground at the pithead the ore was emptied out and transported away by horse and cart for processing. From the 18th century shaft depths of several hundred metres were being achieved and horse whims were reaching the limits of their capability. Where the mines were lucrative and their energy consumption high as a result of shaft depth or the ingress of water, water power had been used since the 16th century.
Water wheels (
Kunsträder) drove
piston pumps in order to keep the mine dewatered (
zu Sumpfe).
Reversible water wheels (
Kehrräder) powered the transportation of ore or winnings. Depending on the terrain conditions the reversible wheels were located either in underground wheel houses (
Radstuben) near the shaft (the cable drum being set on the same axle as the water wheel) or above ground in the valley. When using the latter method the wheel's rotation was converted into reciprocating motion using a
crank mechanism (
Krummen Zapfen) and transmitted over twin
flat rods, several hundred metres long, to the shaft. Here, reciprocating motion was re-converted into rotary motion. Due to the availability of water power this system was used until the closure of the Clausthal and
Lautenthal Pits in the 1930s (e.g. at the
Silbersegen Shaft and the Black Pit or
Schwarze Grube).
Steam power was first used in earnest when the
stone coal necessary for its operation could be delivered by railway towards the end of the 19th century. Electricity began to be generated at about the same time using water power from the
Upper Harz Water Regale - an extensive network of ponds, dams, ditches and tunnels, originally built to supply the mines with water power. In 1900 water was passed through
turbines and
electrical winding engines. At that time modern pits emerged with steel
hoist frames. The most important innovation in the Upper Harz hauling technology was the
Albert Cable (
Albert-Seil). Chief Mining Engineer (
Oberbergrat)
Wilhelm Albert (1787–1846) made a cable out of steel wire which was first successfully tested on 23 July 1834 at the
Carolina Shaft. That was the birth of the
wire cable. As the distance between shaft and workings lengthened and increasing quantities of material had to be moved, wheelbarrows or small wagons (the
Hunte or
Hunde) were used underground as horizontal methods of transportation. Up to 1800 they ran on wooden planks with
flangeless wheels and guide pins (
Spurnägeln). Thereafter iron
rails took over, initially as hand-forged rails (
Hammelpfote) only one metre long. Until 1900 the wagons were almost always pushed by hand.
Pit ponies were not used in the Upper Harz. From 1905 at the Clausthal Ore Mine (
Erzbergwerk Clausthal) underground haulage was carried out using
conductor engines in the gallery known as the
Tiefsten Wasserstrecke or "Deepest Watercourse". In the Grund Ore Mine (
Erzbergwerk Grund) battery-driven locomotives were used from the 1970s and, finally, diesel engines on wheels with rubber tyres. One feature mining in the Upper Harz was the underground transportation of material in boats on the
Tiefe Wasserstrecke about 300 metres deep, in Clausthal and Zellerfeld from 1835 to 1898.
Movement Until the beginning of the 19th century the miners of the Upper Harz had to enter and leave the mine using ladders. Towards the end, for shaft depths of around 700 metres this took up to 2 hours of the daily work time. This effort was almost impossible for older miners. In 1833, master miner (
Oberbergmeister) Georg Ludwig Wilhelm Dörell (1793–1854) came up with a simple, but ingenious mechanical method of getting in and out of the mine, the
man engine. Following successful pilot trials in the Spiegelthal Hope Shaft (
Spiegelthaler Hoffnungsschacht), a light shaft for the Tiefen George Gallery (
Tiefen-Georg-Stollen) in Wildemann the first main shaft to be equipped with a man engine was the Duke George William Shaft (
Herzog Georg Wilhelm) in the Burgstätter Mining Field. The first man engines had wooden rods with a high
dead weight. Due to the water wheel drive and frequent bends in the inclined shafts only a few miners could be transported simultaneously to begin with and they had to periodically switch over to ladders. The use of steel wire cables as rods in the
Samson Shaft at St. Andreasberg and steel man engines with steam or
water-column engine drives (Queen Maria Shaft and Emperor William II Shaft) brought improvements. On the introduction of electrical power around 1900 cable-hauled lifts also became common and remained so until the end. In 1905 passenger trains appeared in the underground galleries for the first time (the so-called
Leuteförderwagen or people-transport wagons). == Preparation of Upper Harz ore ==