DE10060178A1 - Stacking device for flat stacking elements - Google Patents

Abstract

A stacking device (3, 4) has a movable and a further stacking wall (1, 2), between which flat stacking elements (3, 4) can be stacked. An impact path for a stack element (4) newly introduced between the stack walls (1, 2) is limited by means of a baffle wall (5). The movable stacking wall (1) is subjected to a restoring force (F) in the direction of the further stacking wall (2) by means of a restoring element (6). Using a braking element (6), kinetic energy of the movable stacking wall (1) can be partially converted into thermal energy, regardless of position.

Description

The present invention relates to a stacking device for flat stacking elements, with one movable and one wide Ren stacking wall, between which the stacking elements are stackable and a baffle, by means of which an insertion path for a new stacking element inserted between the stacking walls is limited, the movable stack wall in the direction the further stack wall by means of a restoring element a restoring force is applied.

Such stacking devices are known. You will in particular especially in automated distribution systems for letters and letter-like postal items used. Starting at the the The stack grows out of the stack wall facing the conveyor line long the baffle. The goal is a geometrically exact stack even with heavy and thick shipments.

The shipments are transported at a relatively high speed introduced into the stacking device. The speeds are up to 5 meters per second. For heavy and thick ones Shipments experience interference due to rebound from the Baffle and / or excessive deflection of the movable sta pelwand on.

In the prior art it is known to close the return spring In addition, a movement damping by locking the mov stack wall. Also known is the moveable surface with a soft coating. However, both measures lead in particular to empty or only little-filled stacking compartment and especially when stacked due to relatively thick and heavy shipments the desired properties.

The object of the present invention is a Stacking device of the type mentioned at the beginning develop that even when empty or only slightly filled Stacking device reliable operation of the stacks Direction possible regardless of the weight of the stacking elements is.

The task is solved by the moving stack wall is assigned a braking element, by means of which be energy of the movable stack wall regardless of position is partially convertible into thermal energy.

If the braking element is designed such that the movement supply energy of the movable stack wall essentially only when moving away from the further stack wall in thermi cal energy can be transferred, the movable stack wall returned to their starting position more quickly.

If the braking element is designed such that the proportion the kinetic energy converted into thermal energy movable stacking wall with increasing acceleration of the be moving stack wall rises, the stacking device works particularly reliable.

If the movable and the other stacking wall open An angle between 0 ° and 30 ° is an easy one ensure newly added stacking elements.

If the return element as a spring-loaded winding drum is designed for a cable pull by means of the cable pull connected to the movable stacking wall is the back Control element is structurally simple and only needs small space.

If the cable on the winding drum has a single layer Wi forms, the stacking device works particularly reliably  and trouble-free. In particular, the Do not jam the cable.

If the cable is conically wound on the winding drum, can easily be the coupling between back actuator and movable stacking wall as required ren.

When the winding drum is in the direction of the from the winding drum outgoing cable is slidably mounted and the winding drum is assigned at least one brake shoe, which at a movement of the movable stacking wall from the other Stacking wall can be adjusted to a braking area achieve in a constructively simple way that the movement supply energy of the movable stack wall essentially only when moving away from the further stack wall in thermi energy can be transferred.

If the brake shoe is designed as an accumulating brake shoe is a self-reinforcing braking effect.

When the winding drum is rotatable about a drum pivot point is stored, the brake shoe is pivotable about a pivot point is stored and the pivot point and drum rotation point connecting route parallel to the direction of displacement of the Winding drum runs, there is a particularly advantageous interaction of the winding drum and brake shoes.

The brake shoes can either be stationary or on the reel drum arranged. If in the latter case the Bremsba is stored and designed in such a way that it a rotation of the winding drum due to the centrifugal force the centrifugal force to adjust the brake shoe to the braking area be used.  

If the brake shoe with a compressible lining, e.g. B. Felt or leather, is coated and / or the braking area consists of a material that is exposed to air not changed, e.g. B. made of polished brass or art material, there is a particularly gently controllable braking action kung.

Further advantages and details emerge from the following description of an embodiment in Verbin with the drawings. Show in principle

Fig. 1 a stacking device from above,

Fig. 2, the stacking device of FIG. 1 from the front,

Fig. 3 is a winding drum from the side,

Fig. 4, the winding drum of Fig. 3 from the opposite side and

Fig. 5 shows the winding drum of Fig. 3 from above.

