DE4212714A1 - Dry and wet recovery of unconsolidated material - using floating and dry dredgers, and central conveyor, which is moved by face width - Google Patents

Abstract

The appts. employs periodic changes in the face, with common removal of the material via a central movable conveyor. It uses a floating dredger, conveyor chain, and water/land transfer machine on the water side, and dredger and mobile hopper wagons on the land side. A face conveying process is used. A cutting is made, and followed by removal of the next face strip by the floating dredger for wet cut, and the dry dredger. For removal of the face area bridged by the central conveyor, by the floating dredger, removal of the dry cutting of the next face takes place first. USE/ADVANTAGE - For recovery of raw materials, and for digging of large water-filled excavations, has min. dry digging capacity of2m, and wet cutting capacity of 10m

Description

The invention relates to a method for periodic changes a reduction front with simultaneous drying and Wet extraction from unconsolidated or weakly consolidated Loose rock with transport of the goods over a different location central conveyor, the wet extraction with the help a dredger with a connected, continuous Lich working funding is carried out.

This process is for raw material extraction and creation open water-filled construction pits with larger dimensions suitable for different purposes, whereby min minimum thickness in dry cut of 2m and in wet cut of 10m are required.

The solutions currently used in practice for Extraction of powerful loose rock deposits by the standing water table in a dry and in a In principle, wet cuts can be divided into fol basic structure, being divided into three groups makes sense.

Group 1

The existing loose rock is extracted in one cut, a dredger being used as the extraction device. A division into a dry and wet cut is not necessary. Is the loose rock standing above the water level part too powerful and tends to slope embankments, so be by auxiliary units, e.g. B. Hydromonitors, parts of the first masses in the quarry pond to create a ge endangering the wet excavator with the connected funding to reduce. The sector or Dam support applied.  

The disadvantage of this method is the strong adverse effect embankment security and thus endanger the Plants in the quarry lake due to oversized embankment heights. Except this is due to the exclusive use of wet excavators in the Winter period too large due to effects of frost and ice production losses of the extraction facility and requires the creation of larger stockpiles in order to to ensure continuous supply to consumers.

Group 2

The upcoming loose rock is separated in one Dry and wet cut won, the material being conveyed out two cuts over one in the mining area portable central conveyor is transported away. Only wet dredgers are used in wet cutting. As Dismantling procedures only come for the dry and wet dredgers parallel or swivel dismantling in question. A disadvantage of this procedure is that the erosion in wet cut to a maximum by using dredgers 15m is limited.

Group 3

The upcoming loose rock is separated in one Dry and wet cut won, with the conveyed material with the conveyors assigned to the respective cut is ported. A supply of the masses to one in mining central conveyor located in the area.

In wet cutting, there can be wet dredgers or in an excavator lake working dredger to extract loose rock be used. The dismantling process comes for Dry and wet dredgers for parallel or swing excavation to use. When using a dredger, the general sector or dam promotion in practice applied.  

These methods have the disadvantage that they are separate Removal from wet and dry cutting in comparison to use a central conveyor increased investment and operating costs. The separate loose rock winches in wet and dry cuts and with separa Funding requires a larger area than with central conveyor procedures where one spatial concentration is given according to the procedure.

It is known that large wet-cut thicknesses can only be achieved by the use of dredgers are manageable. Decide for reducing the cost of extraction with Dredging is a minimization of the swimming conveyor length. The swimming conveyor length is minimized by that featured in the patent application DD-AP E 21 C 34 38 840 proposed methods for the wet extraction of solids periodic change in the mining front reached. This The process is carried out using a dredger, a swimming conveyor chain, Water-land transfer device, a portable, periodically returnable means of transport on land and one of the transfer device detachable and floatable Wasser-Land-Band with connected support complex reali based and is characterized by the following procedure steps:

