DE19803340A1 - Open cast mining bucket wheel excavator with balance boom and track - Google Patents

Abstract

The slewing axis (AD) of the connecting bridge (8) is offset from the slewing axis (AD) of the turret (2) in both transverse and long ways directions, notably towards the bridge and to the rear in relation to the longitudinal axis of the excavator. The swivel axis of the bucket wheel boom (7) is formed by the axis (AD) of the tower and an intermediate belt (13) between boom dump point and the bridge (8) loading point, the belt (13) mounted via support (12) on the excavator platform (1) through a ball bearing skewing gear (14). The offset amount (M) of the two axes (AS and AD) in the transverse direction and the long ways offset are selected so belt (13) forms angle (W) of about 75 deg with the outermost part of the boom (7) facing the bench belt (9) and the bridge (8) swivel axis (AS) lies outside the crawler track (6). The three parts (6.1-6.3) of the track lie firstly (6.1) to one side of the excavator and the other two (6.2,6.3) on the other side of the machine, with the connecting bridge (8) arranged on this same second side.

Description

The invention relates to a bucket wheel excavator formed opencast mining device, which essentially consists of one Platform, one rigidly connected to the platform Tower and a counterweight arranged on the tower boom - in so-called C-frame construction - exists the platform being on a ball track on a sub construction is rotatably mounted on a crawler track rests, and the bucket wheel boom can be raised and lowered is mounted on the tower, while that to a rung tied leading connecting bridge pivotable on the plat form is attached and the other end supports a loading wagon.

Opencast mines generally carry the dredged material via a connecting bridge and a loading wagon a stope band that runs next to the open-cast mining device. In the case of a particularly long string band, it is necessary to do this in two parts. The drive for one of the two parts of the strap band here in the area of the adjacent or themselves overlapping ends of the two parts of the strap band arranged. With such two-part stope bands is in the area of the ends of the two parts of the Strossenband a so-called "abandoned" route, the because of the task attached to the loading wagon table cannot be run over. It is therefore necessary, just before loading the dead line the loading dare to stop and the loading table from the bench conveyor uncoupling and then the loading wagon at the task lead dead route. The verb bridge by means of the loading wagon on the dead man  Swayed past. After that, the posting table again coupled to the string band and the shovel wheel excavator continues its normal operation.

The invention is based, a mine device with the optimal length of the connecting bridge shape that when pivoting the connecting bridge on the abandoned stretch of a two-part stope bandes no collision with the tower of the open-cast mining device is possible and that even with the continuation of the Normal operation of the bucket wheel excavator no such Collision can occur.

This object is achieved in a surface mining device of the type mentioned at the outset by

• - That the pivot axis of the connecting bridge for rotation axis of the tower, which is also the axis of rotation of the bucket wheel boom forms, is arranged offset, namely both in the transverse and in the longitudinal direction, namely in Direction to the connecting bridge and - related to the longitudinal axis of the open-cast mining device - to the rear,
• - That between the discharge point of the bucket wheel boom and the loading point of the connecting bridge Intermediate band is provided
• - And that the intermediate belt by means of a support body pers via a ball slewing ring on the platform supports.

In the opencast mining device according to the invention is between the Connecting bridge and the tower of the open-cast mining device always there is a sufficient distance.

The degree of displacement is expediently the Swivel axis of the connecting bridge to the axis of rotation of the Bucket wheel boom in the transverse direction and the dimension of the  Longitudinal displacement selected so that the extending between the pivot axis and the axis of rotation Intermediate belt with the bucket wheel boom - in its outermost position facing the string band - one Forms angle that is about 75 °, and that the Swivel axis is located outside the crawler track. This results in particularly favorable conditions regarding collision avoidance.

In an embodiment of the invention, the crawler track is formed by three caterpillars or pairs of caterpillars, of which one on one side of the mine and the two further on the other side of the opencast mine are arranged, and that the connecting bridge to that Side of the open-pit mining device on which the two Caterpillars or pairs of caterpillars. This will get that Opencast mining device provides a particularly stable support.

In a further embodiment of the invention Underside of the support body of the intermediate belt at least a roller block is provided, the role of which on the Platform supports. As a result, the between the support body of the intermediate belt and the platform Ball slewing ring significantly relieved. This can happen with smaller surface mining equipment cause the ball turning connection through a much cheaper king pin can be replaced.

The open-cast mining device according to the invention can still do this be improved that the support body of the intermediate belt is provided with a pinion that in the ring gear for the rotation of the tower engages, the pinion with a lockable drive motor is connected. This locks the intermediate belt reached together with the pivot bearing, so that the  Platform with the tower between the substructure and the Support body for the intermediate belt can rotate without the position of the intermediate belt changes.

When changing the direction of travel of the bucket wheel excavator for the return trip, the bucket wheel boom is turned by 180 ° turned. Furthermore, the pivot bearing of the connection bridge so offset that it is behind the The axis of rotation of the bucket wheel boom is located. That too Intermediate belt is pivoted backwards. The move the swivel bearing of the connecting bridge can also by pivoting, for example by means of the attached to the support body of the intermediate belt and in engaging the ring gear for rotating the tower Ritzels.

