DE19957266B4 - Transitional telescope for belt conveyors - Google Patents

Abstract

Transition Telescope to extend the Interval times in the band extension or shortening, with the end (3) of the belt support frame (2) and vertically pivotable with the delivery bridge (4) of the line scraper conveyor (5), the one associated with the transfer stand (4) Bandumkehre (17) having belt conveyor (22) is equipped with a storage belt loop and also on the opposite a receiving tube (25) extendable on both sides extendable, on both sides provided telescopic part (26) via rollerstands (29, 30) and wherein the receiving tube (25) on the transfer stand (4) is and by an adjusting cylinder (31) to pivot vertically is, characterized in that the receiving tube (25) in the transfer block (4) integrated and with at least two telescopic parts (26, 27, 28) is and that the adjusting cylinder (31) is attached vertically.

Description

The The invention relates to a transitional telescope for renewal the interval times in the band extension or shortening, the with the end of the belt support frame and vertically pivotable with the transfer bracket of the track scraper conveyor is connected, wherein the band assigned to the transfer jack having belt conveyors equipped with a storage tape loop and also on the opposite one on both sides upstream receiving tube extendable, provided on both sides telescopic part has roller blocks and wherein the pick-up tube at the delivery booth is arranged and is to be pivoted vertically by an adjusting cylinder.

In underground mining and tunneling, and there especially in areas where longwall is operated, the intragewonnene conveyed is brought with a longwall conveyor in the discharge line and there handed over to a longwall conveyor with the longwall conveyor in the longitudinal direction. This track conveyor, usually a track scraper conveyor, passes over a corresponding transfer block the conveyed on a belt conveyor over which then the conveyed material is further conveyed away. Due to the shifting front face and thus over the belt conveyor slowly moving away transfer jib a band extension must be made at certain intervals or in the opposite direction of conveyance and a band shortening. These cycles can be and are reduced by the fact that a receiving tube with telescopic part is arranged in the conveying direction of the transfer block, which are associated with roller blocks (see 8th this application). This corresponding far projecting receiving tube is pivotally mounted on the transfer stand to adapt to the position of the conveyor belt or the belt conveyor can. Depending on requirements, the telescope is pulled out of the receiving tube, so that thus a sufficient support of the conveyor belt, ie both the upper and the lower flange is possible. In this way, a length of 3 m and more can be bridged. Now it has proven to be problematic that the receiving tube, which is adjustable via an adjusting cylinder in height, is very heavily loaded due to the wide Vorkragens. Not only can deformations occur on one of the two tubular parts, ie the receiving tube or the telescopic tube, but sometimes it is difficult to hold the roller blocks arranged at the front end of this structure so that they really still have support for the upper and lower tubes Untergurt can result. Due to the not always avoidable overloads, it is then no longer possible after some time to insert the telescopic part in the receiving tube, so then a reduction and replacement by a new device is unavoidable. At a stroke of about 4 m, a correspondingly far projecting receiving tube of more than 3 m in total remains in the retracted state. Since this projecting component, ie the receiving tube and the telescopic part between the upper and lower belt is arranged, it may also lead to leadership problems and damage to the belt. Of the WO 97/39969 is to be taken from a loading device, the conveyor belt is arranged on a telescopic support arm. The support arm is supported by a support cylinder in a vertical arrangement. The entire telescopic arm is attached to a transport table o. A. Also in the conveyor after the DE 44 90 113 C1 is an independent so-called. Telescopic conveyor shown, which is arranged on an upwardly and downwardly pivotable base carrier and forms a kind of storage belt loop.

Of the Invention is based on the object, a transition telescope for extension the interval times by band extension or shortening too create, in spite of the compact transfer bracket and maximum belt extension only small overhang lengths available.