• - Back of the portable, arranged over a mining field Neten means of transport when dismantling each by a longitudinal stripe width,
• - Making incisions per longitudinal stripe on the rungs end by a dredger, as a prerequisite for that Dredging of the following longitudinal stripe,
• - Removal of the longitudinal strips in one go at a time direction, wherein a breakdown cycle from the following process steps consists:
• - Back of the portable means of transport on the Stros beginning of the bar by a longitudinal stripe width,  
• - Disconnect a handover located at the end of the rung direction from the Wasser-Land-Band,
• - Moving the transfer device to the start of the rung,
• - Back of the portable means of transport on the Stros sender,
• - Implement or blur the water-land band with connected swimming conveyor chain and dredger in Direction "lengthways to the means of transport",
• - Return of the transfer device to the end of the rung and turning in the direction "longitudinally to the means of transport" or Offset by 90 °,
• - Connect the transfer device with the blurry Water-land band,
• - Make an incision at the end of the rung for the Dredging of the following longitudinal stripe,
• - Dredging the first mining block of the moved longitudinal streak,
• - Disconnect the transfer device from the water-land belt and Turning them 90 °,
• - Blurring or moving the from the swimming conveyor chain separate water-land band and connect to the Transfer device,
• - Reconnect the water-land band to the swimming pool derchain,
• - dredging the excavation strip to the start of the rung,
• - Returning or swimming of the handover mining system facility - Water-land conveyor - Swimming conveyor chain
• - dredger at the end of the rung.

The disadvantage of this method is that it is from a the above water level of the pending solid was not correct is more applicable and a dry cut is also used must be judged.

The object of the invention is to develop a method where a portable central conveyor removes the mass transport from a dredger working in a wet cut in connection with a continuously transporting Float conveyor and one in dry cut in verbin excavator working with a hopper wagon. According to the invention the object is achieved in that a portable land conveyor as central conveyor in the Ab construction field is arranged so that a Bulk feed from dredger used in wet cutting and guaranteed by the excavator used in dry cutting becomes. In doing so, the central conveyor is getting a streak of dismantling after the field parts have been dismantled. The Mining process of the wet excavator represents the dominant compo nente in the entire process, and determines u. a. the Time of relocation of the central conveyor and thus the necessary progress of the cut in dry cutting put excavators. The excavation process of the dredger he calls for an incision to be made for the Ge the subsequent dismantling strip is required and consists of a wet and dry cut.

After dredging the 1st mining strip begins with the Back of the portable central conveyor on the rung beginning of the regular breakdown cycle in the following be written way of working, which is for the following Vertical stripes repeated.

This is the following basic procedure steps:

• - Back of the portable central conveyor by each a strip width.
• - Make an incision as a prerequisite for the The following excavation strip is dismantled by the dredger in wet cutting and the bag used in dry cutting ger.  
• - Removal of the removal moved over by the central conveyor streak through the dredger and simultaneous dismantling of the future mining strip in dry cutting.

Another characteristic of the inventive solution is that there are two ways of making the incision to offer. In one case, only the Mass of dry cut in the wet cut area. The All masses in the incision are removed after being picked up by the excavator using the floating conveyor location to the central conveyor. In the other case, the transport of the pending masses by means of mobile för of the funnel car from which the Conveyed goods transferred to the portable central conveyor will.

Mining a field begins with making an on cut for the portable land conveyor. To Construction of the central conveyor and integration into the stationary one Belt system is the first to be obtained in dry cutting masses in the 1st mining strip. After receiving a sufficient The preceding run is the digestion in the wet cut Floating in the dredger with the associated floating conveyors and the winning of the pending wet cutting Masses.

After the dry cut of the 1st mining strip completely won, there is a transition to the 2nd strip, this like the 1st strip in two cutting passes is reduced. The dismantling of the 2nd Striping is first carried out in the direction of the stationary conveyor derers, then the throwing in the direction of future cuts until reaching the limit of this ben performed.  

In the meantime, the mining of the Lockerge is in wet cutting steins so far that the 1st mining strip contains no recoverable material and with the one dredging must be started in the 2nd mining strip. For this purpose, one that can be moved above the central conveyor is arranged nete transfer device with the water-land conveyor, the Swimming conveyor chain and the dredger from the direction "Transversely to the means of transport" in the direction "Longitudinal to the trans portmittel "blurred or offset by 90 °. It follows making the incision for the next 2. Removal strips by the dredger. The dry cut masses present above the incision surface are thereby either from the excavator to the wet-working swimming hand over excavator or in connection with mobile chargers fed to the central conveyor via the hopper car. To At the end of this work, the first mining cycle begins Regular operation.

