DE3212825C2 - - Google Patents

Description

The invention relates to a steel track slat for mines shafts for guiding conveying vessels and racks Guide elements with a steel profile, on which the Guideway forming surfaces at an angle to each other slide along the guide elements on the internals is attached.

When refitting manholes, you try to do that Exploit shaft profile better than before by the fact that the Racks or conveying vessels or baskets with a larger cross cuts. In such cases the available space between their dimensions and the shaft profile can be used as much as possible. difficulties when arranging the track slats on the marks arise from the fact that the use of known track battens with a square cross-section and at right angles to each other placed guide roller assemblies too large a place needs requires so that the largest possible dimensioning of the Vessels or frames cannot be realized.

Steel track slats are known from DE-AS 11 40 685, which consist of a sheet steel profile, the basic structure Is U-shaped. The profile shown there is by a Crossbar reinforced and with an elaborate construction attached to the streaks. Both sides serve here surfaces like the front surface as a guide for the guide elements of the conveying vessels or frames, the guide elements encompass the entire box profile. So here too the main disadvantage is the space-consuming construction to complain. Even the connection with the internals is ver Quite a lot of space because there are additional bars and brackets on the streaks are required. object DD-PS 78 979 is a guide device from Förder average in mining shafts that have a square box has profile. This box profile is also used by the Guide elements includes and has those mentioned above  Disadvantages, namely the protruding into the Shaft cross-section, so that the shaft profile only accordingly can be used to a limited extent. It is not possible about that In addition, the use of a guide positioned at right angles to one another roll arrangements.

Finally, a system is known from DE-AS 11 98 027 known, which is referred to as roller guide for conveyor baskets. Here a simple steel angle serves as a track staff, whereby the angle iron is welded to vertical tubes, the are in turn releasably connected to the internals. These Guide elements are expensive to manufacture because it is required, pipe and the obliquely attached angle iron connect with each other. The angles welded to the pipe are heavily used on the guide rollers, so that a appropriately strong training is required. The disadvantage is further that the whole of angle iron and tube very builds up space-consuming, so that straight in shafts and blind pit their stake with a reduction in the remaining Shaft cross-section is connected.

The invention is therefore based on the object Steel track slat of the generic type for mine shafts in a compact and on the other hand absorbing large forces wise to create the adequate guide space for the usually used in the form of roles guide elements having.

The object is achieved in that the steel track slat is designed as a one-piece box profile is, formed as a guideway, at an angle to each other standing surfaces are folded inwards, their apex point deepened within the lateral boundary surfaces of the box profile and that the end areas of the boundary surfaces than 90 ° bent connection flanges are designed for flange mounting on the internals.  

With such steel track slats can ge with pairs of rollers be worked whose axes intersect. As Box profile trained steel track slat can occur Take up forces safely and divert them into the fastening. The crossing pairs of rollers are at the front of the Box profile guided, so that the space required for the guide reduced and thus the available for funding standing cross section can be enlarged. Doing this Guide surfaces simultaneously through the box profile or reinforced by the boundary surfaces so that large forces can be initiated safely. In addition, a such profile cheap and space-saving with the internals are connected because the end regions of the boundary surfaces also serve as connecting flanges.

According to further features of the invention, the limit the box-like profile of the guideway on both sides Areas parallel to each other so that one is right in the floor plan angular outline configuration arises, which is related to this lateral boundary surfaces of the box-like profile connecting flanges on both sides to the outside or can be bent inwards, which makes assembly is much easier. In addition, it is also think bar that one connecting flange to the outside and the other Connecting flange are bent inwards so that the To facilitate assembly.

Another design feature of the steel track slat according to the present invention is that the vertex S of the angle of the angular surfaces is arranged eccentrically with respect to the boundary surfaces on both sides. Such training is advantageous in the case of unfavorable cross-sectional conditions in the shaft.

In addition, according to the invention, the dimensional proportions are also important, it being provided that the dimensional relationship between the outer distance of the lateral boundary surfaces of the box-like profile and the depth of the position of the vertex S of the angle of the angular surfaces such as 6: 2.2 to 6 : 3.5 behaves. Finally, it will be seen that the radius of curvature resulting from the turning at the apex, between the angular surfaces and boundary surfaces and the boundary surfaces and the connecting flanges are 0.08 to 0.12 times the external distance of the lateral boundary surfaces.

