DE19511912A1 - Conveyor belt troughing station - Google Patents

Abstract

The belt is carried by 90 deg. idlers. The final idler (9) to the inside of the curve is adjoined by a stop roller (4) whose axis lies on the rim part of the trough at right angles to that of the end idler. The stop roller supports the edge of the belt here to prevent the belt floating excessively over towards the inside of the curve. The idlers are arranged on a curved support frame (5) itself mounted in the belt structure (6) to lie in a horizontal and vertical angle. A number of stop rollers are hinged to the structure in the belt station via pivotal joints.

Description

The invention relates to a conveyor, especially for long conveyor belt roads, with support of the conveyor belt by appropriately troughed Carrier roller stations, the conveyor belt in curve reach his equilibrium position in that he by turning around a center point to the inside of the curve Emigrated to the side.

If one neglects all 2nd order influences on the Belt conveyors can move around curves (total camber position and individual camber position of the idlers, trough angle of the conveyor belt, rigidity of the troughed conveyor belt tes u. a.), then the exact cornering is based on gege system parameters on only one influencing variable 1. Order, d. H. on the effect of the road gradient to Outer edge of the belt towards the one facing the inner edge of the belt To counteract the resultant belt tension (Similarly, the road curve is inclined inward to the counteract centrifugal force).

In Figs. 1 and 2, the relationship of the main influence is sizes F _e (dead load of material to be conveyed and conveyor belt), F _K (belt force in the curve), R (curvature radius), F _R (radially directed resultant of F _K + F _K) and α _v (local transverse inclination of the belt support) is shown.

For the rotation of the circular troughed conveyor belt approximately in curve areas:

and

The equilibrium position of the rotatable belt is thus achieved when the inclination (twist) α _v , the size

reached.

From PCT / AT86 / 00017 and G 9107184.4 solutions are known where the equilibrium position of the troughed conveyor belt in curve areas is set by a rotation by the approximate angle α _v .

However, an evaluation of the relationship (1) for steel cord belts with medium nominal belt tension and a curve radius of 1000 meters shows that the empty conveyor belt would twist by an angle α _v of 60 to 70 degrees in the curve area.

This means that they are from PCT / AT86 / 00017 and G 9107184.4 knew solutions for long conveyors (which are always steel rope belts with high belt tension forces) then un usable if curve radii are significantly below 1000 Meters are required.

The aim of the invention is to provide a solution that also for long belt conveyors with high belt tensile forces Permits curve radii significantly below 1000 meters.

According to the invention this object is achieved in that a variety of idlers around the circle approximately semi-circular troughed conveyor belt is arranged and that a the maximum possible strap rotation restricting roller with its rotation axis perpendicular to the belt edge on the inside edge of the curve Belt is positioned so that the line of symmetry of the semicircular conveyor belt with the vertical len the maximum permissible angle of rotation of the conveyor belt includes.

Further features and advantages of the invention result from the following description of execution play. It shows

Figure 1 is a plan view of a curve section of the conveyor device according to the invention.

Fig. 2 is a section along the line AA of Figure 1 with the front view of a belt guide station.

Fig. 3 is a side view of a Gurtführungsstation of FIG. 2;

Fig. 4 is a section along the line BB of Figure 2 with the top view of a belt guide station.

Fig. 5 rotary stop rollers with swing arm support;

Fig. 6 a safety device by flanges;

Fig. 7 is a rotatable safety valve; and

Fig. 8 is a fixed sequence control.

Referring to FIG. 1, the conveyor belt 2, both stations in approximately straight portions as arranged in curved sections with the radius of curvature R of the substantially the same at different distances L _T Gurtfüh 1 is supported.

As shown in FIG. 2, a belt guiding station 1 consists of the upper and lower belt support roller chairs 5 , which are supported in the support frame 6 of the belt guiding station.

The approximately semicircular troughed conveyor belt 2 supports the material to be conveyed with a trough angle λ close to 90 °.

Rotation stop rollers 4 are arranged with their axis of rotation 7 at right angles to the end tangent direction 8 and near the end guide roller 9 so that the rotation of the semicircular belt around the pivot point 12 is limited to a maximum rotation angle 13 of the empty conveyor belt due to the radial belt tension force F _R.

This angle must be set for the empty conveyor run so that this angle of rotation can also be permitted for the fully loaded belt, because a full, but only loaded for a short length ner, otherwise empty conveyor belt reacts with respect to the rotation like an empty one. In curve areas with small radii, the outer edge of the empty belt can rise in the radius direction from the idlers. In this case, the arrangement of a stabilizing roller 19 acting on the inside of the belt and the associated stabilization of the circular shape of the belt relieves the rotation stop roller 4 .

FIGS. 3 and 4 show the side view and the plan view of Gurtführungsstation with the rotation stop rollers 4 and Endführungsrollen. 9

According to Fig. 4, the horizontal position of the overthrow Gurtführungsstation is achieved in that the symmetry is trie lines of the station or of the support roller chair having the tangent to the circular path and with the radius line R ψ to the horizontal camber angle _H include.

