DE3602776A1 - Method of securing the roadside edges in longwall face mining, and pack of construction material - Google Patents

Abstract

In the transition area of face/roadway in underground mining, the roadside area is protected by placing a pack of construction material. This pack of construction material is formed from individual containers which are subdivided again in the horizontal direction into several pads or chambers and into which construction material is poured under pressure. Effective restraint of the container between roof and floor is thereby obtained and thus the application of setting load, which makes possible substantially improved protection of the roadway. The subdivision of the individual containers in the horizontal direction leads to an increase in the bearing capacity, but brings in particular organisational advantages, because a fill in layers is possible, each of these individual layers being placed under pressure so that the desired high setting load is obtained overall. Instead of the continuous container with horizontal intermediate walls, it is also possible to use individual pads with filling and outlet valves. These pads, arranged in layers one above the other, then result in an effective pack. This permits in particular adaptation to the respective conditions, especially with regard to the dimensions of the cavity. <IMAGE>

Description

The invention relates to a method for securing the hem edges in the transitional area of the longwall / stretch, at which is a stable and capable building material in one Formwork formed by fabric walls covering the cavity between mountain and lying area is dimensioned accordingly, is introduced. The invention also relates to a Building material dam to secure the hem edges in Transition area longwall / stretch, consisting of a load-bearing and setable building material and one that Formwork resulting and at the same time as a wall remaining fabric construction.

The hem edges of mining stretches in the underground Coal mining, especially if they are after dismantling is kept open for a second height must be through special measures before Break protected. Separate measures are here required because experience shows that these routes special loads after the passage of the dismantling are subject to on one of the track sides. Known is to put wooden pillars, mostly Railway sleepers or similar Hardwood cruciform superimposed and then between hanging and Lying is clamped by wedges. Also be such wooden pillars often filled with stones to to increase their carrying capacity. Dams are also known made of hydraulically setting building materials, for which on the Longwall and stretch side formwork erected between which the building material is then blown or is pumped. The disadvantage here is that similar as with the wooden pillars to prepare miners in the narrow area between what has already broken in Mountains in the longwall and the route have to work. To the The stones even fill in wooden pillars what is not taken out of the area of the break  has seldom led to accidents. Besides, both are The process is labor-intensive, when blowing in hydraulically setting building material adds that adequate filling of the cavity between Hanging and lying down is not always guaranteed, especially not at the front of the longwall mouth facing area because here a slant by itself builds up.

To fix these problems are already big ones Sacks have been inserted covering the cavity between Dimension hanging and lying accordingly and with a filler neck and air outlet valves are. These sacks are pumped up with building material then after the tying the support of the hanging take over. The problem with these containers is that if the sacks are damaged, they are still flowable Material leaks and soils the entire route or brings considerable problems after setting. Will the sacks are not filled in one operation, so the filler neck are already baked, so that new filler necks have to be inserted into the fabric. Such containers or sacks are from DBP 20 12 269 and the DE-GM 75 31 698 known. Complementary is still to notice that the filling of the large, the cavity between the hanging and lying sack is problematic when the delivery of the building material not done evenly. Then it keeps coming back for intermediate curing of the building material that is already is filled in, so that under certain circumstances several times Filling valves must be re-pushed. The This reduces the load-bearing capacity of the fabric but everything creates an inhomogeneous mixture that occurring load for blasting off building material parts tends. A particular disadvantage is that these bags just up to the point where it is filled with building material  be filled. If the dimensions are not quite sufficient, so the mountains must first settle before the "Baustoffdamm" carries or the sack can not quite be filled because its dimensions have been larger are than the existing cavity. The lead appropriately sized bags is difficult and requires a substantial capital outlay.

The invention is based, which Effective hem edges and secured by active support.

According to the invention, the object is achieved by that the building material under pressure between the fabric walls is pressed until they inflate, whereby this Fabric walls several times in a horizontal direction running fabric walls, each closed chambers resulting to be connected.

The method according to the invention thus provides that the dam as a whole is manufactured with an active setting force will, i.e. the disadvantageous, previous settling of the mountains cannot occur at all since the building material dam already according to the inventive method in the existing Cavity is systematically pressed. Because each over seen the height of several chambers is formed ensured that every single chamber, at least the entire pillar formed accordingly is active is pressed between hanging and lying. About that In addition, there may be irregularities in between when building materials are transported because the individual chambers can be dimensioned so small that really is filled up in batches. It is particularly advantageous that in the method according to the invention only one type of Container must be kept available for the active Tension between hanging and lying independently of the respective dimensions is suitable. Next is on it  to point out that an essential advantage can be seen in this is that manual work in the rockfall area is at risk completely eliminated because the installation of formwork is not is necessary and the positioning of the container very much is simple because it has appropriate dimensions and its position even during filling without can still be changed if this turns out to be proves expedient and necessary. By bringing in seen from the height of the several fabric walls leads to a higher stability of the entire structure and thus to higher forces to be absorbed because the Fabric walls practically act as reinforcement that over it in addition, flaking off pieces of the filled Can prevent building material after setting.