Embodiments of the steel track slat are in the Drawings shown and explained in more detail below. It demonstrate:

Fig. 1 shows an embodiment with outwardly directed mounting flange ge,

Fig. 2 shows a modified embodiment with inwardly directed fixing flange surfaces,

FIGS. 3 and 4 with further modifications to the one and the other side directed Be Firmness flange.

In Figs. 1 to 4, the guide track with "F" and the apex of the standing at an angle of 90 ° to each other, the guide track "F" forming surface 1 and 2 is denoted by "S". The lateral boundary surfaces of the box-like profile have the designations ( 3 and 4 ), and the guide rollers arranged in dash-dot lines are designated ( 17 and 18 ). The radii of curvature (R) in the region of the apex "S" of the angle ( α ) and that of the transition curvature between the lateral boundary surfaces ( 3 , 4 ) and the surfaces ( 1 , 2 ) of the guideway "F" are the same size in the illustrated embodiment .

The flange surfaces adjoining the lateral boundary surfaces ( 3 , 4 ) for fastening to the screeds are directed outwards in FIG. 1 and denoted by ( 5, 6 ), while the inwardly directed flange surfaces according to FIG. 2 are ( 7, 8 ) are designated.

In the special designs according to FIGS. 3 and 4 carry these flange surfaces, the reference numerals (11, 12, 13, 14).

The height of the box-like profile of the track crossbar is identified by ( 13 ), while its width, corresponding to the outer distance of the lateral boundary surfaces ( 3 , 4 ), is designated by ( 14 ). The depression depth of the position of the apex "S" of the angle α bears the designation ( 15 ).

Claims (9)

1. Steel track lath for mine shafts for guiding conveying vessels and racks with guide elements with a steel profile, on the surfaces of which form the guideway, the guide elements slide along and which is fastened to the internals, characterized in that the track lath is designed as a one-piece box profile, the as Guideway (F) formed, mutually angled surfaces ( 1 , 2 ) are folded inwards, the apex (S) of which lies deep within the lateral boundary surfaces ( 3 , 4 ) of the box section and that the end regions of the boundary surfaces ( 3 , 4 ) as against this by 90 ° bent connecting flanges ( 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 ) are formed out for flange mounting on the internals. 2. Steel track slat according to claim 1, characterized in that the boundary surfaces ( 3 , 4 ) run parallel to each other ver. 3. Steel track slat according to claim 1, characterized in that the connecting flanges ( 5 , 6 ) are bent outwards on both sides. 4. Steel track slat according to claim 1, characterized in that the connecting flanges ( 7 , 8 ) are bent inwards on both sides. 5. steel track slat according to claim 1, characterized in that a connecting flange ( 9 , 12 ) to the outside and the other connecting flange ( 10 , 11 ) are bent inwards. 6. steel track slat according to claim 1, characterized in that the apex "S" of the angle ( α ) of the angular surfaces ( 1 , 2 ) relative to the bilateral boundary surfaces ( 3 , 4 ) is arranged off-center. 7. steel track slat according to claim 1, characterized in that the dimensional ratio between the height ( 13 ) and the outer distance ( 14 ) of the lateral boundary surfaces ( 3 , 4 ) of the box-like profile behaves like 6: 3 to 6: 4.5. 8. steel track slat according to claim 1, characterized in that the dimensional relationship between the outer distance of the lateral boundary surfaces ( 3 , 4 ) of the box-like profile and the depth ( 15 ) of the position of the vertex "S" of the angle ( α ) of the angular surfaces ( 1 , 2 ) behaves like 6: 2.2 to 6: 3.5. 9. steel track lath according to claim 1 or one of the following claims, characterized in that the resulting radii of curvature (R) at the apex (S) , between the angular surfaces ( 1 , 2 ) and the boundary surfaces ( 3 , 4 ) and the boundary surfaces and the connecting flanges ( 5 , 6 , 7 , 8 , 9 , 10 , 11 , 12 ) amount to 0.08 to 0.12 times the outer distance ( 14 ) of the lateral boundary surfaces ( 3 , 4 ).