Fig. 5 shows the partial view of FIG. 3 with changed support of the swivel casters 4 by Schwin ge and swivel 14 on the support structure 6th

Fig. 6 shows a partial view of FIG. 2 with a modified version of the swivel casters 4 with bilateral wheel flanges 15th In particular, they enable a shortened design of the rotary stop rollers 4 . Ablau fen the belt from the rotary stop roller 4 can also be prevented by rotating ( Fig. 7) or fixed ( Fig. 8) drainage protection 16 and 17 or ge according to Fig. 2 by a spacer 18 between the end guide roller and the adjacent idler .

The spacer prevents the belt from sliding on it from running to the end face of the end guide roller 9 .

The main advantages of the solution according to the invention are in command of small curve radii for long conveyor systems and in more economical construction and Operation of the conveyor.

The much smaller permissible curve radii in the Compared to the state of the art even for large masses Currents and high belt tensile forces are caused by following eight properties of the invention Solution:

• - The replacement of the in principle in the form of a polygon troughed conveyor belt by an approximate circular trough opened a whole series of posi tive consequences.
• - The much higher rigidity of the semicircle form opens up the basic possibility of Rotation stop rollers open up the unwanted conveyor belt rotation limit an allowable maximum value.
• - Even for large mass flows and high steel cable belts tractive forces can comparatively small curves radii in the order of 500 meters realisie ren if z. B. two belt guide stations tight  be arranged side by side or the regular Division of the guide stations is reduced.
• - The higher number of idlers in the area of the highest loading stress due to the circular conveyor belt allows much higher cornering forces to be supported.
• - The deeper trough with trough angles λ close to 90 ° ensures the optimal effect of the three main components of influence on a safe curve (i.e. the bank next to the Total and individual fall).
• - The optimal, approximately semicircular conveyor gutquerschnitt (growth of 15% compared to three-part with 35% troughed idler) a reduction in belt tension as the negative Main influencing factor.
• - The semicircular troughed conveyor belt has in ver a significantly smaller one than the 35% debt Stiffness against the bend in the curve.
• - The semicircular shape enables the optimal effect of the total camber angle ψ _G as the geometric sum of the horizontal camber angle ψ _H and the vertical camber angle ψ _V on the reduction of the twist angle α _v .

The main economic characteristics of the inventions Solution according to the invention can be used especially for long Summarize belt lines as follows:

• - The simple and largely uniform design of the belt guide stations in straight and curve sections cutting enables rational production large quantities.
• - Because of the very good leadership properties of the low The conveyor belt is trough on straight lines no fall position of the idlers required, what in connection with the optimal belt cross section leads to high energy savings.
• - The concentration of the idlers in the area of the highest Maximum load enables high belt tensile forces significantly larger distances between the belt guide stations and thus saving on construction mass.
• - The only influential functional measure for the curve guidance is the total camber position ψ _G. All other installation deviations (displacement of the belt guide station in the 3 spatial axes and rotation around the two horizontal axes) are of subordinate impact, which enables high savings in assembly and adjustment costs. So z. B. the existing bank slope on routes for the support of belt guide stations are not compensated.

Reference list

1 belt guide station
2 semi-circular troughed conveyor belt
3 trough angle λ for the material to be conveyed
4 swivel casters
5 idler chair
6 supporting structure
7 axis of rotation of the rotating stop roller
8 Tangent direction at the end point of the circularly hollowed belt
9 final guide roller
10 Line of symmetry of the troughed belt
11 vertical through the center of the circle
12 circle center
13 maximum permissible torsion angle of the empty belt
14 swing arm
15 wheel flange
16 rotatable drain safety device
17 fixed drainage protection
18 spacers
19 Stabilizing role
20 camber angle to the radius beam
21 vertical camber angle

Claims (8)

1. Belt guide station for receiving and guiding the belt of a curved belt conveyor by means of a plurality of adjacent support rollers in the transverse direction of the belt, surrounding the belt from the outside in a trough shape, characterized in that the support rollers support the belt ( 2 ) with a Muldungswin angle close to 90 ° and that (9) at least one stop roller (4) is adjacent to a health veninnenseitig terminal support roller disposed with its axis of rotation about rechtwink lig to the axis of the terminal support roller (9) on the curve inside the bowl rim that supports the Dorti ge edge of the belt (2) and the Limited movement of the belt to the inside of the curve. 2. Belt guide station according to claim 1, wherein the supporting rollers in an arcuate supporting roller chair ( 5 ) are gela gert, characterized in that the supporting roller chair ( 5 ) is arranged at a horizontal camber angle ( 20 ) and a vertical camber angle ( 21 ) in a supporting structure. 3. Belt guide station according to claim 1, characterized in that a plurality of stop rollers ( 4 ) via a rocker joint ( 14 ) are arranged articulated on a support frame ( 6 ) of the belt guide station. 4. Belt guide station according to claim 1, characterized in that the stop rollers ( 4 ) are provided on both sides of the belt edge on ordered wheel flanges ( 15 ). 5. Belt guide station according to claim 1, characterized in that a rotatable discharge safety device ( 16 ) is arranged opposite the end support roller (s) ( 9 ). 6. Belt guide station according to claim 1, characterized in that a fixed discharge safety device ( 17 ), in particular in the form of a slide rail, is arranged opposite the end support roller (s) ( 9 ). 7. Belt guide station according to claim 1, characterized in that a spacer ( 18 ) is net angeord between the terminal support roller ( 9 ) and an adjacent support roller. 8. Belt guide station according to claim 1, characterized in that a stabilizing roll ( 19 ) is arranged on the outer edge of the trough edge.