The present invention relates to a plough guide trough for plough guides of chain-drawn coal ploughs, especially chain-pulled ploughs comprising two superposed chain guide ducts separated by an integrally cast sliding spacer member, with a top guide strip, a bottom guide beam and a bottom slideway for guiding the plough, wherein the top chain guide duct is covered by a front wall comprising the guide strip and merging into the guide beam and a slot lead-through for a plough guiding hook or plough knife is formed between the guide beam and the slideway, also comprising pockets in the front wall for receiving toggle coupling means for neighbouring plough guide troughs.
Previously proposed plough guide troughs are used especially in underground mining, in the case of coal ploughs. In such cases the plough guide troughs are mounted on the working-face side on conveyor pans of a scraper chain conveyor, for removing coal ploughed off the longwall face by the plough. The length of the plough guide troughs is equal to the length of a conveyor pan, and the scraper chain conveyor or plough guide is formed by joining numerous substantially similar plough guide troughs or conveyor pans by tension-resistant bendable coupling means in the form of toggles. In modern heavy-duty plough systems the plough is mechanically guided on the top guide strip and the bottom guide beam and the plough body also rests on the slideway, which for this purpose projects over the guide beam.
Glückauf 140, No. 11, from page 510 describes initial practical experience with a guide for chain-drawn ploughs developed by the current Assignees and published in DE 203 07 150 U1. The known plough guide comprises a combined cast and welded construction, the plough guide being divided into a middle part and two end parts, each of which are separate castings formed of highly wear-resistant casting material with a high chromium and manganese content and subsequently welded together to form a plough guide trough. A suitably highly wear-resistant casting material of this construction increases the wear resistance by a factor of about 1.8 compared with the plough guide troughs previously in use. However, the known three-part construction is comparatively complicated to produce and separate casting moulds are relatively expensive.
An aim of the present invention is to construct a plough guide trough which has substantially the same resistance to wear as the known plough guide trough but has advantages regarding production.
Accordingly, the present invention is directed to a plough guide trough as described in the opening paragraph of the present specification, wherein the front wall, the guide strips, the guide beam, the pockets and a back wall comprising the slideway form a one-piece casting extending over the length of the plough guide trough. Owing to the integral construction of the front wall with the guide strip and guide beam and the integrally cast pockets, there is no need for the three-part construction hitherto chosen in the prior art. This also obviates the welding steps which were essential in the prior art in order to joint the two end parts to the middle part. Since furthermore both the guide strip and the guide beam are constructed without welds, there are no transitional edges or the like in a plough guide trough, so that the risk of wear is further reduced. The complete plough guide trough with all its functional regions is therefore formed from a single casting.
In a preferred embodiment the back wall on its outside is provided with at least one or preferably exactly two integrally cast locking pockets for engagement of locking lugs or locking tongues on an interchangeable top trough of a conveyor pan trough. The locking pockets integrally moulded on the back of the plough guide trough can then form vertical locking means for the interchangeable trough insertable into a conveyor pan trough.
Advantageously, the guide strips and/or the guide beam are provided with reworked peripheral guide surfaces. This can be done for example by providing a slight excess of material on the casting before machining and subsequently removing it, for example mechanically, in order to improve the guide surfaces. The reworking can alternatively or additionally be in the form of surface hardening or the like.
Preferably also the guide strip and/or guide beam have vertical peripheral guide surfaces or surfaces approximately at right angles to one another or guide surfaces which are substantially vertical in use. In this way the guide strips and/or guide beam can be given a substantially rectangular rail-like cross-section.
Advantageously also, in the case of a cast construction, the underside of the slideway is formed with at least one and preferably a number of weight-reducing recesses, wherein a supporting rib is advantageously formed on both sides of each recess. Two or three ribs were usually sufficient to support the plough guide trough on the floor.
A plough guide trough in accordance with the present invention can be given a continuous front wall between two pockets or receivers.
Preferably however, in the case of plough guides, at least one plough guide trough is formed with inspection openings or inspection openings.
In a preferred embodiment, therefore, the front wall has an integrally cast inspection opening which is closable or closed by a lid.
In an advantageous embodiment, near the inspection opening the sliding spacer member has an integrally moulded recess, into which an interchangeable grating is insertable or inserted. The grating, which has passages and forms part of the bottom of the top chain guide ducts when installed, allows fine coal entering the top chain guide ducts to fall through, so that a plough chain in the top chain duct cannot be blocked by excessive accumulations of fine coal.
Preferably a stable and also easily dismountable fastening for the closure lid can be obtained if bores for fastening a closure lid are formed on the transition from the guide strip to the top chain guide duct, the bore axes slope down from the back of the guide strip to the top boundary edge of the inspection opening. Owing to the slope of the bore axes and consequently of the fastening screws, the spacing of the guide strip is increased between the screw heads and the guide region on the working-face side, so that the guide surface on the guide strip is not interrupted by recesses for engaging screw heads and/or screwed nuts.
Advantageously also the closure lid can have a sight or inspection opening, preferably suitably shaped for receiving a load hook or a load lug.
Examples of plough guide troughs made in accordance with the present invention will now be explained with reference to the accompanying drawings, in which:
As shown in
The plough guide troughs 10 in accordance with the invention have a cast one-piece base member provided during the initial forming process with a bottom chain duct 13, a top chain duct 14, a back wall 15, a slideway 16, a top guide strip 17, a bottom guide beam 18, the front wall 12 curving between the guide strip 17 and guide beam 18, a sliding spacer member 49 reinforcing the front wall 12 and the back wall 15, and pockets or recesses 19, 20 formed at each end inside the front wall 12. During the original shaping process, the inspection opening 11 is also integrally moulded on the plough guide troughs 10, together with a recess 21 shown in
As shown especially clearly in
As also shown in
The toggle-receiving pockets 19, 20 integrally cast directly on the ends of the front wall 12 are constructed differently since one of the two toggle pockets, toggle pocket 20 in this case, receives the toggle head of a connecting toggle 9 and also a toggle securing means which prevents the toggle falling out of the toggle pockets 19 and 20.
As shown in
The inspection opening 11 in the side wall 12 is closed by a lid 40 which positively bears on the bottom edge 37 of the inspection opening 11 whereas the top edge 38 of the inspection opening 11 is releasably anchored by two spaced-apart screw fastenings 41. The screw fastening 41 is formed with bores with a sloping axis 42, the bores being formed on the transition region of the guide strip 17 to the walls 15 and 12 which bound the top chain guide duct 14. The screw fastenings 41 comprise T-shaped screw bolts 43 which together with the cross-members lie in depressions in the lid 40, whereas threaded nuts 45 are screwed from the other side on to a threaded portion of the screw bolts 43.
The lid 40, whose contour exactly matches the contour of the side wall 12, has a central keyhole-shaped opening 46 which on the one hand forms an inspection opening and on the other hand can be used for receiving a load lug 47 which can be anchored in the opening 46 by a screw connection so that the lid can be raised by a lifting unit. When the lid 40 is removed, thus uncovering the inspection opening 11, repairs can be carried out on the top run of the plough chain, and after removing a grating 48 inserted into the corresponding recess 21 in the sliding spacer member and replacing the bottom of the top chain duct 14 in the assembled state, repairs can also be carried out on the bottom chain guide duct 13, or the plough chain can be detached from the knife or guide block.
As also shown in
Number | Date | Country | Kind |
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20 2005 004 383 U | Mar 2005 | DE | national |
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Number | Date | Country | |
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20060244302 A1 | Nov 2006 | US |