The object is achieved according to the invention in that the receiving tube is integrated into the transfer block and equipped with at least two telescopic parts and that the adjusting cylinder is attached vertically. In this embodiment of the transitional telescope, the dead length is brought to virtually zero, because the entire pick-up tube is integrated into the transfer block in such a way that it can still perform the necessary corrective movements to adapt to the course of the belt conveyor or support it accordingly. It is not only the receiving tube harmless and integrated by the operation uninfluenced in the transfer block, but also necessary for the Justierbewegungen adjustment cylinder. Since this is set vertically and accordingly the receiving tube slightly pivoted, it can be used in the front part of the transfer block, without affecting the belt or the transfer block adversely, but in particular it is arranged so that an overload is precluded by the projecting components. In this inventive solution, the receiving tube and the telescopic part may be formed as a pneumatic telescopic cylinder in the simplest version, which is arranged on both sides of the transfer block. The individual roller blocks are interchangeable screwed thereto, wherein in the telescopic cylinder design also has the opportunity to get along with a single cylinder that can be arranged as gallows in the flow not impairing distance or between the upper and lower chord. Here is not the ge velvet telescopic cylinder, but only the cast-telescopic telescope part to arrange gallows. Advantageously, therefore, the pick-up tube is not vertically suspended as a long boom with obstructive dead length in the conveying direction behind the transfer block, but he is, as mentioned, in the transfer stand vertically articulated suspended integrated. This advantageously avoids a damaging overhang length. Due to the multi-level design of the telescopic part can be worked with a fairly short parking position, out of the sufficient yet far projecting support structures are to be realized.

To another expedient embodiment provided that the receiving tube and the telescopic parts of each other nestable tubes of rectangular or square cross-section, which ends a roller block is assigned. The roller blocks can do this solvable be arranged, but they form a sort of end limit for the one another Sliding telescopic parts and they give at the same time with ejected telescope part the right distance for the support of the respective belt before.

Around while of the operation an accidental telescoping and thus a lack of support To avoid the belt, it is provided that the telescopic parts in the receiving tube and in each other sliding or rolling led and formed in the respective position positively or non-positively fixable are. This is the possibility given the easy-to-use telescopic parts by hand or move with chain hoist and in the respective end position by Frictional engagement effectively fix.

To an advantageous embodiment is provided that the receiving tube a hydraulic thrust cylinder associated with the roller blocks of the individual telescope parts is formed coupled. With a relatively short thrust cylinder So a variety of telescopic parts pushed out of the pickup tube or be drawn into the receiving tube, it's just required, the individual telescope parts successively with the hydraulic Cylinder or to connect to the piston rod, so as a telescope part to move after the other. This solution has the great advantage that in this way with the least possible lengths in the area of the receiving tube can be worked. It is also advantageous that the hydraulic Push cylinder in cheaper overall length be used.

Either The receiving tube, such as the hydraulic thrust cylinder can be beneficial in the transfer booth be arranged integrated because of the hydraulic thrust cylinder after an expedient execution the Pick-up tube assigned in piggyback arrangement and with over the Roller blocks protruding Tabs easily detachable to connect. The piston rod of the hydraulic push cylinder needs simply by bolts or screws on the respective tabs the individual telescope parts to be set, then by the movement of the hydraulic thrust cylinder the corresponding Telescope part in the receiving tube or in another telescope part push in or pull out of it. Has the respective Telescope part then reaches the end position, the determination takes place via frictional engagement, then to the hydraulic thrust cylinder with the next telescope part connect and then after reaching the extension or insertion length turn effectively determine.

One with moving the respectively in the receiving tube or in the other telescope parts located telescopic parts is prevented by the Rollenböcken and / or associated with the tabs pawls, which are adjacent in bolts rollerstands are latched. This training makes it possible, in a simple way and way to operate the individual telescope parts effectively, without that the other telescopic parts move along disadvantageously can.

to Stabilization of the entire support area it may be appropriate the respective mutually parallel telescopic parts end through the roller blocks transversely connected and interchangeable train. This means that the roller blocks replaced if necessary or can be unscrewed, to be re-attached if necessary at a different distance. The cross-connection has the advantage that it creates a kind of framework, that the support function very cheap can provide. It thus results in the true sense of the word Telescopic units.

Around Make sure the individual telescope parts are also in the correct one Order is to be installed and at the same time to specify stops provided that the two largest telescope parts and the receiving tube at the front end a radial inner collar and each telescopic part distant to the respective hub, radial outer collar have at the rear end. These outer and inner collar serve when telescoping as a stop and as guide bushes (made of bronze), while to assure them during assembly, that the telescopic parts in size in order be inserted from behind into the receiving tube.