First, the central conveyor at the beginning of the rung is one Vertical stripe width moved, the water-land conveyor of the transfer device separately and the latter to the Stros Move beginning of sen. Following this is the back of the portable land conveyor by one strip width possible at the end of the rung. Implementation takes place at the same time of the water-land conveyor, the swimming conveyor chain and the Dredger in the new position for dredging the 2nd Stripping strip. The transfer device is sent to the Stros retracted and in the new position with the Water-land conveyor connected, the incision on the stope end for the 3rd mining strip in wet and dry cut in manufactured in the manner described and with the dredging of the 2nd mining strip in the wet cut as well as with the extraction the loose rock masses in the dry cut of the 3rd quarrying started in strips. After making an incision in the Wet cutting of the 2nd strip is the handover device device and the water supply separated from the swimming conveyor chain Rotate land conveyor again by 90 ° or blur it  and to reconnect with the swimming conveyor chain, so that the dismantling strip up to the start of the steps in regular dismantling blocks can be dredged. After dredging one The stripping system of the transfer device - Water-land conveyor - swimming conveyor chain and swimming bag ger retracted or swum to the end of the rung. In In the meantime, the mining of loose rock masses in the Dry cut of the 3rd mining strip completed. With the renewed back of the portable central conveyor the next breakdown cycle begins.

A degradation cycle accordingly consists of the following ver driving steps:

• - Back of the portable central conveyor on the Stros beginning of the pit by a width of the
• - Disconnect a handover located at the end of the rung direction from the water-land sponsor
• - Moving the transfer device to the start of the rung
• - Back of the portable central conveyor on the Stros senende
• - Implement or blur the water-land conveyor with connected swimming conveyor chain and dredger in Direction "lengthways to the means of transport"
• - Return of the transfer device to the end of the rung and turning in the direction "longitudinally to the means of transport" or Offset by 90 °
• - Connect the transfer device with the blurry Water-land sponsors
• - Make an incision for the subsequent mining streak by winning the wet and dry cut
• - Dredging of the first mining block of the locked mining strip in the wet cut and start of dredging of the Dry cut the following strip
• - Disconnect the transfer device from the water-land conveyor and turning them 90 °  
• - Blurring or moving the of the floating conveyor chain te separate water-land conveyor and connecting to the Transfer device
• - Reconnect the water-land conveyor to the floating conveyor chain
• - Dredging the stripping strip up to the start of the rung in Wet cut
• - Retract or swim the handover mining system direction - water-land conveyor - swimming conveyor chain - Dredger to the end of the rung
• - Completion of the extraction work in the dry cut of the following strip.

As a portable and stationary means of transport belt conveyors are used. When using Truck as a means of transport, it is necessary that the transition equipment with a mobile bunker and this on a retractable, longitudinally arranged track procedure or is implemented periodically. The above Means of transport Belt conveyor or truck promote the won raw material in a processing plant. In addition to one This is used in the extraction of raw materials in mining Process also for the extraction of solids for water structures suitable.

The transfer facility as part of the Wasser-Land-Förderer on the portable central conveyor is on land either following the mining cut, at larger intervals implemented, on rail or crawler tracks parallel to Move means of transport or with the help of walking frames emotional.

The water-land conveyor will be analogous to the transfer facility including pontoon several times during a mining cycle Direction of the moving vehicle's axis by a displacement of the dredger or by an extra times offset since both elements during För of solids are firmly connected.  

If the raw material or the excavated material from the wet cut should not be removed immediately, then on one Part of the stope to pour a free warehouse. This is what a Haldenschüttgerät, which assigned the transfer device is net and, if necessary, is used or implemented with it.

If a pipeline is used as a swimming conveyor chain is that is transported via the swimming conveyor chain Material to be conveyed before handover to the transfer device water, except when using a pipeline as another means of transport.

Maintaining the location of the dredger during the Dismantling takes place via anchors on land and sea anchors. Same thing the pontoon of the Wasser-Land-Förderer and if necessary the Floating conveyor chain anchored on land.

The extraction of loose rock in the wet cut is at mini Painter length of the swimming conveyor chain possible. When choosing the correct length of the swimming conveyor chain, it is possible the field boundaries of a deposit or the required Limits of a water-filled construction pit or a hydraulic engineering to follow the plant very well. It can also be used with much shorter anchor ropes than usual will. Making the incision at the end of the rung in Wet and dry cutting allows use with all Degradation conditions without a free water surface on the side is required.

The invention is based on an exemplary embodiment are explained in more detail. In the accompanying drawings gene:

Fig. 1 pulping phase,

Fig. 2 transition of pulping phase for control operation,

Fig. 3 control operation.

The method according to the invention proceeds with the method steps listed below by means of the devices and devices mentioned. A gravel sand deposit with a thickness of the raw gravel sand of an average of 35m, with 15m of the raw gravel sand standing above the groundwater level, is to be mined with a wet and dry cut each time the entire material to be conveyed is removed by a portable central conveyor. The raw gravel sand obtained is transported via the stationary belt system 10 to a processing plant.

