DE1185565B - Packing material conveying pipeline for blow molding operations - Google Patents

Description

Packing material conveying pipeline for blow pack plants In blow pack plants are used to introduce the backfill material into the coal-fired longwall face conveyor pipelines used, which extend over the entire length of the offset field and at one End with the blow molding machine or the pipeline leading to it are connected. The usual way of working is to follow the strut pipe Separate or shorten the stipulation of the progress of the offset step by step. Man starts with the offset near the lower loading path. Is part of the lower end of the offset field is filled in, the longwall pipeline is extended around one or more pipe sections shortened, which are then transported to the neighboring field. There arises after and after, namely from the loading section another S.Trebrohrleitung. After this Fill in the offset field, this new line is connected to the blow molding machine, and the offset work then begins in the field adjacent to the full offset field Field.

The described mode of operation for the blow offset is with a high Some of the effort involved in heavy manual work. To make work easier a number of tools have been proposed, e.g. B. Facilities for mechanical moving of the pipe sections, for hanging the pipeline on the extension, especially in a progressive expansion and the like.

So is z. B. became known a facility in which the individual Pipe sections on the caps of an extension frame using a chain and a trolley are suspended, with the cat on the lower edge formed as a running track the cap slides. You have to move into the next offset field to advance the pipe sections the individual sections can be uncoupled and then coupled again.

Furthermore, a device has become known in which several Pipe sections are connected to each other by ball-P C links, the front -dere The end is swiveled into the field to be blown. After this blow away the pipe sections are uncoupled and moved into the new offset field.

These known arrangements improve the working conditions in a blow molding operation to a certain extent. But they have the main disadvantage the previous mode of operation, which is that the offset of the decarburized Facing pits do not reflect the progress of mining, which has increased considerably through mechanization able to follow, not to eliminate, which, among other things, to the constant disconnection of the individual pipe sections and recoupling.

One must therefore in mining operations; those from mining engineering or mining Reasons with blow offset should work in order to achieve a sufficiently high Dismantling progress and a higher operating point promotion on the technically in itself and dispense with the economically advantageous introduction of the offset by blowing and move on to the quarry.

To remedy the described deficiencies in the previous equipment of the blow molding companies, the invention sees it as one of a length of the longwall-reaching, continuously connected pipe string formed conveyor pipe strut line before. According to the invention, this conveyor pipeline consists of a number of over the Strebl length distributed, separately adjustable, known per se and tube switches from these connecting, variable in their length and angular position to the switches Pipe parts, with each pipe switch one directed into the offset field, if necessary with a swiveling mouthpiece or the like. Has a blow-out opening. the The pipeline according to the invention is designed so that its parts are relative to one another can be moved without prior actuation of coupling or sealing elements, z. B. by arranging soft rubber or plastic seals or stuffing boxes od. Like. Between the mutually movable line parts.

The strut pipeline constructed in this way is according to the invention such the expansion, preferably assigned to a progressive expansion, that the individual Blow deflectors follow the advancement of the expansion. The blower valves are advantageous coupled with one extension frame each. When advancing the building in question the coupled blower switch with appropriate pivoting taken along the pipe sections adjoining the switch, with a length compensation is possible in the telescopic pipe section. The pipeline moves in this case, regardless of the work of the offsetting company with the expansion. The work in the offset operation remains on the conversion of the blow diverters or the straightening of the limited to these provided adjustable mouthpieces. Neither are they clutches to be released or closed again, as in previous blow molding operations.

The use of the face pipe blowing line according to the invention has operational significant benefits. The blowing operation can run practically during the entire shift and no longer needs to be interrupted when working on the longwall construction. In contrast had until now at almost all Blasversatzbetriebe, z. B. the Ruhr mining, while the stealing or backing up of the expansion and rebuilding of the blow line introduce the misalignment to be interrupted. This not only results in a higher air consumption and a greater dust formation, but also a significant drop in performance. In the previous It seldom worked more than 30 to 401 per cent of the shift time for blowing of the backfill material used.

In contrast, the invention achieves with less personnel expenditure a significant increase in the performance of the blow-off operation.

The transfer tubes are in the arrangement according to the invention with each articulated to a construction of the longwall construction and advantageous for this purpose arranged a slide-like support frame, while the neighboring Diverters connecting pipe parts are arranged in a cantilevered manner. Furthermore, after of the invention, the connecting pipe parts made telescopic, so that their length is changeable.

