DE19540217C1 - Exchangeable rotor block, especially for conveyor systems - Google Patents

Abstract

The rotor block has a housing (1) with seating surfaces for sliding or roller bearings for a circumferential rotor (4) which projects on at least one side. The rotor or the bearings can be removed from one or more sides. The housing has at least one head connecting surface (5), which carries the load, and which stretches roughly across the width of the housing or that (4b) of the rotor. Both the rotor and the rotary bearings (3) on each side of it are retained between ring elements, which are fastened to the housing and which can be released from the outside. The elements also form axial resting surfaces (6a,6b) for the bearings.

Description

The invention relates to an impeller block with a housing, in the pivot bearing seat surfaces for plain and / or rolling bearings for receiving one with its circumference is provided on at least one side protruding impeller, the Remove the sliding and rolling bearings and / or the impeller at least on one side are capable.

Such an impeller block is made by Mannesmann Demag Fördertechnik AG manufactured and sold under the name RS. A similar wheel block is also known from DE 31 34 750 C2.

The known impeller block is made of two welded together or otherwise connected halves of the bearing housing formed and pressed inward Pivot bearing seats for bearings in which the hub of the impeller is supported. This is followed by the stop surface facing the hub on the pivot bearing seat surfaces Chen for the bearings and the impeller reaches with its hub over the bearings and is supported directly on the housing, and the hub also points to both of them Outer rings on the side ring grooves for contacting the end faces of the bearings Snap rings and an opening with an internal toothing for one External teeth on a drive shaft.

This design has proven itself in practice for years. However, it still exists the need to minimize costs and improve functionality.  

A disadvantage of the known impeller block is that to replace the impeller Impeller block in its entirety completely detached from the supporting structure must become.

After changing the impeller, the entire impeller block is attached to the The structure - just like the initial assembly - is fastened with screws. To do this the impeller block but in its position relative to the structure with the other impellers aligned so that the axis of rotation of the impeller is perpendicular to the impeller path, on which the impeller rolls, runs. This assembly process is through the elaborate alignment time-consuming, which reduces the downtime of the total lengthened, and therefore also cost-intensive. When aligning gear is not carried out, there is a risk that the wheels by skewing Grind (rub) on the track and wear out faster. Next There is a danger in the application of a gantry crane that the running behavior The bridge crane is sensitive due to skewing, cornering and Flange wear is disrupted. In addition, with increasing slip angle Lateral forces on the structure u. Like. Beyond the operational stress strain. This problem is described in detail in DIN 15018.

The present invention is therefore based on the object, manufacture and assembly to minimize costs by further developing an impeller block and to increase the utility value in that the disadvantages of the be Known impeller blocks can be avoided.

The object is achieved in that the housing at least least one of the load-bearing capacity, approximately on the housing width or Has impeller width extending head pad and that the impeller too together with swivel bearings on both sides between removable from the outside Housing axially fixed ring bodies, the axial contact surfaces for the rotary bearing form, is held. The invention thus enables the replacement of the impeller and / or the bearing without having to detach the housing from the structure. Thereby the time-consuming and costly alignment process after the replacement is eliminated seln of wear parts, the housing is reusable and remains aligned tet on the structure u. Like. As long as this is desired.  

There is also the advantage of not only releasable connecting means but also non-releasable ones use because the block-shaped housing of the carrier or driving concerned frame no longer has to be solved. Another advantage of this solution is in that the ring bodies are relatively easy and quick to release, that is, a time savings when replacing the pivot bearing and / or the impeller can. Another advantage is that the newly developed wheel block completely in its Components can be disassembled and recycled. This is particularly important increasing disposal costs and the separate disposal of Meaning.

For a spatially cramped arrangement of the impeller blocks is according to other features provided that the housing is provided on the front side with a cover, through which Cover opening the impeller can be removed. This will in particular give access to Running direction created over the rails, so that the adjusted attached housing as desired can remain in its position.

Similar advantages result from the fact that the housing is made in one piece and is open at the bottom.

The expansion of pivot bearings, i.e. H. Plain and / or rolling bearings are particularly designed ders advantageous by concentric to the impeller axis in the housing flange bushings are arranged, in each of which a pivot bearing is attached. It is therefore sufficient Removal of the ring body, which consists of a flange bushing, around the respective To be able to release the pivot bearing.

The assembly or disassembly of other important parts can also be done in relation to An drive parts can be advantageously designed in that a through openings of the Ge häuses' introduced impeller axle with fuses attached to the outside of the housing elements is axially secured. Here too, ring bodies can be used, which, for. B. consist of snap rings with associated grooves in the impeller axis.

According to further features, it is provided that the head connection surface and / or a Cheek surface and / or an end connection surface in overlying and non-overlying Subareas is divided. This makes the introduction of force more defined than before, and it  is significantly in the machining performance or the production of the impeller block Machining volume saved.