In a particularly expedient embodiment of the The invention relates to the pivot bearing for the Connecting bridge slidably arranged in a guide net, the guide using support beams with the substructure of the surface mining device is connected. With such a configured opencast mining device takes place the Swivel bearing of the connecting bridge not by Ver swivel, but by moving it freely.

With an arcuate guide of the pivot bearing Connection bridge can take the intermediate belt be, so that a special drive for this superfluous.

In a preferred embodiment of the invention the leadership is designed and has a linear leadership two longitudinal ball bearings on which the pivot bearing moved for the connecting bridge. This is the ver  set the swivel bearing of the connecting bridge especially simple.

Another feature of the invention is that in one equipped with a linear guide Opencast mining device the ball slewing ring, over which the Support body of the intermediate belt on the platform supports, is formed by a kingpin. Hereby this results in considerable cost savings.

So even with a surface mining device with the above described leadership the platform with the tower between the substructure and the supporting body for the Intermediate belt can rotate without the position of the Intermediate belt changes, have to lock the Swivel bearing for the connecting bridge in its ever end position the guide and the pivot bearing at least one hole, with the holes in cover the end positions of the swivel bearing, and a bolt is inserted through the holes.

The invention is explained in more detail with reference to the drawing. Show it:

Fig. 1 shows the central portion of a open-cast mining apparatus;

Figure 2 shows the middle area of an alternative day construction device.

Fig. 3 is a plan view of the substructure of the opencast mining device shown in Fig. 2, in a schematic representation;

Fig. 4 is a plan view of the mining device shown in Fig. 1, also in a schematic Dar position.

The opencast mining device shown in Fig. 1 consists essentially of a platform 1 , a rigidly connected to the platform form 1 tower 2 and a hinged to the tower 2 counterbalance boom 3rd The platform 1 is rotatably mounted on a ball track 4 on a substructure 5 . The base 5 rests on a crawler track 6 . The bucket wheel boom 7 is mounted on the tower 2 , so that the axis of rotation AD of the tower 2 is also the axis of rotation of the bucket wheel boom 7 . The dredged material is fed to a bench conveyor 9 through a connecting bridge 8 (see FIG. FIG. 4), said bridge-making about the outer end of a loading carriage 10 is Verbin 8 (see. Fig. 4). The leading to the Strossenband 9 connecting bridge 8 is pivotable by means of a pivot bearing 11 about a pivot axis AS, wherein the pivot bearing 11 is attached to a support body 12 for an intermediate belt 13 . The support body 12 is in turn supported on a ball rotating connection 14 on the platform 1 . The intermediate band 13 is arranged between the discharge point of the bucket wheel boom 7 and the loading point of the connecting bridge 8 . The intermediate belt 13 can be locked in its respective end position during the conveying operation.

From Fig. 1 it can be seen that the support body 12 of the intermediate belt 13 is provided with a pinion 17 which engages in the ring gear 18 for the rotation of the tower 2 . The pinion 17 is connected to a lockable drive motor 19 . At least one roller block 20 is seen on the underside of the support body 12 . The roller 21 of this roller block 20 is supported on the platform 1 .

In the example shown in Figs. 2 and 3 opencast mining apparatus, the pivot bearing 11, arranged slidably ver for the connection bridge 8 in a linear guide 22, which is connected via supporting beams 23 to the substructure 5 of the open-cast mining appliance. The guide 22 has two longitudinal ball bearings 24 . The pivot bearing 11 for the connecting bridge 8 in the linear guide 22 can be displaced by means of a toothed rack 25 which is connected to a toothed rack drive (not shown). In this case, a cantilever arm 26 serves to pivot the support body 12 for the intermediate bath 13 by means of the drive motor 19 . In this embodiment, the rotary connection, via which the support body 12 of the intermediate belt 13 is supported on the platform 1 , is formed by a kingpin 27 . Furthermore, in this embodiment, the guide 22 and the pivot bearing 11 see ver with at least one bore through which a bolt 29 is inserted to lock the pivot bearing 11 in its respective end position.

As can be seen from Fig. 4, the Strossenband 9 is formed in two parts, so that between the ends of the two parts of the Strossenbandes 9 there is a so-called "abandoned" route 28 which can not be driven over. Therefore, the loading wagon 10 - indicated only by the crawler chassis 6 and the bucket wheel boom 7 , the connecting bridge 8 and the intermediate belt 13 , which are shown by lines - bucket wheel excavators shortly before the dead line 28 and the feed table (not shown) is decoupled . Then the loading wagon 10 - in the position indicated by thin solid lines - is guided past the leg 28 which is dead. The connec tion bridge 8 is pivoted by means of the loading wagon 10 past the dead line 28 over into the position 8 'indicated by a broken line. The feed table is then coupled again to the loading wagon 10 and the bucket wheel excavator continues its normal operation.