In the drawing is a preferred embodiment of the inventive concept shown, namely shows F i g. 1 partly in plan view and partly in section Part of a face pipe according to the invention, FIG. 2 is a side view of a at the pipeline according to FIG. 1 used blow gate and F i g. 3 schematically the Arrangement of a blower displacement line according to the invention in a progressive expansion equipped longwall

The longwall pipeline shown in the drawing generally consists of blower switches 1 which are known per se and which are connected to one another by the pipe sections 2 .

The blower switches have a closed, flat housing 3 in which an adjusting body 4 made of wear-resistant material or provided with a wear-resistant layer on the inner working surfaces is arranged. The space or the joint between the housing 1 and the upright body 4 is closed by soft seals 5, so that the required conveying air pressure can be maintained in the cavity 6 of the upright body without dust being blown out of the blower switch.

The actuating body 4 is also connected to an actuating lever 7 by an actuating shaft 8 penetrating the cover of the housing 3.

Each blower 3 is supported by means of supports 9 on runners 10 , which are articulated by means of hinge brackets 11 or in some other suitable manner to the foot part 12 of an extension frame of the longwall construction. But it is also possible to equip the blower diverters or their frames with special rear devices, e.g. B. to tie hydraulic or pneumatic devices.

Three pipe sockets 13, 14, 15 are provided on the housing 3 of the blower switches. The connection piece 13 serves as an inlet connection piece and for this purpose is provided with an approximately spherical extension 16 in which the short pipe section 17 , which is provided with corresponding spherical guide surfaces, engages in a pivotable manner on all sides. A seal 18 is provided for the dust-tight closure of the expansion joint. In the short pipe section 17 , the end of the pipe 19 engages telescopically, with a soft seal 20 also being provided for closure. The other end of the pipe part 19 has a spherical extension 21 in which the nozzle 14 of the blower switch engages in a rotatable and pivotable manner. The soft seal 22 is provided here for sealing.

The designs of the pipe parts 17 and 19 and their connection to the nozzle of the blower switch results in the possibility of relative mobility of the adjacent blower switches with respect to one another, wherein the connecting pipe section 17, 19 can be pivoted with respect to the blower switches. The change in length associated with a pivoting movement can be accommodated in the telescopic connecting tube 17, 19 .

A tube-like mouthpiece 23 is pivotably attached to the pipe socket 15 of the blower switch, the same means being provided as for the connection of the tubes 17, 19 to the blower switches. The nozzle tube 23 can be pivoted relative to the stationary blower switch in order to direct the jet of the material to be offset in the required manner into the offset field.

The general arrangement and function of the strut pipeline according to the invention is based on FIG. 3 emerges. In front of the coal face 30 is the usual face conveyor, which is shown at 31 in the advanced position and at 31 'in the not yet moved position. The respective rear zone of the face conveyor is denoted by 31 ″.

The longwall, for example, is equipped with progressive expansion. At 32 the expansion and the blower switches 1 coupled to it or the corresponding sections of the conveying pipeline are shown in the advanced position, into which they are brought by the advancement of the face conveyor 31 . The rear zone of the extension is indicated at 32 " , while the position of the extension in front of the ridge is indicated at 32 '.

The blowpipe switches or the connecting pipes can also be advantageous be assigned a movable offset wall z. B. hung on the building and has openings for the tubular mouthpieces 23.

Claims (4)

Claims: 1. Versatzgut-Förderrohrleitung for Blasversatzbetriebe, preferably for with progressive expansion aligned face areas whose pipe sections are moved depending on the mining progress in the next offset field, d a -characterized in that the pipeline from a series of distributed over the length of the face, separated convertible pipe switches (1) and pipe parts (2) which connect them and which are variable in length and angular position relative to the switches, each pipe switch having a blow-out opening (23) directed into the offset field, possibly projecting like a shovel or pipe. 2. Versatzgutleitung according to claim 1, characterized in that the transfer tubes (1) are each coupled to a structure (12) of the longwall structure. 3. Versatzgutleitung according to claim 1 or 2, characterized in that the transfer tubes are arranged on preferably slide-like support frames (9,10) , the pipe parts (17, 19) bridging the gap between adjacent transfer tubes in a cantilevered manner. 4. Versatzgutleitung according spoke 1, 2 or 3, characterized in that that the Rahrteile (17, 19) designed and telescopic with variable length on the housing (3) of the transfer tubes by pivoting on all sides with ball-and-socket joints are attached, with soft seals between their mutually movable parts are arranged. Publications considered: German Auslegeschriften No. 1016 211, 1119204.