For wet extraction, a mining system consisting of a floating grab excavator 1 , a swimming belt system 2 , a water-land conveyor, consisting of the water-land belt 3 and the transfer stand 5 , characterized by the positions 5.1 , 5.2 , 5.3 and 5.4 , a portable land conveyor (central conveyor) 4 , characterized by the spatial position 4.1 , 4.2 (p), 4.2 (r) and 4.3 (p), and a stationary belt system 10 . The transfer frame 5 is equipped with a rail undercarriage and self-propelled, moves on two rails of the portable Landför derers 4 and is designed so that in the longitudinal direction of the land conveyor 4 , ie in front of the head, and after turning the transfer block 5 at right angles to it, raw gravel sand can be given up .

A mining system consisting of a scraping excavator 6 , a mobile hopper wagon 7 and the portable land conveyor (central conveyor) 4 and the stationary belt system 10 is used for dry extraction. The portable land conveyor 4 and the stationary belt system 10 are part of both mining systems. The degradation of the field begins according to Fig. 1 with the production of a cut for the portable land conveyor 4.1 . The excavation masses 8 fall laterally from the excavation trench. After assembly of the central conveyor 4.1 and incorporation into the stationary belt system 10 , the masses in the dry cut of the 1st mining strip are dredged with the scraper excavator 6 in conjunction with the mobile hopper trolley 7 . This mining strip is obtained in two cutting passes, each in the direction of the end of the portable land conveyor 4.1 .

Is a corresponding advance of the working in dry-cutting scraping excavator 6 is reached, the digestion is carried out in the wet cut by producing a construction pit, in which the floating grab excavator 1 with a swimming belt system 2 is used.

After the dry cut of the 1st mining strip by the scraping excavator 6 in connection with the mobile hopper wagon 7 has been completely broken down, these devices are transferred to the 2nd mining strip without interruption, starting with the first pass in the direction of the start of the mobile land conveyor 4.1 . After completion of this passage there is a change in the direction of travel by 180 °, as shown in FIG. 2. The mass gain in this displacement passage in the direction of the end of the rung takes place until the limit line is reached, from which a digging excavation must be carried out.

In the meantime, the wet cutting continued with the dredging of the first longitudinal strip towards the end of the movable land conveyor 4.1 . The floating grab excavator 1 is always in the direction of the end of the stanchion in front of the transfer stand 5 . The dismantling of the 1st longitudinal strip is generally carried out by a sequence of regular dismantling blocks, one dismantling block being obtained from an anchoring position of the floating grab excavator 1 . When changing to a new dismantling block, all four or three anchor cables including the associated anchors must be moved. The floating grab excavator 1 is moved by 5m each time it is dismantled using its anchor ropes, the floating belt system 2 , which consists of two long and one short swimming belt, changes its location. After completion of the dredging of the first longitudinal strip, the jack 5 is shown in FIG. 2 in position 5.1 with the water-land belt 3 at right angles to the portable land conveyor 4.1 . The floating grab excavator 1 thereby gains the raw gravel sand that can be reached from this position from the incision A1 at the end of the rung and creates the freedom of work for excavating from the position 5.2 of the transfer stand 5 . The amount of loose rock mass above the surface area A1, which is due for dry cutting, was already mined during the transition from the 1st to the 2nd mining strip from the excavator 6 in conjunction with the mobile belt wagon 7 . For the purpose of expanding the incision in the second mining strip, the water-land conveyor 3 is separated from the transfer block 5 , this is brought into position 5.2 and rotated by 90 °. Then the water-land conveyor 3 with the swimming belt system 2 and the floating gripper excavator 1 is floating and reconnected to the transfer frame 5 . This is followed by the production of the incision part A2 at the end of the rung in preparation for the extraction of the second strip of mining and for the freedom to work for excavating the incision surface A3 from the position 5.3 of the transfer stand 5 , as can be seen from FIG. 3. When making the incision A2 in the second mining strip, the loose rock must be extracted by wet cutting, as already mentioned. However, this can only be done after the masses in the dry cut have been removed. There are two basic options for removing the pending masses in dry cutting. Once the scraper bucket 6 can plunge these masses into the wet cut, where they are picked up again by the floating grab excavator 1 and transported to the portable land conveyor 4.1 via the floating belt system 2 ; on the other hand, by using mobile chargers, e.g. B. wheel loader in connection with the mobile hopper 7 a removal can be realized via the ortslander land conveyor 4.1 .

