DE3039158C2 - - Google Patents

Description

The invention relates to a collapsible Curving conveyor belt with at regular intervals Arranged cross bars, the ends of which are each rotatable with inner and outer limbs which are connected via swivel a pin that is ground between two crossbars bar are connected, the shortening of the conveyor belt by pivoting down pegs while the Cross bars remain in the conveyor level.

As the state of the art is an endless, curving known link conveyor belt, in which between Cross bars and pins on another vertical joint is ordered (DE-AS 12 65 039). This results in a large number of links, making the whole arrangement becomes both difficult and expensive. There must be one large number of vertical axes exist around the Functionality of this known construction to ge ensure. A guardrail is also provided, which has the task of correctly controlling control roles to steer.

In contrast, the invention is based on the object a defined folding without additional guidance medium for a curve-compatible, collapsible conveyor band to achieve.

This object is achieved in that the Centerline of the tenon below the centerline of the crossbars lies. This has the advantage of a simpler, easier and cheaper expansion of the overall construction, in each case it is guaranteed that when together push the conveyor belt reaches a defined folding becomes. The expansion and contraction ratio of the Ab stand between the cross bars is increased, which easy contact with the tape at any point is made possible and the bending radius of the band, ver compared with the state of the art, compared significantly wrestles.

It also enables expansion and contraction to make the tape quiet and vibration-free. Except through the systematic folding of the limbs whose permanent downward rotation is the expansion and the Contraction of the ligament stabilizes, resulting in avoidance of vibrations and the like.

In a further embodiment of the invention, one can inner and outer link directly over the tenon be connected, which further simplifies the construction results. Furthermore, a wire can spiral be shaped around adjacent crossbars, so that too smaller goods with the conveyor belt according to the invention trans can be ported.

The invention is described below with reference to a drawing illustrated embodiment described in more detail. In the drawing shows  

Figure 1 is a partial plan view of the conveyor belt.

Fig. 2 is an enlarged plan view of a part piece;

Fig. 3 is an elevation of Fig. 2;

Figures 4 and 5 are a plan view and an elevation of an imple mentation form with a spiral conveyor belt.

Fig. 6 is a plan view of a curved conveyor belt.

According to Figs. 1 to 3, two pairs of members 2, 3 rotatably mounted on one or on both ends of parallel arranged Querstä ben 1 are fixed. The end of the link 2 and that of the link 3 are attached to a preceding crossbar 1 , which is rotatably connected to a connecting pin 4 . The link 3 is rotatably connected to the link 2 , which is attached to a subsequent crossbar 1 by a connecting pin 4 , the other crossbars subsequently being connected to one another in the same way. On the inside of the links 2, 3 of each crossbar 1 are Wal zen 5, 5 , the inside of the rollers 5 and the outside of the links 2, 3 are held by retaining rings 7, 7 , which with little scope for bending the Band are welded to the cross bars 1 .

The links 2, 3 consist of composite parts, with a single link element superimposed on the other. The composite links can be replaced by single links.

The center point of the connecting pin 4 , which connects the links 2, 3 , is on line (b) , which is somewhat below line (a) , which connects the centers of the holes receiving the cross bars, when the link of FIG. 2, 3 extend in a straight line.

In the aforementioned embodiment, the links on the side with the lower rotational speed are rotated when the drive speed on one side of the belt is reduced in relation to the other side of the belt, thereby reducing the distance between the front and rear cross bars 1 and bending the belt becomes. As can be seen on the right-hand side of FIG. 3, the links can contract until they touch each other.

The construction enables a transport line with large Expansion and contraction ratio and with a small ro station radius.

As described above, the surface of the conveyor surface according to the invention consists essentially of parallel bars. If the distance between the cross bars due to special long links is too large, or if the cross bars are very long and the distances between them on the outside and inside of the curved part of the belt are so different that it is smaller for transportation Objects are not suitable, this can be prevented by a flat spiral wire 8 is wound around the adjacent cross bars ge (see Fig. 1).

In this case the surface of the flat spiral wire results a funding area.

FIGS. 4 and 5 show examples of a helical conveyor belt which is driven at the outer circumference of a central roller 10. Shortly before the conveyor belt A according to the invention wraps itself around the central roller 10 , the links 2, 3 fold by means of a gearwheel 11 with little advance, while the links 2, 3 on the outer circumference after winding the belt around the central roller 10 driven who the so that they expand. If the radius of rotation of the belt is small, the diameter of the central roller can be reduced, which enables a conveyor belt with a smaller space requirement.

According to FIG. 6, the conveyor belt curved in A is to stand. Since the radius of rotation can be reduced, the conveyor line can be reversed quickly and the space required for this can be reduced. Therefore, the reversal angle can be widely selected according to the location and purpose.

Claims (3)

1. Collapsible, curved conveyor belt with cross bars arranged at regular intervals, the ends of which are each rotatably connected to inner and outer links which are pivotally connected via a pin arranged between two cross bars, the shortening of the conveyor belt being effected by pins which can be pivoted downwards, while the cross bars remain in the conveying plane, characterized in that the center line (b) of the pin ( 4 ) lies below the center line (a) of the cross bars ( 1 ). 2. Conveyor belt according to claim 1, characterized in that in each case an inner ( 3 ) and an outer link ( 2 ) via the pin ( 4 ) are connected directly to one another. 3. Conveyor belt according to claim 1, characterized in that a wire ( 8 ) is spirally wound around adjacent cross bars ( 1 ).