DE3734642A1 - PITCH ROOF SUPPORTS - Google Patents

Abstract

A mine roof support has a main roof engaging member 10 which is provided with an extensible roof engaging member 11. The extensible roof engaging member 11 is operable to apply a constant load to the mine roof, irrespective of its degree of extension from the main roof engaging member. This may be done by providing the extensible roof engaging member 11 with a free end 25 arranged to engage with the mine roof to apply a load thereto, the extensible roof engaging member also having a pivot point 22 and a force application point 23, at which force can be applied from the mine roof support to tilt the extensible roof engaging member, the distance of the free end 25 and the pivot point 22 from the force application point 23 being fixed. <IMAGE>

Description

The invention relates to pit roof supports.

When applying the modern mining engineering, which as Mining longwall construction is a series of self progressive pit roof supports provided the sequentially featured to the new exposed pit area be pushed after a mine machine between the Pit roof supports and the pit area or rock surface went through. When passing through the machine a layer of coal or another mineral layer is removed. The corresponding new exposed pit roof is thus up to unsupported at the time the pit roof supports can be moved. Here, a Follow-up when moving on at least some groups Canopy supports occur, either due to the hind change of the pit roof supports by the machine or by the conveyor on which the machine at the group surface or rock surface.

If mining takes place in an area where an insta biles or a fragile roof is present not practical, the roof itself even for a short To leave time unsupported. Therefore there are pits roof supports with support parts for longwall construction or extendable parts that can be extended and that can be put on the pit roof, immediately after the mining machine has gone through and before the  For their part, pit roof supports continue to progress be moved. The support parts for longwall construction or the pull-out parts can remain in the extended state and be tuned to this until then to which the corresponding pit roof support continues can be pushed, the support parts for the Longwall construction or the pull-out parts are retracted at the same time.

The distance and height of the front part or the tip of a Support part for the longwall construction in its extended Position in relation to the roof engaging part from which it Extending may vary depending on the breakdown change method and manner of mining machine, when this passes through the pit roof support. this leads to to the fact that the tip of the support part in longwall construction higher or lower than the roof engaging part in the system position should be.

Support parts for longwall construction can be used on the various most wise. This design area can assume manually adjustable parts that are in the GB-PS 97 75 03 are described, and are up to complicated tere hydraulic systems that extend, for example are described in GB-PS 13 29 125. During these two previously mentioned forms of interpretation under certain circumstances If pitches were sufficient, they would not meet all requirements under all circumstances that apply to the mountain construction occur today.

According to the invention, a pit roof support is specified, which has a main roof engagement part, which with one out pullable roof engaging element is provided, which from pullable roof engaging element works such that a constant load on the pit roof regardless of that Degree of extension of the same in relation to the main roof intervention part is applied.  

The extendable roof engaging element preferably has a free end, which is designed so that it with the Pit roof can work together to put a strain on to exercise this. It also has a fulcrum and one Force application point at which the force from the pits roof support can act around the retractable roof to tilt or pivot the engagement element. The distance the free end and the fulcrum from the force cessation point are fixed.

The fulcrum may have a hinge between the free end and the force application point.

A hydraulic piston rod can be applied to the force be arranged, the hydraulic piston rod between the retractable roof engaging element and one part of the pit roof support acts.

The hydraulic piston rod can slide over one move another part of the pit roof support if that extendable roof engaging element is pulled out.

The extendable roof engaging element can be force-applied be provided facilities that are independent of the Degree of extension of the extendable roof engaging element in Rela tion to the roof engaging element, so that one a constant lifting force of the extendable partial tip relative to do this.

The constant lifting force can be associated with a guide railroad or similar guiding devices those provided in the roof engaging element.

The guideway can be parallel to the roof engagement surface of the Roof engagement elements over the entire length of the same be away.  

Alternatively, the guideway can have an inclined part on it End.

A hydraulic jack or a capsule can act as a force application device can be used.

The hydraulic feed for the hydraulic jack or the capsule is advantageously carried out via the pistons rod of another hydraulic jack, which on is ordered that the pull-out movement of the extendable roof engaging element is generated here.

To ensure that you have a constant load condition receives power, the force application device is preferred as a constant distance from a joint part of the extendable roof engaging elements and it is also a constant distance between the joint part and the tip of the extendable part to provide a lever system keep that at a constant peak load or Leads to stress at the front end of the part.