It is also advantageous that an overlying partial area is undivided, i. H. no parting line having. The flatness of the surface becomes with a homogeneous material and smaller Subareas as connection areas are correspondingly more precise than with several or large ones Partial areas. Forces are also defined in the An over the smaller sub-areas final construction initiated. This leaves an optimized training of the Anschlusskon structure with known power flow.

Further advantages result from the fact that the head connection area has one or more Has breakthroughs. This advantageously means that the impeller radius can be changed be increased more than the thickness of the upper plate limit. It is advantageous furthermore that the breakthrough prevents dirt deposits even in the event that the housing with the open side from which the impeller protrudes, against the Direction of gravity (upwards).

However, it is also possible for the openings to be closed by means of closure pieces are bar, which are not made of the same material as the housing must be, since they neither take up load capacities nor from the corresponding bean must be capable of speaking. The locking pieces prevent the ingress of Dirt or other contamination even in the event that the housing with the open side on which the impeller protrudes, in the direction of gravity (after below) points.

In an embodiment of the invention it is provided that the head connection surface with at least one recess is provided which runs parallel to the impeller axis. There Pre-made bolts can be used, with an inaccurate hole pattern the counterpart is possible without this leading to disadvantages because the bolts can move in the recess and adapt to the inaccurate hole pattern.

Said recess can also be used as a groove guide, as a through hole or be designed as a threaded bore. Depending on the accuracy of the connection, the appropriate passage type can be selected.  

Other advantages result from the fact that locknuts for ver binding screws can be adjusted transversely and are guided with little play. This embodiment thus serves to facilitate the connection and alignment during the initial assembly between structure, girder, chassis and. Like. And the housing of the Impeller block.

Other features are that on the head pad and / or on the outer end connection surfaces of the housing receiving means for fastening elements elements are provided. The receptacle can be used to adjust the connection means according to the setting of the entire impeller block men.

In addition to the slot guides with slot nuts provided on the head connection surface recesses are also provided on the end connection surfaces of the housing. As a result, additional elements can be connected without the end connection surface ending valid to prove. It is also possible to even use the entire wheel block on this forehead end face of the housing to a carrier or chassis u. Like to connect.

According to further features, it is provided that the recesses generally each as Groove guide, are designed as a through hole or as a threaded hole. Each according to which connecting means in combination with which receiving means The cheapest assembly and the most accurate possible location can be the corresponding appropriate combination can be selected.

Furthermore, it is provided that on the opposite of the head connection surface Outside surface of the housing is formed at least a partial connection surface. The ge mentioned recess can also be used as a groove guide, as a through hole or Be threaded bore. Depending on the accuracy of the connection, the ent speaking passage type can be selected.

Further advantages result from the fact that in the groove guides lock nuts for conn are adjustable crossways and guided with little play. This embodiment thus serves to facilitate the connection and alignment of the initial assembly between structure, girder, chassis and. Like. And the housing of the Impeller block.  

Other features are that on the head pad and / or on the outer end connection surfaces of the housing receiving means for fastening supply elements are provided. An adjustment of the Lanyards or fasteners according to the setting of the ge entire impeller block.

In addition to the slot guides with slot nuts provided on the head connection surface recesses are also provided on the end connection surfaces of the housing. As a result, additional elements can be connected without the end connection surface ending valid to prove. It is also possible to even use the entire wheel block on this forehead end face of the housing to a carrier or chassis u. Like to connect.

According to further features, it is provided that the recesses generally each as Groove guide, are designed as a through hole or as a threaded hole. Each according to which connecting means in combination with which receiving means The cheapest assembly and the most accurate possible location can result in the corresponding Combination can be selected.

Furthermore, it is provided that on the opposite of the head connection surface Outside surface of the housing is formed at least a partial connection surface. To this Partial connection surface can therefore also other units, or guide rollers, Measuring devices and. Like. Be connected. This partial pad can also be designed so that the entire impeller block on this surface with the supporting structure, Carrier or moving frame can be connected.

For the attachment of other units, it is advantageous that the outer end connection surfaces of the housing are undivided and each have a receiving surface for support represent forces.

In order to avoid corrosion or to save weight, it is proposed that the housing and / or the cover from a molten state processing material.  

To ensure that the component in question has a desired stress ability, it is proposed that the material be made of a light metal alloy tion exists.

It can also be advantageous for the material to consist of an iron alloy, if appropriate strengths are required.

For economic processing, it may be useful that the material from egg there is a plasticizable plastic.

In this regard, it may be desirable to have both sufficient strength of the Components as well as a low weight must be achieved. For this, it is featured suggest that the material consists of composite material or with other material fen forms a composite material.