After an expedient training of the invention the chambers are filled at the same time. With that all chambers inflated at the same time and the whole Pillar becomes viable early on, expediently the filling happens so that the bottom chamber in any case before the one above it is full.

Where, based on the circumstances, assumed can be due to all the chambers in one work cycle sufficient supply of building materials and the other Prerequisites can be filled, it is advisable when the chambers are connected from the bottom up and be filled accordingly under pressure. The connecting the chambers take place through lock-like openings, see above that most certainly one chamber after the other only then is filled if the lower one accordingly Material. To ensure that the necessary flow of building materials is guaranteed Filling opening and connection opening between the chambers lie close together.  

Another embodiment of the invention The procedure provides that several identically trained, chambers with a low height stacked on top of each other and filled with building material. Here, the individual is in an expedient form Building material dam made from individual layers, whereby one chamber full and full before the next chamber connected to the pump and filled becomes.

The aim of the method according to the invention is Production of a building material dam, which after a first Embodiment is designed so that the Fabric construction as a container with distributed over the height horizontally extending partitions is shaped, wherein the partitions through openings for the building material and the air and the outer wall have a filling opening. According to this embodiment, it remains with the externally one-piece, box-shaped construction, wherein however, the vertical walls with each other connecting partitions to the desired chambers leads, either at the same time or as mentioned here be filled in succession, usually from the bottom from the filling or pumping the chambers. The building material emerges from the lower chamber through the passage openings in the partitions in the each overlying chamber area, and from this off after completing the filling process accordingly the chamber above it. The building material is kept so fluid that he really followed this path covers before it hardens so much that it no longer has the necessary fluidity. Since the Fabric construction is permeable to water leakage of additional water required for transportation, without representing a disability for the rest of the company.  

An active setting force of such a dam becomes i.a. also achieved in that the fabric construction including the partitions limited stretch and is designed to be permeable to water. Due to the elasticity the necessary pressure can be applied while the water permeability the leakage of the excess Transport water facilitated. Because the water at everyone Areas can emerge, there is an even Hardening of the building material within the individual chambers the fabric construction.

The individual chambers can have the necessary pressure of the filled building material safely, especially after an appropriate training the side walls an arch are predetermined. This is the application of one higher pressure possible without this shaping a Obstruction during transport or at the later location represents.

After a second training it is provided that the fabric construction of several flat pillows is formed, each via a filling opening and Have exhaust valves. This fabric construction points the advantage that the dam is stacked one after the other is, so that in particular an easy adjustment to given Differences in height or thickness of the seam is possible. In particular, provision is not necessary different fabric constructions since the individual Cushions can be dimensioned so flat that occurring differences in height easily by the individual pillows can be compensated. Especially but it is possible to get one early active building structure between hanging and lying down achieve, which absorbs strength early on and who is sufficiently stable because the bottom pillow is already hardened when the last pillow  is applied above.

Especially in the Ruhr mining, where the invasion is common changes, it is advantageous if the pillows each Appropriate approaches on the top and bottom sides and have recesses. This creates a toothing between the individual pillows that slipped safely prevented in the direction of incidence and the application the necessary tension between hanging and Makes lying possible even with unfavorable storage. The approaches are also the exhaust valves trained to be receptive, since it is the highest point the top of a pillow from which Filling the building material with the excess air, but filling in the last one really Area of the individual pillow is ensured including the respective approach. The training ensures that air cushions form in the respective pillow. In order to is also the desired effect of the individual Approaches ensured. Appropriate training of this Approaches and recesses provides that the approaches and assigned recesses bar-shaped and in the direction Streb are trained. Opposite the These offer point-by-point arrangement of approaches bar-shaped approaches in particular advantages where worked in particularly unfavorable ideas must become.

The invention is characterized in particular by this from that created a process and a building material dam are for use especially in Coal mining is ideal. they allow the application of active setting forces, avoid manual Working in the area at risk of falling can completely independently of the respective extraction work become and have high stability, once through  the partition walls acting as reinforcement and on the other through the tension between hanging and lying. Further advantages are the cost limitation for material, Energy and work as well as by the Possibility of introducing such a dam early, for example, next to the step or shield removal.

Further details and advantages of the invention subject arise from the following description exercise of the associated drawing, in the preferred Exemplary embodiments with the necessary details and individual parts are shown. Show it:

Fig. 1 is a one-piece equipped with partitions fabric construction,

Fig. 2 is a multi-part tissue construction,

FIG. 3, formed with projections and recesses cushion in side view,

Fig. 4, the pillow of FIG. 3 with bar-shaped approaches and

Fig. 5, the pillow of Fig. 3 with point-formed approaches.

The coal was mined on the left side of the seam in a section ( 1 ), for example, with an arch extension. The break has already fallen in the area of the strut ( 2 ) and a dam has been introduced between the hanging ( 4 ) and the lying ( 5 ) to secure the hem edge ( 3 ). This dam formed from building material is, as shown in FIGS. 1 and 2, effectively clamped between hanging and lying ( 4 , 5 ).