The hydraulic circuit to supply the force application supply device may include a relief valve to an excessive load on the retractable roof panel prevent.

The extendable part can be relative to the roof engaging element extended by a hydraulic jack stand those inside or outside the roof opening structure tion is appropriate.

The retractable element can be retracted using the hydraulic extension piston-cylinder arrangement follow that can be double acting.  

Alternatively, the extendable part can be retracted be that the roof support towards a breakdown surface is pushed forward, in which case pulling out bare element in static condition with regard to the excavation area persists and the main roof engaging element on the stati cal element is pushed, the tip of the same on the rock surface during this pull-in process lies.

Further details, features and advantages of the invention he give one preference from the description below th embodiment with reference to the accompanying Drawing. It shows:

Fig. 1 is a side view with partial section, showing an upper portion of one embodiment of a mine roof support according to the invention, wherein said telescopic member is extended, and a hydraulic capsule partially beitet ar,

Fig. 2 is a Fig. 1 similar view to illustrate the hydraulic capsule in its final working state, and

Fig. 3 is a view similar to Fig. 1, but with the hydraulic capsule inactive.

In the figures, the reference number 10 designates the main roof in the handle superstructure of a pit roof support, the lower part of the support not being shown.

An extendable part 11 is slidable within the superstructure or superstructure 10 . The sides of part 11 are each with the aid of two ge in cross-section U-shaped elements attached to the sides of the superstructure 10 , the open sides of the cross-sectionally U-shaped parts facing each other. The top wall of a U-shaped channel is shown at 18 and the bottom wall of the channel at 19 . The walls of the channels are substantially parallel to the upper surface of the superstructure 10 . At their front ends, however, they run up slightly, as shown at 20 and 21 .

The extendable part 11 has an articulation point 22 which is slidable along the channel surface 19 .

The extension of the extendable part 11 is controlled by a hy draulic jack 13 which is pivotally attached to the superstructure 10 at 14 . The piston-cylinder assembly 13 has a piston rod 15 which is pivotally attached to the extension part 11 at _{16. In order to tilt or pivot the part 11 and press its tip 25 against a pit roof, a very short hydraulic jack is provided, which is generally referred to as a hydraulic capsule. This is provided with the reference number 12 . The capsule is pivotally connected to the rear end of part 11 and has a pivotable contact plate 23 . This contact plate 23 can slide smoothly along the upper channel wall 18 and due to the pivotable arrangement, it is self-aligning with respect to the channel wall 18 regardless of the orientation of the capsule 12 . The piston rod 15 is hollow and has fluid channels therein for supplying and discharging fluid from the hydraulic capsule 12 . It can also be seen that the hinge point 22 and the capsule 12 are arranged at a constant distance from the tip 25 of the pull-out part. Usual main roof support piston devices are firmly attached to the superstructure 10 at 26 and 27 in order to press the roof support structure 10 against a pit roof. The superstructure 10 is open at the bottom at 28 , so that loose rock material that enters the area between the channels can be freely discharged downwards to prevent the accumulation within the superstructure 10 , which would otherwise block the extendable part 11 . In the state of use, the extendable part 11 is completely retracted using the hydraulic piston rod 13 and the capsule 12 does not work. The pit roof support is arranged in a conventional manner, the front edge of the superstructure 10 abutting the rock layer. If a cutting machine (not shown) moves along the surface of the rock, a layer of the rock detaches and there is an area of an unsupported pit roof, the hydraulic piston rod 15 is extended by a correspondingly necessary amount to bring the tip 25 into contact with the newly exposed one and bring more advanced rock surface. The capsule 12 is extended in order to tilt the part 11 and to exert an upward pressure force on the pit roof. As can be seen from the comparison of FIGS. 1 to 3, the extent of the tilting of the part 11 depends on the position of the articulation point 22 with respect to the channel wall 19 and the degree of extension of the capsule 12 . Due to the fixed assignments between the tip 25 , the articulation point 22 and the capsule 12 , the force which is exerted by the tip 25 on the pit roof is always constant with a force supplied by the capsule 12 . Thus, in this embodiment, the pit roof support can always exert exactly such a compressive force on the pit roof that is required to support a specific roof. With the usual support parts for longwall construction, on the other hand, the applied force changes depending on the degree of extension of the support part. Furthermore, the arrangement of the cross-sectional parts 18 , 19 parallel to the upper surface of the structure 10 ensures a constant stroke of the tip of the extendable part except when approaching the maximum extension when the channel-shaped guides go up slightly, thereby making a larger one Hub is generated in order to offset the basic deflection associated with the loading of a beam, the required stroke of the tip, which are greatest when this part is fully extended.}