Embodiments of the invention are shown in the drawing and are in following described in more detail. Show it:

Fig. 1 is a front view of the entire wheel block in the viewing direction to a cheek,

Fig. 2 that belongs to Fig. 1, top view,

Figure 3 che. A side view of the wheel block toward a Stirnanschlußflä,

Fig. 4 is an axial cross section of a first alternative embodiment of the wheel block,

Fig. 5 is an axial cross-section of a second alternative embodiment,

Fig. 6 is an axial cross-section of a third alternative embodiment,

Fig. 7 is a front view as Fig. 1 play to the second alternative Ausführungsbei,

Fig. 8 is an axial cross section according to Fig. 7 and

Fig. 9 is a plan view of the wheel block according to FIGS. 7 and 8.

An impeller block ( Fig. 1, 3, 5 and 7) has a housing 1 , in the pivot bearing seat surfaces 2 for sliding and / or rolling bearings 3 (pivot bearing) for receiving a with its scope 4 a to at least one side (Down here) protruding impeller 4 are provided. The sliding and rolling bearings 3 and / or the impeller 4 can be expanded at least on one side, namely horizontally ( FIGS. 1 and 3), downwards ( FIGS. 5 and 7).

The housing 1 is on a structure, support, chassis and. Like. Adjusted to several levels attached and this attachment must be maintained even when removing the impeller 4 and / or the sliding or rolling bearing 3 .

In this adjusted position, the housing 1 is held with at least one load-bearing capacity that extends approximately to a housing width 1 a or an impeller width 4 b and extends to the head connection surface 5 . The impeller 4 is mounted together with pivot bearings 3 mounted on both sides axially directly between contact surfaces 6 a, 6 b of the housing 1 .

The housing 1 has one or more, the load-bearing capacity, extending approximately to the housing width 1 a or to the impeller width 4 b head connection surface 5 , which can be on the top, the cheek surfaces 7 or 8 or a Stirnanschlußflä surface 9 . The housing 1 is closed at the end with a cover 10 . The impeller 4 can be expanded through a cover opening 11 ( FIG. 3). The housing 1 can therefore be made in one piece.

Flange bushings 12 ( FIG. 6) are arranged in the housing 1 concentrically with the impeller axis 4 c on both sides, in each of which a rotary bearing 3 is inserted into the rotary bearing seat surfaces 2 .

The embodiment according to FIG. 4 provides pivot bearing seat surfaces 2 directly in the housing 1 , the outer rings of the pivot bearings 3 being axially fixed by means of retaining rings 13 each held in grooves 1 c.

The impeller shaft 4 d can be installed and removed through openings 1 d and is axially secured with securing elements 14 attached to the outside of the impeller 4 ( FIGS. 4 and 6).

The head connection surface 5 and / or a cheek surface 7 or 8 and / or a front connection surface 9 can be subdivided into overlying and non-overlapping partial surfaces 15 a, 15 b. An overlying partial area 15 a is itself undivided ( FIG. 2).

The selected pad such. B. the head pad 5 has egg NEN or more openings 16 , which in turn can be closed by means of closure pieces 17 ( Fig. 4).

The head connection surface 5 is provided with at least one recess 18 which runs parallel to the impeller axis 4 d. In the sense of the head pad 5 , the Ausneh tion 18 is formed as a groove guide 18 a or as a through hole 18 b or as a threaded hole 18 c.

The adjustment to the paired attachment points of structures, beams and moving frames is done in that in the groove guides 18 a lock nuts 19 for connec tion screws 20 are adjustable and guided with little play ( Fig. 1 and 2).

In order to enable a connection to one or more connection surfaces (individually or simultaneously), connection surfaces 21 for fastening elements 22 are provided on the head connection surface 5 and / or on the outer end face 9 of the housing 1 . The latter can already with the structure, with beams, frames and. Like. Be connected and rigidly arranged in this, so that the fastener element head, etc. is integrated.

In order to enable multiple fastening, it is provided that in addition to the groove guides 18 a provided on the head connection surface 5 with groove nuts 19 , recesses 18 are also arranged on the end connection surfaces 9 of the housing 1 .

The recesses 18 can each be designed as a groove guide 18 a, as a through hole 18 b or as a threaded hole 18 c. At least one partial connection surface 5 a is formed on the outer surface 1 e of the housing 1 opposite the head connection surface. The outer end connection surfaces 9 of the housing 1 are undivided and each represent a receiving surface for load capacities. The Ge housing 1 and / or the cover 10 consist of a material to be processed in the molten state, for. B. from a light metal alloy, from an iron alloy, from plasticizable plastic or from a composite material. The material can also form a composite material with other materials. The housing 1 is made by economical use of the material, which z. B. is supported by indentations 1 b.