The accidental Mitherausziehen adjacent roller blocks or adjacent telescopic parts is effectively prevented by the fact that the largest telescopic part per side has two manually operable pawls. It can be expedient to act also double pawls, which cause a setting of adjacent roller blocks or telescopic parts and thus prevent withdrawal or slipping out of the unwanted telescopic parts, which otherwise could quite possibly happen due to the low frictional resistance.

Further the front is mentioned been that the extracted telescopic parts fixed by friction should be. For this purpose, a solution is particularly suitable which serve to fix the telescopic parts pressure screws. hereby becomes a non-positive Connection reached, in this case only on the second and third telescopic part is to provide the first and second Telescope part to keep distance, since the third telescope part already by fixed the feed cylinder or the hydraulic thrust cylinder becomes.

The necessary adjustment of the position of the pick-up tube to the Gurtverlauf is easily possible, if the recording tube over a pivot point is pivotally disposed at the transfer jack end is while the front end with the vertically arranged adjusting cylinder connected is. This is a vertically pivoting movement about +/- 1.5 ° possible, what with a slight Hub of the adjusting cylinder is already accessible. Because of this adjustment cylinder also struck below the receiving tube, step destroying the previous telescope Facts no longer up.

Of the Belt becomes advantageous in case of unforeseen operational distractions protected by the first roller block at the end of the transfer bracket before and at tangential height is connected screwed with the there ending trough sliding trough.

One Plow scraper is coaxial with the pressure roller of the front roller block arranged and stored so that the belt avoid sharp edges can run into the lower strand, the belt deflection when retracted Telescope approx. 18 ° and when the telescope is extended 3 ° and at a distance of the two pressure rollers of about 4.5 m by Untergurtrollen supported on the second and third roller block at intervals of 1.45 m.

Further front is explained been that the receiving tube arranged by piggyback hydraulic Thrust cylinder each a cyclic extension of the telescope parts or Movement of the telescopic parts allows. A uniform Take off is then possible if the hydraulic thrust cylinder is a hydraulic cylinder with scissor-trained extension members is. Even with such an execution can be advantageous with a short hydraulic cylinder be worked because his movement over the scissor-shaped extension members extended or is transferred to the top of the front telescopic part, so that the individual telescopic parts pulled out of the receiving tube one after the other or can be pushed into the same thing.

Advantageous is such a Hubverlängerungseinrichtung, if the hydraulic cylinder a Querführungsarm with roller guide and the shoring two short arms pivotable about a pivot point are assigned, between which an X-member with a central pivot point and arranged is articulated with both. This can, as already mentioned, this Middle part extended so and be moved so that the Ausschublänge the entire facility effective and significantly extended becomes. Conveniently, the hydraulic cylinder is articulated with its piston rod connected to the middle pivot of the X-member, so this X-member in the roller guides guided on short extension length or the longest extension length can be brought.

The skillful move and the special design of the transitional telescope ensures that the projecting dead length of the transitional telescope in the retracted position is only about 800 mm or less and in comparison with the conventional design, in which this dead length has an extent of about 6.40 m , at the same stroke of 3750 mm, a harmful length of 5600 mm is saved around. By the way, the component lengths are considerably shortened, which has an advantageous effect in the cramped conditions of underground transport and also during assembly. The novel telescopic device reaches even in an extended position even adding the length of about 7000 mm for the plow scraper only a protruding length of about 5.25 m and is still about 1 m shorter than the conventional version with its about 6.5 m in an extended position, the overhanging length of which even grows to more than 10 m in the extended state and consequently can only be detrimental in rough mining operations, considering that hydraulic cylinders with a stroke of around 400 mm are used for the vertical adjustment of the transitional telescope, allow the deflections of +/- 30 ° and Ausschublängen of up to 4 m to Streckenfirste and up to 3 m below the level of the track sole, resulting in bending moments due to the excessive lever arm effect, which contribute to the destruction of the transitional telescope and can lead. Since the transfer stand has a length of about 6.4 m, which increases the addition of the band reversal to over 7.7 m, there is also the possibility of a single-stage telescoping unit whose immovable part in the form of the outer tube reaches a length of 5.3 m that at New construction under skillful use of space past the Lemniskaten, the lifting cylinders, the rocker and the alignment devices can be accommodated in narrow-lane construction in the transfer block, the previous roller-guided telescopic parts can be used advantageously.

