NO136616B - - Google Patents

Description

Procedure for climbing site operation and device for carrying out the procedure.

The present invention relates to a method for ladder operation as well as a device for carrying out the method.

In an embodiment for previously known methods for ladder operation drills

usually a line hole with a small diameter from the surface of the rock in the direction towards and down to an underlying place or a rock space. A winch with a motor is then placed on this surface of the rock in connection with the line hole and a hoisting line is led down through the hole to the place or rock space, where the line is attached to a hoisting basket. This is mounted inside a guide system, which either takes the form of a stand resting on the floor of the rock room or consists of guides which are placed at the walls of the climbing area as the climbing area increases in height. Telephone cables are then attached to the underside of the lift basket, which can be connected to a cable system in the pit. The length of this system can go up to several km or at least several hundred meters. The lift is maneuvered by a driver who is at the lift winch on the surface of the rock and the maneuvering takes place by the lift crew down in the mine informing the winch operator of their wishes regarding the movement of the lift, after which the mining continues in the roof of the place or the rock room.

In practice, this method is very clumsy and also dangerous for the crew in the lift. Thus, a telephone order can easily be misunderstood with the consequence that the lift will be maneuvered in a way that directly endangers the lives of the lift crew during their work. For example in the event of incorrect manoeuvring, the lift can run up against the roof of the climbing area being worked on, whereby the rope can be torn off and the lift can crash down with the crew.

Furthermore, it may often be desirable to only move the lift short distances in order to achieve a better working position for the drilling. carry out exactly a given telephone command about the desired maneuvering of the lift.

In order to try to solve the problem of getting away from long telephone cables, in certain cases a telephone cable has been brought down parallel to the hoist line through the line hole, but with the result that the cable was quickly damaged and interrupted the connection between the hoist crew on one side and the hoist driver on the other. The method has therefore essentially been completely rejected.

With regard to the desirability of the lift crew themselves being able to maneuver directly from the lift, an attempt has also been made to run electrical control cables through the line hole, but like the telephone cables these can be worn or torn to pieces and cause overturning in the lift construction. Furthermore, electrical devices are most often risky in pits where there are explosive gases that can ignite and lead to explosions. Furthermore, ignition wires for charges can become live when flashed and contacted. For the same reason, one should also not think about placing an electric motor in the lift itself and directing the power via cables through the line hole.

Furthermore, up until now, people have had great difficulty in being able to control the lift in the lateral direction, so it is relatively stable at an assumed working level. In this respect, the guidance or steering mentioned above has been applied up to now, which, however, entails expensive and time-consuming construction work and also requires a larger diameter at the place of rise in order for the steering to be able to accommodate. Thereby, an unnecessary amount of rock is blown away with the resulting high costs.

In another method in this context, in stages appropriate abutments have been drilled into the riser's walls, on which the lift is in one way or another brought to rest during the work, which, however, also entails significantly increased costs and wasted time.

The foregoing discussion serves to shed light on the many problems that have so far arisen in the operation of climbing areas, and it will be understood that the problems are of a particularly difficult nature.

However, the disadvantages are now completely eliminated by the present invention, which is mainly distinguished by the fact that with the help of impact drills, diamond drills, line drills or the like, a so-called line hole, after which a carrier line that can be fixedly anchored at said surface is lowered through the formed line hole, and that this line is led into a riser lift and wound onto a line winch built into the lift and maneuverable from there, as the riser operation begins in an upward direction from the place or the rock space around the aforementioned drill hole by maneuvering the line winch from the lift to raise the lift to working level (a few meters from the rock roof), at which level blast holes are drilled into the rock roof and explosive charges are placed together with detonating wires or the like, and then maneuvering the line winch for lowering the lift to the starting position, in which the line is released from the lift and retracts read up to a level protected against blasting, after which the lift is moved to the side in safety from falling rock, the blasting is carried out, the line is again lowered and reeled on the line winch and the work continues until the climbing area is finished.

The invention shall be explained in more detail with reference to an exemplary embodiment which is shown schematically in the drawing, and in connection with this, characteristics which are characteristic of the invention shall be further discussed. Fig. 1 shows a vertical longitudinal section of a riser during operation and a riser lift during lifting. Fig. 2 shows a vertical longitudinal section through the same riser with the lift raised to working position.

In the drawing, 1 denotes the rock, 2 a horizontal place, a rock space or similar and 3 a climbing place under work.

To illustrate the practical implementation of the method, it is assumed that one starts from a zone in the roof of the rock room 2, indicated by the dashed line 4, through which the riser is to be driven upwards. As a first precaution, a line hole 6 with a relatively small diameter is then drilled from the surface 5 of the rock 1 downwards into the rock. The drilling can be carried out with the help of impact drills, diamond drills, line drills or the like and is only finished after the relevant zone 4 has been broken through towards the rock space 2. The drilling tool is then removed and there a hoisting line is led down into the line hole 6, which with the help of a 8, the generally indicated control is introduced in a riser lift 9 introduced into the rock space 2. This can rest on a trolley designated 10 and provided with wheels or the like or also be provided with support wheels (not shown). According to the invention, the end of the line introduced into the lift is attached to a line winch placed in the lift curve, which is driven by an air motor and it is also placed in the lift and connected through air line 11 connected to the pit's lye compressor system. At the same time, the lift is also connected through a line 12 to a drilling water system for commonly known purposes.