For this purpose there is a pump ( 6 ) in the section ( 1 ) which presses the building material into the fabric construction ( 10 ) via the hose ( 7 ) and the filling opening ( 8 ). The filling opening ( 8 ) is provided with a check valve, so that after the inflation and tensioning of the fabric construction ( 10 ) the hose ( 7 ) can be removed and used to pump up the next fabric construction.

The fabric construction ( 10 ) has several partition walls ( 11 , 12 ). In the example shown, three partitions ( 11 , 12 ) are provided, each of which is connected via passage openings ( 13 ), so that after the bottom chamber has been filled, the next chambers are automatically filled, in each case under the appropriate pressure. The passage openings ( 13 ) are expediently arranged one above the other, but an offset arrangement as shown in Fig. 1 is also possible.

Exhaust valves ( 15 ) for the excess air are provided in the outer wall ( 14 ), in each case in the region of the upper intermediate wall, in order to also ensure that the individual chamber is completely filled. Although the outer wall ( 14 ) and thus also the side wall ( 16 ) are made of water-permeable material, the arrangement of such outlet valves ( 15 ) is necessary in order to accelerate the escape of the compressed air in the container as quickly as possible and, as said, a complete escape of the air ensure.

The illustration in Fig. 2 corresponds essentially to that in Fig. 1, only that here the fabric construction is formed from several superimposed pillows ( 18 , 19 ). These independent chambers or pillows ( 18 , 19 ) each have their own filling opening ( 20 ) or ( 8 ), so that one pillow ( 18 , 19 ) is filled one after the other, so that the effective tension between the hanging ( 4 ) and lying down ( 5 ).

On the upper sides ( 21 ) and the lower sides ( 22 ), these cushions, as shown in FIGS. 3 to 5, have projections ( 23 ) and recesses ( 24 ) or bar-shaped projections ( 25 ). These approaches ( 23 , 25 ) and recesses ( 24 ) bring an advantageous interlocking between the individual cushions ( 18 , 19 ), so that their storage is always guaranteed even with incident stretches or struts. This prevents the pillows from sliding down and the formation of the dam is no longer ensured. Rather, the necessary interlocking is achieved by the approaches ( 23 , 25 ) and the recesses ( 24 ) according to the invention and, on the other hand, by the full filling of the individual cushions ( 18 , 19 ) ensures that each individual cushion also has the necessary stability to to be able to carry the next pillow early.

The lugs ( 23 , 25 ) and the recess ( 24 ) can have different shapes, as shown in FIGS. 4 and 5. The respective cover portions of the projections (23, 23 ', 23' ') are shown in Fig. 5 is formed as an outlet valve (15), so that here the can escape in the individual pads (18, 19) pressure prevailing air.

Claims (11)

1. A method of securing the hem edges in the transversal area of the longwall / stretch, in which a load-bearing and bindable building material is introduced into a formwork consisting of fabric walls, which is dimensioned appropriately for the cavity between the mountains and the lying area, characterized in that the building material is under pressure between the tissue walls are pressed until they inflate, these tissue walls being connected several times by tissue walls running in the horizontal direction, each resulting in closed chambers. 2. The method according to claim 1, characterized, that the chambers are sealed simultaneously or in time be filled one after the other. 3. The method according to claim 1, characterized, that the chambers are connected from the bottom up and be filled accordingly under pressure. 4. The method according to claim 1, characterized, that several identically trained, a small height showing chambers stacked and with building material be filled. 5. Building material dam to secure the hem edges in the transversal area strut / stretch, consisting of a load-bearing and setting material and a formwork resulting and at the same time remaining as a wall fabric structure, characterized in that the fabric structure ( 10 ) as a container with horizontally distributed over the height Partition walls ( 11 , 12 ) is formed, the partition walls having passage openings ( 13 , 15 ) for the building material and air and the outer wall ( 14 ) a filling opening ( 8 ). 6. Building material dam according to claim 5, characterized in that the fabric construction ( 10 ) including the intermediate walls ( 11 , 12 ) are of limited elasticity and are water-permeable. 7. building material dam according to claim 5, characterized in that the side walls ( 16 ) are pre-shaped an arc. 8. building material dam to secure the hem edges in the transversal area of the face / stretch, consisting of a load-bearing and setting material and a fabric construction resulting in and simultaneously remaining as a wall, characterized in that the fabric construction ( 10 ) consists of several flat cushions ( 18 , 19 ) is formed, each having a filling opening ( 8 ) and outlet valves ( 15 ). 9. building material dam according to claim 8, characterized in that the pillows ( 18 , 19 ) each have on the top and bottom sides ( 21 , 22 ) corresponding approaches ( 23 , 25 ) and recesses ( 24 ). 10. Building material dam according to claim 9, characterized in that the approaches ( 23 , 25 ) at the same time the outlet valves ( 15 ) are designed to receive. 11. Building material dam according to claim 9, characterized in that the projections ( 25 ) and associated recesses are bar-shaped and extending in the direction of the strut ( 2 ).