Referring to FIG. 1, a stacking device, a movable Sta pelwand 1 and a further, fixed stacking wall 2. The movability of the movable stacking wall 1 is indicated in FIGS . 1 and 2 by a double arrow A. Flat stacking elements 3 , 4 can be stacked between the stacking walls 1 , 2 . The stacking elements 3 , 4 can e.g. B. Letters. The stack elements 3 are already stacked according to FIG. 1, the Stapelele element 4 is fed to the stack again.

The feeding of the stacking element 4 to the stack takes place in that the stacking element 4 is , so to speak, shot into the stack at an insertion speed v in an insertion direction x. The insertion speed v is up to 5 meters per second. The stacking device therefore also has a baffle wall 5 by means of which an insertion path for the stack element 4 newly introduced between the stacking walls 1 , 2 is limited.

For easy insertion of the stacking element 4 , the stack walls 1 , 2 form an opening angle α. The opening angle α is between 0 ° and 30 °, z. B. between 10 ° and 20 °.

When the stacking element 4 is inserted, the movable stacking wall 1 springs up against a restoring force F and then returns to its starting position. The movable stack wall 1 is thus acted upon in the direction of the fixed stack wall 2 with the return force F. The restoring force F is applied by a restoring element 6 , which is connected to the movable stacking wall 1 via a cable 7 .

Referring to FIGS. 3-5, the resetting element 6 is formed as federbe weighed winding drum 6 for the control wire 7. The cable 7 forms a single-layer Wi ckel on the winding drum 6 . This can be seen particularly clearly from FIG. 5.

Referring to FIG. 5, the winding drum 6 is cylindrical. The winding drum 6 could, however, as shown in Fig. 5 dashed or dash-dotted lines, taper. In this case, the cable 7 would be wound on the winding drum 6 ko nically. By appropriate design of the Wi ckeltrommel 6, the coupling between the movable stacking wall 1 and the winding drum 6 as required is thus variable.

The resetting element 6 serves not only to return the stack be moveable wall 1, but is at the same time designed as a brake element. 6 The winding drum 6 is thus able to transfer kinetic energy of the movable stacking wall 1 regardless of position into thermal energy, provided that this energy is not reversibly absorbed by a return spring 8 . The return spring 8 is shown in particular in FIG. 4.

To apply the braking effect, a brake shoe 9 is assigned to the winding drum 6 . A single brake shoe 9 is shown in FIG. 3. If necessary, however, several brake shoes 9 could also be present.

The brake shoe 9 is pivotally mounted about a pivot point 10 . He is employed by a compression spring 11 to a Bremsbe rich 12 of the winding drum 6 . The pivot point 10 is stationary, ie it does not rotate when the drum 6 rotates with it. The compression spring 11 can optionally be designed to be adjustable. The brake shoe 9 is coated with a compressible lining 13 . The covering 13 can, for. B. felt or leather. The braking area 12 be made of a material that does not change under the influence of air. In particular, smooth polished brass or plastic can be used as materials.

Due to the structural design of the brake shoe 9 and the arrangement of the pivot point 10 , the brake shoe 9 is designed as an accumulating brake shoe 9 . When the movable stacking wall 1 is deflected, it thus exhibits a self-reinforcing braking effect, and when it springs back, it releases from the braking area 12 . It is therefore moved to the braking area 12 when the movable stacking wall 1 moves away from the fixed stacking wall 2 . Due to this Bremsei properties, the kinetic energy of the movable stack wall 1 is substantially only in a movement away from the fixed stack wall 2 converted into thermal energy.

The winding drum 6 is rotatably supported about a drum pivot point 14 . The winding drum 6 has a game. It is therefore slidably mounted in the direction of the cable pull 7 coming from the winding drum 6 . The direction of displacement is designated y in FIG. 3. It can be seen that the displacement direction y runs parallel to a distance which connects the pivot point 10 and the drum pivot point 14 . This configuration ensures that the proportion of the kinetic energy of the movable stack wall 1 , which is converted into thermal energy, increases with increasing acceleration of the movable stack wall 1 . Because the stronger a power surge that acts on the movable stacking wall 1 , the stronger the brake shoe 9 is placed on the braking area 12 . This results in an increased braking effect, which is desirable according to the invention.

