DE2017892A1 - Method and device for ventilating a mine tunnel - Google Patents

Description

P AT E N TA NW ALT E Dipl.-Ing. M ARTIN LIGHT

PATENTANWÄLTE LICHT, HANSMANN, HERRMANN Dr. REINHOLD SCHMIDT

8 MDNCHEN 2 TH E RES IENSTRASSE 33

Dipl.-Wirtsch.-Ing. AXEL HANSMANN . Dipl.-Phys. SEBASTIAN HERRMANN

Munich, 14 April 1970 ₀

Your reference Our reference KE / C8

JOY MANUFACTURING COMPANY PITTSBURGH, PENNSYLVANIA, V.St.A, OLIVER BUILDING

Method and device for ventilating a mine tunnel

The invention is concerned with a method for Ventilation of a mine tunnel during the mining process at the front of the tunnel, and it affects as well a mining or mining machine that comes with facilities is equipped to carry out this procedure.

A continuously operating mining machine of the type according to the invention is one or more rotating Sehneidküpfen provided by a vertically movable The tree is carried on a mobile base is stored so that it can move along the pit floor, with one in a mineral vein generated mining surface is in contact.

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It is known that continuously operating mine machines, ο b they now have a rotating cutting head, the drilling machine type or those working with chains Obligations of mining, all have a tendency to very much yiei to stir up dust.

The object of the invention is therefore to improve the extraction of dust and gas that during the Cutting process are released by the fact that the mine tunnel is ventilated or ventilated.

P ■ According to the invention, a method is therefore shown with which a mine tunnel during the rib construction operation can be ventilated, with a normal flow of air through the Tunnel in ilichtimg on the mining area and away from it is generated in a discharge flow .. The mining operation is thereby with a. Machine carried out the one having elongated cutting head carried by the forward end of a thumb which is in the machine is rotatably mounted so that the cutting head can move up and down to in this way a cutting zone generate, which extends transversely to the said movement and in which the normal flow of ventilating air

fc is amplified by a forced air flow. This forced air flow is directed towards at least one lateral end of the cutting zone and withdrawn from this end in order to thereby across the entire width of the cutting zone a reinforced one Generate airflow.

A mobile mining machine is also in accordance with the invention created with which this procedure is carried out, and the, As stated above, comprises an elongated, rotating cutting head carried by the forward end of a thumb which is rotatably mounted to thereby move the cutting head up and down and to a son oath zone generate that extends transversely to this movement. These Machine has an air-conducting Durohgang that to

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belongs to the tree and moves with it, as well as means with which air is moved through this passage. This passage has an open ended part which, in Ilicn-tn.ng, extends to part of the Sclmeidzone extends, which is created at the lateral end of the cutting head.

According to the invention, the obstructive dust and gas that are normally used when using continuous Mining machines are encountered is reduced. The particular advantages of the lines built into the tree according to the invention are as follows:

When the fan and the pipes become integral Components of the tree are made no special Support mechanism or cable swivel mechanism required, to keep the air source in the appropriate position. Since the pipes with the tree consist of one part, once the exit occurs söf frtunt>; has been aligned an adjustment of the tree upwards and downwards Take the lines with you and adjust the outlet opening hold in the appropriate position so that the airflow is on the point of greatest gas release and the strongest Dust remains directed, i.e. to the instantaneous Work surface or slide zone. When the air hits the Slmeidzone is directed so takes place in comparison to Wlrkun.r a more general airflow supply one far better dust removal and gas dilution instead.

The invention is explained below with reference to the drawing explained by way of example, show in the drawing:

Fig. 1 is a perspective view of an inventive unit built-up mining machine,

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FIG. 2 is a plan view of the mining machine from FIG. 1,

FIG. 3 is a side view of the mining machine of FIG Figures 1 and 2,

4t shows a sectional view along the line kk in FIG. 2, seen in the direction of the arrows and

Fig. 5 is a sectional side view taken along line 5-5 in Figure 2, seen in the direction of the arrows.

In FIG. 1, a mining machine is shown and generally referred to by W as IO, which has a cutting head drum 2k rotatably mounted on a vertically movable tree Ib. The tree 18 is rotatably mounted on a main frame Ib, which in turn is supported in a manner known per se by two crawler belt arrangements Ik and made movable over a surface. The Jiauprahmen 16 also carries an elongated, centrally arranged carrier conveyor JO, as well as a conventional collecting head 26 of the loader arm type. The tree 18 carrying the cutting head is rotatably supported at 38 and is rotated around a horizontal axis with the aid of flow-actuated, extendable working cylinders 32, while the Saniinelkopi can be rotated in a vertical direction in a similar manner by means of two suitable working cylinders Jk.