Further Details and advantages of the subject invention are based the following description and the accompanying drawings he explained, in those a preferred embodiment presented with the necessary details and individual parts is. Show it:

1 a transitional telescope when pushed out,

2 the transitional telescope 1 in the inserted state,

3 an enlargement of the transitional telescope 1 .

4 an enlargement of the transitional telescope according to 2 .

5 a top view of the end of the transitional telescope in the inserted state,

6 another embodiment of the hydraulic push cylinder in the inserted state,

7 the hydraulic thrust cylinder after 6 in the ejected state,

8th a side view of a transitional telescope according to the previous embodiment for explaining a further embodiment according to the invention.

1 shows a transitional telescope 1 between the belt support frame 2 namely the transfer gate end 3 and handovers 4 arranged itself.

The delivery bucket 4 is the end of the track scraper conveyor 5 , being in the discharge box 7 the reversal 6 is recognizable. To the discharge box 7 closes the tensionable machine frame 8th on which also a turntable 9 with seesaw 10 assigned. As a result, a Kardangelenkige connection is possible, with the discharge head or the transfer block 4 via a four-bar linkage 12 with lemniscates 13 , a coupling joint and a floor skid 14 is infinitely adjustable in height and can be equal to the level of the track sole and beyond at its ends by a hydraulic alignment device 21 can also be corrected in the transverse direction. The delivery bucket 4 also takes in an associated Umlenkungsast the pressure roller 16 , the cleaning drum 17 or band reversal and the pressure roller 18 on, over the upper girth 19 and bottom strap 20 safely guided.

The delivery bucket 4 can due to this training the Strebförderer not shown here following in the longitudinal direction on the track sole 3 move, being due to the transitional telescope shown 1 even when reaching the end position still for a sufficient support of the upper flange 19 and the lower belt 20 Caring. Integrated in the delivery dock 4 is also a plow scraper 15 and the loading table with trough sliding trough 11 , in the 1 and 2 are only indicated. In the manner described, with the help of the transitional telescope 1 the belt conveyor 22 be practically extended so that the cycle times for its extension or just the opposite for its shortening can be significantly extended in each case.

The support of the upper belt 19 and the lower belt 20 takes place as in 1 shown in the extended position of the transitional telescope 1 through the out of the transfer in the 4 integrated pick-up tube 25 extractable telescope parts 26 . 27 . 28 , The individual telescope parts 26 . 27 . 28 are roller blocks 29 . 30 . 30 ' assigned over the both the upper belt 19 like the lower chord 20 be effectively managed and supported.

The pickup tube 25 is a vertical working and arranged adjusting cylinder 31 assigned, in particular 3 can be removed, advantageously so in the transfer dock 4 integrated, that it is effectively protected. He is at the top anchor point 32 and at the lower anchor point 33 articulated so that overloading is prevented. The pressure roller 34 is also in the transfer block with the assigned roller block 4 integrated or connected to this, whereby the necessary deflection, in particular of the lower flange, in this area can be done evenly and safely, depending on how far the entire telescope is extended or retracted. The next pressure roller 35 located on the front roller block 30 ' , where in the same joint and the plow scraper 52 is fixed.

As already mentioned, the correspond 1 and 3 just that in 3 clearer and larger the transitional telescope 1 is highlighted.

The extension and retraction of the telescope parts 26 . 27 . 28 with the end arranged roller blocks 29 . 30 . 30 ' via a hydraulic push cylinder 38 , its cylinder housing 39 piggyback with the receiving tube 25 connected and even with in the delivery dock 4 is integrated. Only the piston rod 40 is over the front end of the receiving tube 25 postponed, with the piston rod 40 one after the other with the individual tabs 41 . 42 . 42 ' is connected.