The pivot axis AS of the pivot bearing 11 (see FIG. 1) for the connecting bridge 8 is offset from the axis of rotation AD of the bucket wheel boom 7 , namely in the transverse direction by the dimension M1 and in the longitudinal direction by the dimension M2. Thereby forms extending between the pivot and the rotation axis AS AD axis extending intermediate belt 13 with the blade wheel arm 7 - in the illustrated direction in its extreme left position, - an angle W.

As can also be seen from Fig. 4, the crawler chassis is formed by three pairs of caterpillars 6.1 , 6.2 and 6.3 . The caterpillar pair 6.1 is on the right side and the caterpillar pairs 6.2 and 6.3 are arranged on the left side of the open-cast mining device. The connecting bridge 8 points to the left, that is to say to the side on which the two pairs of tracks 6.2 and 6.3 are located.

When changing the direction of travel of the surface mining device the pivot axis AS in the position AS '.

Claims (9)

1. A mining device designed as a bucket wheel excavator, which essentially consists of a platform, a tower rigidly connected to the platform and a counterweight arm arranged on the tower in a so-called C-frame design - the platform being rotatably mounted on a substructure via a ball track which rests on a caterpillar undercarriage, and wherein the bucket wheel boom is mounted on the tower so that it can be raised and lowered, while the connecting bridge leading to a rung band is pivotally attached to the platform and the other end of which is supported on a loading wagon, characterized in that

• 1.1 that the pivot axis (AS) of the connecting bridge ( 8 ) to the axis of rotation (AD) of the tower ( 2 ), which also forms the axis of rotation of the bucket wheel boom ( 7 ), is offset, both in the transverse and in the longitudinal direction, namely towards the connecting bridge ( 8 ) and - referring to the longitudinal axis of the open-cast mining device - to the rear,
• 1.2 that between the discharge point of the bucket wheel boom ( 7 ) and the loading point of the connec tion bridge ( 8 ) an intermediate belt ( 13 ) is provided
• 1.3 and that the intermediate band ( 13 ) is supported on the platform ( 1 ) by means of a supporting body ( 12 ) via a ball slewing ring ( 14 ).

2. Opencast mining device according to claim 1, characterized in that the dimension (M1) of the displacement of the pivot axis (AS) of the connecting bridge ( 8 ) to the axis of rotation (AD) of the bucket wheel boom ( 7 ) in the transverse direction and the dimension (M2) of the displacement are selected in the longitudinal direction so that the intermediate band ( 13 ) extending between the swivel axis (AS) and the axis of rotation (AD) with the bucket wheel boom ( 7 ) - in its outermost position facing the stope band ( 9 ) - an angle (W ) forms, which is about 75 °, and that the pivot axis (AS) is outside half of the crawler track ( 6 ). 3. Opencast mining device according to claim 1 or 2, characterized in that the crawler track ( 6 ) is formed by three caterpillars or pairs of caterpillars ( 6.1 , 6.2 and 6.3 ), one of which ( 6.1 ) on one side of the opencast mining device and the other two ( 6.2 , 6.3 ) are arranged on the other side of the opencast mining device, and that the connecting bridge ( 8 ) points to that side of the opencast mining device on which the two caterpillars or pairs of caterpillars ( 6.2 , 6.3 ) are located. 4. Opencast mining device according to claim 1, 2 or 3, characterized in that on the underside of the supporting body ( 12 ) of the intermediate belt ( 13 ) at least one roller block ( 20 ) is provided, the roller ( 21 ) on the platform ( 1 ) supports. 5. Opencast mining device according to one of claims 1 to 4, characterized in that the support body ( 12 ) of the intermediate belt ( 13 ) is provided with a pinion ( 17 ) which engages in the ring gear ( 18 ) for the rotation of the tower ( 2 ) , wherein the pinion ( 17 ) is connected to a lockable drive motor ( 19 ). 6. Opencast mining device according to claim 1, 2 or 3, characterized in that the pivot bearing ( 11 ) for the connecting bridge ( 8 ) in a guide ( 22 ) is slidably arranged, the guide ( 22 ) via support bracket ( 23 ) with the Substructure ( 5 ) of the surface mining device is connected. 7. Opencast mining device according to claim 6, characterized in that the guide ( 22 ) is formed as a linear guide and has two longitudinal ball bearings ( 24 ) on which the pivot bearing ( 11 ) for the connec tion bridge ( 8 ) moves. 8. Opencast mining device according to claim 6 or 7, characterized in that the rotary connection, via which the support body ( 12 ) of the intermediate belt ( 13 ) is supported on the platform ( 1 ), is formed by a kingpin ( 27 ). 9. Opencast mining device according to claim 6, 7 or 8, characterized in that for locking the pivot bearing ( 11 ) for the connecting bridge ( 8 ) in its respective end position, the guide ( 22 ) and the pivot bearing ( 11 ) have at least one bore, wherein the bores in the end positions of the pivot bearing ( 11 ) each overlap, and that a bolt ( 29 ) is inserted through the bores.