After this excavation dredging is completed, the first begins Dismantling cycle in normal operation.

First of all, the portable land conveyor (central conveyor) 4.1 at the beginning of the rung is moved a stripping width into the planned position 4.2 (p) marked in FIG. 2, the land-water conveyor 3 is separated from the transfer frame 5 , which is moved to the beginning of the rung. In conclusion, the portable land conveyor 4 at the end of the rung is moved from position 4.1 to position 4.2 (r), as shown in FIG. 3. The transfer stand 5 is moved back to the end of the rung, in the rotated position 5.3 with the now blurred to position 5.3 water-land conveyor 3 and the swimming belt system 2 connected and the incision A3 at the end of the rung for the subsequent 3rd strip excavated, whereby As already described, the dry rock portion also due in dry cut must be fed to the portable land conveyor (central conveyor) 4.2 (r).

After completion of the dredging of the incision in the 3rd mining strip, the scraper excavator 6 in connection with the mobile hopper wagon 7 begins with the extraction of the Lockerge stone masses in the dry cut of the 3rd mining strip, with the 1st cutting pass along the changeable land conveyor 4.2 (r) in In the direction of the start of the stanchions, as can be seen from FIG. 3. After completing this run, the direction of rotation is changed by 180 °. The mass gain in this displacement pass with the scraping excavator 6 takes place until the incision already made with the incision surface A3 is reached.

At the same time, with the excavator 6, the mass gain in dry cutting in the 3rd mining cut begins, the wet cutting in the 2nd mining strip begins by making the incision A4 by the floating grab excavator 1 from position 5.3 of the water-land conveyor derers 3 out. After completion of the incision A4, the future position 5.4 of the transfer block 5 is established. Thereafter, the transfer block 5 is again rotated and brought in the position of 5.4, wherein at the same time separated from the floating belt system 2 water-land conveyor 3 ver blurry and is then reconnected to the floating belt conveyor. 2 Now the second strip is dismantled in standard blocks until the start of the steps. After the 2nd excavation strip has been dredged, the excavation system and a transfer stand 5 are blurred or moved to the end of the stope.

The next mining cycle begins with the back of the portable land conveyor 4.2 (r) at the beginning of the rung by one stripping width in position 4.3 (p), whereby it is assumed that in the meantime the entire dry cut in the 3rd stripping by the scraper excavator 6 in Connection with the mobile hopper car 7 has been removed.

Claims (1)

1. Process for dry and wet extraction of solids with periodic change of the mining front with common removal of the conveyed goods via a central portable conveyor and use of floating bagger, swimming conveyor chain, water-land transfer device on the wet cut side and excavator as well as mobile hopper car on the Dry cut side, whereby the water-land transfer device consists of a water-land conveyor that can be separated from the transfer block, as well as a pivoting and portable transfer block, and by the basic features

• - Back of the portable central conveyor by one stripping width each
• - Make an incision as a prerequisite for the removal of the following removal strip
• - Degradation of the stripped by the central conveyor mining strip is characterized by the dredger, a mining cycle consisting of the following process steps
• - Back of the portable central conveyor at the beginning of the step by one step width,
• - disconnection of a transfer device located at the end of the rung from the water-land conveyor,
• - procedure of the transfer device at the start of the rungs,
• - back of the portable central conveyor at the end of the rung,
• - Implementation or blurring of the water-land conveyor with connected swimming conveyor chain and dredger in the direction "lengthways to the means of transport",
• - Retract the transfer device to the Stros senende and turn in the direction "longitudinally to Transportmit tel" or offset by 90 °,
• - Connect the transfer device with the water-land conveyor, swimming conveyor chain and dredger
• - Make an incision for subsequent dismantling
• - Dredging of the first mining block of the moved mining stripping
• - Disconnect the transfer device from the water-land conveyor and rotate it by 90 °,
• - Blurring or moving the water-land conveyor, which is separated from the swimming conveyor, and connecting it to the transfer device,
• - reconnecting the water-land conveyor to the swimming conveyor chain and dredger,
• - dredging the excavation strip up to the start of the rung in a wet cut,
• - Retraction or swimming of the mining system transfer device water-land conveyor - swimming conveyor chain - dredger to the end of the stanchion; characterized by the following features:
• - Making the incision as a prerequisite for the removal of the following removal strip by the floating excavator ( 1 ) in wet cutting and the excavator used in dry cutting ( 6 )
• - Removal of the removal strip moved over by the central conveyor by the dredger and simultaneous removal of the dry cut of the future removal strip by another excavator.