Referring to FIGS. 3-5 of the brake shoes is supported stationarily 9, ie it does not rotate with the winding drum 6, countries son is made only to this. However, it is also possible to arrange the brake shoe 9 on the winding drum 6 itself and to position it against a fixed braking area 12 . In this case, it is in particular possible to store and design the brake shoes 9 in such a way that, when the winding drum 6 rotates, it automatically adjusts to the braking area 12 due to the centrifugal force.

Claims (15)

1. Stacking device for flat stacking elements ( 3 , 4 ), with egg ner movable and another stacking wall ( 1 , 2 ), between which the stacking elements ( 3 , 4 ) are stackable, and an impact wall ( 5 ), by means of which an insertion path , is a newly defined between the stacking walls (1, 2) introduced stacking element (4) wherein the movable stacking wall (1) is acted upon in the direction of the further stacking wall (2) by means of a restoring element (6) with a restoring force (F), characterized characterized in that the movable stacking wall ( 1 ) is assigned a braking element ( 6 ), by means of the kinetic energy of which the movable stacking wall ( 1 ) can be partially converted into thermal energy independently of the position. 2. Stacking device according to claim 1, characterized in that the braking element ( 6 ) is designed such that the kinetic energy of the movable stacking wall ( 1 ) can be converted into thermal energy only when moving from the further stacking wall ( 2 ). 3. Stacking device according to claim 1 or 2, characterized in that the braking element ( 6 ) is designed such that the proportion of the kinetic energy converted into thermal energy of the movable stack wall ( 1 ) increases with increasing acceleration of the movable stack wall ( 1 ). 4. Stacking device according to claim 1, 2 or 3, characterized in that the movable and the further stacking wall ( 1 , 2 ) form an opening angle (α) between 0 ° and 30 °. 5. Stacking device according to one of the above claims, characterized in that the restoring element ( 6 ) is designed as a spring-loaded winding drum mel ( 6 ) for a cable pull ( 7 ) which is connected to the movable stacking wall ( 1 ) by means of the cable pull ( 7 ) , 6. Stacking device according to claim 5, characterized in that the cable ( 7 ) on the winding drum ( 6 ) forms a single-layer winding. 7. Stacking device according to claim 5 or 6, characterized in that the cable ( 7 ) on the winding drum ( 6 ) is conically wound. 8. Stacking device according to claim 5, 6 or 7, characterized in that the winding drum ( 6 ) in the direction (y) of the wrap drum ( 6 ) outgoing cable ( 7 ) is slidably mounted. 9. Stacking device according to one of claims 5 to 8, characterized in that the winding drum ( 6 ) is arranged at least one brake shoe ( 9 ), the wall when moving the movable stack ( 1 ) from the further stack wall ( 2 ) away a braking area ( 12 ) is adjustable. 10. Stacking device according to claim 9, characterized in that the brake shoe ( 9 ) is designed as an accumulating brake shoe ( 9 ). 11. Stacking device according to claim 8 and 9 or 8 and 10, characterized in that the winding drum ( 6 ) is rotatably mounted about a drum pivot point ( 14 ), that the brake shoe ( 9 ) is pivotally mounted about a pivot point ( 10 ) and that a The path connecting the pivot point ( 10 ) and the drum pivot point ( 14 ) runs parallel to the displacement direction (y) of the winding drum ( 6 ). 12. Stacking device according to claim 9 or 10, characterized in that the brake shoe ( 9 ) is arranged on the winding drum ( 6 ). 13. Stacking device according to claim 12, characterized in that the brake shoe ( 9 ) is mounted and designed such that it automatically adjusts to the braking area ( 12 ) when the winding drum ( 6 ) rotates due to the centrifugal force. 14. Stacking device according to one of claims 9 to 13, characterized in that the brake shoes ( 9 ) with a compressible lining ( 13 ), for. B. felt or leather are coated. 15. Stacking device according to claim 14, characterized in that the braking area ( 12 ) consists of a material that does not change under the influence of air, for. B. made of polished brass or plastic.