Iu the middle in a rearward part of the Tree 18 is a duct fan and motor assembly 27, which may be of any suitable type handling large amounts of air at moderate speeds can be moved. The housing of the fan assembly

27 is exactly on an approximately Y-shaped, rectangular air duct

28 adapted and represents essentially with this line in an airtight connection. The line 28 has right and left branches 36 and 37, which are dimensioned in a suitable manner wind, and its cross-sectional area almost twice as large

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is like that of the blower, in order to and motor assembly 27 with a massive air Speed through both branches 36 and 37 of the Y-line

28 lead. As can be seen from the drawing, extend the branches 36 and 37 of the Y-line 28 from the end face of the fan assembly 27 through the interior of the tree 18 diagonally forward and outward, the extreme ends of branches 36 and 37 to the outside The sides of the tree 18 protrude. Each of the two outer ends of the Y-line 28 is an opening

29 of substantially full cross-section through which the air supplied by the fan and motor assembly 27 is discharged. As can best be seen from FIGS. 2 and 5, a substantially rectangular valve or damping element 35 is arranged across the bottom of the left branch 37, which stops the air flow and directs the entire air flow into the right branch in the manner described below. As can be seen from FIG. 5, the damping element 35 is held in its position with the aid of a single aging element, for example a head screw 39, which is arranged somewhat to the right of the longitudinal center line of the tree, with the damping element 35 extending diagonally backwards that centerline extends so that it mates with the back of the left branch. For certain purposes it is desirable to block the right branch 36 instead of the left, and for this purpose a threaded hole AO is provided at a location analogous to that of the cap screw 39, but to the left of the center line of the tree. By moving the head screw 39 from its current position to the bore hO and by simultaneously pivoting the damping element 35 into a suitable position, transverse to the right branch 36, the air flow can be switched over. As can best be seen from Figure 3 * and in detail

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4, the outer ends of the conduit 28 are tilted slightly downwards so that the openings 29 point in a direction which is approximately tangential to the outer surface of the cutting head drum 2k on the underside thereof, for a purpose to be described.

The cutting head drum 24 carries helical conveyor links on which suitable mineral cutting bits, not shown, are mounted are attached that migrate in the operating state on tracks that together form a line, such as It is shown as chisel track 25 for cutting, i.e. mining, mineral in a known manner.

In operation, the respective machine 10 described above is driven in a known manner to a mineral surface with the aid of the caterpillar or crawler belt arrangements Ik , and with the tree raised and the cutting head drum rotating clockwise, as can be seen from FIG. 3, the machine 10 generates a new one Area as can be seen at 23 in FIG. As soon as the cutting process begins at the desired height level or on the desired line 20 of the hanging wall, the machine is moved forward by approximately half the diameter of the chisel path 25 and the tree is then gradually lowered, whereby an area 23 is formed which roughly corresponds to that in 3 and a substantial horizontal portion 23 * is continuously formed and cut away. This surface part 23 'is exposed to the strongest visual cutting action of all parts of the surface zone and is best referred to as the cutting zone. Since the maximum cutting effect takes place in the considerably higher area or the cutting zone 23 ¹ , this is also the point where the largest amount of dust is created and the largest amount of gas is released. When the damping element 35 is in the. is in the position shown in Figure 2, the left branch 37 of the line 2H is blocked, so that all the air from the

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The fan and motor arrangement 27 must flow through the straight branch 3ö of the line 2b and out of the opening on the right. When the outer end of the conduit 28 and the opening 29 are directed towards the space between the drum head 2k and the cutting zone 23 ', then the air supplied by the fan and motor assembly 27 hits the ledge-like part 23' and mixes with the dust and gas, diluting the gas and blowing the dust back against the face, and if all the air is directed toward the right side of the face the pressure will rise above that on the left Pressure on, and as a result, the air moves across the surface from right to left, seen in Figure 2 from bottom to top. This air then hits the left wall or cradle 21 at a sufficient distance to allow substantial passage for the air from the fan and motor assembly 27 with its dust load and intermixed gases. Some of the dust will of course fall to the bottom 22 of the gallery, but generally the finer particles and admixed gas will be transported past the shaft separator 31 to the general pit ventilation system, from where they will be evacuated and suitably separated.

It should be noted that in the case of the tree 18 built-in lines 28, which move together with the tree and are carried by it, * the openings are 29 always in a position relative to the raised part or «to the cutting zone 'of the surface 23, which it gives them allows the airflow to the cutting zone at exactly the right place, regardless of whether the machine dismantles in high or low position.

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The mining machine tree described above with a special pipe system is only one of many possible constructions with which the ventilation process described here can be carried out, a process that could be described in general as follows: During the mining machine operation in a tunnel passage, a normal air flow is established in the tunnel along to the end face or excavation surface part on one side of the center line of the passage, transversely to the end face and in a backflow on the other side of the center line away from the end face with the help of one or more aids, for example a manhole separator _/ generated in the near the one rib is arranged, which extends almost to the end face, wherein there is a negative pressure behind the shaft separator, ie a pressure below atmospheric pressure. The air would then move generally along the tunnel passage in the direction of the end face, i.e. the mining area, and then from this end face back behind the shaft separator or as otherwise described. The air could also be evacuated from this face by means of a long, uninterrupted conduit, the inlet end of the conduit being in front of the miner, so as to prevent the dust from falling on the miner.