3 shows the position at which the individual telescope parts 26 . 27 . 28 to be recovered. That's why the piston rod is 40 with the roller block 29 or the tab 41 connected. Is then the roller block 29 in the out 4 or even out 2 apparent position is spent, the pawl 43 in the corresponding bolts 42 inserted, so now the next telescope part 27 can be obtained. After that, the third telescope part 28 inserted.

The pawl 43 but fulfilled when pulling especially the function that not accidentally the respectively unnecessary telescopic part remains in its position until the respective front telescopic part 28 or 27 or 26 is ejected.

At the front end 46 from pick-up tube 25 and telescope part 26 is a radial inner collar 47 arranged, at the rear end 48 the individual telescope parts 26 . 27 . 28 a radial outer collar 49 , wherein on this 8th to refer to where the appropriate training is shown.

Earlier it has already been explained that the pick-up tube 25 on the outside wall 25 ' the hydraulic thrust cylinder 38 is fixed, with his delivery bucket end 51 about a pivot 50 at the delivery booth 4 is set so that the adjusting cylinder 31 make the necessary corrections. With 54 is designated to be determined on the roller block transfer bracket, while the top of the lower flange 20 the reference number 53 wearing. The top 53 of the lower flange 20 is over the plow scraper 52 cleaned, which is already mentioned earlier. This front plow scraper 52 guides the movements with the roller block 30 ' out.

3 It can also be seen that the individual telescope parts 27 . 28 but also 26 can be set in their Ausziehlänge via pressure screws 56 . 57 so that they can not unintentionally leave the once occupied telescopic position.

5 shows a plan view of the protruding end of the Pflugabstreifers 52 , where it becomes clear that the individual roller blocks 29 . 30 . 30 ' drove close to each other and thus occupy a very space-saving position. Visible are also the two sides of the transfer block 4 arranged hydraulic thrust cylinder 38 . 38 ' . 39 . 39 ' as well as the intake height 25 . 25 '' ,

The 6 and 7 show another way, the individual telescope parts 26 . 27 . 28 from the recording tube 25 pull out or push into it, these in 6 and 7 reproduced version as Hubverlängerungseinrichtung 60 is designated. This makes it clear at the same time that this Hubverlängerungseinrichtung 60 also for other purposes, for example, as a replacement for the four-bar linkage 12 , can be used.

The stroke extension 60 has a relatively short hydraulic cylinder 61 that is articulated about a lower center of gravity 62 connected with a runner or with other components. In the cylinder housing of the hydraulic cylinder 61 there is a correspondingly long piston rod 63 with a scissor-shaped extension link 64 connected is.

At the in 6 and 7 illustrated embodiment is a Querführungsarm 65 with a roller guide 66 and a role 67 as a scissor-shaped extension member 64 , being between this Querführungsarm 65 and the short arms 68 . 69 that have a pivot point 70 with the second component or just with the frontmost telescope part 28 are connected, with an X-member in between 71 is arranged, at the middle pivot point 72 the piston rod 63 connected. By pulling or pushing out the piston rod 63 becomes the X-link 71 stretched and at the same time are the two short arms 68 . 69 brought close to each other, so that the effective length is advantageously extended or increased. Will the piston rod 63 into the cylinder housing of the hydraulic cylinder 61 pushed in, the position follows 6 where the transverse guides 65 , Short arms 68 . 69 and X member 71 inserted or threaded into each other, so that results in a very short length.

8th Finally, a transitional telescope shows 1 in which only a single telescope is used. Here, however, an embodiment of the prior art is reproduced. According to the invention, the far projecting receiving tube 25 in the substructure of the transfer bracket 4 integrated in such a way that the mutually parallel receiving tubes 25 at the lemniscates 13 , the corresponding lifting cylinders, the rocker 10 and the alignment devices 21 Pass in narrow-gauge construction, so that the entire component expedient in the transfer block 4 is integrated. Deviating from the version shown here is this integrated pick-up tube 25 As shown in the preceding figures, via a vertically acting adjusting cylinder 31 adjusted, with the telescopic part 26 is pushed out by hand, so then the individual roller blocks 30 . 30 ' can be brought into the required position NEN. In the embodiment shown here are also the radial inner collar 47 and the radial outer collar 49 recognizable, the insertion of the telescope part 26 in the receiving tube 25 secure and facilitate.