In fig. 1 shows an already partially operated climbing area with the lift 9 on its way up to continue working in the upper part of the climbing area. In this regard, it should be mentioned that some of the miners 13 who are in the elevator basket can, from a maneuvering device in the elevator, directly and at will, maneuver the elevator in the climbing area without having to give telephone orders to a game warden who is on the rock top surface. This therefore primarily means that you can save a man. Furthermore, the lift's movements can now be easily controlled directly from the lift curve. This entails several advantages compared to the state of the art.

It should also be mentioned that the line 7 at the surface of the rock in connection with the line hole 6 runs over a stationary, rotatable roller 14 and that the line can be wound up using a drum with a crank 15 and with a pallet wheel arrangement or the like.

In fig. 2, the riser lift 9 is raised to a working position a few meters from the riser's 3 random roof 15. Before work begins, the air motor is stopped, after which adjustable side supports 16 for the lift are brought into contact with the rock walls and prevent the lift from swinging uncontrollably. Furthermore, anchoring wedges 17 are driven into the rock wall, and these form suspension means for chains 18 which are fixed in the lift. The lift is thereby brought to hang securely in these chains, after which work on the drilling and preparations for blasting can begin from the lift's roof 19, to which the workers enter through a suitable hatch (not shown), the roof being arranged as a working platform and can be turned up and down.

After the preparations have been completed, the drilling carried out and the explosive charge placed, the chains 18 are released and the side supports 16 are moved away, after which the crew maneuvers the lift so that it is lowered into the rock compartment on the waiting trolley 10 and moved away.

The line 7 is now untied from the line winch in the lift basket and one of the men carefully goes up to the surface of the rock and swings up the free line with the help of the winch 15 until the end of the line is in an explosion-proof position in the line hole 6, usually around 20 m from the roof of the climbing area 20 When this is done, the other of the two workers starts the actual blasting and the falling rock is transported away in a suitable way.

In general, this work requires an entire work shift and the two workers are therefore usually replaced by a new work team who once again climbs up to a work position in the climbing area and repeats the whole process.

It should also be mentioned that the lift contains connections for air and water to the work tools used, and one will realize that it is practical to use the same drive method for the lift and for the tools.

With the help of the invention, a risk-free method is thus achieved to drive the riser partly by direct maneuvering and partly by the use of an air motor. Furthermore, you avoid danger and, moreover, difficulties with telephone lines, which have to be maintained.

Faster and more accurate maneuvering rings are now possible through the direct influence from the lift. The production and construction costs for the lift will be considerably lower than with the previous proposals and the maintenance itself has also been simplified. The lift can also be done easily.

The invention is not limited to the embodiment shown and explained, but can be varied in many ways within the scope of the underlying inventive idea.

Claims (4)

1. Procedure for operating ladder locations (3) where, using a hammer drill, diamond drilling machine, line drilling machine or the like, one drills from the surface of the rock (5) in the direction towards and down to an underlying location or a rock space (2) in the rock a line hole (6) with such a dimension that a support line (7) can be passed relatively freely through it, after which a support line attached to the mentioned surface (5) which can be anchored is lowered through the hole (6), characterized in that a the underlying ort or rock space (2) being a hoisting basket (9) with a built-in pneumatically driven and maneuverable line winch from the hoisting basket is brought under the area for the climbing place (4) to be carried out, as the line (7) is fed into the basket (9) and is reeled in on the winch while hoisting the basket (9) together with the crew (13) to working level (a few meters from the rock roof (20)), after which the hoisting basket (9) is anchored using chains or the like (18) to the walls of the climbing area and brought to to hang in there during the drilling and the loading work is carried out, and the lift (9) is again released from the rock wall and lowered to the bottom of the rock room, in which position the line (7) is released and wound up to an explosion-proof level in the borehole, the lift (9) is moved to the side in safety from falling rock, blasting is carried out, the line (7) is again lowered and the line winch is wound and the process is repeated until the path (3) is completed. 2. Method according to claim 1, characterized in that the lift (9) after part of the riser has been extended, is centered or adjusted and supported against the side walls of the riser (3) by means of side supports (16) protruding from the lift (9), which in turn are retracted in connection with the lowering of the elevator (9). 3. Device according to claim 1, characterized in that the lift is provided with a roof (19) designed as a working platform, which can be suitably folded up and down. 4. Device according to claim 3, characterized in that the lift (9) is provided with connections for compressed air and for flushing water.