Reference list

1 housing
1 a housing width
1 b indentation
1 c grooves
1 d openings
1 e outer surface
2 swivel seat
3 plain and / or rolling bearings (pivot bearings)
4 impeller
4 a scope
4 b wheel width
4 c wheel axle
4 d impeller shaft
5 head connection surface
5 a partial connection surface
6 ring bodies
6 a contact surface
6 b contact surface
7 cheek surface
8 cheek area
9 end connection surface
10 lids
11 lid opening
12 flange bushings
13 circlips
14 securing elements
15 a partial area
15 b partial area
16 breakthroughs
17 locking pieces
18 recess
18 a groove guide
18 b through hole
18 c threaded hole
19 locknuts
20 connecting screws
21 receiving means
22 fastener

Claims (22)

1. Impeller block with a housing in which pivot bearing seats for sliding and / or rolling bearings are provided for receiving an impeller with its circumference protruding on at least one side, the sliding and rolling bearings and / or the impeller at least on one side are expandable, characterized in that the housing ( 1 ) has at least one head connection surface ( 5 ) which takes up the load-bearing capacity and extends approximately to the housing width ( 1 a) or the impeller width ( 4 b) and that the impeller ( 4 ) together with pivot bearings ( 3 ) attached on both sides between axially detachable from the outside to the housing ( 1 ) axially fixed ring bodies ( 6 ), which form axial contact surfaces ( 6 a, 6 b) for the pivot bearings ( 3 ). 2. impeller block according to claim 1, characterized in that the housing ( 1 ) is provided on the end face with a cover ( 10 ) through whose cover opening ( 11 ) the impeller ( 4 ) is expandable. 3. impeller block according to one of claims 1 or 2, characterized in that the housing ( 1 ) is made in one piece and is open at the bottom. 4. impeller block according to one of claims 1 to 3, characterized in that concentric to the impeller axis ( 4 c) in the housing ( 1 ) flange bushings ( 12 ) are arranged, in each of which a rotary bearing ( 3 ) is attached. 5. impeller block according to one of claims 1 to 4, characterized in that one through openings ( 1 d) of the housing ( 1 ) introduced impeller shaft ( 4 d) with the outside of the housing ( 1 ) attached securing elements ( 14 ) is axially secured. 6. impeller block according to one of claims 1 to 5, characterized in that the head connection surface ( 5 ) and / or a cheek surface ( 7,8 ) and / or an end connection surface ( 9 ) in overlying and non-overlying partial surfaces ( 15 a, 15 b) is divided. 7. impeller block according to claim 6, characterized in that an overlying partial surface ( 15 a) is undivided. 8. impeller block according to one of claims 1 to 7, characterized in that the head connection surface ( 5 ) has one or more openings ( 16 ). 9. impeller block according to claim 8, characterized in that the openings ( 16 ) can be closed by means of closure pieces ( 17 ). 10. Wheel block according to one of claims 1 to 8, characterized in that the head connection surface ( 5 ) is provided with at least one recess ( 18 ) which runs parallel to the impeller axis ( 4 d). 11. A wheel unit according to claim 10, characterized in that the recess (18), (b 18) formed as a guide groove (18 a), as a through bore or a threaded bore (18 c). 12. Wheel block according to one of claims 10 or 11, characterized in that in the groove guides ( 18 a) lock nuts ( 19 ) for connecting screws ( 20 ) are cross-adjustable and guided with little play. 13. impeller block according to one of claims 1 to 12, characterized in that on the head connection surface ( 5 ) and / or on the outer end connection surfaces ( 9 ) of the housing ( 1 ) receiving means ( 21 ) for fastening elements ( 22 ) are provided. 14. impeller block according to one of claims 1 to 13, characterized in that in addition to the on the head connection surface ( 5 ) provided groove guides ( 18 a) with lock nuts ( 19 ) and recesses ( 18 ) on the end connection surfaces ( 9 ) of the housing ( 1 ) are provided. 15. Impeller block according to claim 14, characterized in that the recesses (18) are each (b 18) formed as a guide groove (18 a), as a through bore or a threaded bore (18 c). 16. Impeller block according to one of claims 1 to 15, characterized in that on the head connection surface ( 5 ) opposite outer surface ( 1 e) of the housing ( 1 ) at least one partial connection surface ( 5 a) is formed. 17. Impeller block according to one of claims 1 to 16, characterized in that the outer end connection surfaces ( 9 ) of the housing ( 1 ) are undivided and each represent a receiving surface for load capacities. 18. Impeller block according to one of claims 1 to 17, characterized in that the housing ( 1 ) and / or the cover ( 10 ) consists of a material to be processed in the molten state. 19. impeller block according to claim 18, characterized, that the material consists of a light metal alloy.   20. impeller block according to claim 18, characterized, that the material consists of an iron alloy. 21. impeller block according to claim 18, characterized, that the material consists of a plasticizable plastic. 22. impeller block according to claim 18, characterized, that the material consists of composite material or with other materials Composite material forms.