Claims (16)

1. pit roof support, characterized by a main roof engaging element ( 10 ), which is provided with an extendable roof engaging element ( 11 ), the extendable roof engaging element ( 11 ) working in such a way that there is a constant load on the pit roof, regardless of the degree of extension with respect to the main roof intervention elements ( 10 ) exercises. 2. pit roof support according to claim 1, characterized in that the extendable roof engaging element ( 11 ) has a free end ( 25 ) which is designed such that it cooperates with the pit roof to apply a load to the same that it has a pivot point ( 22 ) and a force application point ( 23 ), at which a force can act from the pit roof support in order to tilt the extendable roof engagement element ( 11 ), the distance between the free end ( 25 ) and the pivot point ( 22 ) from the force application point ( 23 ) is firm. 3. pit roof support according to claim 2, characterized in that the pivot point ( 22 ) has an articulation point between the free end ( 25 ) and the force application point ( 23 ). 4. pit roof support according to claim 2 or claim 3, characterized in that a hydraulic piston rod ( 13 ) is arranged at the force application point ( 23 ), the hydraulic piston rod ( 13 ) between the executable roof engagement element ( 11 ) and a further part of the pit roof support works. 5. pit roof support according to claim 4, characterized in that the hydraulic piston rod ( 13 ) over the other part of the pit roof support is slidable when the extendable roof engaging element ( 11 ) is pulled out. 6. mine roof support according to one of the preceding claims, characterized in that the extendable roof engagement element (11) processing with a Kraftaufbringungseinrich (12) is provided which operates the main roof engagement element (10) independently of the extract degree of extendable roof engagement element (11) with respect to such that there is a constant stroke of the extendable partial tip ( 25 ) relative to this. 7. pit roof support according to claim 6, characterized in that the constant stroke is generated in connection with a guideway or similar guide means ( 18 , 19 ) which is provided in the roof engagement element. 8. pit roof support according to claim 7, characterized in that the guideway parallel to the roof engagement surface of the roof engagement element ( 11 ) over its entire length. 9. pit roof support according to claim 7, characterized in that the guideway has an inclined part ( 20 , 21 ) at its end. 10. pit roof support according to one of the preceding claims, characterized in that the force application device ( 12 ) is designed in the form of a hydraulic jack or a capsule. 11. pit roof support according to claim 10, characterized in that the hydraulic supply for the hydraulic jack or the capsule ( 12 ) by the piston rod ( 15 ) of a further hydraulic jack ( 13 ) is provided, which is provided to the extension movement of the extendable roof engaging element ( 11 ) to effect. 12. pit roof support according to claim 1, characterized in that to ensure that a constant loading is achieved, the force application device ( 12 ) is arranged at a constant distance from a pivot point ( 22 ) of the extendable roof engagement element ( 11 ), and that also a constant distance between the pivot point ( 22 ) and the tip ( 25 ) of the extendable part ( 11 ) is provided in order to obtain a lever system that leads to a constant load on the tip ( 25 ). 13. pit roof support according to claim 1, characterized in that a hydraulic circuit for the supply of the Ver force application device ( 12 ) is provided, which has a relief valve to prevent excessive loading of the extendable roof engaging element ( 11 ). 14. pit roof support according to claim 1, characterized in that the extendable element ( 11 ) relative to the roof engagement element ( 10 ) with the aid of a hydraulic piston-cylinder device ( 13 ) is extendable. 15. pit roof support according to claim 14, characterized in that the hydraulic piston-cylinder device ( 13 ) in the roof structure ( 10 ) is attached. 16. pit roof support according to claim 14 or claim 15, characterized in that the hydraulic piston-cylinder arrangement ( 13 ) works to retract the extendable element ( 11 ).