Claims (14)

Transition telescope to extend the interval times in the band extension or shortening, which ends with the end ( 3 ) of the belt support frame ( 2 ) and vertically pivotable with the transfer stand ( 4 ) of the track scraper conveyor ( 5 ), whereby the person responsible for the transfer ( 4 ) associated band reversal ( 17 ) having belt conveyor ( 22 ) is equipped with a storage belt loop and also on the opposite of a two-sided upstream receiving tube ( 25 ) telescopic, provided on both sides telescopic part ( 26 ) via roller blocks ( 29 . 30 ) and wherein the receiving tube ( 25 ) at the transfer booth ( 4 ) is arranged and by an adjusting cylinder ( 31 ) is to pivot vertically, characterized in that the receiving tube ( 25 ) in the transfer booth ( 4 ) and with at least two telescopic parts ( 26 . 27 . 28 ) and that the adjusting cylinder ( 31 ) is set vertically. Transition telescope according to claim 1, characterized in that the receiving tube ( 25 ) and the telescopic parts ( 26 . 27 . 28 ) consist of nested tubes with rectangular or square cross-section, which ends a roller block ( 29 . 30 . 30 ' ) assigned. Transition telescope according to one of the preceding claims, characterized in that the telescopic parts ( 26 . 27 . 28 ) in the receiving tube ( 25 ) and slidably or rolling out and formed in the respective position positively or non-positively fixable. Transition telescope according to one of the preceding claims, characterized in that the receiving tube ( 25 ) a hydraulic thrust cylinder ( 38 ) associated with the roller blocks ( 29 . 30 ) of the individual telescope parts ( 26 . 27 . 28 ) is formed coupled. Transition telescope according to one of the preceding claims, characterized in that the hydraulic thrust cylinder ( 38 ) the receiving tube ( 25 ) assigned in piggyback arrangement and with over the roller blocks ( 29 . 30 ) projecting tabs ( 41 . 42 ) is easily detachable to connect. Transition telescope according to one of the preceding claims, characterized in that the roller blocks ( 29 . 30 ) and / or the tabs ( 41 . 42 ) Pawls ( 43 ), which are in bolts ( 44 ) of adjacent roller blocks ( 30 . 30 ' ) are latched. Transition telescope according to one of the preceding claims, characterized in that the respectively mutually parallel telescopic parts ( 26 . 27 . 28 ) end by the roller blocks ( 29 . 30 ) are connected transversely, which are designed to be interchangeable. Transition telescope according to one of the preceding claims, characterized in that the two largest telescopic parts ( 26 . 27 ) and the receiving tube ( 25 ) at the front end ( 46 ) a radial inner collar ( 47 ) and each telescope part ( 26 . 27 . 28 ) on the respective hub distant, radial outer collar ( 49 ) at the rear end ( 48 ) exhibit. Transition telescope according to one of the preceding claims, characterized in that the largest telescope part ( 26 ) per side via two manually operated pawls ( 43 ). Transition telescope according to one of the preceding claims, characterized in that for fixing the telescopic parts ( 26 . 27 . 28 ) Pressure screws ( 56 . 57 ) serve. Transition telescope according to one of the preceding claims, characterized in that the first roller block ( 29 ) at the end of the transfer ( 4 ) in front of and in tangential height with the trough sliding trough ending there ( 11 ) is screwed connected. Transition telescope according to one of the preceding claims, characterized in that the hydraulic thrust cylinder ( 38 ) a hydraulic cylinder ( 61 ) with scissor-shaped extension members ( 64 ). Transition telescope according to one of the preceding claims, characterized in that the hydraulic cylinder ( 61 ) a Querführungsarm ( 65 ) with roller guide ( 66 ) and the supporting framework ( 2 ) two around a pivot point ( 70 ) swiveling short arms ( 68 . 69 ), between which an X-element ( 71 ) with middle pivot point ( 72 ) is arranged and hinged to both. Transition telescope according to one of the preceding claims, characterized in that the hydraulic cylinder ( 61 ) with its piston rod ( 63 ) hinged to the middle pivot point ( 72 ) of the X member ( 71 ) connected is.