Assuming this normal air flow in the tunnel along in the direction of the end face, is now according to the invention suggested at an acute angle to the normal air flow and along with this normal Air inflow to carry out an auxiliary air flow, the one Inflow forms, the volume and speed of which are sufficient to allow the air supply over parts of the forehead or degradation— to steer surfaces that are normally not touched by the air flow, especially over the corner of the pool,

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which usually represents a dead airspace in which no gas dilution and dust removal by normal Air flow take place over the other parts of the face » Further process steps could consist in the delivery sequence of the auxiliary air flow from a high Starting at the angle at the beginning of the cutting cycle (sump part) to vary and then continuously up this angle change to a low angle that is flat on the bottom of the adit at the end of the downward shear, so that during the entire cutting cycle the auxiliary air flow against the sons zone as the area of greatest gas release and dust generation is directed to dilute the gas and the dust in an increased air, gas— and backflow of dust mixture from the end face.

It should also be noted that if with the fan and motor assembly 27, the air against the back of the machine is blowing, a reverse flow of air is to be generated, it is obvious to move the damping element 35 from the position shown in FIG to switch to the analog position in which the right branch the line 28 is blocked by the damping treatment se linen t 35, so that the air from the right side of the face still flows over the left side of the end face, where it is received by the opening 29, through the line and the fan and motor assembly 27 flows through to the rear, preferably by a flexible, -not shown Pipeline to be discharged. The object of the invention is achieved in that the openings 29 constantly arranged in the correct position relative to the cutting surface 23 ' are.

If the attenuation element 35 were completely removed, could of course both branches 36 and 37 either for air supply . for the front surface or for removing dust and gas mixtures

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from this face used what another Application for the process principle described here would represent. Other arrangements are of course also possible possible, in which air is fed in through both openings 29 and on both sides of the machine behind the Shaft separators is discharged or taken up by overhead lines of various types.

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Claims (1)

Pa t e η t a η 's ρ r U e Ii e 1. Procedure for ventilating a mine tunnel during the mining operation, during which a normal air inflow along the tunnel towards the mining area and in a backflow * away from this mining area takes place and the mining operation is carried out with a machine , which has an elongated cutting head that of the front end is rotatably mounted in the machine Tree is borne thereby to create a cutting head extending transversely to the movement Moving up and down cutting zone, characterized in that the normal cross flow of the ventilating air through a forced air flow is amplified, which is directed towards at least one lateral end of the sclineid zone is steered or reclaimed from there to cut across the whole Width of the cutting zone to generate an increased air flow. 2. The method according to claim 1, characterized in that that the direction of the forced air flow according to the perpendicular The cutting process of the cutting head is varied in order to maintain the position of the air flow in relation to the cutting zone, as the cutting progresses. 3 .. The method according to claim 1 or 2, characterized in that that the forced air flow is directed against the one lateral end of the cutting zone at an angle, under which the airflow is caused to move towards move the opposite side of the sclineid zone, and the return flow of the ventilating air is constricted by a partition wall in order to adhere to the wall of the The tunnel passage next to the opposite end. 00 9846/111 1 '■■. k. Mobile mining machine for carrying out the method according to claims 1 to 3, wherein the machine is equipped with an elongated, rotating cutting head which is carried by the front end of a tree which is rotatably mounted for moving the cutting head up and down, thereby a To create a cutting zone extending transversely to this movement, characterized by an air-carrying passage (28) belonging to the tree (18) and moving with it, and means (27) by which air can pass through this passage (28 is movable) ,, which has an open end provided with a part (29) which extends (23 ^r) in the direction of a part of the cutting zone ", which is provided at one lateral end of the cutting head (2h). 5. Mining machine according to claim 4, characterized by a second part (29) which is provided with an open end and which extends in the direction of part of the cutting zone (23 ¹ ) at the opposite, lateral end of the cutting head (24). b. Mining machine according to claim 5, characterized in that both parts (29) provided with open ends are produced by a fork in the passage (2b), and in that a control device (35) is movably mounted in the passage (2b) at the point of the fork , which slams optionally adjust to distribute the air flow in the two open-ended parts (29). 7. Mining machine according to claim b, characterized in that the air flow is expensive device (35) is a valve corresponding to the flat damping plate type. H. mining machine according to claim > t , characterized in that the air moving device (27) is a combination of a fan and a motor mounted on a rear part • 009846 / 1111- of the tree (IB) and at the rear end of the passage (2β) is connected. 9, mining machine according to claim 8, characterized in that the fan is an axial flow duct fan. 00 9 846/1111